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|
# -*- coding: utf-8 -*-
# Description: smart netdata python.d module
# Author: ilyam8, vorph1
# SPDX-License-Identifier: GPL-3.0-or-later
import os
import re
from copy import deepcopy
from time import time
from bases.FrameworkServices.SimpleService import SimpleService
from bases.collection import read_last_line
INCREMENTAL = 'incremental'
ABSOLUTE = 'absolute'
ATA = 'ata'
SCSI = 'scsi'
CSV = '.csv'
DEF_RESCAN_INTERVAL = 60
DEF_AGE = 30
DEF_PATH = '/var/log/smartd'
ATTR1 = '1'
ATTR2 = '2'
ATTR3 = '3'
ATTR4 = '4'
ATTR5 = '5'
ATTR7 = '7'
ATTR8 = '8'
ATTR9 = '9'
ATTR10 = '10'
ATTR11 = '11'
ATTR12 = '12'
ATTR13 = '13'
ATTR170 = '170'
ATTR171 = '171'
ATTR172 = '172'
ATTR173 = '173'
ATTR174 = '174'
ATTR180 = '180'
ATTR183 = '183'
ATTR190 = '190'
ATTR194 = '194'
ATTR196 = '196'
ATTR197 = '197'
ATTR198 = '198'
ATTR199 = '199'
ATTR202 = '202'
ATTR206 = '206'
ATTR233 = '233'
ATTR249 = '249'
ATTR_READ_ERR_COR = 'read-total-err-corrected'
ATTR_READ_ERR_UNC = 'read-total-unc-errors'
ATTR_WRITE_ERR_COR = 'write-total-err-corrected'
ATTR_WRITE_ERR_UNC = 'write-total-unc-errors'
ATTR_VERIFY_ERR_COR = 'verify-total-err-corrected'
ATTR_VERIFY_ERR_UNC = 'verify-total-unc-errors'
ATTR_TEMPERATURE = 'temperature'
RE_ATA = re.compile(
'(\d+);' # attribute
'(\d+);' # normalized value
'(\d+)', # raw value
re.X
)
RE_SCSI = re.compile(
'([a-z-]+);' # attribute
'([0-9.]+)', # raw value
re.X
)
ORDER = [
# errors
'read_error_rate',
'seek_error_rate',
'soft_read_error_rate',
'write_error_rate',
'read_total_err_corrected',
'read_total_unc_errors',
'write_total_err_corrected',
'write_total_unc_errors',
'verify_total_err_corrected',
'verify_total_unc_errors',
# external failure
'sata_interface_downshift',
'udma_crc_error_count',
# performance
'throughput_performance',
'seek_time_performance',
# power
'start_stop_count',
'power_on_hours_count',
'power_cycle_count',
'unexpected_power_loss',
# spin
'spin_up_time',
'spin_up_retries',
'calibration_retries',
# temperature
'airflow_temperature_celsius',
'temperature_celsius',
# wear
'reallocated_sectors_count',
'reserved_block_count',
'program_fail_count',
'erase_fail_count',
'wear_leveller_worst_case_erase_count',
'unused_reserved_nand_blocks',
'reallocation_event_count',
'current_pending_sector_count',
'offline_uncorrectable_sector_count',
'percent_lifetime_used',
'media_wearout_indicator',
]
CHARTS = {
'read_error_rate': {
'options': [None, 'Read Error Rate', 'value', 'errors', 'smartd_log.read_error_rate', 'line'],
'lines': [],
'attrs': [ATTR1],
'algo': ABSOLUTE,
},
'seek_error_rate': {
'options': [None, 'Seek Error Rate', 'value', 'errors', 'smartd_log.seek_error_rate', 'line'],
'lines': [],
'attrs': [ATTR7],
'algo': ABSOLUTE,
},
'soft_read_error_rate': {
'options': [None, 'Soft Read Error Rate', 'errors', 'errors', 'smartd_log.soft_read_error_rate', 'line'],
'lines': [],
'attrs': [ATTR13],
'algo': INCREMENTAL,
},
'write_error_rate': {
'options': [None, 'Write Error Rate', 'value', 'errors', 'smartd_log.write_error_rate', 'line'],
'lines': [],
'attrs': [ATTR206],
'algo': ABSOLUTE,
},
'read_total_err_corrected': {
'options': [None, 'Read Error Corrected', 'errors', 'errors', 'smartd_log.read_total_err_corrected', 'line'],
'lines': [],
'attrs': [ATTR_READ_ERR_COR],
'algo': INCREMENTAL,
},
'read_total_unc_errors': {
'options': [None, 'Read Error Uncorrected', 'errors', 'errors', 'smartd_log.read_total_unc_errors', 'line'],
'lines': [],
'attrs': [ATTR_READ_ERR_UNC],
'algo': INCREMENTAL,
},
'write_total_err_corrected': {
'options': [None, 'Write Error Corrected', 'errors', 'errors', 'smartd_log.write_total_err_corrected', 'line'],
'lines': [],
'attrs': [ATTR_WRITE_ERR_COR],
'algo': INCREMENTAL,
},
'write_total_unc_errors': {
'options': [None, 'Write Error Uncorrected', 'errors', 'errors', 'smartd_log.write_total_unc_errors', 'line'],
'lines': [],
'attrs': [ATTR_WRITE_ERR_UNC],
'algo': INCREMENTAL,
},
'verify_total_err_corrected': {
'options': [None, 'Verify Error Corrected', 'errors', 'errors', 'smartd_log.verify_total_err_corrected',
'line'],
'lines': [],
'attrs': [ATTR_VERIFY_ERR_COR],
'algo': INCREMENTAL,
},
'verify_total_unc_errors': {
'options': [None, 'Verify Error Uncorrected', 'errors', 'errors', 'smartd_log.verify_total_unc_errors', 'line'],
'lines': [],
'attrs': [ATTR_VERIFY_ERR_UNC],
'algo': INCREMENTAL,
},
'sata_interface_downshift': {
'options': [None, 'SATA Interface Downshift', 'events', 'external failure',
'smartd_log.sata_interface_downshift', 'line'],
'lines': [],
'attrs': [ATTR183],
'algo': INCREMENTAL,
},
'udma_crc_error_count': {
'options': [None, 'UDMA CRC Error Count', 'errors', 'external failure', 'smartd_log.udma_crc_error_count',
'line'],
'lines': [],
'attrs': [ATTR199],
'algo': INCREMENTAL,
},
'throughput_performance': {
'options': [None, 'Throughput Performance', 'value', 'performance', 'smartd_log.throughput_performance',
'line'],
'lines': [],
'attrs': [ATTR2],
'algo': ABSOLUTE,
},
'seek_time_performance': {
'options': [None, 'Seek Time Performance', 'value', 'performance', 'smartd_log.seek_time_performance', 'line'],
'lines': [],
'attrs': [ATTR8],
'algo': ABSOLUTE,
},
'start_stop_count': {
'options': [None, 'Start/Stop Count', 'events', 'power', 'smartd_log.start_stop_count', 'line'],
'lines': [],
'attrs': [ATTR4],
'algo': ABSOLUTE,
},
'power_on_hours_count': {
'options': [None, 'Power-On Hours Count', 'hours', 'power', 'smartd_log.power_on_hours_count', 'line'],
'lines': [],
'attrs': [ATTR9],
'algo': ABSOLUTE,
},
'power_cycle_count': {
'options': [None, 'Power Cycle Count', 'events', 'power', 'smartd_log.power_cycle_count', 'line'],
'lines': [],
'attrs': [ATTR12],
'algo': ABSOLUTE,
},
'unexpected_power_loss': {
'options': [None, 'Unexpected Power Loss', 'events', 'power', 'smartd_log.unexpected_power_loss', 'line'],
'lines': [],
'attrs': [ATTR174],
'algo': ABSOLUTE,
},
'spin_up_time': {
'options': [None, 'Spin-Up Time', 'ms', 'spin', 'smartd_log.spin_up_time', 'line'],
'lines': [],
'attrs': [ATTR3],
'algo': ABSOLUTE,
},
'spin_up_retries': {
'options': [None, 'Spin-up Retries', 'retries', 'spin', 'smartd_log.spin_up_retries', 'line'],
'lines': [],
'attrs': [ATTR10],
'algo': INCREMENTAL,
},
'calibration_retries': {
'options': [None, 'Calibration Retries', 'retries', 'spin', 'smartd_log.calibration_retries', 'line'],
'lines': [],
'attrs': [ATTR11],
'algo': INCREMENTAL,
},
'airflow_temperature_celsius': {
'options': [None, 'Airflow Temperature Celsius', 'celsius', 'temperature',
'smartd_log.airflow_temperature_celsius', 'line'],
'lines': [],
'attrs': [ATTR190],
'algo': ABSOLUTE,
},
'temperature_celsius': {
'options': [None, 'Temperature', 'celsius', 'temperature', 'smartd_log.temperature_celsius', 'line'],
'lines': [],
'attrs': [ATTR194, ATTR_TEMPERATURE],
'algo': ABSOLUTE,
},
'reallocated_sectors_count': {
'options': [None, 'Reallocated Sectors Count', 'sectors', 'wear', 'smartd_log.reallocated_sectors_count',
'line'],
'lines': [],
'attrs': [ATTR5],
'algo': ABSOLUTE,
},
'reserved_block_count': {
'options': [None, 'Reserved Block Count', 'percentage', 'wear', 'smartd_log.reserved_block_count', 'line'],
'lines': [],
'attrs': [ATTR170],
'algo': ABSOLUTE,
},
'program_fail_count': {
'options': [None, 'Program Fail Count', 'errors', 'wear', 'smartd_log.program_fail_count', 'line'],
'lines': [],
'attrs': [ATTR171],
'algo': INCREMENTAL,
},
'erase_fail_count': {
'options': [None, 'Erase Fail Count', 'failures', 'wear', 'smartd_log.erase_fail_count', 'line'],
'lines': [],
'attrs': [ATTR172],
'algo': INCREMENTAL,
},
'wear_leveller_worst_case_erase_count': {
'options': [None, 'Wear Leveller Worst Case Erase Count', 'erases', 'wear',
'smartd_log.wear_leveller_worst_case_erase_count', 'line'],
'lines': [],
'attrs': [ATTR173],
'algo': ABSOLUTE,
},
'unused_reserved_nand_blocks': {
'options': [None, 'Unused Reserved NAND Blocks', 'blocks', 'wear', 'smartd_log.unused_reserved_nand_blocks',
'line'],
'lines': [],
'attrs': [ATTR180],
'algo': ABSOLUTE,
},
'reallocation_event_count': {
'options': [None, 'Reallocation Event Count', 'events', 'wear', 'smartd_log.reallocation_event_count', 'line'],
'lines': [],
'attrs': [ATTR196],
'algo': INCREMENTAL,
},
'current_pending_sector_count': {
'options': [None, 'Current Pending Sector Count', 'sectors', 'wear', 'smartd_log.current_pending_sector_count',
'line'],
'lines': [],
'attrs': [ATTR197],
'algo': ABSOLUTE,
},
'offline_uncorrectable_sector_count': {
'options': [None, 'Offline Uncorrectable Sector Count', 'sectors', 'wear',
'smartd_log.offline_uncorrectable_sector_count', 'line'],
'lines': [],
'attrs': [ATTR198],
'algo': ABSOLUTE,
},
'percent_lifetime_used': {
'options': [None, 'Percent Lifetime Used', 'percentage', 'wear', 'smartd_log.percent_lifetime_used', 'line'],
'lines': [],
'attrs': [ATTR202],
'algo': ABSOLUTE,
},
'media_wearout_indicator': {
'options': [None, 'Media Wearout Indicator', 'percentage', 'wear', 'smartd_log.media_wearout_indicator', 'line'],
'lines': [],
'attrs': [ATTR233],
'algo': ABSOLUTE,
},
'nand_writes_1gib': {
'options': [None, 'NAND Writes', 'GiB', 'wear', 'smartd_log.nand_writes_1gib', 'line'],
'lines': [],
'attrs': [ATTR249],
'algo': ABSOLUTE,
},
}
# NOTE: 'parse_temp' decodes ATA 194 raw value. Not heavily tested. Written by @Ferroin
# C code:
# https://github.com/smartmontools/smartmontools/blob/master/smartmontools/atacmds.cpp#L2051
#
# Calling 'parse_temp' on the raw value will return a 4-tuple, containing
# * temperature
# * minimum
# * maximum
# * over-temperature count
# substituting None for values it can't decode.
#
# Example:
# >>> parse_temp(42952491042)
# >>> (34, 10, 43, None)
#
#
# def check_temp_word(i):
# if i <= 0x7F:
# return 0x11
# elif i <= 0xFF:
# return 0x01
# elif 0xFF80 <= i:
# return 0x10
# return 0x00
#
#
# def check_temp_range(t, b0, b1):
# if b0 > b1:
# t0, t1 = b1, b0
# else:
# t0, t1 = b0, b1
#
# if all([
# -60 <= t0,
# t0 <= t,
# t <= t1,
# t1 <= 120,
# not (t0 == -1 and t1 <= 0)
# ]):
# return t0, t1
# return None, None
#
#
# def parse_temp(raw):
# byte = list()
# word = list()
# for i in range(0, 6):
# byte.append(0xFF & (raw >> (i * 8)))
# for i in range(0, 3):
# word.append(0xFFFF & (raw >> (i * 16)))
#
# ctwd = check_temp_word(word[0])
#
# if not word[2]:
# if ctwd and not word[1]:
# # byte[0] is temp, no other data
# return byte[0], None, None, None
#
# if ctwd and all(check_temp_range(byte[0], byte[2], byte[3])):
# # byte[0] is temp, byte[2] is max or min, byte[3] is min or max
# trange = check_temp_range(byte[0], byte[2], byte[3])
# return byte[0], trange[0], trange[1], None
#
# if ctwd and all(check_temp_range(byte[0], byte[1], byte[2])):
# # byte[0] is temp, byte[1] is max or min, byte[2] is min or max
# trange = check_temp_range(byte[0], byte[1], byte[2])
# return byte[0], trange[0], trange[1], None
#
# return None, None, None, None
#
# if ctwd:
# if all(
# [
# ctwd & check_temp_word(word[1]) & check_temp_word(word[2]) != 0x00,
# all(check_temp_range(byte[0], byte[2], byte[4])),
# ]
# ):
# # byte[0] is temp, byte[2] is max or min, byte[4] is min or max
# trange = check_temp_range(byte[0], byte[2], byte[4])
# return byte[0], trange[0], trange[1], None
# else:
# trange = check_temp_range(byte[0], byte[2], byte[3])
# if word[2] < 0x7FFF and all(trange) and trange[1] >= 40:
# # byte[0] is temp, byte[2] is max or min, byte[3] is min or max, word[2] is overtemp count
# return byte[0], trange[0], trange[1], word[2]
# # no data
# return None, None, None, None
CHARTED_ATTRS = dict((attr, k) for k, v in CHARTS.items() for attr in v['attrs'])
class BaseAtaSmartAttribute:
def __init__(self, name, normalized_value, raw_value):
self.name = name
self.normalized_value = normalized_value
self.raw_value = raw_value
def value(self):
raise NotImplementedError
class AtaRaw(BaseAtaSmartAttribute):
def value(self):
return self.raw_value
class AtaNormalized(BaseAtaSmartAttribute):
def value(self):
return self.normalized_value
class Ata3(BaseAtaSmartAttribute):
def value(self):
value = int(self.raw_value)
# https://github.com/netdata/netdata/issues/5919
#
# 3;151;38684000679;
# 423 (Average 447)
# 38684000679 & 0xFFF -> 423
# (38684000679 & 0xFFF0000) >> 16 -> 447
if value > 1e6:
return value & 0xFFF
return value
class Ata9(BaseAtaSmartAttribute):
def value(self):
value = int(self.raw_value)
if value > 1e6:
return value & 0xFFFF
return value
class Ata190(BaseAtaSmartAttribute):
def value(self):
return 100 - int(self.normalized_value)
class Ata194(BaseAtaSmartAttribute):
# https://github.com/netdata/netdata/issues/3041
# https://github.com/netdata/netdata/issues/5919
#
# The low byte is the current temperature, the third lowest is the maximum, and the fifth lowest is the minimum
def value(self):
value = int(self.raw_value)
if value > 1e6:
return value & 0xFF
return min(int(self.normalized_value), int(self.raw_value))
class BaseSCSISmartAttribute:
def __init__(self, name, raw_value):
self.name = name
self.raw_value = raw_value
def value(self):
raise NotImplementedError
class SCSIRaw(BaseSCSISmartAttribute):
def value(self):
return self.raw_value
def ata_attribute_factory(value):
name = value[0]
if name == ATTR3:
return Ata3(*value)
elif name == ATTR9:
return Ata9(*value)
elif name == ATTR190:
return Ata190(*value)
elif name == ATTR194:
return Ata194(*value)
elif name in [
ATTR1,
ATTR7,
ATTR202,
ATTR206,
ATTR233,
]:
return AtaNormalized(*value)
return AtaRaw(*value)
def scsi_attribute_factory(value):
return SCSIRaw(*value)
def attribute_factory(value):
name = value[0]
if name.isdigit():
return ata_attribute_factory(value)
return scsi_attribute_factory(value)
def handle_error(*errors):
def on_method(method):
def on_call(*args):
try:
return method(*args)
except errors:
return None
return on_call
return on_method
class DiskLogFile:
def __init__(self, full_path):
self.path = full_path
self.size = os.path.getsize(full_path)
@handle_error(OSError)
def is_changed(self):
return self.size != os.path.getsize(self.path)
@handle_error(OSError)
def is_active(self, current_time, limit):
return (current_time - os.path.getmtime(self.path)) / 60 < limit
@handle_error(OSError)
def read(self):
self.size = os.path.getsize(self.path)
return read_last_line(self.path)
class BaseDisk:
def __init__(self, name, log_file):
self.raw_name = name
self.name = re.sub(r'_+', '_', name)
self.log_file = log_file
self.attrs = list()
self.alive = True
self.charted = False
def __eq__(self, other):
if isinstance(other, BaseDisk):
return self.raw_name == other.raw_name
return self.raw_name == other
def __ne__(self, other):
return not self == other
def __hash__(self):
return hash(repr(self))
def parser(self, data):
raise NotImplementedError
@handle_error(TypeError)
def populate_attrs(self):
self.attrs = list()
line = self.log_file.read()
for value in self.parser(line):
self.attrs.append(attribute_factory(value))
return len(self.attrs)
def data(self):
data = dict()
for attr in self.attrs:
data['{0}_{1}'.format(self.name, attr.name)] = attr.value()
return data
class ATADisk(BaseDisk):
def parser(self, data):
return RE_ATA.findall(data)
class SCSIDisk(BaseDisk):
def parser(self, data):
return RE_SCSI.findall(data)
class Service(SimpleService):
def __init__(self, configuration=None, name=None):
SimpleService.__init__(self, configuration=configuration, name=name)
self.order = ORDER
self.definitions = deepcopy(CHARTS)
self.log_path = configuration.get('log_path', DEF_PATH)
self.age = configuration.get('age', DEF_AGE)
self.exclude = configuration.get('exclude_disks', str()).split()
self.disks = list()
self.runs = 0
self.do_force_rescan = False
def check(self):
return self.scan() > 0
def get_data(self):
self.runs += 1
if self.do_force_rescan or self.runs % DEF_RESCAN_INTERVAL == 0:
self.cleanup()
self.scan()
self.do_force_rescan = False
data = dict()
for disk in self.disks:
if not disk.alive:
continue
if not disk.charted:
self.add_disk_to_charts(disk)
changed = disk.log_file.is_changed()
if changed is None:
disk.alive = False
self.do_force_rescan = True
continue
if changed and disk.populate_attrs() is None:
disk.alive = False
self.do_force_rescan = True
continue
data.update(disk.data())
return data
def cleanup(self):
current_time = time()
for disk in self.disks[:]:
if any(
[
not disk.alive,
not disk.log_file.is_active(current_time, self.age),
]
):
self.disks.remove(disk.raw_name)
self.remove_disk_from_charts(disk)
def scan(self):
self.debug('scanning {0}'.format(self.log_path))
current_time = time()
for full_name in os.listdir(self.log_path):
disk = self.create_disk_from_file(full_name, current_time)
if not disk:
continue
self.disks.append(disk)
return len(self.disks)
def create_disk_from_file(self, full_name, current_time):
if not full_name.endswith(CSV):
self.debug('skipping {0}: not a csv file'.format(full_name))
return None
name = os.path.basename(full_name).split('.')[-3]
path = os.path.join(self.log_path, full_name)
if name in self.disks:
self.debug('skipping {0}: already in disks'.format(full_name))
return None
if [p for p in self.exclude if p in name]:
self.debug('skipping {0}: filtered by `exclude` option'.format(full_name))
return None
if not os.access(path, os.R_OK):
self.debug('skipping {0}: not readable'.format(full_name))
return None
if os.path.getsize(path) == 0:
self.debug('skipping {0}: zero size'.format(full_name))
return None
if (current_time - os.path.getmtime(path)) / 60 > self.age:
self.debug('skipping {0}: haven\'t been updated for last {1} minutes'.format(full_name, self.age))
return None
if ATA in full_name:
disk = ATADisk(name, DiskLogFile(path))
elif SCSI in full_name:
disk = SCSIDisk(name, DiskLogFile(path))
else:
self.debug('skipping {0}: unknown type'.format(full_name))
return None
disk.populate_attrs()
if not disk.attrs:
self.error('skipping {0}: parsing failed'.format(full_name))
return None
self.debug('added {0}'.format(full_name))
return disk
def add_disk_to_charts(self, disk):
if len(self.charts) == 0 or disk.charted:
return
disk.charted = True
for attr in disk.attrs:
chart_id = CHARTED_ATTRS.get(attr.name)
if not chart_id or chart_id not in self.charts:
continue
chart = self.charts[chart_id]
dim = [
'{0}_{1}'.format(disk.name, attr.name),
disk.name,
CHARTS[chart_id]['algo'],
]
if dim[0] in self.charts[chart_id].dimensions:
chart.hide_dimension(dim[0], reverse=True)
else:
chart.add_dimension(dim)
def remove_disk_from_charts(self, disk):
if len(self.charts) == 0 or not disk.charted:
return
for attr in disk.attrs:
chart_id = CHARTED_ATTRS.get(attr.name)
if not chart_id or chart_id not in self.charts:
continue
self.charts[chart_id].del_dimension('{0}_{1}'.format(disk.name, attr.name))
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