#!/usr/bin/env {{ python_basename }} import argparse import collections import csv import datetime import decimal import re import shlex import subprocess import sys device_info_re = re.compile(r'^(?P[^:]+?)(?:(?:\sis|):)\s*(?P.*)$') ata_error_count_re = re.compile( r'^Error (\d+) \[\d+\] occurred', re.MULTILINE) self_test_re = re.compile(r'^SMART.*(PASSED|OK)$', re.MULTILINE) device_info_map = { 'Vendor': 'vendor', 'Product': 'product', 'Revision': 'revision', 'Logical Unit id': 'lun_id', 'Model Family': 'model_family', 'Device Model': 'device_model', 'Serial Number': 'serial_number', 'Firmware Version': 'firmware_version', } smart_attributes_whitelist = { 'airflow_temperature_cel', 'command_timeout', 'current_pending_sector', 'end_to_end_error', 'erase_fail_count_total', 'g_sense_error_rate', 'hardware_ecc_recovered', 'host_reads_mib', 'host_reads_32mib', 'host_writes_mib', 'host_writes_32mib', 'load_cycle_count', 'media_wearout_indicator', 'wear_leveling_count', 'nand_writes_1gib', 'offline_uncorrectable', 'power_cycle_count', 'power_on_hours', 'program_fail_count', 'raw_read_error_rate', 'reallocated_event_count', 'reallocated_sector_ct', 'reported_uncorrect', 'sata_downshift_count', 'seek_error_rate', 'spin_retry_count', 'spin_up_time', 'start_stop_count', 'temperature_case', 'temperature_celsius', 'temperature_internal', 'total_lbas_read', 'total_lbas_written', 'udma_crc_error_count', 'unsafe_shutdown_count', 'workld_host_reads_perc', 'workld_media_wear_indic', 'workload_minutes', } Metric = collections.namedtuple('Metric', 'name labels value') SmartAttribute = collections.namedtuple('SmartAttribute', [ 'id', 'name', 'flag', 'value', 'worst', 'threshold', 'type', 'updated', 'when_failed', 'raw_value', ]) class Device(collections.namedtuple('DeviceBase', 'path opts')): """Representation of a device as found by smartctl --scan output.""" @property def type(self): return self.opts.type @property def base_labels(self): return {'device': self.path, 'type': self.type} def smartctl_select(self): return ['--device', self.type, self.path] def metric_key(metric, prefix=''): return '{prefix}{metric.name}'.format(prefix=prefix, metric=metric) def metric_format(metric, prefix=''): key = metric_key(metric, prefix) labels = ','.join( '{k}="{v}"'.format(k=k, v=v.replace('"', '\\"')) for k, v in metric.labels.items()) value = decimal.Decimal(metric.value) return '{key}{{ '{{{' }}labels{{ '}}}' }} {value}'.format( key=key, labels=labels, value=value) def metric_print_meta(metric, prefix=''): key = metric_key(metric, prefix) print('# HELP {key} SMART metric {metric.name}'.format( key=key, metric=metric)) print('# TYPE {key} gauge'.format(key=key)) def metric_print(metric, prefix=''): print(metric_format(metric, prefix)) def smart_ctl(*args, check=True): """Wrapper around invoking the smartctl binary. Returns: (str) Data piped to stdout by the smartctl subprocess. """ return subprocess.run( ['smartctl', *args], stdout=subprocess.PIPE, check=check ).stdout.decode('utf-8') def smart_ctl_version(): return smart_ctl('-V').split('\n')[0].split()[1] def find_devices(): """Find SMART devices. Yields: (Device) Single device found by smartctl. """ parser = argparse.ArgumentParser() parser.add_argument('-d', '--device', dest='type') devices = smart_ctl('--scan-open') for device in devices.split('\n'): device = device.strip() if not device: continue tokens = shlex.split(device, comments=True) if not tokens: continue yield Device(tokens[0], parser.parse_args(tokens[1:])) def device_is_active(device): """Returns whenever the given device is currently active or not. Args: device: (Device) Device in question. Returns: (bool) True if the device is active and False otherwise. """ try: smart_ctl('--nocheck', 'standby', *device.smartctl_select()) except subprocess.CalledProcessError: return False return True def device_info(device): """Query device for basic model information. Args: device: (Device) Device in question. Returns: (generator): Generator yielding: key (str): Key describing the value. value (str): Actual value. """ info_lines = smart_ctl( '--info', *device.smartctl_select() ).strip().split('\n')[3:] matches = (device_info_re.match(line) for line in info_lines) return (m.groups() for m in matches if m is not None) def device_smart_capabilities(device): """Returns SMART capabilities of the given device. Args: device: (Device) Device in question. Returns: (tuple): tuple containing: (bool): True whenever SMART is available, False otherwise. (bool): True whenever SMART is enabled, False otherwise. """ # NVME devices are SMART capable if device.type == 'nvme': return True, True groups = device_info(device) state = { g[1].split(' ', 1)[0] for g in groups if g[0] == 'SMART support'} smart_available = 'Available' in state smart_enabled = 'Enabled' in state return smart_available, smart_enabled def collect_device_info(device): """Collect basic device information. Args: device: (Device) Device in question. Yields: (Metric) metrics describing general device information. """ values = dict(device_info(device)) yield Metric('device_info', { **device.base_labels, **{v: values[k] for k, v in device_info_map.items() if k in values} }, True) def collect_device_health_self_assessment(device): """Collect metric about the device health self assessment. Args: device: (Device) Device in question. Yields: (Metric) Device health self assessment. """ out = smart_ctl('--health', *device.smartctl_select(), check=False) self_assessment_passed = bool(self_test_re.search(out)) yield Metric( 'device_smart_healthy', device.base_labels, self_assessment_passed) def collect_ata_metrics(device): # Fetch SMART attributes for the given device. attributes = smart_ctl( '--attributes', *device.smartctl_select() ) # replace multiple occurrences of whitespace with a single whitespace # so that the CSV Parser recognizes individual columns properly. attributes = re.sub(r'[\t\x20]+', ' ', attributes) # Turn smartctl output into a list of lines and skip to the table of # SMART attributes. attribute_lines = attributes.strip().split('\n')[7:] # Some attributes have multiple IDs but have the same name. Don't # yield attributes that already have been reported before. seen = set() reader = csv.DictReader( (line.strip() for line in attribute_lines), fieldnames=SmartAttribute._fields[:-1], restkey=SmartAttribute._fields[-1], delimiter=' ') for entry in reader: # We're only interested in the SMART attributes that are # whitelisted here. entry['name'] = entry['name'].lower() if entry['name'] not in smart_attributes_whitelist: continue # Ensure that only the numeric parts are fetched from the raw_value. # Attributes such as 194 Temperature_Celsius reported by my SSD # are in the format of "36 (Min/Max 24/40)" which can't be expressed # properly as a prometheus metric. m = re.match(r'^(\d+)', ' '.join(entry['raw_value'])) if not m: continue entry['raw_value'] = m.group(1) # Some device models report "---" in the threshold value where most # devices would report "000". We do the substitution here because # downstream code expects values to be convertable to integer. if entry['threshold'] == '---': entry['threshold'] = '0' if entry['name'] in smart_attributes_whitelist and entry['name'] not in seen: labels = { 'name': entry['name'], **device.base_labels, } for col in 'value', 'worst', 'threshold', 'raw_value': yield Metric( 'attr_{col}'.format(col=col), labels, entry[col]) seen.add(entry['name']) def collect_ata_error_count(device): """Inspect the device error log and report the amount of entries. Args: device: (Device) Device in question. Yields: (Metric) Device error count. """ error_log = smart_ctl( '-l', 'xerror,1', *device.smartctl_select(), check=False) m = ata_error_count_re.search(error_log) error_count = m.group(1) if m is not None else 0 yield Metric('device_errors', device.base_labels, error_count) def collect_nvme_metrics(device): # Fetch NVME metrics attributes = smart_ctl( '--attributes', *device.smartctl_select() ) # replace multiple occurrences of whitespaces with a singel whitespace attributes = re.sub(r'[\t\x20]+', ' ', attributes) # Turn smartctl output into a list of lines and skip to the table of # SMART attributes. attribute_lines = attributes.strip().split('\n')[6:] for line in attribute_lines: label, value = line.split(':') if label == 'Available Spare': yield Metric('available_spare_ratio', device.base_labels, value[0:-1]) elif label == 'Available Spare Threshold': yield Metric('available_spare_threshold_ratio', device.base_labels, value[0:-1]) elif label == 'Percentage Used': yield Metric('percentage_used_ratio', device.base_labels, value[0:-1]) elif label == 'Power Cycle': yield Metric('power_cycles_total', device.base_labels, value) elif label == 'Power On Hours': yield Metric('power_on_hours_total', device.base_labels, value.replace(',', '')) elif label == 'Temperature': yield Metric('temperature_celcius', device.base_labels, value.replace(' Celsius', '')) elif label == 'Unsafe Shutdowns': yield Metric('unsafe_shutdowns_total', device.base_labels, value) elif label == 'Media and Data Integrity Errors': yield Metric('media_errors_total', device.base_labels, value) elif label == 'Error Information Log Entries': yield Metric('num_err_log_entries_total', device.base_labels, value) elif label == 'Warning Comp. Temperature Time': yield Metric('warning_temperature_time_total', device.base_labels, value) elif label == 'Critical Comp. Temperature Time': yield Metric('critical_temperature_time_total', device.base_labels, value) def collect_disks_smart_metrics(wakeup_disks): now = int(datetime.datetime.now().timestamp()) for device in find_devices(): yield Metric('smartctl_run', device.base_labels, now) is_active = device_is_active(device) yield Metric('device_active', device.base_labels, is_active) # Skip further metrics collection to prevent the disk from # spinning up. if not is_active and not wakeup_disks: continue yield from collect_device_info(device) smart_available, smart_enabled = device_smart_capabilities(device) yield Metric( 'device_smart_available', device.base_labels, smart_available) yield Metric( 'device_smart_enabled', device.base_labels, smart_enabled) # Skip further metrics collection here if SMART is disabled # on the device. Further smartctl invocations would fail # anyways. if not smart_available: continue yield from collect_device_health_self_assessment(device) if device.type.startswith('sat'): yield from collect_ata_metrics(device) yield from collect_ata_error_count(device) if device.type == 'nvme': yield from collect_nvme_metrics(device) def main(): parser = argparse.ArgumentParser() parser.add_argument('-s', '--wakeup-disks', dest='wakeup_disks', action='store_true') args = parser.parse_args(sys.argv[1:]) version_metric = Metric('smartctl_version', { 'version': smart_ctl_version() }, True) metric_print_meta(version_metric, 'smartmon_') metric_print(version_metric, 'smartmon_') metrics = list(collect_disks_smart_metrics(args.wakeup_disks)) metrics.sort(key=lambda i: i.name) previous_name = None for m in metrics: if m.name != previous_name: metric_print_meta(m, 'smartmon_') previous_name = m.name metric_print(m, 'smartmon_') if __name__ == '__main__': main()