Initial Import

This commit is contained in:
drago01 2007-11-03 17:46:19 +00:00
parent 4f39773f1e
commit cbc951802c
2 changed files with 658 additions and 0 deletions

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#!/usr/bin/python
# iotop: Display I/O usage of processes in a top like UI
# Copyright (c) 2007 Guillaume Chazarain <guichaz@yahoo.fr>, GPLv2
# See ./iotop.py --help for some help
# 20070723: Added support for taskstats version > 4
# 20070813: Handle short replies, and fix bandwidth calculation when delay != 1s
# 20070819: Fix "-P -p NOT_A_TGID", optimize -p, handle empty process list
# 20070825: More accurate cutting of the command line, handle terminal resizing
# 20070826: Document taskstats bug: http://lkml.org/lkml/2007/8/2/185
# 20070930: Fixed -b
import curses
import errno
import optparse
import os
import pwd
import select
import socket
import struct
import sys
import time
#
# Check for requirements:
# o Python >= 2.5 for AF_NETLINK sockets
# o Linux >= 2.6.20 with I/O accounting
#
try:
socket.NETLINK_ROUTE
python25 = True
except AttributeError:
python25 = False
ioaccounting = os.path.exists('/proc/self/io')
if not python25 or not ioaccounting:
def boolean2string(boolean):
return boolean and 'Found' or 'Not found'
print 'Could not run iotop as some of the requirements are not met:'
print '- Python >= 2.5 for AF_NETLINK support:', boolean2string(python25)
print '- Linux >= 2.6.20 with I/O accounting support:', \
boolean2string(ioaccounting)
sys.exit(1)
#
# Netlink stuff
# Based on code from pynl80211: Netlink message generation/parsing
# http://git.sipsolutions.net/?p=pynl80211.git
# Copyright 2007 Johannes Berg <johannes@sipsolutions.net>
# GPLv2
# flags
NLM_F_REQUEST = 1
# types
NLMSG_ERROR = 2
NLMSG_MIN_TYPE = 0x10
class Attr:
def __init__(self, type, str, *kw):
self.type = type
if len(kw):
self.data = struct.pack(str, *kw)
else:
self.data = str
def _dump(self):
hdr = struct.pack('HH', len(self.data)+4, self.type)
length = len(self.data)
pad = ((length + 4 - 1) & ~3 ) - length
return hdr + self.data + '\0' * pad
def u16(self):
return struct.unpack('H', self.data)[0]
class NulStrAttr(Attr):
def __init__(self, type, str):
Attr.__init__(self, type, '%dsB'%len(str), str, 0)
class U32Attr(Attr):
def __init__(self, type, val):
Attr.__init__(self, type, 'L', val)
NETLINK_GENERIC = 16
class Message:
def __init__(self, tp, flags = 0, seq = -1, payload = []):
self.type = tp
self.flags = flags
self.seq = seq
self.pid = -1
if type(payload) == list:
contents = []
for attr in payload:
contents.append(attr._dump())
self.payload = ''.join(contents)
else:
self.payload = payload
def send(self, conn):
if self.seq == -1:
self.seq = conn.seq()
self.pid = conn.pid
length = len(self.payload)
hdr = struct.pack('IHHII', length + 4*4, self.type, self.flags,
self.seq, self.pid)
conn.send(hdr + self.payload)
class Connection:
def __init__(self, nltype, groups=0, unexpected_msg_handler = None):
self.fd = socket.socket(socket.AF_NETLINK, socket.SOCK_RAW, nltype)
self.fd.setsockopt(socket.SOL_SOCKET, socket.SO_SNDBUF, 65536)
self.fd.setsockopt(socket.SOL_SOCKET, socket.SO_RCVBUF, 65536)
self.fd.bind((0, groups))
self.pid, self.groups = self.fd.getsockname()
self._seq = 0
self.unexpected = unexpected_msg_handler
def send(self, msg):
self.fd.send(msg)
def recv(self):
cntnts = self.fd.recv(65536)
# should check msgflags for TRUNC!
len, type, flags, seq, pid = struct.unpack('IHHII', cntnts[:16])
m = Message(type, flags, seq, cntnts[16:])
m.pid = pid
if m.type == NLMSG_ERROR:
errno = -struct.unpack('i', m.payload[:4])[0]
if errno != 0:
e = OSError('Netlink error: %s (%d)' % \
(os.strerror(errno), errno))
e.errno = errno
return m
def seq(self):
self._seq += 1
return self._seq
def parse_attributes(str):
attrs = {}
while str:
l, tp = struct.unpack('HH', str[:4])
attrs[tp] = Attr(tp, str[4:l])
l = ((l + 4 - 1) & ~3 )
str = str[l:]
return attrs
CTRL_CMD_GETFAMILY = 3
CTRL_ATTR_FAMILY_ID = 1
CTRL_ATTR_FAMILY_NAME = 2
class GenlHdr:
def __init__(self, cmd, version = 0):
self.cmd = cmd
self.version = version
def _dump(self):
return struct.pack('BBxx', self.cmd, self.version)
def _genl_hdr_parse(data):
return GenlHdr(*struct.unpack('BBxx', data))
GENL_ID_CTRL = NLMSG_MIN_TYPE
class GeNlMessage(Message):
def __init__(self, family, cmd, attrs=[], flags=0):
self.cmd = cmd
self.attrs = attrs
self.family = family
Message.__init__(self, family, flags=flags,
payload=[GenlHdr(self.cmd)] + attrs)
class Controller:
def __init__(self, conn):
self.conn = conn
def get_family_id(self, family):
a = NulStrAttr(CTRL_ATTR_FAMILY_NAME, family)
m = GeNlMessage(GENL_ID_CTRL, CTRL_CMD_GETFAMILY,
flags=NLM_F_REQUEST, attrs=[a])
m.send(self.conn)
m = self.conn.recv()
gh = _genl_hdr_parse(m.payload[:4])
attrs = parse_attributes(m.payload[4:])
return attrs[CTRL_ATTR_FAMILY_ID].u16()
#
# Netlink usage for taskstats
#
TASKSTATS_CMD_GET = 1
TASKSTATS_CMD_ATTR_PID = 1
TASKSTATS_CMD_ATTR_TGID = 2
class TaskStatsNetlink(object):
# Keep in sync with human_stats(stats, duration)
members_offsets = [
('blkio_delay_total', 40),
('swapin_delay_total', 56),
('ac_etime', 144),
('read_bytes', 248),
('write_bytes', 256),
('cancelled_write_bytes', 264)
]
def __init__(self, options):
self.options = options
self.connection = Connection(NETLINK_GENERIC)
controller = Controller(self.connection)
self.family_id = controller.get_family_id('TASKSTATS')
def get_task_stats(self, pid):
if self.options.processes:
attr = TASKSTATS_CMD_ATTR_TGID
else:
attr = TASKSTATS_CMD_ATTR_PID
request = GeNlMessage(self.family_id, cmd=TASKSTATS_CMD_GET,
attrs=[U32Attr(attr, pid)],
flags=NLM_F_REQUEST)
request.send(self.connection)
try:
reply = self.connection.recv()
except OSError, e:
if e.errno == errno.ESRCH:
# OSError: Netlink error: No such process (3)
return
raise
if len(reply.payload) < 292:
# Short reply
return
reply_data = reply.payload[20:]
reply_length, reply_type = struct.unpack('HH', reply.payload[4:8])
reply_version = struct.unpack('H', reply.payload[20:22])[0]
assert reply_length >= 288
assert reply_type == attr + 3
assert reply_version >= 4
res = {}
for name, offset in TaskStatsNetlink.members_offsets:
data = reply_data[offset: offset + 8]
res[name] = struct.unpack('Q', data)[0]
return res
#
# PIDs manipulations
#
def find_uids(options):
options.uids = []
error = False
for u in options.users or []:
try:
uid = int(u)
except ValueError:
try:
passwd = pwd.getpwnam(u)
except KeyError:
print >> sys.stderr, 'Unknown user:', u
error = True
else:
uid = passwd.pw_uid
if not error:
options.uids.append(uid)
if error:
sys.exit(1)
class pinfo(object):
def __init__(self, pid, options):
self.mark = False
self.pid = pid
self.stats = {}
for name, offset in TaskStatsNetlink.members_offsets:
self.stats[name] = (0, 0) # Total, Delta
self.parse_status('/proc/%d/status' % pid, options)
def check_if_valid(self, uid, options):
self.valid = options.pids or not options.uids or uid in options.uids
def parse_status(self, path, options):
for line in open(path):
if line.startswith('Name:'):
# Name kernel threads
self.name = '[' + line.split()[1].strip() + ']'
elif line.startswith('Uid:'):
uid = int(line.split()[1])
# We check monitored PIDs only here
self.check_if_valid(uid, options)
try:
self.user = pwd.getpwuid(uid).pw_name
except KeyError:
self.user = str(uid)
break
def add_stats(self, stats):
self.stats_timestamp = time.time()
for name, value in stats.iteritems():
prev_value = self.stats[name][0]
self.stats[name] = (value, value - prev_value)
def get_cmdline(self):
# A process may exec, so we must always reread its cmdline
try:
proc_cmdline = open('/proc/%d/cmdline' % self.pid)
except IOError:
return '{no such process}'
cmdline = proc_cmdline.read(4096)
parts = cmdline.split('\0')
first_command_char = parts[0].rfind('/') + 1
parts[0] = parts[0][first_command_char:]
cmdline = ' '.join(parts).strip()
return cmdline.encode('string_escape') or self.name
class ProcessList(object):
def __init__(self, taskstats_connection, options):
# {pid: pinfo}
self.processes = {}
self.taskstats_connection = taskstats_connection
self.options = options
# A first time as we are interested in the delta
self.update_process_counts()
def get_process(self, pid):
process = self.processes.get(pid, None)
if not process:
try:
process = pinfo(pid, self.options)
except IOError:
# IOError: [Errno 2] No such file or directory: '/proc/...'
return
if not process.valid:
return
self.processes[pid] = process
return process
def list_pids(self, tgid):
if self.options.processes or self.options.pids:
return [tgid]
try:
return map(int, os.listdir('/proc/%d/task' % tgid))
except OSError:
return []
def update_process_counts(self):
total_read = total_write = duration = 0
tgids = self.options.pids or [int(tgid) for tgid in os.listdir('/proc')
if '0' <= tgid[0] and tgid[0] <= '9']
for tgid in tgids:
for pid in self.list_pids(tgid):
process = self.get_process(pid)
if process:
stats = self.taskstats_connection.get_task_stats(pid)
if stats:
process.mark = False
process.add_stats(stats)
total_read += process.stats['read_bytes'][1]
total_write += process.stats['write_bytes'][1]
if not duration:
duration = process.stats['ac_etime'][1] / 1000000.0
return total_read, total_write, duration
def refresh_processes(self):
for process in self.processes.values():
process.mark = True
total_read_and_write_and_duration = self.update_process_counts()
to_delete = []
for pid, process in self.processes.iteritems():
if process.mark:
to_delete.append(pid)
for pid in to_delete:
del self.processes[pid]
return total_read_and_write_and_duration
#
# Utility functions for the UI
#
UNITS = ['B', 'K', 'M', 'G', 'T', 'P', 'E']
def human_bandwidth(size, duration):
bw = size and float(size) / duration
for i in xrange(len(UNITS) - 1, 0, -1):
base = 1 << (10 * i)
if 2 * base < size:
res = '%.2f %s' % ((float(bw) / base), UNITS[i])
break
else:
res = str(bw) + ' ' + UNITS[0]
return res + '/s'
def human_stats(stats):
# Keep in sync with TaskStatsNetlink.members_offsets and
# IOTopUI.get_data(self)
duration = stats['ac_etime'][1] / 1000000.0
def delay2percent(name): # delay in ns, duration in s
if not duration:
return 'KERNBUG'
return '%.2f %%' % min(99.99, stats[name][1] / (duration * 10000000.0))
io_delay = delay2percent('blkio_delay_total')
swapin_delay = delay2percent('swapin_delay_total')
read_bytes = human_bandwidth(stats['read_bytes'][1], duration)
written_bytes = stats['write_bytes'][1] - stats['cancelled_write_bytes'][1]
written_bytes = max(0, written_bytes)
write_bytes = human_bandwidth(written_bytes, duration)
return io_delay, swapin_delay, read_bytes, write_bytes
#
# The UI
#
class IOTopUI(object):
# key, reverse
sorting_keys = [
(lambda p: p.pid, False),
(lambda p: p.user, False),
(lambda p: p.stats['read_bytes'][1], True),
(lambda p: p.stats['write_bytes'][1] -
p.stats['cancelled_write_bytes'][1], True),
(lambda p: p.stats['swapin_delay_total'][1], True),
# The default sorting (by I/O % time) should show processes doing
# only writes, without waiting on them
(lambda p: p.stats['blkio_delay_total'][1] or
int(not(not(p.stats['read_bytes'][1] or
p.stats['write_bytes'][1]))), True),
(lambda p: p.get_cmdline(), False),
]
def __init__(self, win, process_list, options):
self.process_list = process_list
self.options = options
self.sorting_key = 5
self.sorting_reverse = IOTopUI.sorting_keys[5][1]
if not self.options.batch:
self.win = win
self.resize()
curses.use_default_colors()
curses.start_color()
curses.curs_set(0)
def resize(self):
self.height, self.width = self.win.getmaxyx()
def run(self):
iterations = 0
poll = select.poll()
if not self.options.batch:
poll.register(sys.stdin.fileno(), select.POLLIN|select.POLLPRI)
while self.options.iterations is None or \
iterations < self.options.iterations:
total = self.process_list.refresh_processes()
total_read, total_write, duration = total
self.refresh_display(total_read, total_write, duration)
if self.options.iterations is not None:
iterations += 1
if iterations >= self.options.iterations:
break
try:
events = poll.poll(self.options.delay_seconds * 1000.0)
except select.error, e:
if e.args and e.args[0] == errno.EINTR:
events = 0
else:
raise
if not self.options.batch:
self.resize()
if events:
key = self.win.getch()
self.handle_key(key)
def reverse_sorting(self):
self.sorting_reverse = not self.sorting_reverse
def adjust_sorting_key(self, delta):
orig_sorting_key = self.sorting_key
self.sorting_key += delta
self.sorting_key = max(0, self.sorting_key)
self.sorting_key = min(len(IOTopUI.sorting_keys) - 1, self.sorting_key)
if orig_sorting_key != self.sorting_key:
self.sorting_reverse = IOTopUI.sorting_keys[self.sorting_key][1]
def handle_key(self, key):
key_bindings = {
ord('q'):
lambda: sys.exit(0),
ord('Q'):
lambda: sys.exit(0),
ord('r'):
lambda: self.reverse_sorting(),
ord('R'):
lambda: self.reverse_sorting(),
curses.KEY_LEFT:
lambda: self.adjust_sorting_key(-1),
curses.KEY_RIGHT:
lambda: self.adjust_sorting_key(1),
curses.KEY_HOME:
lambda: self.adjust_sorting_key(-len(IOTopUI.sorting_keys)),
curses.KEY_END:
lambda: self.adjust_sorting_key(len(IOTopUI.sorting_keys))
}
action = key_bindings.get(key, lambda: None)
action()
def get_data(self):
def format(p):
stats = human_stats(p.stats)
io_delay, swapin_delay, read_bytes, write_bytes = stats
line = '%5d %-8s %11s %11s %7s %7s ' % (p.pid, p.user[:8],
read_bytes, write_bytes, swapin_delay, io_delay)
if self.options.batch:
max_cmdline_length = 4096
else:
max_cmdline_length = self.width - len(line)
line += p.get_cmdline()[:max_cmdline_length]
return line
processes = self.process_list.processes.values()
key = IOTopUI.sorting_keys[self.sorting_key][0]
processes.sort(key=key, reverse=self.sorting_reverse)
if not self.options.batch:
del processes[self.height - 2:]
return map(format, processes)
def refresh_display(self, total_read, total_write, duration):
summary = 'Total DISK READ: %s | Total DISK WRITE: %s' % (
human_bandwidth(total_read, duration),
human_bandwidth(total_write, duration))
titles = [' PID', ' USER', ' DISK READ', ' DISK WRITE',
' SWAPIN', ' IO', ' COMMAND']
lines = self.get_data()
if self.options.batch:
print summary
print ''.join(titles)
for l in lines:
print l
else:
self.win.clear()
self.win.addstr(summary)
self.win.hline(1, 0, ord(' ') | curses.A_REVERSE, self.width)
for i in xrange(len(titles)):
attr = curses.A_REVERSE
title = titles[i]
if i == self.sorting_key:
attr |= curses.A_BOLD
title += self.sorting_reverse and '>' or '<'
self.win.addstr(title, attr)
for i in xrange(len(lines)):
self.win.insstr(i + 2, 0, lines[i])
self.win.refresh()
def run_iotop(win, options):
taskstats_connection = TaskStatsNetlink(options)
process_list = ProcessList(taskstats_connection, options)
ui = IOTopUI(win, process_list, options)
ui.run()
#
# Main program
#
VERSION = '0.1'
USAGE = 'Usage: %s [OPTIONS]' % sys.argv[0] + '''
DISK READ and DISK WRITE are the block I/O bandwidth used during the sampling
period. SWAPIN and IO are the percentages of time the thread spent respectively
while swapping in and waiting on I/O more generally.
Controls: left and right arrows to should the sorting column, r to invert the
sorting order, q to quit, any other key to force a refresh'''
def main():
parser = optparse.OptionParser(usage=USAGE, version='iotop ' + VERSION)
parser.add_option('-d', '--delay', type='float', dest='delay_seconds',
help='delay between iterations [1 second]',
metavar='SEC', default=1)
parser.add_option('-p', '--pid', type='int', dest='pids', action='append',
help='processes to monitor [all]', metavar='PID')
parser.add_option('-u', '--user', type='str', dest='users', action='append',
help='users to monitor [all]', metavar='USER')
parser.add_option('-b', '--batch', action='store_true', dest='batch',
help='non-interactive mode')
parser.add_option('-P', '--processes', action='store_true',
dest='processes',
help='show only processes, not all threads')
parser.add_option('-n', '--iter', type='int', dest='iterations',
metavar='NUM',
help='number of iterations before ending [infinite]')
options, args = parser.parse_args()
if args:
parser.error('Unexpected arguments: ' + ' '.join(args))
find_uids(options)
options.pids = options.pids or []
if options.batch:
run_iotop(None, options)
else:
curses.wrapper(run_iotop, options)
if __name__ == '__main__':
try:
main()
except KeyboardInterrupt:
pass
sys.exit(0)

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Name: iotop
Version: 0.1
Release: 1%{?dist}
Summary: Top like utility for I/O
Group: Applications/System
License: GPLv2
URL: http://guichaz.free.fr/misc/#iotop
Source0: http://guichaz.free.fr/misc/%{name}.py
BuildRoot: %{_tmppath}/%{name}-%{version}-%{release}-root-%(%{__id_u} -n)
BuildArch: noarch
Requires: python
%prep
%build
%description
Linux has always been able to show how much I/O was going on
(the bi and bo columns of the vmstat 1 command).
iotop is a Python program with a top like UI used to
show of behalf of which process is the I/O going on.
%install
rm -rf $RPM_BUILD_ROOT
mkdir -p $RPM_BUILD_ROOT%{_bindir}
install -p -m 0755 %{SOURCE0} $RPM_BUILD_ROOT%{_bindir}/iotop
%clean
rm -rf $RPM_BUILD_ROOT
%files
%defattr(-,root,root,-)
%{_bindir}/iotop
%changelog
* Sun Nov 3 2007 Adel Gadllah <adel.gadllah@gmail.com> 0.1-1
- Fix version
* Sun Nov 3 2007 Adel Gadllah <adel.gadllah@gmail.com> 20070930-1
- Initial Build