#!/usr/bin/env python3 import socket import sys import time import argparse # action can be reflect or drop action = "drop" test = 0 def test_data (data, n_rcvd): n_read = len (data); for i in range(n_read): expected = (n_rcvd + i) & 0xff byte_got = ord (data[i]) if (byte_got != expected): print("Difference at byte {}. Expected {} got {}" .format(n_rcvd + i, expected, byte_got)) return n_read def handle_connection (connection, client_address): print("Received connection from {}".format(repr(client_address))) n_rcvd = 0 try: while True: data = connection.recv(4096) if not data: break; if (test == 1): n_rcvd += test_data (data, n_rcvd) if (action != "drop"): connection.sendall(data) finally: connection.close() def run_tcp_server(ip, port): print("Starting TCP server {}:{}".format(repr(ip), repr(port))) sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) server_address = (ip, int(port)) sock.bind(server_address) sock.listen(1) while True: connection, client_address = sock.accept() handle_connection (connection, client_address) def run_udp_server(ip, port): print("Starting UDP server {}:{}".format(repr(ip), repr(port))) sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) server_address = (ip, int(port)) sock.bind(server_address) while True: data, addr = sock.recvfrom(4096) if (action != "drop"): #snd_sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) sock.sendto (data, addr) def run_server(ip, port, proto): if (proto == "tcp"): run_tcp_server(ip, port) elif (proto == "udp"): run_udp_server(ip, port) def prepare_data(power): buf = [] for i in range (0, pow(2, power)): buf.append(i & 0xff) return bytearray(buf) def run_tcp_client(ip, port): print("Starting TCP client {}:{}".format(repr(ip), repr(port))) sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) server_address = (ip, int(port)) sock.connect(server_address) data = prepare_data(16) n_rcvd = 0 n_sent = len (data) try: sock.sendall(data) timeout = time.time() + 2 while n_rcvd < n_sent and time.time() < timeout: tmp = sock.recv(1500) tmp = bytearray (tmp) n_read = len(tmp) for i in range(n_read): if (data[n_rcvd + i] != tmp[i]): print("Difference at byte {}. Sent {} got {}" .format(n_rcvd + i, data[n_rcvd + i], tmp[i])) n_rcvd += n_read if (n_rcvd < n_sent or n_rcvd > n_sent): print("Sent {} and got back {}".format(n_sent, n_rcvd)) else: print("Got back what we've sent!!"); finally: sock.close() def run_udp_client(ip, port): print("Starting UDP client {}:{}".format(repr(ip), repr(port))) n_packets = 100 sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) server_address = (ip, int(port)) data = prepare_data(10) try: for i in range (0, n_packets): sock.sendto(data, server_address) finally: sock.close() def run_client(ip, port, proto): if (proto == "tcp"): run_tcp_client(ip, port) elif (proto == "udp"): run_udp_client(ip, port) def run(mode, ip, port, proto): if (mode == "server"): run_server (ip, port, proto) elif (mode == "client"): run_client (ip, port, proto) else: raise Exception("Unknown mode. Only client and server supported") if __name__ == "__main__": parser = argparse.ArgumentParser() parser.add_argument('-m', action='store', dest='mode') parser.add_argument('-i', action='store', dest='ip') parser.add_argument('-p', action='store', dest='port') parser.add_argument('-proto', action='store', dest='proto') parser.add_argument('-a', action='store', dest='action') parser.add_argument('-t', action='store', dest='test') results = parser.parse_args() action = results.action test = results.test run(results.mode, results.ip, results.port, results.proto) #if (len(sys.argv)) < 4: # raise Exception("Usage: ./dummy_app [ ]") #if (len(sys.argv) == 6): # action = sys.argv[4] # test = int(sys.argv[5]) #run (sys.argv[1], sys.argv[2], int(sys.argv[3]))