154 lines
5.7 KiB
Python
154 lines
5.7 KiB
Python
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import socket
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import sys
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import threading
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import time
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BUFFER_SIZE = 512
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ENCODING = 'ascii'
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MAX_SECURITY_HEADER_SIZE = 128
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MIN_FIELDS_NB = 8
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threads = {}
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to_join = []
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delay_results = {}
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time_sent = {}
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mac = {}
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class HandleClientConnectionThread(threading.Thread):
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""" Handle requests given by the client """
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def __init__(self, connection, client_address, id):
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threading.Thread.__init__(self)
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self.connection = connection
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self.client_address = client_address
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self.id = id
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def run(self):
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try:
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print(self.id, ": Connection from", self.client_address)
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# Some useful variables
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first_data = True
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expected_req_size = 0
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res_size = 0
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waiting_time = 0
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expected_delay_results = 0
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buffer_data = ""
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next_buffer_data = ""
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message_sizes = []
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message_id = 0
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# Initialize logging variables
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delay_results[self.id] = []
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time_sent[self.id] = []
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# Receive the data and retransmit it
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while True:
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data = self.connection.recv(BUFFER_SIZE).decode(ENCODING)
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if len(data) == 0:
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# Connection closed at remote; close the connection
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break
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# Manage the case where the client is very very quick
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if not data.endswith("\n") and "\n" in data:
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carriage_index = data.index("\n")
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buffer_data += data[:carriage_index + 1]
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next_buffer_data += data[carriage_index + 1:]
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used_data = data[:carriage_index + 1]
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else:
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buffer_data += data
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used_data = data
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message_sizes.append(len(used_data))
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if first_data and len(buffer_data) <= MAX_SECURITY_HEADER_SIZE and len(buffer_data.split("&")) < MIN_FIELDS_NB:
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continue
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if first_data:
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split_data = buffer_data.split("&")
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expected_delay_results = int(split_data[4])
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if len(split_data) - MIN_FIELDS_NB == expected_delay_results:
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message_id = int(split_data[0])
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expected_req_size = int(split_data[1])
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res_size = int(split_data[2])
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waiting_time = int(split_data[3])
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time_sent[self.id].append(int(split_data[5]))
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# Little check, we never know
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if self.id not in mac:
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mac[self.id] = split_data[6]
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elif not mac[self.id] == split_data[6]:
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print(self.id, ": MAC changed from", mac[self.id], "to", split_data[6], ": close the connection", file=sys.stderr)
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break
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for i in range(expected_delay_results):
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delay_results[self.id].append(int(split_data[7 + i]))
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first_data = False
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if len(delay_results[self.id]) % 10 == 0:
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print(self.id, ":", time_sent[self.id])
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print(self.id, ":", delay_results[self.id])
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else:
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# Avoid further processing, wait for additional packets
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continue
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if len(buffer_data) == expected_req_size:
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print(self.id, ": Received request of size", expected_req_size, "; send response of", res_size, "after", waiting_time, "s")
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time.sleep(waiting_time)
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self.connection.sendall((str(message_id) + "&" + "0" * (res_size - len(str(message_id)) - 2) + "\n").encode(ENCODING))
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first_data = True
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buffer_data = ""
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message_sizes = []
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if len(next_buffer_data) > 0:
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buffer_data = next_buffer_data
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next_buffer_data = ""
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message_sizes.append(len(buffer_data))
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elif len(buffer_data) > expected_req_size:
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print(len(buffer_data), len(data), len(used_data), file=sys.stderr)
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print(self.id, ": Expected request of size", expected_req_size, "but received request of size", len(buffer_data), "; close the connection", file=sys.stderr)
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print(buffer_data, file=sys.stderr)
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break
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finally:
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# Clean up the connection
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print(self.id, ": Closing connection")
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self.connection.close()
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to_join.append(self.id)
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def join_finished_threads():
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""" Join threads whose connection is closed """
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while len(to_join) > 0:
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thread_to_join_id = to_join.pop()
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threads[thread_to_join_id].join()
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del threads[thread_to_join_id]
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# Create a TCP/IP socket
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sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
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# Handle reusing the same 5-tuple if the previous one is still in TIME_WAIT
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sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
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sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1)
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# Bind the socket to the port
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server_address = ('0.0.0.0', 8080)
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print("Stating the server on %s port %s" % server_address)
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sock.bind(server_address)
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# Listen for incoming connections
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sock.listen(4)
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# Connection identifier
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conn_id = 0
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while True:
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# Wait for a connection
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connection, client_address = sock.accept()
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thread = HandleClientConnectionThread(connection, client_address, conn_id)
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threads[conn_id] = thread
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conn_id += 1
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thread.start()
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join_finished_threads()
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