- #!/usr/bin/python3
- import socket, logging, traceback
- from queue import Queue
- from gi.repository import GObject
- from lib.commands import ControlServerCommands
- from lib.tcpmulticonnection import TCPMultiConnection
- class ControlServer(TCPMultiConnection):
- def __init__(self, pipeline):
- '''Initialize server and start listening.'''
- self.log = logging.getLogger('ControlServer')
- super().__init__(port=9999)
- self.command_queue = Queue()
- self.commands = ControlServerCommands(pipeline)
- GObject.idle_add(self.on_loop)
- def on_accepted(self, conn, addr):
- '''Asynchronous connection listener. Starts a handler for each connection.'''
- self.log.debug('Setting GObject io-watch on Connection')
- GObject.io_add_watch(conn, GObject.IO_IN, self.on_data, [''])
- GObject.io_add_watch(conn, GObject.IO_OUT, self.on_write)
- def on_data(self, conn, _, leftovers, *args):
- '''Asynchronous connection handler. Pushes data from socket
- into command queue linewise'''
- try:
- while True:
- try:
- leftovers.append(conn.recv(4096).decode(errors='replace'))
- if len(leftovers[-1]) == 0:
- self.log.info("Socket was closed")
- self.close_connection(conn)
- return False
- except UnicodeDecodeError as e:
- continue
- except BlockingIOError as e:
- pass
- data = "".join(leftovers)
- leftovers.clear()
- lines = data.split('\n')
- for line in lines[:-1]:
- self.log.debug("Got line: %r", line)
- line = line.strip()
- # TODO: move quit to on_loop
- # 'quit' = remote wants us to close the connection
- if line == 'quit':
- self.log.info("Client asked us to close the Connection")
- self.close_connection(conn)
- return False
- self.command_queue.put((line, conn))
- self.log.debug("Remaining %r", lines[-1])
- leftovers.append(lines[-1])
- return True
- def on_loop(self):
- '''Command handler. Processes commands in the command queue whenever
- nothing else is happening (registered as GObject idle callback)'''
- if self.command_queue.empty():
- return True
- line, requestor = self.command_queue.get()
- words = line.split()
- command = words[0]
- args = words[1:]
- try:
- f = self.commands.fetch(command)
- message, send_signals = f(*args)
- response = "ok %s\n" % message
- except Exception as e:
- message = str(e) or "<no message>"
- response = "error %s\n" % message
- else:
- if send_signals:
- signal = "signal %s\n" % line
- for conn, queue in self.currentConnections.items():
- if conn == requestor:
- continue
- queue.put(signal)
- finally:
- self.currentConnections[requestor].put(response)
- return True
- def on_write(self, conn, *args):
- # TODO: on_loop() is not called as soon as there is a writable socket
- self.on_loop()
- try:
- queue = self.currentConnections[conn]
- except KeyError:
- return False
- if queue.empty():
- return True
- message = queue.get()
- try:
- conn.send(message.encode())
- except Exception as e:
- self.log.warn(e)
- return True
- def notify_all(self, msg):
- try:
- words = msg.split()
- words[-1] = self.commands.encodeSourceName(int(words[-1]))
- msg = " ".join(words) + '\n'
- for queue in self.currentConnections.values():
- queue.put(msg)
- except Exception as e:
- self.log.debug("Error during notify: %s", e)
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