python/src/Demo/sockets/throughput.py - toolchain/benchmark - Git at Google

 #! /usr/bin/env python

 # Test network throughput.
 #
 # Usage:
 # 1) on host_A: throughput -s [port]                    # start a server
 # 2) on host_B: throughput -c  count host_A [port]      # start a client
 #
 # The server will service multiple clients until it is killed.
 #
 # The client performs one transfer of count*BUFSIZE bytes and
 # measures the time it takes (roundtrip!).


 import sys, time
 from socket import *

 MY_PORT = 50000 + 42

 BUFSIZE = 1024


 def main():
     if len(sys.argv) < 2:
         usage()
     if sys.argv[1] == '-s':
         server()
     elif sys.argv[1] == '-c':
         client()
     else:
         usage()


 def usage():
     sys.stdout = sys.stderr
     print 'Usage:    (on host_A) throughput -s [port]'
     print 'and then: (on host_B) throughput -c count host_A [port]'
     sys.exit(2)


 def server():
     if len(sys.argv) > 2:
         port = eval(sys.argv[2])
     else:
         port = MY_PORT
     s = socket(AF_INET, SOCK_STREAM)
     s.bind(('', port))
     s.listen(1)
     print 'Server ready...'
     while 1:
         conn, (host, remoteport) = s.accept()
         while 1:
             data = conn.recv(BUFSIZE)
             if not data:
                 break
             del data
         conn.send('OK\n')
         conn.close()
         print 'Done with', host, 'port', remoteport


 def client():
     if len(sys.argv) < 4:
         usage()
     count = int(eval(sys.argv[2]))
     host = sys.argv[3]
     if len(sys.argv) > 4:
         port = eval(sys.argv[4])
     else:
         port = MY_PORT
     testdata = 'x' * (BUFSIZE-1) + '\n'
     t1 = time.time()
     s = socket(AF_INET, SOCK_STREAM)
     t2 = time.time()
     s.connect((host, port))
     t3 = time.time()
     i = 0
     while i < count:
         i = i+1
         s.send(testdata)
     s.shutdown(1) # Send EOF
     t4 = time.time()
     data = s.recv(BUFSIZE)
     t5 = time.time()
     print data
     print 'Raw timers:', t1, t2, t3, t4, t5
     print 'Intervals:', t2-t1, t3-t2, t4-t3, t5-t4
     print 'Total:', t5-t1
     print 'Throughput:', round((BUFSIZE*count*0.001) / (t5-t1), 3),
     print 'K/sec.'


 main()
	#! /usr/bin/env python

	# Test network throughput.
	#
	# Usage:
	# 1) on host_A: throughput -s [port] # start a server
	# 2) on host_B: throughput -c count host_A [port] # start a client
	#
	# The server will service multiple clients until it is killed.
	#
	# The client performs one transfer of count*BUFSIZE bytes and
	# measures the time it takes (roundtrip!).


	import sys, time
	from socket import *

	MY_PORT = 50000 + 42

	BUFSIZE = 1024


	def main():
	if len(sys.argv) < 2:
	usage()
	if sys.argv[1] == '-s':
	server()
	elif sys.argv[1] == '-c':
	client()
	else:
	usage()


	def usage():
	sys.stdout = sys.stderr
	print 'Usage: (on host_A) throughput -s [port]'
	print 'and then: (on host_B) throughput -c count host_A [port]'
	sys.exit(2)


	def server():
	if len(sys.argv) > 2:
	port = eval(sys.argv[2])
	else:
	port = MY_PORT
	s = socket(AF_INET, SOCK_STREAM)
	s.bind(('', port))
	s.listen(1)
	print 'Server ready...'
	while 1:
	conn, (host, remoteport) = s.accept()
	while 1:
	data = conn.recv(BUFSIZE)
	if not data:
	break
	del data
	conn.send('OK\n')
	conn.close()
	print 'Done with', host, 'port', remoteport


	def client():
	if len(sys.argv) < 4:
	usage()
	count = int(eval(sys.argv[2]))
	host = sys.argv[3]
	if len(sys.argv) > 4:
	port = eval(sys.argv[4])
	else:
	port = MY_PORT
	testdata = 'x' * (BUFSIZE-1) + '\n'
	t1 = time.time()
	s = socket(AF_INET, SOCK_STREAM)
	t2 = time.time()
	s.connect((host, port))
	t3 = time.time()
	i = 0
	while i < count:
	i = i+1
	s.send(testdata)
	s.shutdown(1) # Send EOF
	t4 = time.time()
	data = s.recv(BUFSIZE)
	t5 = time.time()
	print data
	print 'Raw timers:', t1, t2, t3, t4, t5
	print 'Intervals:', t2-t1, t3-t2, t4-t3, t5-t4
	print 'Total:', t5-t1
	print 'Throughput:', round((BUFSIZEcount0.001) / (t5-t1), 3),
	print 'K/sec.'


	main()