#!/usr/bin/env python # # $Id: _pslinux.py 1393 2012-06-28 15:26:27Z g.rodola $ # # Copyright (c) 2009, Jay Loden, 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. """Linux platform implementation.""" from __future__ import division import os import errno import socket import struct import sys import base64 import re import _psutil_posix import _psutil_linux from psutil import _psposix from psutil.error import AccessDenied, NoSuchProcess, TimeoutExpired from psutil._common import * from psutil._compat import PY3, xrange, long __extra__all__ = [ "IOPRIO_CLASS_NONE", "IOPRIO_CLASS_RT", "IOPRIO_CLASS_BE", "IOPRIO_CLASS_IDLE", "phymem_buffers", "cached_phymem"] def _get_boot_time(): """Return system boot time (epoch in seconds)""" f = open('/proc/stat', 'r') try: for line in f: if line.startswith('btime'): return float(line.strip().split()[1]) raise RuntimeError("line not found") finally: f.close() def _get_num_cpus(): """Return the number of CPUs on the system""" # we try to determine num CPUs by using different approaches. # SC_NPROCESSORS_ONLN seems to be the safer and it is also # used by multiprocessing module try: return os.sysconf("SC_NPROCESSORS_ONLN") except ValueError: # as a second fallback we try to parse /proc/cpuinfo num = 0 f = open('/proc/cpuinfo', 'r') try: lines = f.readlines() finally: f.close() for line in lines: if line.lower().startswith('processor'): num += 1 # unknown format (e.g. amrel/sparc architectures), see: # http://code.google.com/p/psutil/issues/detail?id=200 # try to parse /proc/stat as a last resort if num == 0: f = open('/proc/stat', 'r') try: lines = f.readlines() finally: f.close() search = re.compile('cpu\d') for line in lines: line = line.split(' ')[0] if search.match(line): num += 1 if num == 0: raise RuntimeError("can't determine number of CPUs") return num # Number of clock ticks per second _CLOCK_TICKS = os.sysconf(os.sysconf_names["SC_CLK_TCK"]) _PAGESIZE = os.sysconf("SC_PAGE_SIZE") _TERMINAL_MAP = _psposix._get_terminal_map() BOOT_TIME = _get_boot_time() NUM_CPUS = _get_num_cpus() # ioprio_* constants http://linux.die.net/man/2/ioprio_get IOPRIO_CLASS_NONE = 0 IOPRIO_CLASS_RT = 1 IOPRIO_CLASS_BE = 2 IOPRIO_CLASS_IDLE = 3 # http://students.mimuw.edu.pl/lxr/source/include/net/tcp_states.h _TCP_STATES_TABLE = {"01" : "ESTABLISHED", "02" : "SYN_SENT", "03" : "SYN_RECV", "04" : "FIN_WAIT1", "05" : "FIN_WAIT2", "06" : "TIME_WAIT", "07" : "CLOSE", "08" : "CLOSE_WAIT", "09" : "LAST_ACK", "0A" : "LISTEN", "0B" : "CLOSING" } # --- system memory functions def cached_phymem(): """Return the amount of cached memory on the system, in bytes. This reflects the "cached" column of free command line utility. """ f = open('/proc/meminfo', 'r') try: for line in f: if line.startswith('Cached:'): return int(line.split()[1]) * 1024 raise RuntimeError("line not found") finally: f.close() def phymem_buffers(): """Return the amount of physical memory buffers used by the kernel in bytes. This reflects the "buffers" column of free command line utility. """ total, free, buffers = _psutil_linux.get_physmem() return buffers def phymem_usage(): """Return physical memory usage statistics as a namedutple including tota, used, free and percent usage. """ # total, used and free values are matched against free cmdline utility # the percentage matches top/htop and gnome-system-monitor total, free, buffers = _psutil_linux.get_physmem() cached = cached_phymem() used = total - free percent = usage_percent(total - (free + buffers + cached), total, _round=1) return nt_sysmeminfo(total, used, free, percent) def virtmem_usage(): f = open('/proc/meminfo', 'r') try: total = free = None for line in f: if line.startswith('SwapTotal:'): total = int(line.split()[1]) * 1024 elif line.startswith('SwapFree:'): free = int(line.split()[1]) * 1024 if total is not None and free is not None: break assert total is not None and free is not None used = total - free percent = usage_percent(used, total, _round=1) return nt_sysmeminfo(total, used, free, percent) finally: f.close() # --- system CPU functions def get_system_cpu_times(): """Return a named tuple representing the following CPU times: user, nice, system, idle, iowait, irq, softirq. """ f = open('/proc/stat', 'r') try: values = f.readline().split() finally: f.close() values = values[1:8] values = tuple([float(x) / _CLOCK_TICKS for x in values]) return nt_sys_cputimes(*values[:7]) def get_system_per_cpu_times(): """Return a list of namedtuple representing the CPU times for every CPU available on the system. """ cpus = [] f = open('/proc/stat', 'r') # get rid of the first line who refers to system wide CPU stats try: f.readline() for line in f.readlines(): if line.startswith('cpu'): values = line.split()[1:8] values = tuple([float(x) / _CLOCK_TICKS for x in values]) entry = nt_sys_cputimes(*values[:7]) cpus.append(entry) return cpus finally: f.close() # --- system disk functions def disk_partitions(all=False): """Return mounted disk partitions as a list of nameduples""" phydevs = [] f = open("/proc/filesystems", "r") try: for line in f: if not line.startswith("nodev"): phydevs.append(line.strip()) finally: f.close() retlist = [] partitions = _psutil_linux.get_disk_partitions() for partition in partitions: device, mountpoint, fstype, opts = partition if device == 'none': device = '' if not all: if device == '' or fstype not in phydevs: continue ntuple = nt_partition(device, mountpoint, fstype, opts) retlist.append(ntuple) return retlist get_disk_usage = _psposix.get_disk_usage # --- other sysetm functions def get_system_users(): """Return currently connected users as a list of namedtuples.""" retlist = [] rawlist = _psutil_linux.get_system_users() for item in rawlist: user, tty, hostname, tstamp, user_process = item # XXX the underlying C function includes entries about # system boot, run level and others. We might want # to use them in the future. if not user_process: continue if hostname == ':0.0': hostname = 'localhost' nt = nt_user(user, tty or None, hostname, tstamp) retlist.append(nt) return retlist # --- process functions def get_pid_list(): """Returns a list of PIDs currently running on the system.""" pids = [int(x) for x in os.listdir('/proc') if x.isdigit()] return pids def pid_exists(pid): """Check For the existence of a unix pid.""" return _psposix.pid_exists(pid) def network_io_counters(): """Return network I/O statistics for every network interface installed on the system as a dict of raw tuples. """ f = open("/proc/net/dev", "r") try: lines = f.readlines() finally: f.close() retdict = {} for line in lines[2:]: colon = line.find(':') assert colon > 0, line name = line[:colon].strip() fields = line[colon+1:].strip().split() bytes_recv = int(fields[0]) packets_recv = int(fields[1]) bytes_sent = int(fields[8]) packets_sent = int(fields[9]) retdict[name] = (bytes_sent, bytes_recv, packets_sent, packets_recv) return retdict def disk_io_counters(): """Return disk I/O statistics for every disk installed on the system as a dict of raw tuples. """ # man iostat states that sectors are equivalent with blocks and # have a size of 512 bytes since 2.4 kernels. This value is # needed to calculate the amount of disk I/O in bytes. SECTOR_SIZE = 512 # determine partitions we want to look for partitions = [] f = open("/proc/partitions", "r") try: lines = f.readlines()[2:] finally: f.close() for line in lines: _, _, _, name = line.split() if name[-1].isdigit(): partitions.append(name) # retdict = {} f = open("/proc/diskstats", "r") try: lines = f.readlines() finally: f.close() for line in lines: _, _, name, reads, _, rbytes, rtime, writes, _, wbytes, wtime = \ line.split()[:11] if name in partitions: rbytes = int(rbytes) * SECTOR_SIZE wbytes = int(wbytes) * SECTOR_SIZE reads = int(reads) writes = int(writes) # TODO: times are expressed in milliseconds while OSX/BSD has # these expressed in nanoseconds; figure this out. rtime = int(rtime) wtime = int(wtime) retdict[name] = (reads, writes, rbytes, wbytes, rtime, wtime) return retdict # taken from /fs/proc/array.c _status_map = {"R" : STATUS_RUNNING, "S" : STATUS_SLEEPING, "D" : STATUS_DISK_SLEEP, "T" : STATUS_STOPPED, "t" : STATUS_TRACING_STOP, "Z" : STATUS_ZOMBIE, "X" : STATUS_DEAD, "x" : STATUS_DEAD, "K" : STATUS_WAKE_KILL, "W" : STATUS_WAKING} # --- decorators def wrap_exceptions(callable): """Call callable into a try/except clause and translate ENOENT, EACCES and EPERM in NoSuchProcess or AccessDenied exceptions. """ def wrapper(self, *args, **kwargs): try: return callable(self, *args, **kwargs) except EnvironmentError: # ENOENT (no such file or directory) gets raised on open(). # ESRCH (no such process) can get raised on read() if # process is gone in meantime. err = sys.exc_info()[1] if err.errno in (errno.ENOENT, errno.ESRCH): raise NoSuchProcess(self.pid, self._process_name) if err.errno in (errno.EPERM, errno.EACCES): raise AccessDenied(self.pid, self._process_name) raise return wrapper class Process(object): """Linux process implementation.""" __slots__ = ["pid", "_process_name"] def __init__(self, pid): if not isinstance(pid, int): raise TypeError('pid must be an integer') self.pid = pid self._process_name = None @wrap_exceptions def get_process_name(self): f = open("/proc/%s/stat" % self.pid) try: name = f.read().split(' ')[1].replace('(', '').replace(')', '') finally: f.close() # XXX - gets changed later and probably needs refactoring return name def get_process_exe(self): if self.pid in (0, 2): raise AccessDenied(self.pid, self._process_name) try: exe = os.readlink("/proc/%s/exe" % self.pid) except (OSError, IOError): err = sys.exc_info()[1] if err.errno == errno.ENOENT: # no such file error; might be raised also if the # path actually exists for system processes with # low pids (about 0-20) if os.path.lexists("/proc/%s/exe" % self.pid): return "" else: # ok, it is a process which has gone away raise NoSuchProcess(self.pid, self._process_name) if err.errno in (errno.EPERM, errno.EACCES): raise AccessDenied(self.pid, self._process_name) raise # readlink() might return paths containing null bytes causing # problems when used with other fs-related functions (os.*, # open(), ...) exe = exe.replace('\x00', '') # It seems symlinks can point to a deleted/invalid location # (this usually happens with "pulseaudio" process). # However, if we had permissions to execute readlink() it's # likely that we'll be able to figure out exe from argv[0] # later on. if exe.endswith(" (deleted)") and not os.path.isfile(exe): return "" return exe @wrap_exceptions def get_process_cmdline(self): f = open("/proc/%s/cmdline" % self.pid) try: # return the args as a list return [x for x in f.read().split('\x00') if x] finally: f.close() @wrap_exceptions def get_process_terminal(self): f = open("/proc/%s/stat" % self.pid) try: tty_nr = int(f.read().split(' ')[6]) finally: f.close() try: return _TERMINAL_MAP[tty_nr] except KeyError: return None @wrap_exceptions def get_process_io_counters(self): f = open("/proc/%s/io" % self.pid) try: for line in f: if line.startswith("rchar"): read_count = int(line.split()[1]) elif line.startswith("wchar"): write_count = int(line.split()[1]) elif line.startswith("read_bytes"): read_bytes = int(line.split()[1]) elif line.startswith("write_bytes"): write_bytes = int(line.split()[1]) return nt_io(read_count, write_count, read_bytes, write_bytes) finally: f.close() if not os.path.exists('/proc/%s/io' % os.getpid()): def get_process_io_counters(self): raise NotImplementedError('/proc/PID/io is not available') @wrap_exceptions def get_cpu_times(self): f = open("/proc/%s/stat" % self.pid) try: st = f.read().strip() finally: f.close() # ignore the first two values ("pid (exe)") st = st[st.find(')') + 2:] values = st.split(' ') utime = float(values[11]) / _CLOCK_TICKS stime = float(values[12]) / _CLOCK_TICKS return nt_cputimes(utime, stime) @wrap_exceptions def process_wait(self, timeout=None): try: return _psposix.wait_pid(self.pid, timeout) except TimeoutExpired: raise TimeoutExpired(self.pid, self._process_name) @wrap_exceptions def get_process_create_time(self): f = open("/proc/%s/stat" % self.pid) try: st = f.read().strip() finally: f.close() # ignore the first two values ("pid (exe)") st = st[st.rfind(')') + 2:] values = st.split(' ') # According to documentation, starttime is in field 21 and the # unit is jiffies (clock ticks). # We first divide it for clock ticks and then add uptime returning # seconds since the epoch, in UTC. starttime = (float(values[19]) / _CLOCK_TICKS) + BOOT_TIME return starttime @wrap_exceptions def get_memory_info(self): f = open("/proc/%s/statm" % self.pid) try: vms, rss = f.readline().split()[:2] return nt_meminfo(int(rss) * _PAGESIZE, int(vms) * _PAGESIZE) finally: f.close() _mmap_base_fields = ['path', 'rss', 'size', 'pss', 'shared_clean', 'shared_dirty', 'private_clean', 'private_dirty', 'referenced', 'anonymous', 'swap',] nt_mmap_grouped = namedtuple('mmap', ' '.join(_mmap_base_fields)) nt_mmap_ext = namedtuple('mmap', 'addr perms ' + ' '.join(_mmap_base_fields)) def get_memory_maps(self): """Return process's mapped memory regions as a list of nameduples. Fields are explained in 'man proc'; here is an updated (Apr 2012) version: http://goo.gl/fmebo """ f = None try: f = open("/proc/%s/smaps" % self.pid) first_line = f.readline() current_block = [first_line] def get_blocks(): data = {} for line in f: fields = line.split(None, 5) if len(fields) >= 5: yield (current_block.pop(), data) current_block.append(line) else: data[fields[0]] = int(fields[1]) * 1024 yield (current_block.pop(), data) if first_line: # smaps file can be empty for header, data in get_blocks(): hfields = header.split(None, 5) try: addr, perms, offset, dev, inode, path = hfields except ValueError: addr, perms, offset, dev, inode, path = hfields + [''] if not path: path = '[anon]' else: path = path.strip() yield (addr, perms, path, data['Rss:'], data['Size:'], data.get('Pss:', 0), data['Shared_Clean:'], data['Shared_Clean:'], data['Private_Clean:'], data['Private_Dirty:'], data['Referenced:'], data['Anonymous:'], data['Swap:']) f.close() except EnvironmentError: # XXX - Can't use wrap_exceptions decorator as we're # returning a generator; this probably needs some # refactoring in order to avoid this code duplication. if f is not None: f.close() err = sys.exc_info()[1] if err.errno in (errno.ENOENT, errno.ESRCH): raise NoSuchProcess(self.pid, self._process_name) if err.errno in (errno.EPERM, errno.EACCES): raise AccessDenied(self.pid, self._process_name) raise except: if f is not None: f.close() raise if not os.path.exists('/proc/%s/smaps' % os.getpid()): def get_shared_libs(self, ext): msg = "this Linux version does not support /proc/PID/smaps " \ "(kernel < 2.6.14 or CONFIG_MMU kernel configuration " \ "option is not enabled)" raise NotImplementedError(msg) @wrap_exceptions def get_process_cwd(self): # readlink() might return paths containing null bytes causing # problems when used with other fs-related functions (os.*, # open(), ...) path = os.readlink("/proc/%s/cwd" % self.pid) return path.replace('\x00', '') @wrap_exceptions def get_process_num_threads(self): f = open("/proc/%s/status" % self.pid) try: for line in f: if line.startswith("Threads:"): return int(line.split()[1]) raise RuntimeError("line not found") finally: f.close() @wrap_exceptions def get_process_threads(self): thread_ids = os.listdir("/proc/%s/task" % self.pid) thread_ids.sort() retlist = [] hit_enoent = False for thread_id in thread_ids: try: f = open("/proc/%s/task/%s/stat" % (self.pid, thread_id)) except EnvironmentError: err = sys.exc_info()[1] if err.errno == errno.ENOENT: # no such file or directory; it means thread # disappeared on us hit_enoent = True continue raise try: st = f.read().strip() finally: f.close() # ignore the first two values ("pid (exe)") st = st[st.find(')') + 2:] values = st.split(' ') utime = float(values[11]) / _CLOCK_TICKS stime = float(values[12]) / _CLOCK_TICKS ntuple = nt_thread(int(thread_id), utime, stime) retlist.append(ntuple) if hit_enoent: # raise NSP if the process disappeared on us os.stat('/proc/%s' % self.pid) return retlist @wrap_exceptions def get_process_nice(self): #f = open('/proc/%s/stat' % self.pid, 'r') #try: # data = f.read() # return int(data.split()[18]) #finally: # f.close() # Use C implementation return _psutil_posix.getpriority(self.pid) @wrap_exceptions def set_process_nice(self, value): return _psutil_posix.setpriority(self.pid, value) @wrap_exceptions def get_process_cpu_affinity(self): from_bitmask = lambda x: [i for i in xrange(64) if (1 << i) & x] bitmask = _psutil_linux.get_process_cpu_affinity(self.pid) return from_bitmask(bitmask) @wrap_exceptions def set_process_cpu_affinity(self, value): def to_bitmask(l): if not l: raise ValueError("invalid argument %r" % l) out = 0 for b in l: if not isinstance(b, (int, long)) or b < 0: raise ValueError("invalid argument %r" % b) out |= 2**b return out bitmask = to_bitmask(value) try: _psutil_linux.set_process_cpu_affinity(self.pid, bitmask) except OSError: err = sys.exc_info()[1] if err.errno == errno.EINVAL: allcpus = list(range(len(get_system_per_cpu_times()))) for cpu in value: if cpu not in allcpus: raise ValueError("invalid CPU %i" % cpu) raise # only starting from kernel 2.6.13 if hasattr(_psutil_linux, "ioprio_get"): @wrap_exceptions def get_process_ionice(self): ioclass, value = _psutil_linux.ioprio_get(self.pid) return nt_ionice(ioclass, value) @wrap_exceptions def set_process_ionice(self, ioclass, value): if ioclass in (IOPRIO_CLASS_NONE, None): if value: raise ValueError("can't specify value with IOPRIO_CLASS_NONE") ioclass = IOPRIO_CLASS_NONE value = 0 if ioclass in (IOPRIO_CLASS_RT, IOPRIO_CLASS_BE): if value is None: value = 4 elif ioclass == IOPRIO_CLASS_IDLE: if value: raise ValueError("can't specify value with IOPRIO_CLASS_IDLE") value = 0 else: value = 0 if not 0 <= value <= 8: raise ValueError("value argument range expected is between 0 and 8") return _psutil_linux.ioprio_set(self.pid, ioclass, value) @wrap_exceptions def get_process_status(self): f = open("/proc/%s/status" % self.pid) try: for line in f: if line.startswith("State:"): letter = line.split()[1] if letter in _status_map: return _status_map[letter] return constant(-1, '?') finally: f.close() @wrap_exceptions def get_open_files(self): retlist = [] files = os.listdir("/proc/%s/fd" % self.pid) hit_enoent = False for fd in files: file = "/proc/%s/fd/%s" % (self.pid, fd) if os.path.islink(file): try: file = os.readlink(file) except OSError: # ENOENT == file which is gone in the meantime err = sys.exc_info()[1] if err.errno == errno.ENOENT: hit_enoent = True continue raise else: # If file is not an absolute path there's no way # to tell whether it's a regular file or not, # so we skip it. A regular file is always supposed # to be absolutized though. if file.startswith('/') and os.path.isfile(file): ntuple = nt_openfile(file, int(fd)) retlist.append(ntuple) if hit_enoent: # raise NSP if the process disappeared on us os.stat('/proc/%s' % self.pid) return retlist @wrap_exceptions def get_connections(self, kind='inet'): """Return connections opened by process as a list of namedtuples. The kind parameter filters for connections that fit the following criteria: Kind Value Number of connections using inet IPv4 and IPv6 inet4 IPv4 inet6 IPv6 tcp TCP tcp4 TCP over IPv4 tcp6 TCP over IPv6 udp UDP udp4 UDP over IPv4 udp6 UDP over IPv6 all the sum of all the possible families and protocols """ inodes = {} # os.listdir() is gonna raise a lot of access denied # exceptions in case of unprivileged user; that's fine: # lsof does the same so it's unlikely that we can to better. for fd in os.listdir("/proc/%s/fd" % self.pid): try: inode = os.readlink("/proc/%s/fd/%s" % (self.pid, fd)) except OSError: continue if inode.startswith('socket:['): # the process is using a socket inode = inode[8:][:-1] inodes[inode] = fd if not inodes: # no connections for this process return [] def process(file, family, type_): retlist = [] try: f = open(file, 'r') except IOError: # IPv6 not supported on this platform err = sys.exc_info()[1] if err.errno == errno.ENOENT and file.endswith('6'): return [] else: raise try: f.readline() # skip the first line for line in f: # IPv4 / IPv6 if family in (socket.AF_INET, socket.AF_INET6): _, laddr, raddr, status, _, _, _, _, _, inode = \ line.split()[:10] if inode in inodes: laddr = self._decode_address(laddr, family) raddr = self._decode_address(raddr, family) if type_ == socket.SOCK_STREAM: status = _TCP_STATES_TABLE[status] else: status = "" fd = int(inodes[inode]) conn = nt_connection(fd, family, type_, laddr, raddr, status) retlist.append(conn) else: raise ValueError(family) return retlist finally: f.close() tcp4 = ("tcp" , socket.AF_INET , socket.SOCK_STREAM) tcp6 = ("tcp6", socket.AF_INET6, socket.SOCK_STREAM) udp4 = ("udp" , socket.AF_INET , socket.SOCK_DGRAM) udp6 = ("udp6", socket.AF_INET6, socket.SOCK_DGRAM) tmap = { "all" : (tcp4, tcp6, udp4, udp6), "tcp" : (tcp4, tcp6), "tcp4" : (tcp4,), "tcp6" : (tcp6,), "udp" : (udp4, udp6), "udp4" : (udp4,), "udp6" : (udp6,), "inet" : (tcp4, tcp6, udp4, udp6), "inet4": (tcp4, udp4), "inet6": (tcp6, udp6), } if kind not in tmap: raise ValueError("invalid %r kind argument; choose between %s" % (kind, ', '.join([repr(x) for x in tmap]))) ret = [] for f, family, type_ in tmap[kind]: ret += process("/proc/net/%s" % f, family, type_) # raise NSP if the process disappeared on us os.stat('/proc/%s' % self.pid) return ret # --- lsof implementation # # def get_connections(self): # lsof = _psposix.LsofParser(self.pid, self._process_name) # return lsof.get_process_connections() @wrap_exceptions def get_num_fds(self): return len(os.listdir("/proc/%s/fd" % self.pid)) @wrap_exceptions def get_process_ppid(self): f = open("/proc/%s/status" % self.pid) try: for line in f: if line.startswith("PPid:"): # PPid: nnnn return int(line.split()[1]) raise RuntimeError("line not found") finally: f.close() @wrap_exceptions def get_process_uids(self): f = open("/proc/%s/status" % self.pid) try: for line in f: if line.startswith('Uid:'): _, real, effective, saved, fs = line.split() return nt_uids(int(real), int(effective), int(saved)) raise RuntimeError("line not found") finally: f.close() @wrap_exceptions def get_process_gids(self): f = open("/proc/%s/status" % self.pid) try: for line in f: if line.startswith('Gid:'): _, real, effective, saved, fs = line.split() return nt_gids(int(real), int(effective), int(saved)) raise RuntimeError("line not found") finally: f.close() @staticmethod def _decode_address(addr, family): """Accept an "ip:port" address as displayed in /proc/net/* and convert it into a human readable form, like: "0500000A:0016" -> ("10.0.0.5", 22) "0000000000000000FFFF00000100007F:9E49" -> ("::ffff:127.0.0.1", 40521) The IP address portion is a little or big endian four-byte hexadecimal number; that is, the least significant byte is listed first, so we need to reverse the order of the bytes to convert it to an IP address. The port is represented as a two-byte hexadecimal number. Reference: http://linuxdevcenter.com/pub/a/linux/2000/11/16/LinuxAdmin.html """ ip, port = addr.split(':') port = int(port, 16) if PY3: ip = ip.encode('ascii') # this usually refers to a local socket in listen mode with # no end-points connected if not port: return () if family == socket.AF_INET: # see: http://code.google.com/p/psutil/issues/detail?id=201 if sys.byteorder == 'little': ip = socket.inet_ntop(family, base64.b16decode(ip)[::-1]) else: ip = socket.inet_ntop(family, base64.b16decode(ip)) else: # IPv6 # old version - let's keep it, just in case... #ip = ip.decode('hex') #return socket.inet_ntop(socket.AF_INET6, # ''.join(ip[i:i+4][::-1] for i in xrange(0, 16, 4))) ip = base64.b16decode(ip) # see: http://code.google.com/p/psutil/issues/detail?id=201 if sys.byteorder == 'little': ip = socket.inet_ntop(socket.AF_INET6, struct.pack('>4I', *struct.unpack('<4I', ip))) else: ip = socket.inet_ntop(socket.AF_INET6, struct.pack('<4I', *struct.unpack('<4I', ip))) return (ip, port)