# Copyright 2011-2019, Damian Johnson and The Tor Project
# See LICENSE for licensing information
"""
Helper functions for querying process and system information from the /proc
contents. Fetching information this way provides huge performance benefits
over lookups via system utilities (ps, netstat, etc). For instance, resolving
connections this way cuts the runtime by around 90% verses the alternatives.
These functions may not work on all platforms (only Linux?).
The method for reading these files (and a little code) are borrowed from
`psutil <https://code.google.com/p/psutil/>`_, which was written by Jay Loden,
Dave Daeschler, Giampaolo Rodola' and is under the BSD license.
**These functions are not being vended to stem users. They may change in the
future, use them at your own risk.**
.. versionchanged:: 1.3.0
Dropped the get_* prefix from several function names. The old names still
work, but are deprecated aliases.
**Module Overview:**
::
is_available - checks if proc utilities can be used on this system
system_start_time - unix timestamp for when the system started
physical_memory - memory available on this system
cwd - provides the current working directory for a process
uid - provides the user id a process is running under
memory_usage - provides the memory usage of a process
stats - queries statistics about a process
file_descriptors_used - number of file descriptors used by a process
connections - provides the connections made by a process
.. data:: Stat (enum)
Types of data available via the :func:`~stem.util.proc.stats` function.
============== ===========
Stat Description
============== ===========
**COMMAND** command name under which the process is running
**CPU_UTIME** total user time spent on the process
**CPU_STIME** total system time spent on the process
**START_TIME** when this process began, in unix time
============== ===========
"""
import base64
import os
import platform
import socket
import sys
import time
import stem.prereq
import stem.util.connection
import stem.util.enum
import stem.util.str_tools
from stem.util import log
try:
# unavailable on windows (#19823)
import pwd
IS_PWD_AVAILABLE = True
except ImportError:
IS_PWD_AVAILABLE = False
if stem.prereq._is_lru_cache_available():
from functools import lru_cache
else:
from stem.util.lru_cache import lru_cache
# os.sysconf is only defined on unix
try:
CLOCK_TICKS = os.sysconf(os.sysconf_names['SC_CLK_TCK'])
except AttributeError:
CLOCK_TICKS = None
IS_LITTLE_ENDIAN = sys.byteorder == 'little'
ENCODED_ADDR = {} # cache of encoded ips to their decoded version
Stat = stem.util.enum.Enum(
('COMMAND', 'command'), ('CPU_UTIME', 'utime'),
('CPU_STIME', 'stime'), ('START_TIME', 'start time')
)
@lru_cache()
def is_available():
"""
Checks if proc information is available on this platform.
:returns: **True** if proc contents exist on this platform, **False** otherwise
"""
if platform.system() != 'Linux':
return False
else:
# list of process independent proc paths we use
proc_paths = ('/proc/stat', '/proc/meminfo', '/proc/net/tcp', '/proc/net/udp')
for path in proc_paths:
if not os.path.exists(path):
return False
return True
@lru_cache()
def system_start_time():
"""
Provides the unix time (seconds since epoch) when the system started.
:returns: **float** for the unix time of when the system started
:raises: **IOError** if it can't be determined
"""
start_time, parameter = time.time(), 'system start time'
btime_line = _get_line('/proc/stat', 'btime', parameter)
try:
result = float(btime_line.strip().split()[1])
_log_runtime(parameter, '/proc/stat[btime]', start_time)
return result
except:
exc = IOError('unable to parse the /proc/stat btime entry: %s' % btime_line)
_log_failure(parameter, exc)
raise exc
@lru_cache()
def physical_memory():
"""
Provides the total physical memory on the system in bytes.
:returns: **int** for the bytes of physical memory this system has
:raises: **IOError** if it can't be determined
"""
start_time, parameter = time.time(), 'system physical memory'
mem_total_line = _get_line('/proc/meminfo', 'MemTotal:', parameter)
try:
result = int(mem_total_line.split()[1]) * 1024
_log_runtime(parameter, '/proc/meminfo[MemTotal]', start_time)
return result
except:
exc = IOError('unable to parse the /proc/meminfo MemTotal entry: %s' % mem_total_line)
_log_failure(parameter, exc)
raise exc
def cwd(pid):
"""
Provides the current working directory for the given process.
:param int pid: process id of the process to be queried
:returns: **str** with the path of the working directory for the process
:raises: **IOError** if it can't be determined
"""
start_time, parameter = time.time(), 'cwd'
proc_cwd_link = '/proc/%s/cwd' % pid
if pid == 0:
cwd = ''
else:
try:
cwd = os.readlink(proc_cwd_link)
except OSError:
exc = IOError('unable to read %s' % proc_cwd_link)
_log_failure(parameter, exc)
raise exc
_log_runtime(parameter, proc_cwd_link, start_time)
return cwd
def uid(pid):
"""
Provides the user ID the given process is running under.
:param int pid: process id of the process to be queried
:returns: **int** with the user id for the owner of the process
:raises: **IOError** if it can't be determined
"""
start_time, parameter = time.time(), 'uid'
status_path = '/proc/%s/status' % pid
uid_line = _get_line(status_path, 'Uid:', parameter)
try:
result = int(uid_line.split()[1])
_log_runtime(parameter, '%s[Uid]' % status_path, start_time)
return result
except:
exc = IOError('unable to parse the %s Uid entry: %s' % (status_path, uid_line))
_log_failure(parameter, exc)
raise exc
def memory_usage(pid):
"""
Provides the memory usage in bytes for the given process.
:param int pid: process id of the process to be queried
:returns: **tuple** of two ints with the memory usage of the process, of the
form **(resident_size, virtual_size)**
:raises: **IOError** if it can't be determined
"""
# checks if this is the kernel process
if pid == 0:
return (0, 0)
start_time, parameter = time.time(), 'memory usage'
status_path = '/proc/%s/status' % pid
mem_lines = _get_lines(status_path, ('VmRSS:', 'VmSize:'), parameter)
try:
residentSize = int(mem_lines['VmRSS:'].split()[1]) * 1024
virtualSize = int(mem_lines['VmSize:'].split()[1]) * 1024
_log_runtime(parameter, '%s[VmRSS|VmSize]' % status_path, start_time)
return (residentSize, virtualSize)
except:
exc = IOError('unable to parse the %s VmRSS and VmSize entries: %s' % (status_path, ', '.join(mem_lines)))
_log_failure(parameter, exc)
raise exc
def stats(pid, *stat_types):
"""
Provides process specific information. See the :data:`~stem.util.proc.Stat`
enum for valid options.
:param int pid: process id of the process to be queried
:param Stat stat_types: information to be provided back
:returns: **tuple** with all of the requested statistics as strings
:raises: **IOError** if it can't be determined
"""
if CLOCK_TICKS is None:
raise IOError('Unable to look up SC_CLK_TCK')
start_time, parameter = time.time(), 'process %s' % ', '.join(stat_types)
# the stat file contains a single line, of the form...
# 8438 (tor) S 8407 8438 8407 34818 8438 4202496...
stat_path = '/proc/%s/stat' % pid
stat_line = _get_line(stat_path, str(pid), parameter)
# breaks line into component values
stat_comp = []
cmd_start, cmd_end = stat_line.find('('), stat_line.find(')')
if cmd_start != -1 and cmd_end != -1:
stat_comp.append(stat_line[:cmd_start])
stat_comp.append(stat_line[cmd_start + 1:cmd_end])
stat_comp += stat_line[cmd_end + 1:].split()
if len(stat_comp) < 44 and _is_float(stat_comp[13], stat_comp[14], stat_comp[21]):
exc = IOError('stat file had an unexpected format: %s' % stat_path)
_log_failure(parameter, exc)
raise exc
results = []
for stat_type in stat_types:
if stat_type == Stat.COMMAND:
if pid == 0:
results.append('sched')
else:
results.append(stat_comp[1])
elif stat_type == Stat.CPU_UTIME:
if pid == 0:
results.append('0')
else:
results.append(str(float(stat_comp[13]) / CLOCK_TICKS))
elif stat_type == Stat.CPU_STIME:
if pid == 0:
results.append('0')
else:
results.append(str(float(stat_comp[14]) / CLOCK_TICKS))
elif stat_type == Stat.START_TIME:
if pid == 0:
return system_start_time()
else:
# According to documentation, starttime is in field 21 and the unit is
# jiffies (clock ticks). We divide it for clock ticks, then add the
# uptime to get the seconds since the epoch.
p_start_time = float(stat_comp[21]) / CLOCK_TICKS
results.append(str(p_start_time + system_start_time()))
_log_runtime(parameter, stat_path, start_time)
return tuple(results)
def file_descriptors_used(pid):
"""
Provides the number of file descriptors currently being used by a process.
.. versionadded:: 1.3.0
:param int pid: process id of the process to be queried
:returns: **int** of the number of file descriptors used
:raises: **IOError** if it can't be determined
"""
try:
pid = int(pid)
if pid < 0:
raise IOError("Process pids can't be negative: %s" % pid)
except (ValueError, TypeError):
raise IOError('Process pid was non-numeric: %s' % pid)
try:
return len(os.listdir('/proc/%i/fd' % pid))
except Exception as exc:
raise IOError('Unable to check number of file descriptors used: %s' % exc)
def connections(pid = None, user = None):
"""
Queries connections from the proc contents. This matches netstat, lsof, and
friends but is much faster. If no **pid** or **user** are provided this
provides all present connections.
:param int pid: pid to provide connections for
:param str user: username to look up connections for
:returns: **list** of :class:`~stem.util.connection.Connection` instances
:raises: **IOError** if it can't be determined
"""
start_time, conn = time.time(), []
if pid:
parameter = 'connections for pid %s' % pid
try:
pid = int(pid)
if pid < 0:
raise IOError("Process pids can't be negative: %s" % pid)
except (ValueError, TypeError):
raise IOError('Process pid was non-numeric: %s' % pid)
elif user:
parameter = 'connections for user %s' % user
else:
parameter = 'all connections'
try:
if not IS_PWD_AVAILABLE:
raise IOError("This requires python's pwd module, which is unavailable on Windows.")
inodes = _inodes_for_sockets(pid) if pid else set()
process_uid = stem.util.str_tools._to_bytes(str(pwd.getpwnam(user).pw_uid)) if user else None
for proc_file_path in ('/proc/net/tcp', '/proc/net/tcp6', '/proc/net/udp', '/proc/net/udp6'):
if proc_file_path.endswith('6') and not os.path.exists(proc_file_path):
continue # ipv6 proc contents are optional
protocol = proc_file_path[10:].rstrip('6') # 'tcp' or 'udp'
is_ipv6 = proc_file_path.endswith('6')
try:
with open(proc_file_path, 'rb') as proc_file:
proc_file.readline() # skip the first line
for line in proc_file:
_, l_dst, r_dst, status, _, _, _, uid, _, inode = line.split()[:10]
if inodes and inode not in inodes:
continue
elif process_uid and uid != process_uid:
continue
elif protocol == 'tcp' and status != b'01':
continue # skip tcp connections that aren't yet established
div = l_dst.find(b':')
l_addr = _unpack_addr(l_dst[:div])
l_port = int(l_dst[div + 1:], 16)
div = r_dst.find(b':')
r_addr = _unpack_addr(r_dst[:div])
r_port = int(r_dst[div + 1:], 16)
if r_addr == '0.0.0.0' or r_addr == '0000:0000:0000:0000:0000:0000':
continue # no address
elif l_port == 0 or r_port == 0:
continue # no port
conn.append(stem.util.connection.Connection(l_addr, l_port, r_addr, r_port, protocol, is_ipv6))
except IOError as exc:
raise IOError("unable to read '%s': %s" % (proc_file_path, exc))
except Exception as exc:
raise IOError("unable to parse '%s': %s" % (proc_file_path, exc))
_log_runtime(parameter, '/proc/net/[tcp|udp]', start_time)
return conn
except IOError as exc:
_log_failure(parameter, exc)
raise
def _inodes_for_sockets(pid):
"""
Provides inodes in use by a process for its sockets.
:param int pid: process id of the process to be queried
:returns: **set** with inodes for its sockets
:raises: **IOError** if it can't be determined
"""
inodes = set()
try:
fd_contents = os.listdir('/proc/%s/fd' % pid)
except OSError as exc:
raise IOError('Unable to read our file descriptors: %s' % exc)
for fd in fd_contents:
fd_path = '/proc/%s/fd/%s' % (pid, fd)
try:
# File descriptor link, such as 'socket:[30899]'
fd_name = os.readlink(fd_path)
if fd_name.startswith('socket:['):
inodes.add(stem.util.str_tools._to_bytes(fd_name[8:-1]))
except OSError as exc:
if not os.path.exists(fd_path):
continue # descriptors may shift while we're in the middle of iterating over them
# most likely couldn't be read due to permissions
raise IOError('unable to determine file descriptor destination (%s): %s' % (exc, fd_path))
return inodes
def _unpack_addr(addr):
"""
Translates an address entry in the /proc/net/* contents to a human readable
form (`reference <http://linuxdevcenter.com/pub/a/linux/2000/11/16/LinuxAdmin.html>`_,
for instance:
::
"0500000A" -> "10.0.0.5"
"F804012A4A5190010000000002000000" -> "2a01:4f8:190:514a::2"
:param str addr: proc address entry to be decoded
:returns: **str** of the decoded address
"""
if addr not in ENCODED_ADDR:
if len(addr) == 8:
# IPv4 address
decoded = base64.b16decode(addr)[::-1] if IS_LITTLE_ENDIAN else base64.b16decode(addr)
ENCODED_ADDR[addr] = socket.inet_ntop(socket.AF_INET, decoded)
else:
# IPv6 address
if IS_LITTLE_ENDIAN:
# Group into eight characters, then invert in pairs...
#
# https://trac.torproject.org/projects/tor/ticket/18079#comment:24
inverted = []
for i in range(4):
grouping = addr[8 * i:8 * (i + 1)]
inverted += [grouping[2 * i:2 * (i + 1)] for i in range(4)][::-1]
encoded = b''.join(inverted)
else:
encoded = addr
ENCODED_ADDR[addr] = stem.util.connection.expand_ipv6_address(socket.inet_ntop(socket.AF_INET6, base64.b16decode(encoded)))
return ENCODED_ADDR[addr]
def _is_float(*value):
try:
for v in value:
float(v)
return True
except ValueError:
return False
def _get_line(file_path, line_prefix, parameter):
return _get_lines(file_path, (line_prefix, ), parameter)[line_prefix]
def _get_lines(file_path, line_prefixes, parameter):
"""
Fetches lines with the given prefixes from a file. This only provides back
the first instance of each prefix.
:param str file_path: path of the file to read
:param tuple line_prefixes: string prefixes of the lines to return
:param str parameter: description of the proc attribute being fetch
:returns: mapping of prefixes to the matching line
:raises: **IOError** if unable to read the file or can't find all of the prefixes
"""
try:
remaining_prefixes = list(line_prefixes)
proc_file, results = open(file_path), {}
for line in proc_file:
if not remaining_prefixes:
break # found everything we're looking for
for prefix in remaining_prefixes:
if line.startswith(prefix):
results[prefix] = line
remaining_prefixes.remove(prefix)
break
proc_file.close()
if remaining_prefixes:
if len(remaining_prefixes) == 1:
msg = '%s did not contain a %s entry' % (file_path, remaining_prefixes[0])
else:
msg = '%s did not contain %s entries' % (file_path, ', '.join(remaining_prefixes))
raise IOError(msg)
else:
return results
except IOError as exc:
_log_failure(parameter, exc)
raise
def _log_runtime(parameter, proc_location, start_time):
"""
Logs a message indicating a successful proc query.
:param str parameter: description of the proc attribute being fetch
:param str proc_location: proc files we were querying
:param int start_time: unix time for when this query was started
"""
runtime = time.time() - start_time
log.debug('proc call (%s): %s (runtime: %0.4f)' % (parameter, proc_location, runtime))
def _log_failure(parameter, exc):
"""
Logs a message indicating that the proc query failed.
:param str parameter: description of the proc attribute being fetch
:param Exception exc: exception that we're raising
"""
log.debug('proc call failed (%s): %s' % (parameter, exc))
# TODO: drop with stem 2.x
# We renamed our methods to drop a redundant 'get_*' prefix, so alias the old
# names for backward compatability.
get_system_start_time = system_start_time
get_physical_memory = physical_memory
get_cwd = cwd
get_uid = uid
get_memory_usage = memory_usage
get_stats = stats
get_connections = connections