#!/usr/bin/env python # # $Id: iotop.py 1160 2011-10-14 18:50:36Z g.rodola@gmail.com $ # # Copyright (c) 2009, Giampaolo Rodola'. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """ Shows real-time network statistics. Author: Giampaolo Rodola' $ python examples/nettop.py ----------------------------------------------------------- total bytes: sent: 1.49 G received: 4.82 G total packets: sent: 7338724 received: 8082712 wlan0 TOTAL PER-SEC ----------------------------------------------------------- bytes-sent 1.29 G 0.00 B/s bytes-recv 3.48 G 0.00 B/s pkts-sent 7221782 0 pkts-recv 6753724 0 eth1 TOTAL PER-SEC ----------------------------------------------------------- bytes-sent 131.77 M 0.00 B/s bytes-recv 1.28 G 0.00 B/s pkts-sent 0 0 pkts-recv 1214470 0 """ import atexit import time import sys try: import curses except ImportError: sys.exit('platform not supported') import psutil # --- curses stuff def tear_down(): win.keypad(0) curses.nocbreak() curses.echo() curses.endwin() win = curses.initscr() atexit.register(tear_down) curses.endwin() lineno = 0 def print_line(line, highlight=False): """A thin wrapper around curses's addstr().""" global lineno try: if highlight: line += " " * (win.getmaxyx()[1] - len(line)) win.addstr(lineno, 0, line, curses.A_REVERSE) else: win.addstr(lineno, 0, line, 0) except curses.error: lineno = 0 win.refresh() raise else: lineno += 1 # --- curses stuff def bytes2human(n): """ >>> bytes2human(10000) '9.8 K' >>> bytes2human(100001221) '95.4 M' """ symbols = ('K', 'M', 'G', 'T', 'P', 'E', 'Z', 'Y') prefix = {} for i, s in enumerate(symbols): prefix[s] = 1 << (i + 1) * 10 for s in reversed(symbols): if n >= prefix[s]: value = float(n) / prefix[s] return '%.2f %s' % (value, s) return '%.2f B' % (n) def poll(interval): """Retrieve raw stats within an interval window.""" tot_before = psutil.net_io_counters() pnic_before = psutil.net_io_counters(pernic=True) # sleep some time time.sleep(interval) tot_after = psutil.net_io_counters() pnic_after = psutil.net_io_counters(pernic=True) return (tot_before, tot_after, pnic_before, pnic_after) def refresh_window(tot_before, tot_after, pnic_before, pnic_after): """Print stats on screen.""" global lineno # totals print_line("total bytes: sent: %-10s received: %s" % ( bytes2human(tot_after.bytes_sent), bytes2human(tot_after.bytes_recv)) ) print_line("total packets: sent: %-10s received: %s" % ( tot_after.packets_sent, tot_after.packets_recv)) # per-network interface details: let's sort network interfaces so # that the ones which generated more traffic are shown first print_line("") nic_names = list(pnic_after.keys()) nic_names.sort(key=lambda x: sum(pnic_after[x]), reverse=True) for name in nic_names: stats_before = pnic_before[name] stats_after = pnic_after[name] templ = "%-15s %15s %15s" print_line(templ % (name, "TOTAL", "PER-SEC"), highlight=True) print_line(templ % ( "bytes-sent", bytes2human(stats_after.bytes_sent), bytes2human( stats_after.bytes_sent - stats_before.bytes_sent) + '/s', )) print_line(templ % ( "bytes-recv", bytes2human(stats_after.bytes_recv), bytes2human( stats_after.bytes_recv - stats_before.bytes_recv) + '/s', )) print_line(templ % ( "pkts-sent", stats_after.packets_sent, stats_after.packets_sent - stats_before.packets_sent, )) print_line(templ % ( "pkts-recv", stats_after.packets_recv, stats_after.packets_recv - stats_before.packets_recv, )) print_line("") win.refresh() lineno = 0 def main(): try: interval = 0 while True: args = poll(interval) refresh_window(*args) interval = 1 except (KeyboardInterrupt, SystemExit): pass if __name__ == '__main__': main()