class GlancesAmp(object):
"""Main class for Glances AMP."""
NAME = '?'
VERSION = '?'
DESCRIPTION = '?'
AUTHOR = '?'
EMAIL = '?'
def __init__(self, name=None, args=None):
"""Init AMP classe."""
logger.debug("AMP - Init {} version {}".format(self.NAME, self.VERSION))
# AMP name (= module name without glances_)
if name is None:
self.amp_name = self.__class__.__module__[len('glances_'):]
else:
self.amp_name = name
# Init the args
self.args = args
# Init the configs
self.configs = {}
# A timer is needed to only update every refresh seconds
# Init to 0 in order to update the AMP on startup
self.timer = Timer(0)
def load_config(self, config):
"""Load AMP parameters from the configuration file."""
# Read AMP confifuration.
# For ex, the AMP foo should have the following section:
#
# [foo]
# enable=true
# regex=\/usr\/bin\/nginx
# refresh=60
#
# and optionnaly:
#
# one_line=false
# option1=opt1
# ...
#
amp_section = 'amp_' + self.amp_name
if (hasattr(config, 'has_section') and
config.has_section(amp_section)):
logger.debug("AMP - {}: Load configuration".format(self.NAME))
for param, _ in config.items(amp_section):
try:
self.configs[param] = config.get_float_value(amp_section, param)
except ValueError:
self.configs[param] = config.get_value(amp_section, param).split(',')
if len(self.configs[param]) == 1:
self.configs[param] = self.configs[param][0]
logger.debug("AMP - {}: Load parameter: {} = {}".format(self.NAME, param, self.configs[param]))
else:
logger.debug("AMP - {}: Can not find section {} in the configuration file".format(self.NAME, self.amp_name))
return False
# enable, regex and refresh are mandatories
# if not configured then AMP is disabled
if self.enable():
for k in ['regex', 'refresh']:
if k not in self.configs:
logger.warning("AMP - {}: Can not find configuration key {} in section {}".format(self.NAME, k, self.amp_name))
self.configs['enable'] = 'false'
else:
logger.debug("AMP - {} is disabled".format(self.NAME))
# Init the count to 0
self.configs['count'] = 0
return self.enable()
def get(self, key):
"""Generic method to get the item in the AMP configuration"""
if key in self.configs:
return self.configs[key]
else:
return None
def enable(self):
"""Return True|False if the AMP is enabled in the configuration file (enable=true|false)."""
ret = self.get('enable')
if ret is None:
return False
else:
return ret.lower().startswith('true')
def regex(self):
"""Return regular expression used to identified the current application."""
return self.get('regex')
def refresh(self):
"""Return refresh time in seconds for the current application monitoring process."""
return self.get('refresh')
def one_line(self):
"""Return True|False if the AMP shoukd be displayed in oneline (one_lineline=true|false)."""
ret = self.get('one_line')
if ret is None:
return False
else:
return ret.lower().startswith('true')
def time_until_refresh(self):
"""Return time in seconds until refresh."""
return self.timer.get()
def should_update(self):
"""Return True is the AMP should be updated:
- AMP is enable
- only update every 'refresh' seconds
"""
if self.timer.finished():
self.timer.set(self.refresh())
self.timer.reset()
return self.enable()
return False
def set_count(self, count):
"""Set the number of processes matching the regex"""
self.configs['count'] = count
def count(self):
"""Get the number of processes matching the regex"""
return self.get('count')
def count_min(self):
"""Get the minimum number of processes"""
return self.get('countmin')
def count_max(self):
"""Get the maximum number of processes"""
return self.get('countmax')
def set_result(self, result, separator=''):
"""Store the result (string) into the result key of the AMP
if one_line is true then replace \n by separator
"""
if self.one_line():
self.configs['result'] = str(result).replace('\n', separator)
else:
self.configs['result'] = str(result)
def result(self):
""" Return the result of the AMP (as a string)"""
ret = self.get('result')
if ret is not None:
ret = u(ret)
return ret
def update_wrapper(self, process_list):
"""Wrapper for the children update"""
# Set the number of running process
self.set_count(len(process_list))
# Call the children update method
if self.should_update():
return self.update(process_list)
else:
return self.result()
class GlancesProcesses(object):
"""Get processed stats using the psutil library."""
def __init__(self, cache_timeout=60):
"""Init the class to collect stats about processes."""
# Add internals caches because PSUtil do not cache all the stats
# See: https://code.google.com/p/psutil/issues/detail?id=462
self.username_cache = {}
self.cmdline_cache = {}
# The internals caches will be cleaned each 'cache_timeout' seconds
self.cache_timeout = cache_timeout
self.cache_timer = Timer(self.cache_timeout)
# Init the io dict
# key = pid
# value = [ read_bytes_old, write_bytes_old ]
self.io_old = {}
# Wether or not to enable process tree
self._enable_tree = False
self.process_tree = None
# Init stats
self.auto_sort = True
self._sort_key = 'cpu_percent'
self.allprocesslist = []
self.processlist = []
self.processcount = {
'total': 0,
'running': 0,
'sleeping': 0,
'thread': 0
}
# Tag to enable/disable the processes stats (to reduce the Glances CPU consumption)
# Default is to enable the processes stats
self.disable_tag = False
# Extended stats for top process is enable by default
self.disable_extended_tag = False
# Maximum number of processes showed in the UI (None if no limit)
self._max_processes = None
# Process filter is a regular expression
self._process_filter = None
self._process_filter_re = None
# Whether or not to hide kernel threads
self.no_kernel_threads = False
def enable(self):
"""Enable process stats."""
self.disable_tag = False
self.update()
def disable(self):
"""Disable process stats."""
self.disable_tag = True
def enable_extended(self):
"""Enable extended process stats."""
self.disable_extended_tag = False
self.update()
def disable_extended(self):
"""Disable extended process stats."""
self.disable_extended_tag = True
@property
def max_processes(self):
"""Get the maximum number of processes showed in the UI."""
return self._max_processes
@max_processes.setter
def max_processes(self, value):
"""Set the maximum number of processes showed in the UI."""
self._max_processes = value
@property
def process_filter(self):
"""Get the process filter."""
return self._process_filter
@process_filter.setter
def process_filter(self, value):
"""Set the process filter."""
logger.info("Set process filter to {0}".format(value))
self._process_filter = value
if value is not None:
try:
self._process_filter_re = re.compile(value)
logger.debug("Process filter regex compilation OK: {0}".format(
self.process_filter))
except Exception:
logger.error(
"Cannot compile process filter regex: {0}".format(value))
self._process_filter_re = None
else:
self._process_filter_re = None
@property
def process_filter_re(self):
"""Get the process regular expression compiled."""
return self._process_filter_re
def is_filtered(self, value):
"""Return True if the value should be filtered."""
if self.process_filter is None:
# No filter => Not filtered
return False
else:
try:
return self.process_filter_re.match(' '.join(value)) is None
except AttributeError:
# Filter processes crashs with a bad regular expression pattern (issue #665)
return False
def disable_kernel_threads(self):
"""Ignore kernel threads in process list."""
self.no_kernel_threads = True
def enable_tree(self):
"""Enable process tree."""
self._enable_tree = True
def is_tree_enabled(self):
"""Return True if process tree is enabled, False instead."""
return self._enable_tree
@property
def sort_reverse(self):
"""Return True to sort processes in reverse 'key' order, False instead."""
if self.sort_key == 'name' or self.sort_key == 'username':
return False
return True
def __get_mandatory_stats(self, proc, procstat):
"""
Get mandatory_stats: need for the sorting/filter step.
=> cpu_percent, memory_percent, io_counters, name, cmdline
"""
procstat['mandatory_stats'] = True
# Process CPU, MEM percent and name
try:
procstat.update(
proc.as_dict(attrs=[
'username', 'cpu_percent', 'memory_percent', 'name',
'cpu_times'
],
ad_value=''))
except psutil.NoSuchProcess:
# Try/catch for issue #432
return None
if procstat['cpu_percent'] == '' or procstat['memory_percent'] == '':
# Do not display process if we cannot get the basic
# cpu_percent or memory_percent stats
return None
# Process command line (cached with internal cache)
try:
self.cmdline_cache[procstat['pid']]
except KeyError:
# Patch for issue #391
try:
self.cmdline_cache[procstat['pid']] = proc.cmdline()
except (AttributeError, UnicodeDecodeError, psutil.AccessDenied,
psutil.NoSuchProcess):
self.cmdline_cache[procstat['pid']] = ""
procstat['cmdline'] = self.cmdline_cache[procstat['pid']]
# Process IO
# procstat['io_counters'] is a list:
# [read_bytes, write_bytes, read_bytes_old, write_bytes_old, io_tag]
# If io_tag = 0 > Access denied (display "?")
# If io_tag = 1 > No access denied (display the IO rate)
# Note Disk IO stat not available on Mac OS
if not OSX:
try:
# Get the process IO counters
proc_io = proc.io_counters()
io_new = [proc_io.read_bytes, proc_io.write_bytes]
except (psutil.AccessDenied, psutil.NoSuchProcess,
NotImplementedError):
# Access denied to process IO (no root account)
# NoSuchProcess (process die between first and second grab)
# Put 0 in all values (for sort) and io_tag = 0 (for
# display)
procstat['io_counters'] = [0, 0] + [0, 0]
io_tag = 0
else:
# For IO rate computation
# Append saved IO r/w bytes
try:
procstat['io_counters'] = io_new + \
self.io_old[procstat['pid']]
except KeyError:
procstat['io_counters'] = io_new + [0, 0]
# then save the IO r/w bytes
self.io_old[procstat['pid']] = io_new
io_tag = 1
# Append the IO tag (for display)
procstat['io_counters'] += [io_tag]
return procstat
def __get_standard_stats(self, proc, procstat):
"""
Get standard_stats: for all the displayed processes.
=> username, status, memory_info, cpu_times
"""
procstat['standard_stats'] = True
# Process username (cached with internal cache)
try:
self.username_cache[procstat['pid']]
except KeyError:
try:
self.username_cache[procstat['pid']] = proc.username()
except psutil.NoSuchProcess:
self.username_cache[procstat['pid']] = "?"
except (KeyError, psutil.AccessDenied):
try:
self.username_cache[procstat['pid']] = proc.uids().real
except (KeyError, AttributeError, psutil.AccessDenied):
self.username_cache[procstat['pid']] = "?"
procstat['username'] = self.username_cache[procstat['pid']]
# Process status, nice, memory_info and cpu_times
try:
procstat.update(
proc.as_dict(
attrs=['status', 'nice', 'memory_info', 'cpu_times']))
except psutil.NoSuchProcess:
pass
else:
procstat['status'] = str(procstat['status'])[:1].upper()
return procstat
def __get_extended_stats(self, proc, procstat):
"""
Get extended_stats: only for top processes (see issue #403).
=> connections (UDP/TCP), memory_swap...
"""
procstat['extended_stats'] = True
# CPU affinity (Windows and Linux only)
try:
procstat.update(proc.as_dict(attrs=['cpu_affinity']))
except psutil.NoSuchProcess:
pass
except AttributeError:
procstat['cpu_affinity'] = None
# Memory extended
try:
procstat.update(proc.as_dict(attrs=['memory_info_ex']))
except psutil.NoSuchProcess:
pass
except AttributeError:
procstat['memory_info_ex'] = None
# Number of context switch
try:
procstat.update(proc.as_dict(attrs=['num_ctx_switches']))
except psutil.NoSuchProcess:
pass
except AttributeError:
procstat['num_ctx_switches'] = None
# Number of file descriptors (Unix only)
try:
procstat.update(proc.as_dict(attrs=['num_fds']))
except psutil.NoSuchProcess:
pass
except AttributeError:
procstat['num_fds'] = None
# Threads number
try:
procstat.update(proc.as_dict(attrs=['num_threads']))
except psutil.NoSuchProcess:
pass
except AttributeError:
procstat['num_threads'] = None
# Number of handles (Windows only)
if WINDOWS:
try:
procstat.update(proc.as_dict(attrs=['num_handles']))
except psutil.NoSuchProcess:
pass
else:
procstat['num_handles'] = None
# SWAP memory (Only on Linux based OS)
# http://www.cyberciti.biz/faq/linux-which-process-is-using-swap/
if LINUX:
try:
procstat['memory_swap'] = sum(
[v.swap for v in proc.memory_maps()])
except psutil.NoSuchProcess:
pass
except psutil.AccessDenied:
procstat['memory_swap'] = None
except Exception:
# Add a dirty except to handle the PsUtil issue #413
procstat['memory_swap'] = None
# Process network connections (TCP and UDP)
try:
procstat['tcp'] = len(proc.connections(kind="tcp"))
procstat['udp'] = len(proc.connections(kind="udp"))
except Exception:
procstat['tcp'] = None
procstat['udp'] = None
# IO Nice
# http://pythonhosted.org/psutil/#psutil.Process.ionice
if LINUX or WINDOWS:
try:
procstat.update(proc.as_dict(attrs=['ionice']))
except psutil.NoSuchProcess:
pass
else:
procstat['ionice'] = None
return procstat
def __get_process_stats(self,
proc,
mandatory_stats=True,
standard_stats=True,
extended_stats=False):
"""Get stats of running processes."""
# Process ID (always)
procstat = proc.as_dict(attrs=['pid'])
if mandatory_stats:
procstat = self.__get_mandatory_stats(proc, procstat)
if procstat is not None and standard_stats:
procstat = self.__get_standard_stats(proc, procstat)
if procstat is not None and extended_stats and not self.disable_extended_tag:
procstat = self.__get_extended_stats(proc, procstat)
return procstat
def update(self):
"""Update the processes stats."""
# Reset the stats
self.processlist = []
self.processcount = {
'total': 0,
'running': 0,
'sleeping': 0,
'thread': 0
}
# Do not process if disable tag is set
if self.disable_tag:
return
# Get the time since last update
time_since_update = getTimeSinceLastUpdate('process_disk')
# Build an internal dict with only mandatories stats (sort keys)
processdict = {}
excluded_processes = set()
for proc in psutil.process_iter():
# Ignore kernel threads if needed
if self.no_kernel_threads and not WINDOWS and is_kernel_thread(
proc):
continue
# If self.max_processes is None: Only retreive mandatory stats
# Else: retreive mandatory and standard stats
s = self.__get_process_stats(
proc,
mandatory_stats=True,
standard_stats=self.max_processes is None)
# Continue to the next process if it has to be filtered
if s is None or (self.is_filtered(s['cmdline'])
and self.is_filtered(s['name'])):
excluded_processes.add(proc)
continue
# Ok add the process to the list
processdict[proc] = s
# ignore the 'idle' process on Windows and *BSD
# ignore the 'kernel_task' process on OS X
# waiting for upstream patch from psutil
if (BSD and processdict[proc]['name'] == 'idle' or WINDOWS
and processdict[proc]['name'] == 'System Idle Process'
or OSX and processdict[proc]['name'] == 'kernel_task'):
continue
# Update processcount (global statistics)
try:
self.processcount[str(proc.status())] += 1
except KeyError:
# Key did not exist, create it
try:
self.processcount[str(proc.status())] = 1
except psutil.NoSuchProcess:
pass
except psutil.NoSuchProcess:
pass
else:
self.processcount['total'] += 1
# Update thread number (global statistics)
try:
self.processcount['thread'] += proc.num_threads()
except Exception:
pass
if self._enable_tree:
self.process_tree = ProcessTreeNode.build_tree(
processdict, self.sort_key, self.sort_reverse,
self.no_kernel_threads, excluded_processes)
for i, node in enumerate(self.process_tree):
# Only retreive stats for visible processes (max_processes)
if self.max_processes is not None and i >= self.max_processes:
break
# add standard stats
new_stats = self.__get_process_stats(node.process,
mandatory_stats=False,
standard_stats=True,
extended_stats=False)
if new_stats is not None:
node.stats.update(new_stats)
# Add a specific time_since_update stats for bitrate
node.stats['time_since_update'] = time_since_update
else:
# Process optimization
# Only retreive stats for visible processes (max_processes)
if self.max_processes is not None:
# Sort the internal dict and cut the top N (Return a list of tuple)
# tuple=key (proc), dict (returned by __get_process_stats)
try:
processiter = sorted(iteritems(processdict),
key=lambda x: x[1][self.sort_key],
reverse=self.sort_reverse)
except (KeyError, TypeError) as e:
logger.error("Cannot sort process list by {0}: {1}".format(
self.sort_key, e))
logger.error('{0}'.format(listitems(processdict)[0]))
# Fallback to all process (issue #423)
processloop = iteritems(processdict)
first = False
else:
processloop = processiter[0:self.max_processes]
first = True
else:
# Get all processes stats
processloop = iteritems(processdict)
first = False
for i in processloop:
# Already existing mandatory stats
procstat = i[1]
if self.max_processes is not None:
# Update with standard stats
# and extended stats but only for TOP (first) process
s = self.__get_process_stats(i[0],
mandatory_stats=False,
standard_stats=True,
extended_stats=first)
if s is None:
continue
procstat.update(s)
# Add a specific time_since_update stats for bitrate
procstat['time_since_update'] = time_since_update
# Update process list
self.processlist.append(procstat)
# Next...
first = False
# Build the all processes list used by the monitored list
self.allprocesslist = itervalues(processdict)
# Clean internals caches if timeout is reached
if self.cache_timer.finished():
self.username_cache = {}
self.cmdline_cache = {}
# Restart the timer
self.cache_timer.reset()
def getcount(self):
"""Get the number of processes."""
return self.processcount
def getalllist(self):
"""Get the allprocesslist."""
return self.allprocesslist
def getlist(self, sortedby=None):
"""Get the processlist."""
return self.processlist
def gettree(self):
"""Get the process tree."""
return self.process_tree
@property
def sort_key(self):
"""Get the current sort key."""
return self._sort_key
@sort_key.setter
def sort_key(self, key):
"""Set the current sort key."""
self._sort_key = key
class GlancesProcesses(object):
"""Get processed stats using the psutil library."""
def __init__(self, cache_timeout=60):
"""Init the class to collect stats about processes."""
# Add internals caches because PSUtil do not cache all the stats
# See: https://code.google.com/p/psutil/issues/detail?id=462
self.username_cache = {}
self.cmdline_cache = {}
# The internals caches will be cleaned each 'cache_timeout' seconds
self.cache_timeout = cache_timeout
self.cache_timer = Timer(self.cache_timeout)
# Init the io dict
# key = pid
# value = [ read_bytes_old, write_bytes_old ]
self.io_old = {}
# Wether or not to enable process tree
self._enable_tree = False
self.process_tree = None
# Init stats
self.auto_sort = True
self._sort_key = 'cpu_percent'
self.allprocesslist = []
self.processlist = []
self.processcount = {'total': 0, 'running': 0, 'sleeping': 0, 'thread': 0}
# Tag to enable/disable the processes stats (to reduce the Glances CPU consumption)
# Default is to enable the processes stats
self.disable_tag = False
# Extended stats for top process is enable by default
self.disable_extended_tag = False
# Maximum number of processes showed in the UI (None if no limit)
self._max_processes = None
# Process filter is a regular expression
self._process_filter = None
self._process_filter_re = None
# Whether or not to hide kernel threads
self.no_kernel_threads = False
def enable(self):
"""Enable process stats."""
self.disable_tag = False
self.update()
def disable(self):
"""Disable process stats."""
self.disable_tag = True
def enable_extended(self):
"""Enable extended process stats."""
self.disable_extended_tag = False
self.update()
def disable_extended(self):
"""Disable extended process stats."""
self.disable_extended_tag = True
@property
def max_processes(self):
"""Get the maximum number of processes showed in the UI."""
return self._max_processes
@max_processes.setter
def max_processes(self, value):
"""Set the maximum number of processes showed in the UI."""
self._max_processes = value
@property
def process_filter(self):
"""Get the process filter."""
return self._process_filter
@process_filter.setter
def process_filter(self, value):
"""Set the process filter."""
logger.info("Set process filter to {0}".format(value))
self._process_filter = value
if value is not None:
try:
self._process_filter_re = re.compile(value)
logger.debug("Process filter regex compilation OK: {0}".format(self.process_filter))
except Exception:
logger.error("Cannot compile process filter regex: {0}".format(value))
self._process_filter_re = None
else:
self._process_filter_re = None
@property
def process_filter_re(self):
"""Get the process regular expression compiled."""
return self._process_filter_re
def is_filtered(self, value):
"""Return True if the value should be filtered."""
if self.process_filter is None:
# No filter => Not filtered
return False
else:
try:
return self.process_filter_re.match(' '.join(value)) is None
except AttributeError:
# Filter processes crashs with a bad regular expression pattern (issue #665)
return False
def disable_kernel_threads(self):
"""Ignore kernel threads in process list."""
self.no_kernel_threads = True
def enable_tree(self):
"""Enable process tree."""
self._enable_tree = True
def is_tree_enabled(self):
"""Return True if process tree is enabled, False instead."""
return self._enable_tree
@property
def sort_reverse(self):
"""Return True to sort processes in reverse 'key' order, False instead."""
if self.sort_key == 'name' or self.sort_key == 'username':
return False
return True
def __get_mandatory_stats(self, proc, procstat):
"""
Get mandatory_stats: need for the sorting/filter step.
=> cpu_percent, memory_percent, io_counters, name, cmdline
"""
procstat['mandatory_stats'] = True
# Process CPU, MEM percent and name
try:
procstat.update(proc.as_dict(
attrs=['username', 'cpu_percent', 'memory_percent',
'name', 'cpu_times'], ad_value=''))
except psutil.NoSuchProcess:
# Try/catch for issue #432
return None
if procstat['cpu_percent'] == '' or procstat['memory_percent'] == '':
# Do not display process if we cannot get the basic
# cpu_percent or memory_percent stats
return None
# Process command line (cached with internal cache)
try:
self.cmdline_cache[procstat['pid']]
except KeyError:
# Patch for issue #391
try:
self.cmdline_cache[procstat['pid']] = proc.cmdline()
except (AttributeError, UnicodeDecodeError, psutil.AccessDenied, psutil.NoSuchProcess):
self.cmdline_cache[procstat['pid']] = ""
procstat['cmdline'] = self.cmdline_cache[procstat['pid']]
# Process IO
# procstat['io_counters'] is a list:
# [read_bytes, write_bytes, read_bytes_old, write_bytes_old, io_tag]
# If io_tag = 0 > Access denied (display "?")
# If io_tag = 1 > No access denied (display the IO rate)
# Note Disk IO stat not available on Mac OS
if not OSX:
try:
# Get the process IO counters
proc_io = proc.io_counters()
io_new = [proc_io.read_bytes, proc_io.write_bytes]
except (psutil.AccessDenied, psutil.NoSuchProcess, NotImplementedError):
# Access denied to process IO (no root account)
# NoSuchProcess (process die between first and second grab)
# Put 0 in all values (for sort) and io_tag = 0 (for
# display)
procstat['io_counters'] = [0, 0] + [0, 0]
io_tag = 0
else:
# For IO rate computation
# Append saved IO r/w bytes
try:
procstat['io_counters'] = io_new + \
self.io_old[procstat['pid']]
except KeyError:
procstat['io_counters'] = io_new + [0, 0]
# then save the IO r/w bytes
self.io_old[procstat['pid']] = io_new
io_tag = 1
# Append the IO tag (for display)
procstat['io_counters'] += [io_tag]
return procstat
def __get_standard_stats(self, proc, procstat):
"""
Get standard_stats: for all the displayed processes.
=> username, status, memory_info, cpu_times
"""
procstat['standard_stats'] = True
# Process username (cached with internal cache)
try:
self.username_cache[procstat['pid']]
except KeyError:
try:
self.username_cache[procstat['pid']] = proc.username()
except psutil.NoSuchProcess:
self.username_cache[procstat['pid']] = "?"
except (KeyError, psutil.AccessDenied):
try:
self.username_cache[procstat['pid']] = proc.uids().real
except (KeyError, AttributeError, psutil.AccessDenied):
self.username_cache[procstat['pid']] = "?"
procstat['username'] = self.username_cache[procstat['pid']]
# Process status, nice, memory_info and cpu_times
try:
procstat.update(
proc.as_dict(attrs=['status', 'nice', 'memory_info', 'cpu_times']))
except psutil.NoSuchProcess:
pass
else:
procstat['status'] = str(procstat['status'])[:1].upper()
return procstat
def __get_extended_stats(self, proc, procstat):
"""
Get extended_stats: only for top processes (see issue #403).
=> connections (UDP/TCP), memory_swap...
"""
procstat['extended_stats'] = True
# CPU affinity (Windows and Linux only)
try:
procstat.update(proc.as_dict(attrs=['cpu_affinity']))
except psutil.NoSuchProcess:
pass
except AttributeError:
procstat['cpu_affinity'] = None
# Memory extended
try:
procstat.update(proc.as_dict(attrs=['memory_info_ex']))
except psutil.NoSuchProcess:
pass
except AttributeError:
procstat['memory_info_ex'] = None
# Number of context switch
try:
procstat.update(proc.as_dict(attrs=['num_ctx_switches']))
except psutil.NoSuchProcess:
pass
except AttributeError:
procstat['num_ctx_switches'] = None
# Number of file descriptors (Unix only)
try:
procstat.update(proc.as_dict(attrs=['num_fds']))
except psutil.NoSuchProcess:
pass
except AttributeError:
procstat['num_fds'] = None
# Threads number
try:
procstat.update(proc.as_dict(attrs=['num_threads']))
except psutil.NoSuchProcess:
pass
except AttributeError:
procstat['num_threads'] = None
# Number of handles (Windows only)
if WINDOWS:
try:
procstat.update(proc.as_dict(attrs=['num_handles']))
except psutil.NoSuchProcess:
pass
else:
procstat['num_handles'] = None
# SWAP memory (Only on Linux based OS)
# http://www.cyberciti.biz/faq/linux-which-process-is-using-swap/
if LINUX:
try:
procstat['memory_swap'] = sum(
[v.swap for v in proc.memory_maps()])
except psutil.NoSuchProcess:
pass
except psutil.AccessDenied:
procstat['memory_swap'] = None
except Exception:
# Add a dirty except to handle the PsUtil issue #413
procstat['memory_swap'] = None
# Process network connections (TCP and UDP)
try:
procstat['tcp'] = len(proc.connections(kind="tcp"))
procstat['udp'] = len(proc.connections(kind="udp"))
except Exception:
procstat['tcp'] = None
procstat['udp'] = None
# IO Nice
# http://pythonhosted.org/psutil/#psutil.Process.ionice
if LINUX or WINDOWS:
try:
procstat.update(proc.as_dict(attrs=['ionice']))
except psutil.NoSuchProcess:
pass
else:
procstat['ionice'] = None
return procstat
def __get_process_stats(self, proc,
mandatory_stats=True,
standard_stats=True,
extended_stats=False):
"""Get stats of running processes."""
# Process ID (always)
procstat = proc.as_dict(attrs=['pid'])
if mandatory_stats:
procstat = self.__get_mandatory_stats(proc, procstat)
if procstat is not None and standard_stats:
procstat = self.__get_standard_stats(proc, procstat)
if procstat is not None and extended_stats and not self.disable_extended_tag:
procstat = self.__get_extended_stats(proc, procstat)
return procstat
def update(self):
"""Update the processes stats."""
# Reset the stats
self.processlist = []
self.processcount = {'total': 0, 'running': 0, 'sleeping': 0, 'thread': 0}
# Do not process if disable tag is set
if self.disable_tag:
return
# Get the time since last update
time_since_update = getTimeSinceLastUpdate('process_disk')
# Build an internal dict with only mandatories stats (sort keys)
processdict = {}
excluded_processes = set()
for proc in psutil.process_iter():
# Ignore kernel threads if needed
if self.no_kernel_threads and not WINDOWS and is_kernel_thread(proc):
continue
# If self.max_processes is None: Only retreive mandatory stats
# Else: retreive mandatory and standard stats
s = self.__get_process_stats(proc,
mandatory_stats=True,
standard_stats=self.max_processes is None)
# Continue to the next process if it has to be filtered
if s is None or (self.is_filtered(s['cmdline']) and self.is_filtered(s['name'])):
excluded_processes.add(proc)
continue
# Ok add the process to the list
processdict[proc] = s
# ignore the 'idle' process on Windows and *BSD
# ignore the 'kernel_task' process on OS X
# waiting for upstream patch from psutil
if (BSD and processdict[proc]['name'] == 'idle' or
WINDOWS and processdict[proc]['name'] == 'System Idle Process' or
OSX and processdict[proc]['name'] == 'kernel_task'):
continue
# Update processcount (global statistics)
try:
self.processcount[str(proc.status())] += 1
except KeyError:
# Key did not exist, create it
try:
self.processcount[str(proc.status())] = 1
except psutil.NoSuchProcess:
pass
except psutil.NoSuchProcess:
pass
else:
self.processcount['total'] += 1
# Update thread number (global statistics)
try:
self.processcount['thread'] += proc.num_threads()
except Exception:
pass
if self._enable_tree:
self.process_tree = ProcessTreeNode.build_tree(processdict,
self.sort_key,
self.sort_reverse,
self.no_kernel_threads,
excluded_processes)
for i, node in enumerate(self.process_tree):
# Only retreive stats for visible processes (max_processes)
if self.max_processes is not None and i >= self.max_processes:
break
# add standard stats
new_stats = self.__get_process_stats(node.process,
mandatory_stats=False,
standard_stats=True,
extended_stats=False)
if new_stats is not None:
node.stats.update(new_stats)
# Add a specific time_since_update stats for bitrate
node.stats['time_since_update'] = time_since_update
else:
# Process optimization
# Only retreive stats for visible processes (max_processes)
if self.max_processes is not None:
# Sort the internal dict and cut the top N (Return a list of tuple)
# tuple=key (proc), dict (returned by __get_process_stats)
try:
processiter = sorted(iteritems(processdict),
key=lambda x: x[1][self.sort_key],
reverse=self.sort_reverse)
except (KeyError, TypeError) as e:
logger.error("Cannot sort process list by {0}: {1}".format(self.sort_key, e))
logger.error('{0}'.format(listitems(processdict)[0]))
# Fallback to all process (issue #423)
processloop = iteritems(processdict)
first = False
else:
processloop = processiter[0:self.max_processes]
first = True
else:
# Get all processes stats
processloop = iteritems(processdict)
first = False
for i in processloop:
# Already existing mandatory stats
procstat = i[1]
if self.max_processes is not None:
# Update with standard stats
# and extended stats but only for TOP (first) process
s = self.__get_process_stats(i[0],
mandatory_stats=False,
standard_stats=True,
extended_stats=first)
if s is None:
continue
procstat.update(s)
# Add a specific time_since_update stats for bitrate
procstat['time_since_update'] = time_since_update
# Update process list
self.processlist.append(procstat)
# Next...
first = False
# Build the all processes list used by the monitored list
self.allprocesslist = itervalues(processdict)
# Clean internals caches if timeout is reached
if self.cache_timer.finished():
self.username_cache = {}
self.cmdline_cache = {}
# Restart the timer
self.cache_timer.reset()
def getcount(self):
"""Get the number of processes."""
return self.processcount
def getalllist(self):
"""Get the allprocesslist."""
return self.allprocesslist
def getlist(self, sortedby=None):
"""Get the processlist."""
return self.processlist
def gettree(self):
"""Get the process tree."""
return self.process_tree
@property
def sort_key(self):
"""Get the current sort key."""
return self._sort_key
@sort_key.setter
def sort_key(self, key):
"""Set the current sort key."""
self._sort_key = key
class GlancesProcesses(object):
"""Get processed stats using the psutil library."""
def __init__(self, cache_timeout=60):
"""Init the class to collect stats about processes."""
# Add internals caches because PSUtil do not cache all the stats
# See: https://code.google.com/p/psutil/issues/detail?id=462
self.username_cache = {}
self.cmdline_cache = {}
# The internals caches will be cleaned each 'cache_timeout' seconds
self.cache_timeout = cache_timeout
self.cache_timer = Timer(self.cache_timeout)
# Init the io dict
# key = pid
# value = [ read_bytes_old, write_bytes_old ]
self.io_old = {}
# Wether or not to enable process tree
self._enable_tree = False
self.process_tree = None
# Init stats
self.auto_sort = True
self._sort_key = 'cpu_percent'
self.allprocesslist = []
self.processlist = []
self.reset_processcount()
# Tag to enable/disable the processes stats (to reduce the Glances CPU consumption)
# Default is to enable the processes stats
self.disable_tag = False
# Extended stats for top process is enable by default
self.disable_extended_tag = False
# Maximum number of processes showed in the UI (None if no limit)
self._max_processes = None
# Process filter is a regular expression
self._filter = GlancesFilter()
# Whether or not to hide kernel threads
self.no_kernel_threads = False
# Store maximums values in a dict
# Used in the UI to highlight the maximum value
self._max_values_list = ('cpu_percent', 'memory_percent')
# { 'cpu_percent': 0.0, 'memory_percent': 0.0 }
self._max_values = {}
self.reset_max_values()
def reset_processcount(self):
self.processcount = {
'total': 0,
'running': 0,
'sleeping': 0,
'thread': 0,
'pid_max': None
}
def enable(self):
"""Enable process stats."""
self.disable_tag = False
self.update()
def disable(self):
"""Disable process stats."""
self.disable_tag = True
def enable_extended(self):
"""Enable extended process stats."""
self.disable_extended_tag = False
self.update()
def disable_extended(self):
"""Disable extended process stats."""
self.disable_extended_tag = True
@property
def pid_max(self):
"""
Get the maximum PID value.
On Linux, the value is read from the `/proc/sys/kernel/pid_max` file.
From `man 5 proc`:
The default value for this file, 32768, results in the same range of
PIDs as on earlier kernels. On 32-bit platfroms, 32768 is the maximum
value for pid_max. On 64-bit systems, pid_max can be set to any value
up to 2^22 (PID_MAX_LIMIT, approximately 4 million).
If the file is unreadable or not available for whatever reason,
returns None.
Some other OSes:
- On FreeBSD and macOS the maximum is 99999.
- On OpenBSD >= 6.0 the maximum is 99999 (was 32766).
- On NetBSD the maximum is 30000.
:returns: int or None
"""
if LINUX:
# XXX: waiting for https://github.com/giampaolo/psutil/issues/720
try:
with open('/proc/sys/kernel/pid_max', 'rb') as f:
return int(f.read())
except (OSError, IOError):
return None
@property
def max_processes(self):
"""Get the maximum number of processes showed in the UI."""
return self._max_processes
@max_processes.setter
def max_processes(self, value):
"""Set the maximum number of processes showed in the UI."""
self._max_processes = value
@property
def process_filter_input(self):
"""Get the process filter (given by the user)."""
return self._filter.filter_input
@property
def process_filter(self):
"""Get the process filter (current apply filter)."""
return self._filter.filter
@process_filter.setter
def process_filter(self, value):
"""Set the process filter."""
self._filter.filter = value
@property
def process_filter_key(self):
"""Get the process filter key."""
return self._filter.filter_key
@property
def process_filter_re(self):
"""Get the process regular expression compiled."""
return self._filter.filter_re
def disable_kernel_threads(self):
"""Ignore kernel threads in process list."""
self.no_kernel_threads = True
def enable_tree(self):
"""Enable process tree."""
self._enable_tree = True
def is_tree_enabled(self):
"""Return True if process tree is enabled, False instead."""
return self._enable_tree
@property
def sort_reverse(self):
"""Return True to sort processes in reverse 'key' order, False instead."""
if self.sort_key == 'name' or self.sort_key == 'username':
return False
return True
def max_values(self):
"""Return the max values dict."""
return self._max_values
def get_max_values(self, key):
"""Get the maximum values of the given stat (key)."""
return self._max_values[key]
def set_max_values(self, key, value):
"""Set the maximum value for a specific stat (key)."""
self._max_values[key] = value
def reset_max_values(self):
"""Reset the maximum values dict."""
self._max_values = {}
for k in self._max_values_list:
self._max_values[k] = 0.0
def __get_mandatory_stats(self, proc, procstat):
"""
Get mandatory_stats: for all processes.
Needed for the sorting/filter step.
Stats grabbed inside this method:
* 'name', 'cpu_times', 'status', 'ppid'
* 'username', 'cpu_percent', 'memory_percent'
"""
procstat['mandatory_stats'] = True
# Name, cpu_times, status and ppid stats are in the same /proc file
# Optimisation fir issue #958
try:
procstat.update(
proc.as_dict(attrs=['name', 'cpu_times', 'status', 'ppid'],
ad_value=''))
except psutil.NoSuchProcess:
# Try/catch for issue #432 (process no longer exist)
return None
else:
procstat['status'] = str(procstat['status'])[:1].upper()
try:
procstat.update(
proc.as_dict(
attrs=['username', 'cpu_percent', 'memory_percent'],
ad_value=''))
except psutil.NoSuchProcess:
# Try/catch for issue #432 (process no longer exist)
return None
if procstat['cpu_percent'] == '' or procstat['memory_percent'] == '':
# Do not display process if we cannot get the basic
# cpu_percent or memory_percent stats
return None
# Compute the maximum value for cpu_percent and memory_percent
for k in self._max_values_list:
if procstat[k] > self.get_max_values(k):
self.set_max_values(k, procstat[k])
# Process command line (cached with internal cache)
if procstat['pid'] not in self.cmdline_cache:
# Patch for issue #391
try:
self.cmdline_cache[procstat['pid']] = proc.cmdline()
except (AttributeError, UnicodeDecodeError, psutil.AccessDenied,
psutil.NoSuchProcess, psutil.WindowsError):
self.cmdline_cache[procstat['pid']] = ""
procstat['cmdline'] = self.cmdline_cache[procstat['pid']]
# Process IO
# procstat['io_counters'] is a list:
# [read_bytes, write_bytes, read_bytes_old, write_bytes_old, io_tag]
# If io_tag = 0 > Access denied (display "?")
# If io_tag = 1 > No access denied (display the IO rate)
# Availability: all platforms except macOS and Illumos/Solaris
try:
# Get the process IO counters
proc_io = proc.io_counters()
io_new = [proc_io.read_bytes, proc_io.write_bytes]
except (psutil.AccessDenied, psutil.NoSuchProcess,
NotImplementedError):
# Access denied to process IO (no root account)
# NoSuchProcess (process die between first and second grab)
# Put 0 in all values (for sort) and io_tag = 0 (for display)
procstat['io_counters'] = [0, 0] + [0, 0]
io_tag = 0
except AttributeError:
return procstat
else:
# For IO rate computation
# Append saved IO r/w bytes
try:
procstat['io_counters'] = io_new + self.io_old[procstat['pid']]
except KeyError:
procstat['io_counters'] = io_new + [0, 0]
# then save the IO r/w bytes
self.io_old[procstat['pid']] = io_new
io_tag = 1
# Append the IO tag (for display)
procstat['io_counters'] += [io_tag]
return procstat
def __get_standard_stats(self, proc, procstat):
"""
Get standard_stats: only for displayed processes.
Stats grabbed inside this method:
* nice and memory_info
"""
procstat['standard_stats'] = True
# Process nice and memory_info (issue #926)
try:
procstat.update(proc.as_dict(attrs=['nice', 'memory_info']))
except psutil.NoSuchProcess:
pass
return procstat
def __get_extended_stats(self, proc, procstat):
"""
Get extended stats, only for top processes (see issue #403).
- cpu_affinity (Linux, Windows, FreeBSD)
- ionice (Linux and Windows > Vista)
- memory_full_info (Linux)
- num_ctx_switches (not available on Illumos/Solaris)
- num_fds (Unix-like)
- num_handles (Windows)
- num_threads (not available on *BSD)
- memory_maps (only swap, Linux)
https://www.cyberciti.biz/faq/linux-which-process-is-using-swap/
- connections (TCP and UDP)
"""
procstat['extended_stats'] = True
for stat in [
'cpu_affinity', 'ionice', 'memory_full_info',
'num_ctx_switches', 'num_fds', 'num_handles', 'num_threads'
]:
try:
procstat.update(proc.as_dict(attrs=[stat]))
except psutil.NoSuchProcess:
pass
# XXX: psutil>=4.3.1 raises ValueError while <4.3.1 raises AttributeError
except (ValueError, AttributeError):
procstat[stat] = None
if LINUX:
try:
procstat['memory_swap'] = sum(
[v.swap for v in proc.memory_maps()])
except psutil.NoSuchProcess:
pass
except (psutil.AccessDenied, TypeError, NotImplementedError):
# NotImplementedError: /proc/${PID}/smaps file doesn't exist
# on kernel < 2.6.14 or CONFIG_MMU kernel configuration option
# is not enabled (see psutil #533/glances #413).
# XXX: Remove TypeError once we'll drop psutil < 3.0.0.
procstat['memory_swap'] = None
try:
procstat['tcp'] = len(proc.connections(kind="tcp"))
procstat['udp'] = len(proc.connections(kind="udp"))
except psutil.AccessDenied:
procstat['tcp'] = None
procstat['udp'] = None
return procstat
def __get_process_stats(self,
proc,
mandatory_stats=True,
standard_stats=True,
extended_stats=False):
"""Get stats of a running processes."""
# Process ID (always)
procstat = proc.as_dict(attrs=['pid'])
if mandatory_stats:
procstat = self.__get_mandatory_stats(proc, procstat)
if procstat is not None and standard_stats:
procstat = self.__get_standard_stats(proc, procstat)
if procstat is not None and extended_stats and not self.disable_extended_tag:
procstat = self.__get_extended_stats(proc, procstat)
return procstat
def update(self):
"""Update the processes stats."""
# Reset the stats
self.processlist = []
self.reset_processcount()
# Do not process if disable tag is set
if self.disable_tag:
return
# Get the time since last update
time_since_update = getTimeSinceLastUpdate('process_disk')
# Reset the max dict
self.reset_max_values()
# Update the maximum process ID (pid) number
self.processcount['pid_max'] = self.pid_max
# Build an internal dict with only mandatories stats (sort keys)
processdict = {}
excluded_processes = set()
for proc in psutil.process_iter():
# Ignore kernel threads if needed
if self.no_kernel_threads and not WINDOWS and is_kernel_thread(
proc):
continue
# If self.max_processes is None: Only retrieve mandatory stats
# Else: retrieve mandatory and standard stats
s = self.__get_process_stats(
proc,
mandatory_stats=True,
standard_stats=self.max_processes is None)
# Check if s is note None (issue #879)
# ignore the 'idle' process on Windows and *BSD
# ignore the 'kernel_task' process on macOS
# waiting for upstream patch from psutil
if (s is None or BSD and s['name'] == 'idle'
or WINDOWS and s['name'] == 'System Idle Process'
or MACOS and s['name'] == 'kernel_task'):
continue
# Continue to the next process if it has to be filtered
if self._filter.is_filtered(s):
excluded_processes.add(proc)
continue
# Ok add the process to the list
processdict[proc] = s
# Update processcount (global statistics)
try:
self.processcount[str(proc.status())] += 1
except KeyError:
# Key did not exist, create it
try:
self.processcount[str(proc.status())] = 1
except psutil.NoSuchProcess:
pass
except psutil.NoSuchProcess:
pass
else:
self.processcount['total'] += 1
# Update thread number (global statistics)
try:
self.processcount['thread'] += proc.num_threads()
except Exception:
pass
if self._enable_tree:
self.process_tree = ProcessTreeNode.build_tree(
processdict, self.sort_key, self.sort_reverse,
self.no_kernel_threads, excluded_processes)
for i, node in enumerate(self.process_tree):
# Only retreive stats for visible processes (max_processes)
if self.max_processes is not None and i >= self.max_processes:
break
# add standard stats
new_stats = self.__get_process_stats(node.process,
mandatory_stats=False,
standard_stats=True,
extended_stats=False)
if new_stats is not None:
node.stats.update(new_stats)
# Add a specific time_since_update stats for bitrate
node.stats['time_since_update'] = time_since_update
else:
# Process optimization
# Only retreive stats for visible processes (max_processes)
if self.max_processes is not None:
# Sort the internal dict and cut the top N (Return a list of tuple)
# tuple=key (proc), dict (returned by __get_process_stats)
try:
processiter = sorted(iteritems(processdict),
key=lambda x: x[1][self.sort_key],
reverse=self.sort_reverse)
except (KeyError, TypeError) as e:
logger.error("Cannot sort process list by {}: {}".format(
self.sort_key, e))
logger.error('{}'.format(listitems(processdict)[0]))
# Fallback to all process (issue #423)
processloop = iteritems(processdict)
first = False
else:
processloop = processiter[0:self.max_processes]
first = True
else:
# Get all processes stats
processloop = iteritems(processdict)
first = False
for i in processloop:
# Already existing mandatory stats
procstat = i[1]
if self.max_processes is not None:
# Update with standard stats
# and extended stats but only for TOP (first) process
s = self.__get_process_stats(i[0],
mandatory_stats=False,
standard_stats=True,
extended_stats=first)
if s is None:
continue
procstat.update(s)
# Add a specific time_since_update stats for bitrate
procstat['time_since_update'] = time_since_update
# Update process list
self.processlist.append(procstat)
# Next...
first = False
# Build the all processes list used by the AMPs
self.allprocesslist = [p for p in itervalues(processdict)]
# Clean internals caches if timeout is reached
if self.cache_timer.finished():
self.username_cache = {}
self.cmdline_cache = {}
# Restart the timer
self.cache_timer.reset()
def getcount(self):
"""Get the number of processes."""
return self.processcount
def getalllist(self):
"""Get the allprocesslist."""
return self.allprocesslist
def getlist(self, sortedby=None):
"""Get the processlist."""
return self.processlist
def gettree(self):
"""Get the process tree."""
return self.process_tree
@property
def sort_key(self):
"""Get the current sort key."""
return self._sort_key
@sort_key.setter
def sort_key(self, key):
"""Set the current sort key."""
self._sort_key = key
class Export(GlancesExport):
"""This class manages the Graph export module."""
def __init__(self, config=None, args=None):
"""Init the export IF."""
super(Export, self).__init__(config=config, args=args)
# Load the Graph configuration file section (is exists)
self.export_enable = self.load_conf('graph',
options=['path',
'generate_every',
'width',
'height',
'style'])
# Manage options (command line arguments overwrite configuration file)
self.path = args.export_graph_path or self.path
self.generate_every = int(getattr(self, 'generate_every', 0))
self.width = int(getattr(self, 'width', 800))
self.height = int(getattr(self, 'height', 600))
self.style = getattr(pygal.style,
getattr(self, 'style', 'DarkStyle'),
pygal.style.DarkStyle)
# Create export folder
try:
os.makedirs(self.path)
except OSError as e:
if e.errno != errno.EEXIST:
logger.critical("Cannot create the Graph output folder {} ({})".format(self.path, e))
sys.exit(2)
# Check if output folder is writeable
try:
tempfile.TemporaryFile(dir=self.path)
except OSError as e:
logger.critical("Graph output folder {} is not writeable".format(self.path))
sys.exit(2)
logger.info("Graphs will be created in the {} folder".format(self.path))
logger.info("Graphs will be created when 'g' key is pressed (in the CLI interface)")
if self.generate_every != 0:
logger.info("Graphs will be created automatically every {} seconds".format(self.generate_every))
# Start the timer
self._timer = Timer(self.generate_every)
else:
self._timer = None
def exit(self):
"""Close the files."""
logger.debug("Finalise export interface %s" % self.export_name)
def update(self, stats):
"""Generate Graph file in the output folder."""
if self.generate_every != 0 and self._timer.finished():
self.args.generate_graph = True
self._timer.reset()
if not self.args.generate_graph:
return
plugins = stats.getPluginsList()
for plugin_name in plugins:
plugin = stats._plugins[plugin_name]
if plugin_name in self.plugins_to_export():
self.export(plugin_name, plugin.get_export_history())
logger.info("Graphs created in the folder {}".format(self.path))
self.args.generate_graph = False
def export(self, title, data):
"""Generate graph from the data.
Example for the mem plugin:
{'percent': [
(datetime.datetime(2018, 3, 24, 16, 27, 47, 282070), 51.8),
(datetime.datetime(2018, 3, 24, 16, 27, 47, 540999), 51.9),
(datetime.datetime(2018, 3, 24, 16, 27, 50, 653390), 52.0),
(datetime.datetime(2018, 3, 24, 16, 27, 53, 749702), 52.0),
(datetime.datetime(2018, 3, 24, 16, 27, 56, 825660), 52.0),
...
]
}
Return:
* True if the graph have been generated
* False if the graph have not been generated
"""
if data == {}:
return False
chart = DateTimeLine(title=title.capitalize(),
width=self.width,
height=self.height,
style=self.style,
show_dots=False,
legend_at_bottom=True,
x_label_rotation=20,
x_value_formatter=lambda dt: dt.strftime('%Y/%m/%d %H:%M:%S'))
for k, v in iteritems(time_serie_subsample(data, self.width)):
chart.add(k, v)
chart.render_to_file(os.path.join(self.path,
title + '.svg'))
return True
class Export(GlancesExport):
"""This class manages the Graph export module."""
def __init__(self, config=None, args=None):
"""Init the export IF."""
super(Export, self).__init__(config=config, args=args)
# Load the Graph configuration file section (is exists)
self.export_enable = self.load_conf(
'graph',
options=['path', 'generate_every', 'width', 'height', 'style'])
# Manage options (command line arguments overwrite configuration file)
self.path = args.export_graph_path or self.path
self.generate_every = int(getattr(self, 'generate_every', 0))
self.width = int(getattr(self, 'width', 800))
self.height = int(getattr(self, 'height', 600))
self.style = getattr(pygal.style, getattr(self, 'style', 'DarkStyle'),
pygal.style.DarkStyle)
# Create export folder
try:
os.makedirs(self.path)
except OSError as e:
if e.errno != errno.EEXIST:
logger.critical(
"Cannot create the Graph output folder {} ({})".format(
self.path, e))
sys.exit(2)
# Check if output folder is writeable
try:
tempfile.TemporaryFile(dir=self.path)
except OSError as e:
logger.critical("Graph output folder {} is not writeable".format(
self.path))
sys.exit(2)
logger.info("Graphs will be created in the {} folder".format(
self.path))
logger.info(
"Graphs will be created when 'g' key is pressed (in the CLI interface)"
)
if self.generate_every != 0:
logger.info(
"Graphs will be created automatically every {} seconds".format(
self.generate_every))
# Start the timer
self._timer = Timer(self.generate_every)
else:
self._timer = None
def exit(self):
"""Close the files."""
logger.debug("Finalise export interface %s" % self.export_name)
def update(self, stats):
"""Generate Graph file in the output folder."""
if self.generate_every != 0 and self._timer.finished():
self.args.generate_graph = True
self._timer.reset()
if not self.args.generate_graph:
return
plugins = stats.getPluginsList()
for plugin_name in plugins:
plugin = stats._plugins[plugin_name]
if plugin_name in self.plugins_to_export():
self.export(plugin_name, plugin.get_export_history())
logger.info("Graphs created in the folder {}".format(self.path))
self.args.generate_graph = False
def export(self, title, data):
"""Generate graph from the data.
Example for the mem plugin:
{'percent': [
(datetime.datetime(2018, 3, 24, 16, 27, 47, 282070), 51.8),
(datetime.datetime(2018, 3, 24, 16, 27, 47, 540999), 51.9),
(datetime.datetime(2018, 3, 24, 16, 27, 50, 653390), 52.0),
(datetime.datetime(2018, 3, 24, 16, 27, 53, 749702), 52.0),
(datetime.datetime(2018, 3, 24, 16, 27, 56, 825660), 52.0),
...
]
}
Return:
* True if the graph have been generated
* False if the graph have not been generated
"""
if data == {}:
return False
chart = DateTimeLine(
title=title.capitalize(),
width=self.width,
height=self.height,
style=self.style,
show_dots=False,
legend_at_bottom=True,
x_label_rotation=20,
x_value_formatter=lambda dt: dt.strftime('%Y/%m/%d %H:%M:%S'))
for k, v in iteritems(time_serie_subsample(data, self.width)):
chart.add(k, v)
chart.render_to_file(os.path.join(self.path, title + '.svg'))
return True
class GlancesProcesses(object):
"""Get processed stats using the psutil library."""
def __init__(self, cache_timeout=60):
"""Init the class to collect stats about processes."""
# Add internals caches because PSUtil do not cache all the stats
# See: https://code.google.com/p/psutil/issues/detail?id=462
self.username_cache = {}
self.cmdline_cache = {}
# The internals caches will be cleaned each 'cache_timeout' seconds
self.cache_timeout = cache_timeout
self.cache_timer = Timer(self.cache_timeout)
# Init the io dict
# key = pid
# value = [ read_bytes_old, write_bytes_old ]
self.io_old = {}
# Wether or not to enable process tree
self._enable_tree = False
self.process_tree = None
# Init stats
self.auto_sort = True
self._sort_key = 'cpu_percent'
self.allprocesslist = []
self.processlist = []
self.reset_processcount()
# Tag to enable/disable the processes stats (to reduce the Glances CPU consumption)
# Default is to enable the processes stats
self.disable_tag = False
# Extended stats for top process is enable by default
self.disable_extended_tag = False
# Maximum number of processes showed in the UI (None if no limit)
self._max_processes = None
# Process filter is a regular expression
self._filter = GlancesFilter()
# Whether or not to hide kernel threads
self.no_kernel_threads = False
# Store maximums values in a dict
# Used in the UI to highlight the maximum value
self._max_values_list = ('cpu_percent', 'memory_percent')
# { 'cpu_percent': 0.0, 'memory_percent': 0.0 }
self._max_values = {}
self.reset_max_values()
def reset_processcount(self):
self.processcount = {'total': 0,
'running': 0,
'sleeping': 0,
'thread': 0,
'pid_max': None}
def enable(self):
"""Enable process stats."""
self.disable_tag = False
self.update()
def disable(self):
"""Disable process stats."""
self.disable_tag = True
def enable_extended(self):
"""Enable extended process stats."""
self.disable_extended_tag = False
self.update()
def disable_extended(self):
"""Disable extended process stats."""
self.disable_extended_tag = True
@property
def pid_max(self):
"""
Get the maximum PID value.
On Linux, the value is read from the `/proc/sys/kernel/pid_max` file.
From `man 5 proc`:
The default value for this file, 32768, results in the same range of
PIDs as on earlier kernels. On 32-bit platfroms, 32768 is the maximum
value for pid_max. On 64-bit systems, pid_max can be set to any value
up to 2^22 (PID_MAX_LIMIT, approximately 4 million).
If the file is unreadable or not available for whatever reason,
returns None.
Some other OSes:
- On FreeBSD and macOS the maximum is 99999.
- On OpenBSD >= 6.0 the maximum is 99999 (was 32766).
- On NetBSD the maximum is 30000.
:returns: int or None
"""
if LINUX:
# XXX: waiting for https://github.com/giampaolo/psutil/issues/720
try:
with open('/proc/sys/kernel/pid_max', 'rb') as f:
return int(f.read())
except (OSError, IOError):
return None
@property
def max_processes(self):
"""Get the maximum number of processes showed in the UI."""
return self._max_processes
@max_processes.setter
def max_processes(self, value):
"""Set the maximum number of processes showed in the UI."""
self._max_processes = value
@property
def process_filter_input(self):
"""Get the process filter (given by the user)."""
return self._filter.filter_input
@property
def process_filter(self):
"""Get the process filter (current apply filter)."""
return self._filter.filter
@process_filter.setter
def process_filter(self, value):
"""Set the process filter."""
self._filter.filter = value
@property
def process_filter_key(self):
"""Get the process filter key."""
return self._filter.filter_key
@property
def process_filter_re(self):
"""Get the process regular expression compiled."""
return self._filter.filter_re
def disable_kernel_threads(self):
"""Ignore kernel threads in process list."""
self.no_kernel_threads = True
def enable_tree(self):
"""Enable process tree."""
self._enable_tree = True
def is_tree_enabled(self):
"""Return True if process tree is enabled, False instead."""
return self._enable_tree
@property
def sort_reverse(self):
"""Return True to sort processes in reverse 'key' order, False instead."""
if self.sort_key == 'name' or self.sort_key == 'username':
return False
return True
def max_values(self):
"""Return the max values dict."""
return self._max_values
def get_max_values(self, key):
"""Get the maximum values of the given stat (key)."""
return self._max_values[key]
def set_max_values(self, key, value):
"""Set the maximum value for a specific stat (key)."""
self._max_values[key] = value
def reset_max_values(self):
"""Reset the maximum values dict."""
self._max_values = {}
for k in self._max_values_list:
self._max_values[k] = 0.0
def __get_mandatory_stats(self, proc, procstat):
"""
Get mandatory_stats: for all processes.
Needed for the sorting/filter step.
Stats grabbed inside this method:
* 'name', 'cpu_times', 'status', 'ppid'
* 'username', 'cpu_percent', 'memory_percent'
"""
procstat['mandatory_stats'] = True
# Name, cpu_times, status and ppid stats are in the same /proc file
# Optimisation fir issue #958
try:
procstat.update(proc.as_dict(
attrs=['name', 'cpu_times', 'status', 'ppid'],
ad_value=''))
except (psutil.NoSuchProcess, psutil.AccessDenied):
# Try/catch for issue #432 (process no longer exist)
# Try/catch for issue #1120 (only see on Macos)
return None
else:
procstat['status'] = str(procstat['status'])[:1].upper()
try:
procstat.update(proc.as_dict(
attrs=['username', 'cpu_percent', 'memory_percent'],
ad_value=''))
except (psutil.NoSuchProcess, psutil.AccessDenied):
# Try/catch for issue #432 (process no longer exist)
return None
if procstat['cpu_percent'] == '' or procstat['memory_percent'] == '':
# Do not display process if we cannot get the basic
# cpu_percent or memory_percent stats
return None
# Compute the maximum value for cpu_percent and memory_percent
for k in self._max_values_list:
if procstat[k] > self.get_max_values(k):
self.set_max_values(k, procstat[k])
# Process command line (cached with internal cache)
if procstat['pid'] not in self.cmdline_cache:
# Patch for issue #391
try:
self.cmdline_cache[procstat['pid']] = proc.cmdline()
except (AttributeError, EnvironmentError, UnicodeDecodeError,
psutil.AccessDenied, psutil.NoSuchProcess):
self.cmdline_cache[procstat['pid']] = ""
procstat['cmdline'] = self.cmdline_cache[procstat['pid']]
# Process IO
# procstat['io_counters'] is a list:
# [read_bytes, write_bytes, read_bytes_old, write_bytes_old, io_tag]
# If io_tag = 0 > Access denied (display "?")
# If io_tag = 1 > No access denied (display the IO rate)
# Availability: all platforms except macOS and Illumos/Solaris
try:
# Get the process IO counters
proc_io = proc.io_counters()
io_new = [proc_io.read_bytes, proc_io.write_bytes]
except (psutil.AccessDenied, psutil.NoSuchProcess, NotImplementedError):
# Access denied to process IO (no root account)
# NoSuchProcess (process die between first and second grab)
# Put 0 in all values (for sort) and io_tag = 0 (for display)
procstat['io_counters'] = [0, 0] + [0, 0]
io_tag = 0
except AttributeError:
return procstat
else:
# For IO rate computation
# Append saved IO r/w bytes
try:
procstat['io_counters'] = io_new + self.io_old[procstat['pid']]
except KeyError:
procstat['io_counters'] = io_new + [0, 0]
# then save the IO r/w bytes
self.io_old[procstat['pid']] = io_new
io_tag = 1
# Append the IO tag (for display)
procstat['io_counters'] += [io_tag]
return procstat
def __get_standard_stats(self, proc, procstat):
"""
Get standard_stats: only for displayed processes.
Stats grabbed inside this method:
* nice and memory_info
"""
procstat['standard_stats'] = True
# Process nice and memory_info (issue #926)
try:
procstat.update(
proc.as_dict(attrs=['nice', 'memory_info']))
except psutil.NoSuchProcess:
pass
return procstat
def __get_extended_stats(self, proc, procstat):
"""
Get extended stats, only for top processes (see issue #403).
- cpu_affinity (Linux, Windows, FreeBSD)
- ionice (Linux and Windows > Vista)
- memory_full_info (Linux)
- num_ctx_switches (not available on Illumos/Solaris)
- num_fds (Unix-like)
- num_handles (Windows)
- num_threads (not available on *BSD)
- memory_maps (only swap, Linux)
https://www.cyberciti.biz/faq/linux-which-process-is-using-swap/
- connections (TCP and UDP)
"""
procstat['extended_stats'] = True
for stat in ['cpu_affinity', 'ionice', 'memory_full_info',
'num_ctx_switches', 'num_fds', 'num_handles',
'num_threads']:
try:
procstat.update(proc.as_dict(attrs=[stat]))
except psutil.NoSuchProcess:
pass
# XXX: psutil>=4.3.1 raises ValueError while <4.3.1 raises AttributeError
except (ValueError, AttributeError):
procstat[stat] = None
if LINUX:
try:
procstat['memory_swap'] = sum([v.swap for v in proc.memory_maps()])
except psutil.NoSuchProcess:
pass
except (psutil.AccessDenied, TypeError, NotImplementedError):
# NotImplementedError: /proc/${PID}/smaps file doesn't exist
# on kernel < 2.6.14 or CONFIG_MMU kernel configuration option
# is not enabled (see psutil #533/glances #413).
# XXX: Remove TypeError once we'll drop psutil < 3.0.0.
procstat['memory_swap'] = None
try:
procstat['tcp'] = len(proc.connections(kind="tcp"))
procstat['udp'] = len(proc.connections(kind="udp"))
except psutil.AccessDenied:
procstat['tcp'] = None
procstat['udp'] = None
return procstat
def __get_process_stats(self, proc,
mandatory_stats=True,
standard_stats=True,
extended_stats=False):
"""Get stats of a running processes."""
# Process ID (always)
procstat = proc.as_dict(attrs=['pid'])
if mandatory_stats:
procstat = self.__get_mandatory_stats(proc, procstat)
if procstat is not None and standard_stats:
procstat = self.__get_standard_stats(proc, procstat)
if procstat is not None and extended_stats and not self.disable_extended_tag:
procstat = self.__get_extended_stats(proc, procstat)
return procstat
def update(self):
"""Update the processes stats."""
# Reset the stats
self.processlist = []
self.reset_processcount()
# Do not process if disable tag is set
if self.disable_tag:
return
# Get the time since last update
time_since_update = getTimeSinceLastUpdate('process_disk')
# Reset the max dict
self.reset_max_values()
# Update the maximum process ID (pid) number
self.processcount['pid_max'] = self.pid_max
# Build an internal dict with only mandatories stats (sort keys)
processdict = {}
excluded_processes = set()
for proc in psutil.process_iter():
# Ignore kernel threads if needed
if self.no_kernel_threads and not WINDOWS and is_kernel_thread(proc):
continue
# If self.max_processes is None: Only retrieve mandatory stats
# Else: retrieve mandatory and standard stats
s = self.__get_process_stats(proc,
mandatory_stats=True,
standard_stats=self.max_processes is None)
# Check if s is note None (issue #879)
# ignore the 'idle' process on Windows and *BSD
# ignore the 'kernel_task' process on macOS
# waiting for upstream patch from psutil
if (s is None or
BSD and s['name'] == 'idle' or
WINDOWS and s['name'] == 'System Idle Process' or
MACOS and s['name'] == 'kernel_task'):
continue
# Continue to the next process if it has to be filtered
if self._filter.is_filtered(s):
excluded_processes.add(proc)
continue
# Ok add the process to the list
processdict[proc] = s
# Update processcount (global statistics)
try:
self.processcount[str(proc.status())] += 1
except KeyError:
# Key did not exist, create it
try:
self.processcount[str(proc.status())] = 1
except psutil.NoSuchProcess:
pass
except psutil.NoSuchProcess:
pass
else:
self.processcount['total'] += 1
# Update thread number (global statistics)
try:
self.processcount['thread'] += proc.num_threads()
except Exception:
pass
if self._enable_tree:
self.process_tree = ProcessTreeNode.build_tree(processdict,
self.sort_key,
self.sort_reverse,
self.no_kernel_threads,
excluded_processes)
for i, node in enumerate(self.process_tree):
# Only retreive stats for visible processes (max_processes)
if self.max_processes is not None and i >= self.max_processes:
break
# add standard stats
new_stats = self.__get_process_stats(node.process,
mandatory_stats=False,
standard_stats=True,
extended_stats=False)
if new_stats is not None:
node.stats.update(new_stats)
# Add a specific time_since_update stats for bitrate
node.stats['time_since_update'] = time_since_update
else:
# Process optimization
# Only retreive stats for visible processes (max_processes)
if self.max_processes is not None:
# Sort the internal dict and cut the top N (Return a list of tuple)
# tuple=key (proc), dict (returned by __get_process_stats)
try:
processiter = sorted(iteritems(processdict),
key=lambda x: x[1][self.sort_key],
reverse=self.sort_reverse)
except (KeyError, TypeError) as e:
logger.error("Cannot sort process list by {}: {}".format(self.sort_key, e))
logger.error('{}'.format(listitems(processdict)[0]))
# Fallback to all process (issue #423)
processloop = iteritems(processdict)
first = False
else:
processloop = processiter[0:self.max_processes]
first = True
else:
# Get all processes stats
processloop = iteritems(processdict)
first = False
for i in processloop:
# Already existing mandatory stats
procstat = i[1]
if self.max_processes is not None:
# Update with standard stats
# and extended stats but only for TOP (first) process
s = self.__get_process_stats(i[0],
mandatory_stats=False,
standard_stats=True,
extended_stats=first)
if s is None:
continue
procstat.update(s)
# Add a specific time_since_update stats for bitrate
procstat['time_since_update'] = time_since_update
# Update process list
self.processlist.append(procstat)
# Next...
first = False
# Build the all processes list used by the AMPs
self.allprocesslist = [p for p in itervalues(processdict)]
# Clean internals caches if timeout is reached
if self.cache_timer.finished():
self.username_cache = {}
self.cmdline_cache = {}
# Restart the timer
self.cache_timer.reset()
def getcount(self):
"""Get the number of processes."""
return self.processcount
def getalllist(self):
"""Get the allprocesslist."""
return self.allprocesslist
def getlist(self, sortedby=None):
"""Get the processlist."""
return self.processlist
def gettree(self):
"""Get the process tree."""
return self.process_tree
@property
def sort_key(self):
"""Get the current sort key."""
return self._sort_key
@sort_key.setter
def sort_key(self, key):
"""Set the current sort key."""
self._sort_key = key
