Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 3.144.23.138
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /proc/self/root/lib/python3.6/site-packages/iotop/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /proc/self/root/lib/python3.6/site-packages/iotop/ui.py
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU Library General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301 USA
#
# See the COPYING file for license information.
#
# Copyright (c) 2007 Guillaume Chazarain <guichaz@gmail.com>

# Allow printing with same syntax in Python 2/3
from __future__ import print_function

import curses
import errno
import locale
import math
import optparse
import os
import select
import signal
import sys
import time

from iotop.data import find_uids, TaskStatsNetlink, ProcessList, Stats, sysctl_task_delayacct
from iotop.data import ThreadInfo
from iotop.version import VERSION
from iotop import ioprio
from iotop.ioprio import IoprioSetError

#
# Utility functions for the UI
#

UNITS = ['B', 'K', 'M', 'G', 'T', 'P', 'E']

def human_size(size):
    if size > 0:
        sign = ''
    elif size < 0:
        sign = '-'
        size = -size
    else:
        return '0.00 B'

    expo = int(math.log(size / 2, 2) / 10)
    return '%s%.2f %s' % (sign, (float(size) / (1 << (10 * expo))), UNITS[expo])

def format_size(options, bytes):
    if options.kilobytes:
        return '%.2f K' % (bytes / 1024.0)
    return human_size(bytes)

def format_bandwidth(options, size, duration):
    return format_size(options, size and float(size) / duration) + '/s'

def format_stats(options, process, duration):
    # Keep in sync with TaskStatsNetlink.members_offsets and
    # IOTopUI.get_data(self)
    def delay2percent(delay): # delay in ns, duration in s
        return '%.2f %%' % min(99.99, delay / (duration * 10000000.0))
    if options.accumulated:
        stats = process.stats_accum
        display_format = lambda size, duration: format_size(options, size)
        duration = time.time() - process.stats_accum_timestamp
    else:
        stats = process.stats_delta
        display_format = lambda size, duration: format_bandwidth(
                                                        options, size, duration)
    io_delay = delay2percent(stats.blkio_delay_total)
    swapin_delay = delay2percent(stats.swapin_delay_total)
    read_bytes = display_format(stats.read_bytes, duration)
    written_bytes = stats.write_bytes - stats.cancelled_write_bytes
    written_bytes = max(0, written_bytes)
    write_bytes = display_format(written_bytes, duration)
    return io_delay, swapin_delay, read_bytes, write_bytes

def get_max_pid_width():
    try:
        return len(open('/proc/sys/kernel/pid_max').read().strip())
    except Exception as e:
        print(e)
        # Reasonable default in case something fails
        return 5

MAX_PID_WIDTH = get_max_pid_width()

#
# UI Exceptions
#

class CancelInput(Exception): pass
class InvalidInt(Exception): pass
class InvalidPid(Exception): pass
class InvalidTid(Exception): pass
class InvalidIoprioData(Exception): pass

#
# The UI
#

class IOTopUI(object):
    # key, reverse
    sorting_keys = [
        (lambda p, s: p.pid, False),
        (lambda p, s: p.ioprio_sort_key(), False),
        (lambda p, s: p.get_user(), False),
        (lambda p, s: s.read_bytes, True),
        (lambda p, s: s.write_bytes - s.cancelled_write_bytes, True),
        (lambda p, s: s.swapin_delay_total, True),
        # The default sorting (by I/O % time) should show processes doing
        # only writes, without waiting on them
        (lambda p, s: s.blkio_delay_total or
                      int(not(not(s.read_bytes or s.write_bytes))), True),
        (lambda p, s: p.get_cmdline(), False),
    ]

    def __init__(self, win, process_list, options):
        self.process_list = process_list
        self.options = options
        self.sorting_key = 6
        self.sorting_reverse = IOTopUI.sorting_keys[self.sorting_key][1]
        if not self.options.batch:
            self.win = win
            self.resize()
            try:
                curses.use_default_colors()
                curses.start_color()
                curses.curs_set(0)
            except curses.error:
                # This call can fail with misconfigured terminals, for example
                # TERM=xterm-color. This is harmless
                pass

    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, actual = self.process_list.refresh_processes()
            self.refresh_display(iterations == 0, total, actual,
                                 self.process_list.duration)
            if self.options.iterations is not None:
                iterations += 1
                if iterations >= self.options.iterations:
                    break
            elif iterations == 0:
                iterations = 1

            try:
                events = poll.poll(self.options.delay_seconds * 1000.0)
            except select.error as e:
                if e.args and e.args[0] == errno.EINTR:
                    events = []
                else:
                    raise
            for (fd, event) in events:
                if event & (select.POLLERR | select.POLLHUP):
                    sys.exit(1)
            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 not self.has_swapin_io:
            if self.sorting_key in (5, 6):
                if delta <= 0:
                    self.sorting_key = 4
                elif delta > 0:
                    self.sorting_key = 7
        if orig_sorting_key != self.sorting_key:
            self.sorting_reverse = IOTopUI.sorting_keys[self.sorting_key][1]

    # I wonder if switching to urwid for the display would be better here

    def prompt_str(self, prompt, default=None, empty_is_cancel=True):
        self.win.hline(1, 0, ord(' ') | curses.A_NORMAL, self.width)
        self.win.addstr(1, 0, prompt, curses.A_BOLD)
        self.win.refresh()
        curses.echo()
        curses.curs_set(1)
        inp = self.win.getstr(1, len(prompt))
        curses.curs_set(0)
        curses.noecho()
        if inp not in (None, ''):
            return inp
        if empty_is_cancel:
            raise CancelInput()
        return default

    def prompt_int(self, prompt, default = None, empty_is_cancel = True):
        inp = self.prompt_str(prompt, default, empty_is_cancel)
        try:
            return int(inp)
        except ValueError:
            raise InvalidInt()

    def prompt_pid(self):
        try:
            return self.prompt_int('PID to ionice: ')
        except InvalidInt:
            raise InvalidPid()
        except CancelInput:
            raise

    def prompt_tid(self):
        try:
            return self.prompt_int('TID to ionice: ')
        except InvalidInt:
            raise InvalidTid()
        except CancelInput:
            raise

    def prompt_data(self, ioprio_data):
        try:
            if ioprio_data is not None:
                inp = self.prompt_int('I/O priority data (0-7, currently %s): '
                                      % ioprio_data, ioprio_data, False)
            else:
                inp = self.prompt_int('I/O priority data (0-7): ', None, False)
        except InvalidInt:
            raise InvalidIoprioData()
        if inp < 0 or inp > 7:
            raise InvalidIoprioData()
        return inp

    def prompt_set(self, prompt, display_list, ret_list, selected):
        try:
            selected = ret_list.index(selected)
        except ValueError:
            selected = -1
        set_len = len(display_list) - 1
        while True:
            self.win.hline(1, 0, ord(' ') | curses.A_NORMAL, self.width)
            self.win.insstr(1, 0, prompt, curses.A_BOLD)
            offset = len(prompt)
            for i, item in enumerate(display_list):
                display = ' %s ' % item
                if i is selected:
                    attr = curses.A_REVERSE
                else:
                    attr = curses.A_NORMAL
                self.win.insstr(1, offset, display, attr)
                offset += len(display)
            while True:
                key = self.win.getch()
                if key in (curses.KEY_LEFT, ord('l')) and selected > 0:
                    selected -= 1
                    break
                elif key in (curses.KEY_RIGHT, ord('r')) and selected < set_len:
                    selected += 1
                    break
                elif key in (curses.KEY_ENTER, ord('\n'), ord('\r')):
                    return ret_list[selected]
                elif key in (27, curses.KEY_CANCEL, curses.KEY_CLOSE,
                             curses.KEY_EXIT, ord('q'), ord('Q')):
                    raise CancelInput()

    def prompt_class(self, ioprio_class=None):
        prompt = 'I/O priority class: '
        classes_prompt = ['Real-time', 'Best-effort', 'Idle']
        classes_ret = ['rt', 'be', 'idle']
        if ioprio_class is None:
            ioprio_class = 2
        inp = self.prompt_set(prompt, classes_prompt, classes_ret, ioprio_class)
        return inp

    def prompt_error(self, error = 'Error!'):
        self.win.hline(1, 0, ord(' ') | curses.A_NORMAL, self.width)
        self.win.insstr(1, 0, '  %s  ' % error, curses.A_REVERSE)
        self.win.refresh()
        time.sleep(1)

    def prompt_clear(self):
        self.win.hline(1, 0, ord(' ') | curses.A_NORMAL, self.width)
        self.win.refresh()

    def handle_key(self, key):
        def toggle_accumulated():
            self.options.accumulated ^= True
        def toggle_only_io():
            self.options.only ^= True
        def toggle_processes():
            self.options.processes ^= True
            self.process_list.clear()
            self.process_list.refresh_processes()
        def ionice():
            try:
                if self.options.processes:
                    pid = self.prompt_pid()
                    exec_unit = self.process_list.get_process(pid)
                else:
                    tid = self.prompt_tid()
                    exec_unit = ThreadInfo(tid,
                                         self.process_list.taskstats_connection)
                ioprio_value = exec_unit.get_ioprio()
                (ioprio_class, ioprio_data) = \
                                          ioprio.to_class_and_data(ioprio_value)
                ioprio_class = self.prompt_class(ioprio_class)
                if ioprio_class == 'idle':
                    ioprio_data = 0
                else:
                    ioprio_data = self.prompt_data(ioprio_data)
                exec_unit.set_ioprio(ioprio_class, ioprio_data)
                self.process_list.clear()
                self.process_list.refresh_processes()
            except IoprioSetError as e:
                self.prompt_error('Error setting I/O priority: %s' % e.err)
            except InvalidPid:
                self.prompt_error('Invalid process id!')
            except InvalidTid:
                self.prompt_error('Invalid thread id!')
            except InvalidIoprioData:
                self.prompt_error('Invalid I/O priority data!')
            except InvalidInt:
                self.prompt_error('Invalid integer!')
            except CancelInput:
                self.prompt_clear()
            else:
                self.prompt_clear()

        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(),
            ord('a'):
                toggle_accumulated,
            ord('A'):
                toggle_accumulated,
            ord('o'):
                toggle_only_io,
            ord('O'):
                toggle_only_io,
            ord('p'):
                toggle_processes,
            ord('P'):
                toggle_processes,
            ord('i'):
                ionice,
            ord('I'):
                ionice,
            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 = format_stats(self.options, p, self.process_list.duration)
            io_delay, swapin_delay, read_bytes, write_bytes = stats
            format = '%%%dd' % MAX_PID_WIDTH
            params = p.pid,
            format += ' %4s'
            params += p.get_ioprio(),
            format += ' %-8s'
            params += p.get_user()[:8],
            format += ' %11s %11s'
            params += read_bytes, write_bytes
            if self.has_swapin_io:
                format += ' %7s %7s'
                params += swapin_delay, io_delay
            elif self.options.batch:
                format += ' %s '
                params += '?unavailable?',
            format += ' '
            line = format % (params)
            cmdline = p.get_cmdline()
            if not self.options.batch:
                remaining_length = self.width - len(line)
                if 2 < remaining_length < len(cmdline):
                    len1 = (remaining_length - 1) // 2
                    offset2 = -(remaining_length - len1 - 1)
                    cmdline = cmdline[:len1] + '~' + cmdline[offset2:]
            line += cmdline
            if not self.options.batch:
                line = line[:self.width]
            return line

        def should_format(p):
            return not self.options.only or \
                   p.did_some_io(self.options.accumulated)

        processes = list(filter(should_format,
                                self.process_list.processes.values()))
        key = IOTopUI.sorting_keys[self.sorting_key][0]
        if self.options.accumulated:
            stats_lambda = lambda p: p.stats_accum
        else:
            stats_lambda = lambda p: p.stats_delta
        processes.sort(key=lambda p: key(p, stats_lambda(p)),
                       reverse=self.sorting_reverse)
        if not self.options.batch:
            del processes[self.height - 2:]
        return list(map(format, processes))

    def refresh_display(self, first_time, total, actual, duration):
        summary = [
                'Total DISK READ : %s | Total DISK WRITE : %s' % (
                format_bandwidth(self.options, total[0], duration).rjust(14),
                format_bandwidth(self.options, total[1], duration).rjust(14)),
                'Actual DISK READ: %s | Actual DISK WRITE: %s' % (
                format_bandwidth(self.options, actual[0], duration).rjust(14),
                format_bandwidth(self.options, actual[1], duration).rjust(14))
        ]

        pid = max(0, (MAX_PID_WIDTH - 3)) * ' '
        if self.options.processes:
            pid += 'PID'
        else:
            pid += 'TID'
        titles = [pid, '  PRIO', '  USER', '     DISK READ', '  DISK WRITE',
                  '  SWAPIN', '      IO', '    COMMAND']
        self.has_swapin_io = Stats.has_blkio_delay_total
        if self.has_swapin_io:
            # Linux kernels without the sysctl return None and
            # iotop just uses the heuristic for those versions.
            # Linux kernels with the sysctl return True or False
            # and iotop then uses the sysctl value instead.
            if sysctl_task_delayacct() == False:
                self.has_swapin_io = False
        self.adjust_sorting_key(0)
        lines = self.get_data()
        if self.options.time:
            titles = ['    TIME'] + titles
            current_time = time.strftime('%H:%M:%S ')
            lines = [current_time + l for l in lines]
            summary = [current_time + s for s in summary]
        if self.options.batch:
            if self.options.quiet <= 2:
                for s in summary:
                    print(s)
                if self.options.quiet <= int(first_time):
                    print(''.join(titles))
            for l in lines:
                print(l.encode('utf-8'))
            sys.stdout.flush()
        else:
            self.win.erase()
            for i, s in enumerate(summary):
                self.win.addstr(i, 0, s[:self.width])
            self.win.hline(len(summary), 0, ord(' ') | curses.A_REVERSE,
                           self.width)
            remaining_cols = self.width
            for i in range(len(titles)):
                if not self.has_swapin_io and i in (5, 6):
                    continue
                attr = curses.A_REVERSE
                title = titles[i]
                if i == self.sorting_key:
                    title = title[1:]
                if i == self.sorting_key:
                    attr |= curses.A_BOLD
                    title += self.sorting_reverse and '>' or '<'
                title = title[:remaining_cols]
                remaining_cols -= len(title)
                self.win.addstr(title, attr)
            if self.has_swapin_io is not False:
                status_msg = None
            else:
                status_msg = ('CONFIG_TASK_DELAY_ACCT '
                              'and kernel.task_delayacct sysctl '
                              'not enabled in kernel, '
                              'cannot determine SWAPIN and IO %')
            num_lines = min(len(lines), self.height - 2 - int(bool(status_msg)))
            for i in range(num_lines):
                try:
                    def print_line(line):
                        self.win.addstr(i + len(summary) + 1, 0, line)
                    try:
                        print_line(lines[i])
                    except UnicodeEncodeError:
                        # Python2: 'ascii' codec can't encode character ...
                        # http://bugs.debian.org/708252
                        print_line(lines[i].encode('utf-8'))
                except curses.error:
                    pass
            if status_msg:
                self.win.insstr(self.height - len(summary), 0, status_msg,
                                curses.A_BOLD)
            self.win.refresh()

def run_iotop_window(win, options):
    if options.batch:
        signal.signal(signal.SIGPIPE, signal.SIG_DFL)
    else:
        def clean_exit(*args, **kwargs):
            sys.exit(0)
        signal.signal(signal.SIGINT, clean_exit)
        signal.signal(signal.SIGTERM, clean_exit)
    taskstats_connection = TaskStatsNetlink(options)
    process_list = ProcessList(taskstats_connection, options)
    ui = IOTopUI(win, process_list, options)
    ui.run()

def run_iotop(options):
    try:
        if options.batch:
            return run_iotop_window(None, options)
        else:
            return curses.wrapper(run_iotop_window, options)
    except OSError as e:
        if e.errno == errno.EPERM:
            print(e, file=sys.stderr)
            print('''
The Linux kernel interfaces that iotop relies on now require root priviliges
or the NET_ADMIN capability. This change occured because a security issue
(CVE-2011-2494) was found that allows leakage of sensitive data across user
boundaries. If you require the ability to run iotop as a non-root user, please
configure sudo to allow you to run iotop as root.

Please do not file bugs on iotop about this.''', file=sys.stderr)
            sys.exit(1)
        else:
            raise
    except curses.error as e:
        stre = str(e)
        if stre.find('ERR')>=0 and (
            stre.find('nocbreak()')>=0 or stre.find('endwin()')>=0
            ):
            pass
            # endwin and nocbreak can cause error (and raise hard to catch 
            # exception) if iotop was running in the terminal and that 
            # terminal got closed while iotop was still running
        else:
            raise

#
# Profiling
#

def _profile(continuation):
    prof_file = 'iotop.prof'
    try:
        import cProfile
        import pstats
        print('Profiling using cProfile')
        cProfile.runctx('continuation()', globals(), locals(), prof_file)
        stats = pstats.Stats(prof_file)
    except ImportError:
        import hotshot
        import hotshot.stats
        prof = hotshot.Profile(prof_file, lineevents=1)
        print('Profiling using hotshot')
        prof.runcall(continuation)
        prof.close()
        stats = hotshot.stats.load(prof_file)
    stats.strip_dirs()
    stats.sort_stats('time', 'calls')
    stats.print_stats(50)
    stats.print_callees(50)
    os.remove(prof_file)

#
# Main program
#

USAGE = '''%s [OPTIONS]

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. PRIO is the I/O priority at
which the thread is running (set using the ionice command).

Controls: left and right arrows to change the sorting column, r to invert the
sorting order, o to toggle the --only option, p to toggle the --processes
option, a to toggle the --accumulated option, i to change I/O priority, q to
quit, any other key to force a refresh.''' % sys.argv[0]

def main():
    try:
        locale.setlocale(locale.LC_ALL, '')
    except locale.Error:
        print('unable to set locale, falling back to the default locale')
    parser = optparse.OptionParser(usage=USAGE, version='iotop ' + VERSION)
    parser.add_option('-o', '--only', action='store_true',
                      dest='only', default=False,
                      help='only show processes or threads actually doing I/O')
    parser.add_option('-b', '--batch', action='store_true', dest='batch',
                      help='non-interactive mode')
    parser.add_option('-n', '--iter', type='int', dest='iterations',
                      metavar='NUM',
                      help='number of iterations before ending [infinite]')
    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/threads 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('-P', '--processes', action='store_true',
                      dest='processes', default=False,
                      help='only show processes, not all threads')
    parser.add_option('-a', '--accumulated', action='store_true',
                      dest='accumulated', default=False,
                      help='show accumulated I/O instead of bandwidth')
    parser.add_option('-k', '--kilobytes', action='store_true',
                      dest='kilobytes', default=False,
                      help='use kilobytes instead of a human friendly unit')
    parser.add_option('-t', '--time', action='store_true', dest='time',
                      help='add a timestamp on each line (implies --batch)')
    parser.add_option('-q', '--quiet', action='count', dest='quiet', default=0,
                      help='suppress some lines of header (implies --batch)')
    parser.add_option('--profile', action='store_true', dest='profile',
                      default=False, help=optparse.SUPPRESS_HELP)

    options, args = parser.parse_args()
    if args:
        parser.error('Unexpected arguments: ' + ' '.join(args))
    find_uids(options)
    options.pids = options.pids or []
    options.batch = options.batch or options.time or options.quiet

    main_loop = lambda: run_iotop(options)

    if options.profile:
        def safe_main_loop():
            try:
                main_loop()
            except:
                pass
        _profile(safe_main_loop)
    else:
        main_loop()


Youez - 2016 - github.com/yon3zu
LinuXploit