#!/usr/bin/env python3
import socketserver
-import plom_socket_io
+import threading
+import queue
# Avoid "Address already in use" errors.
socketserver.TCPServer.allow_reuse_address = True
+class Server(socketserver.ThreadingTCPServer):
+ """Bind together threaded IO handling server and message queue."""
+
+ def __init__(self, queue, *args, **kwargs):
+ super().__init__(*args, **kwargs)
+ self.queue_out = queue
+ self.daemon_threads = True # Else, server's threads have daemon=False.
+
+
+class IO_Handler(socketserver.BaseRequestHandler):
+
+ def handle(self):
+ """Move messages between network socket and main thread via queues.
+
+ On start, sets up new queue, sends it via self.server.queue_out to
+ main thread, and from then on receives messages to send back from the
+ main thread via that new queue.
+
+ At the same time, loops over socket's recv to get messages from the
+ outside via self.server.queue_out into the main thread. Ends connection
+ once a 'QUIT' message is received from socket, and then also kills its
+ own queue.
+
+ All messages to the main thread are tuples, with the first element a
+ meta command ('ADD_QUEUE' for queue creation, 'KILL_QUEUE' for queue
+ deletion, and 'COMMAND' for everything else), the second element a UUID
+ that uniquely identifies the thread (so that the main thread knows whom
+ to send replies back to), and optionally a third element for further
+ instructions.
+ """
+ import plom_socket_io
+
+ def caught_send(socket, message):
+ """Send message by socket, catch broken socket connection error."""
+ try:
+ plom_socket_io.send(socket, message)
+ except plom_socket_io.BrokenSocketConnection:
+ pass
+
+ def send_queue_messages(socket, queue_in, thread_alive):
+ """Send messages via socket from queue_in while thread_alive[0]."""
+ while thread_alive[0]:
+ try:
+ msg = queue_in.get(timeout=1)
+ except queue.Empty:
+ continue
+ caught_send(socket, msg)
+
+ import uuid
+ print('CONNECTION FROM:', str(self.client_address))
+ connection_id = uuid.uuid4()
+ queue_in = queue.Queue()
+ self.server.queue_out.put(('ADD_QUEUE', connection_id, queue_in))
+ thread_alive = [True]
+ t = threading.Thread(target=send_queue_messages,
+ args=(self.request, queue_in, thread_alive))
+ t.start()
+ for message in plom_socket_io.recv(self.request):
+ if message is None:
+ caught_send(self.request, 'BAD MESSAGE')
+ elif 'QUIT' == message:
+ caught_send(self.request, 'BYE')
+ break
+ else:
+ self.server.queue_out.put(('COMMAND', connection_id, message))
+ self.server.queue_out.put(('KILL_QUEUE', connection_id))
+ thread_alive[0] = False
+ print('CONNECTION CLOSED FROM:', str(self.client_address))
+ self.request.close()
+
+
+class World:
+ turn = 0
+
+
def fib(n):
- """Calculate n-th Fibonacci number."""
+ """Calculate n-th Fibonacci number. Very inefficiently."""
if n in (1, 2):
return 1
else:
return fib(n-1) + fib(n-2)
-def handle_message(message):
- """Evaluate message for computing-heavy tasks to perform, yield result.
+class CommandHandler:
- Accepts one command: FIB, followed by positive integers, all tokens
- separated by whitespace. Will calculate and return for each such integer n
- the n-th Fibonacci number. Uses multiprocessing to perform multiple such
- calculations in parallel. Yields a 'CALCULATING …' message before the
- calculation starts, and finally yields a message containing the results.
- (The 'CALCULATING …' message coming before the results message is currently
- the main reason this works as a generator function using yield.)
+ def __init__(self, world, queues_out):
+ self.world = world
+ self.queues_out = queues_out
- When no command can be read into the message, just yields a 'NO COMMAND
- UNDERSTOOD:', followed by the message.
- """
- tokens = message.split(' ')
- if tokens[0] == 'FIB':
- msg_fail_fib = 'MALFORMED FIB REQUEST'
+ def send_to(self, connection_id, msg):
+ """Send msg to client of connection_id."""
+ self.queues_out[connection_id].put(msg)
+
+ def send_all(self, msg):
+ """Send msg to all clients."""
+ for connection_id in self.queues_out:
+ self.send_to(connection_id, msg)
+
+ def cmd_fib(self, tokens, connection_id):
+ """Reply with n-th Fibonacci numbers, n taken from tokens[1:].
+
+ Numbers are calculated in parallel as far as possible, using fib().
+ A 'CALCULATING …' message is sent to caller before the result.
+ """
+ from multiprocessing import Pool
+ fib_fail = 'MALFORMED FIB REQUEST'
if len(tokens) < 2:
- yield msg_fail_fib
+ self.send_to(connection_id, fib_fail)
return
numbers = []
- fail = False
for token in tokens[1:]:
if token != '0' and token.isdigit():
numbers += [int(token)]
- elif token == '':
- continue
else:
- yield msg_fail_fib
+ self.send_to(connection_id, fib_fail)
return
- yield 'CALCULATING …'
- reply = ''
- from multiprocessing import Pool
+ self.send_to(connection_id, 'CALCULATING …')
with Pool(len(numbers)) as p:
results = p.map(fib, numbers)
reply = ' '.join([str(r) for r in results])
- yield reply
- return
- yield 'NO COMMAND UNDERSTOOD: %s' % message
-
-
-class ThreadedTCPServer(socketserver.ThreadingMixIn, socketserver.TCPServer):
- """Enables threading on TCP server for asynchronous IO handling."""
- pass
-
-
-class MyTCPHandler(socketserver.BaseRequestHandler):
-
- def handle(self):
- """Loop recv for input, act on it, send reply.
-
- If input is 'QUIT', send reply 'BYE' and end loop / connection.
- Otherwise, use handle_message.
- """
-
- print('CONNECTION FROM:', str(self.client_address))
- for message in plom_socket_io.recv(self.request):
- if message is None:
- print('RECEIVED MALFORMED MESSAGE')
- plom_socket_io.send(self.request, 'bad message')
- elif 'QUIT' == message:
- plom_socket_io.send(self.request, 'BYE')
- break
- else:
- print('RECEIVED MESSAGE:', message)
- for reply in handle_message(message):
- plom_socket_io.send(self.request, reply)
- print('CONNECTION CLOSED:', str(self.client_address))
- self.request.close()
-
-
-server = ThreadedTCPServer(('localhost', 5000), MyTCPHandler)
+ self.send_to(connection_id, reply)
+
+ def cmd_inc(self, connection_id):
+ """Increment world.turn, send TURN_FINISHED, NEW_TURN to everyone."""
+ self.send_all('TURN_FINISHED ' + str(self.world.turn))
+ self.world.turn += 1
+ self.send_all('NEW_TURN ' + str(self.world.turn))
+
+ def cmd_get_turn(self, connection_id):
+ """Send world.turn to caller."""
+ self.send_to(connection_id, str(self.world.turn))
+
+ def cmd_echo(self, tokens, input_, connection_id):
+ """Send message in input_ beyond tokens[0] to caller."""
+ msg = input_[len(tokens[0]) + 1:]
+ self.send_to(connection_id, msg)
+
+ def cmd_all(self, tokens, input_):
+ """Send message in input_ beyond tokens[0] to all clients."""
+ msg = input_[len(tokens[0]) + 1:]
+ self.send_all(msg)
+
+ def handle_input(self, input_, connection_id):
+ """Process input_ to command grammar, call command handler if found."""
+ tokens = [token for token in input_.split(' ') if len(token) > 0]
+ if len(tokens) == 0:
+ self.send_to(connection_id, 'EMPTY COMMAND')
+ elif len(tokens) == 1 and tokens[0] == 'INC':
+ self.cmd_inc(connection_id)
+ elif len(tokens) == 1 and tokens[0] == 'GET_TURN':
+ self.cmd_get_turn(connection_id)
+ elif len(tokens) >= 1 and tokens[0] == 'ECHO':
+ self.cmd_echo(tokens, input_, connection_id)
+ elif len(tokens) >= 1 and tokens[0] == 'ALL':
+ self.cmd_all(tokens, input_)
+ elif len(tokens) >= 1 and tokens[0] == 'FIB':
+ # TODO: Should this really block the whole loop?
+ self.cmd_fib(tokens, connection_id)
+ else:
+ self.send_to(connection_id, 'UNKNOWN COMMAND')
+
+
+def io_loop(q):
+ """Handle commands coming through queue q, send results back.
+
+ Commands from q are expected to be tuples, with the first element either
+ 'ADD_QUEUE', 'COMMAND', or 'KILL_QUEUE', the second element a UUID, and
+ an optional third element of arbitrary type. The UUID identifies a
+ receiver for replies.
+
+ An 'ADD_QUEUE' command should contain as third element a queue through
+ which to send messages back to the sender of the command. A 'KILL_QUEUE'
+ command removes the queue for that receiver from the list of queues through
+ which to send replies.
+
+ A 'COMMAND' command is specified in greater detail by a string that is the
+ tuple's third element. CommandHandler takes care of processing this and
+ sending out replies.
+ """
+ queues_out = {}
+ world = World()
+ command_handler = CommandHandler(world, queues_out)
+ while True:
+ x = q.get()
+ command_type = x[0]
+ connection_id = x[1]
+ content = None if len(x) == 2 else x[2]
+ if command_type == 'ADD_QUEUE':
+ queues_out[connection_id] = content
+ elif command_type == 'COMMAND':
+ command_handler.handle_input(content, connection_id)
+ elif command_type == 'KILL_QUEUE':
+ del queues_out[connection_id]
+
+
+q = queue.Queue()
+c = threading.Thread(target=io_loop, daemon=True, args=(q,))
+c.start()
+server = Server(q, ('localhost', 5000), IO_Handler)
try:
server.serve_forever()
except KeyboardInterrupt:
pass
finally:
+ print('Killing server')
server.server_close()