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# -*- coding: utf-8 -*-
#
# This file is part of Glances.
#
# SPDX-FileCopyrightText: 2022 Nicolas Hennion <nicolas@nicolargo.com>
#
# SPDX-License-Identifier: LGPL-3.0-only
#
"""Alert plugin."""
from datetime import datetime
from glances.events import glances_events
from glances.thresholds import glances_thresholds
# from glances.logger import logger
from glances.plugins.glances_plugin import GlancesPlugin
# Static decision tree for the global alert message
# - msg: Message to be displayed (result of the decision tree)
# - thresholds: a list of stats to take into account
# - thresholds_min: minimal value of the thresholds sum
# - 0: OK
# - 1: CAREFUL
# - 2: WARNING
# - 3: CRITICAL
tree = [
{'msg': 'No warning or critical alert detected', 'thresholds': [], 'thresholds_min': 0},
{'msg': 'High CPU user mode', 'thresholds': ['cpu_user'], 'thresholds_min': 2},
{'msg': 'High CPU kernel usage', 'thresholds': ['cpu_system'], 'thresholds_min': 2},
{'msg': 'High CPU I/O waiting', 'thresholds': ['cpu_iowait'], 'thresholds_min': 2},
{
'msg': 'Large CPU stolen time. System running the hypervisor is too busy.',
'thresholds': ['cpu_steal'],
'thresholds_min': 2,
},
{'msg': 'High CPU niced value', 'thresholds': ['cpu_niced'], 'thresholds_min': 2},
{'msg': 'System overloaded in the last 5 minutes', 'thresholds': ['load'], 'thresholds_min': 2},
{'msg': 'High swap (paging) usage', 'thresholds': ['memswap'], 'thresholds_min': 2},
{'msg': 'High memory consumption', 'thresholds': ['mem'], 'thresholds_min': 2},
]
# @TODO: change the algo to use the following decision tree
# Source: Inspire by https://scoutapm.com/blog/slow_server_flow_chart
# _yes means threshold >= 2
# _no means threshold < 2
# With threshold:
# - 0: OK
# - 1: CAREFUL
# - 2: WARNING
# - 3: CRITICAL
tree_new = {
'cpu_iowait': {
'_yes': {
'memswap': {
'_yes': {
'mem': {
'_yes': {
# Once you've identified the offenders, the resolution will again depend on whether their memory usage seems
# business-as-usual or not. For example, a memory leak can be satisfactorily addressed by a one-time or periodic
# restart of the process.
# - if memory usage seems anomalous: kill the offending processes.
# - if memory usage seems business-as-usual: add RAM to the server, or split high-memory using services to other servers.
'_msg': "Memory issue"
},
'_no': {
# ???
'_msg': "Swap issue"
},
}
},
'_no': {
# Low swap means you have a "real" IO wait problem. The next step is to see what's hogging your IO.
# iotop is an awesome tool for identifying io offenders. Two things to note:
# unless you've already installed iotop, it's probably not already on your system.
# Recommendation: install it before you need it - - it's no fun trying to install a troubleshooting
# tool on an overloaded machine (iotop requires a Linux of 2.62 or above)
'_msg': "I/O issue"
},
}
},
'_no': {
'cpu_total': {
'_yes': {
'cpu_user': {
'_yes': {
# We expect the user-time percentage to be high.
# There's most likely a program or service you've configured on you server that's hogging CPU.
# Checking the % user time just confirms this. When you see that the % user-time is high,
# it's time to see what executable is monopolizing the CPU
# Once you've confirmed that the % usertime is high, check the process list(also provided by top).
# Be default, top sorts the process list by % CPU, so you can just look at the top process or processes.
# If there's a single process hogging the CPU in a way that seems abnormal, it's an anomalous situation
# that a service restart can fix. If there are are multiple processes taking up CPU resources, or it
# there's one process that takes lots of resources while otherwise functioning normally, than your setup
# may just be underpowered. You'll need to upgrade your server(add more cores), or split services out onto
# other boxes. In either case, you have a resolution:
# - if situation seems anomalous: kill the offending processes.
# - if situation seems typical given history: upgrade server or add more servers.
'_msg': "CPU issue with user process(es)"
},
'_no': {
'cpu_steal': {
'_yes': {
'_msg': "CPU issue with stolen time. System running the hypervisor may be too busy."
},
'_no': {'_msg': "CPU issue with system process(es)"},
}
},
}
},
'_no': {
'_yes': {
# ???
'_msg': "Memory issue"
},
'_no': {
# Your slowness isn't due to CPU or IO problems, so it's likely an application-specific issue.
# It's also possible that the slowness is being caused by another server in your cluster, or
# by an external service you rely on.
# start by checking important applications for uncharacteristic slowness(the DB is a good place to start),
# think through which parts of your infrastructure could be slowed down externally. For example, do you
# use an externally hosted email service that could slow down critical parts of your application?
# If you suspect another server in your cluster, strace and lsof can provide information on what the
# process is doing or waiting on. Strace will show you which file descriptors are being read or written
# to(or being attempted to be read from) and lsof can give you a mapping of those file descriptors to
# network connections.
'_msg': "External issue"
},
},
}
},
}
}
def global_message():
"""Parse the decision tree and return the message.
Note: message corresponding to the current thresholds values
"""
# Compute the weight for each item in the tree
current_thresholds = glances_thresholds.get()
for i in tree:
i['weight'] = sum([current_thresholds[t].value() for t in i['thresholds'] if t in current_thresholds])
themax = max(tree, key=lambda d: d['weight'])
if themax['weight'] >= themax['thresholds_min']:
# Check if the weight is > to the minimal threshold value
return themax['msg']
else:
return tree[0]['msg']
class Plugin(GlancesPlugin):
"""Glances alert plugin.
Only for display.
"""
def __init__(self, args=None, config=None):
"""Init the plugin."""
super(Plugin, self).__init__(args=args, config=config, stats_init_value=[])
# We want to display the stat in the curse interface
self.display_curse = True
# Set the message position
self.align = 'bottom'
def update(self):
"""Nothing to do here. Just return the global glances_log."""
# Set the stats to the glances_events
self.stats = glances_events.get()
# Define the global message thanks to the current thresholds
# and the decision tree
# !!! Call directly in the msg_curse function
# global_message()
def msg_curse(self, args=None, max_width=None):
"""Return the dict to display in the curse interface."""
# Init the return message
ret = []
# Only process if display plugin enable...
if not self.stats or self.is_disabled():
return ret
# Build the string message
# Header
ret.append(self.curse_add_line(global_message(), "TITLE"))
# Loop over alerts
for alert in self.stats:
# New line
ret.append(self.curse_new_line())
# Start
msg = str(datetime.fromtimestamp(alert[0]))
ret.append(self.curse_add_line(msg))
# Duration
if alert[1] > 0:
# If finished display duration
msg = ' ({})'.format(datetime.fromtimestamp(alert[1]) - datetime.fromtimestamp(alert[0]))
else:
msg = ' (ongoing)'
ret.append(self.curse_add_line(msg))
ret.append(self.curse_add_line(" - "))
# Infos
if alert[1] > 0:
# If finished do not display status
msg = '{} on {}'.format(alert[2], alert[3])
ret.append(self.curse_add_line(msg))
else:
msg = str(alert[3])
ret.append(self.curse_add_line(msg, decoration=alert[2]))
# Min / Mean / Max
if self.approx_equal(alert[6], alert[4], tolerance=0.1):
msg = ' ({:.1f})'.format(alert[5])
else:
msg = ' (Min:{:.1f} Mean:{:.1f} Max:{:.1f})'.format(alert[6], alert[5], alert[4])
ret.append(self.curse_add_line(msg))
# Top processes
top_process = ', '.join([p['name'] for p in alert[9]])
if top_process != '':
msg = ': {}'.format(top_process)
ret.append(self.curse_add_line(msg))
return ret
def approx_equal(self, a, b, tolerance=0.0):
"""Compare a with b using the tolerance (if numerical)."""
if str(int(a)).isdigit() and str(int(b)).isdigit():
return abs(a - b) <= max(abs(a), abs(b)) * tolerance
else:
return a == b