server/cros/storage/storage_validate.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 #!/usr/bin/env python2
 # Copyright 2020 The Chromium OS Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import logging
 import time
 import re

 from autotest_lib.client.common_lib import error

 # Storage types supported
 STORAGE_TYPE_SSD = 'ssd'
 STORAGE_TYPE_NVME = 'nvme'
 STORAGE_TYPE_MMC = 'mmc'

 # Storage states supported
 STORAGE_STATE_NORMAL = 'normal'
 STORAGE_STATE_WARNING = 'warning'
 STORAGE_STATE_CRITICAL = 'critical'

 BADBLOCK_CHECK_RO = 'RO'
 BADBLOCK_CHECK_RW = 'RW'


 class StorageError(error.TestFail):
     """Custom error class to indicate is unsupported or unavailable
     detect storage info.
     """
     pass


 class ConsoleError(error.TestFail):
     """Common error class for servod console-back control failures."""
     pass


 class StorageStateValidator(object):
     """Class to detect types and state of the DUT storage.

     The class supporting SSD, NVME and MMC storage types.
     The state detection and set state as:
     - normal - drive in a good shape
     - warning - drive close to the worn out state by any metrics
     - critical - drive is worn out and has errors
     """

     def __init__(self, host):
         """Initialize the storage validator.

         @param host: cros_host object providing console access
                      for reading the target info.

         @raises ConsoleError: if cannot read info
         @raises StorageError: if info is not preset
         """
         self._host = host
         self._storage_type = None
         self._storage_state = None
         self._info = []

         if not self._host:
             raise StorageError('Host is not provided')

         self._read_storage_info()

     def _read_storage_info(self):
         """Reading the storage info from SMART

         The info will be located as collection of lines
         @raises StorageError: if no info provided or data unavailable
         """
         logging.info('Extraction storage info')
         command = '. /usr/share/misc/storage-info-common.sh; get_storage_info'
         cmd_result = self._host.run(command, ignore_status=True)
         if cmd_result.exit_status != 0:
             raise StorageError('receive error: %s;', cmd_result.stderr)

         if cmd_result.stdout:
             self._info = cmd_result.stdout.splitlines()
         if len(self._info) == 0:
             raise StorageError('Storage info is empty')

     def get_type(self):
         """Determine the type of the storage on the host.

         @returns storage type (SSD, NVME, MMC)

         @raises StorageError: if type not supported or not determine
         """
         if not self._storage_type:
             self._storage_type = self._get_storage_type()
         return self._storage_type

     def get_state(self, run_badblocks=None):
         """Determine the type of the storage on the host.

         @param run_badblocks: string key to run badblock check.
                                 None - check if we can run it
                                 "NOT" - do not run check
                                 "RW" - run read-write if booted from USB
                                 "RO"  - run read-only check
         @returns storage state (normal|warning|critical)

         @raises StorageError: if type not supported or state cannot
                             be determine
         """
         if not self._storage_state:
             storage_type = self.get_type()
             if storage_type == STORAGE_TYPE_SSD:
                 self._storage_state = self._get_state_for_ssd()
             elif storage_type == STORAGE_TYPE_MMC:
                 self._storage_state = self._get_state_for_mms()
             elif storage_type == STORAGE_TYPE_NVME:
                 self._storage_state = self._get_state_for_nvme()
         if (run_badblocks != 'NOT'
                     and self._storage_state != STORAGE_STATE_CRITICAL
                     and self._support_health_profile()):
             # run badblocks if storage not in critical state
             # if bad block found then mark storage as bad
             logging.info('Trying run badblocks on device')
             dhp = self._host.health_profile
             usb_boot = self._host.is_boot_from_external_device()
             if run_badblocks is None:
                 if _is_time_to_run_badblocks_ro(dhp):
                     run_badblocks = BADBLOCK_CHECK_RO
                 # Blocked for now till we confirm that SMART stats is not
                 # detect is before we do.
                 # if usb_boot and _is_time_to_run_badblocks_rw(dhp):
                 #     run_badblocks = BADBLOCK_CHECK_RW
             logging.debug('run_badblocks=%s', run_badblocks)
             if usb_boot and run_badblocks == BADBLOCK_CHECK_RW:
                 self._run_read_write_badblocks_check()
                 dhp.refresh_badblocks_rw_run_time()
                 # RO is subclass of RW so update it too
                 dhp.refresh_badblocks_ro_run_time()
             if run_badblocks == BADBLOCK_CHECK_RO:
                 # SMART stats sometimes is not giving issue if blocks
                 # bad for reading. So we run RO check.
                 self._run_readonly_badblocks_check()
                 dhp.refresh_badblocks_ro_run_time()
         return self._storage_state

     def _get_storage_type(self):
         """Read the info to detect type of the storage by patterns"""
         logging.info('Extraction storage type')
         # Example "SATA Version is: SATA 3.1, 6.0 Gb/s (current: 6.0 Gb/s)"
         sata_detect = r"SATA Version is:.*"

         # Example "   Extended CSD rev 1.7 (MMC 5.0)"
         mmc_detect = r"\s*Extended CSD rev.*MMC (?P<version>\d+.\d+)"

         # Example "SMART/Health Information (NVMe Log 0x02, NSID 0xffffffff)"
         nvme_detect = r".*NVMe Log .*"

         for line in self._info:
             if re.match(sata_detect, line):
                 logging.info('Found SATA device')
                 logging.debug('Found line => ' + line)
                 return STORAGE_TYPE_SSD

             m = re.match(mmc_detect, line)
             if m:
                 version = m.group('version')
                 logging.info('Found eMMC device, version: %s', version)
                 logging.debug('Found line => ' + line)
                 return STORAGE_TYPE_MMC

             if re.match(nvme_detect, line):
                 logging.info('Found NVMe device')
                 logging.debug('Found line => ' + line)
                 return STORAGE_TYPE_NVME
         raise StorageError('Storage type cannot be detect')

     def _get_state_for_ssd(self):
         """Read the info to detect state for SSD storage"""
         logging.info('Extraction metrics for SSD storage')
         # Field meaning and example line that have failing attribute
         # https://en.wikipedia.org/wiki/S.M.A.R.T.
         # ID# ATTRIBUTE_NAME     FLAGS    VALUE WORST THRESH FAIL RAW_VALUE
         # 184 End-to-End_Error   PO--CK   001   001   097    NOW  135
         ssd_fail = r"""\s*(?P<param>\S+\s\S+)      # ID and attribute name
                     \s+[P-][O-][S-][R-][C-][K-] # flags
                     (\s+\d{3}){3}               # three 3-digits numbers
                     \s+NOW                      # fail indicator"""

         ssd_relocate_sectors = r"""\s*\d\sReallocated_Sector_Ct
                     \s*[P-][O-][S-][R-][C-][K-] # flags
                     \s*(?P<value>\d{3}) # VALUE
                     \s*(?P<worst>\d{3}) # WORST
                     \s*(?P<thresh>\d{3})# THRESH
                     """
         # future optimizations: read GPL and determine persentage
         for line in self._info:
             if re.match(ssd_fail, line):
                 logging.debug('Found fail line => ' + line)
                 return STORAGE_STATE_CRITICAL

             m = re.match(ssd_relocate_sectors, line)
             if m:
                 logging.info('Found critical line => ' + line)
                 value = int(m.group('value'))
                 # manufacture set default value 100,
                 # if number started to grow then it is time to mark it
                 if value > 100:
                     return STORAGE_STATE_WARNING
         return STORAGE_STATE_NORMAL

     def _get_state_for_mms(self):
         """Read the info to detect state for MMC storage"""
         logging.debug('Extraction metrics for MMC storage')
         # Ex:
         # Device life time type A [DEVICE_LIFE_TIME_EST_TYP_A: 0x01]
         # 0x00~9 means 0-90% band
         # 0x0a means 90-100% band
         # 0x0b means over 100% band
         mmc_fail_lev = r""".*(?P<param>DEVICE_LIFE_TIME_EST_TYP_.)]?:
                         0x0(?P<val>\S)""" #life time persentage

         # Ex "Pre EOL information [PRE_EOL_INFO: 0x01]"
         # 0x00 - not defined
         # 0x01 - Normal
         # 0x02 - Warning, consumed 80% of the reserved blocks
         # 0x03 - Urgent, consumed 90% of the reserved blocks
         mmc_fail_eol = r".*(?P<param>PRE_EOL_INFO.)]?: 0x0(?P<val>\d)"

         eol_value = 0
         lev_value = -1
         for line in self._info:
             m = re.match(mmc_fail_lev, line)
             if m:
                 param = m.group('val')
                 logging.debug('Found line for lifetime estimate => ' + line)
                 if 'a' == param:
                     val = 100
                 elif 'b' == param:
                     val = 101
                 else:
                     val = int(param)*10
                 if val > lev_value:
                     lev_value = val
                 continue

             m = re.match(mmc_fail_eol, line)
             if m:
                 param = m.group('val')
                 logging.debug('Found line for end-of-life => ' + line)
                 eol_value = int(param)
                 break

         # set state based on end-of-life
         if eol_value == 3:
             return STORAGE_STATE_CRITICAL
         elif eol_value == 2:
             return STORAGE_STATE_WARNING
         elif eol_value == 1:
             return STORAGE_STATE_NORMAL

         # set state based on life of estimates
         elif lev_value < 90:
             return STORAGE_STATE_NORMAL
         elif lev_value < 100:
             return STORAGE_STATE_WARNING
         return STORAGE_STATE_CRITICAL

     def _get_state_for_nvme(self):
         """Read the info to detect state for NVMe storage"""
         logging.debug('Extraction metrics for NVMe storage')
         # Ex "Percentage Used:         100%"
         nvme_fail = r"Percentage Used:\s+(?P<param>(\d{1,3}))%"
         used_value = -1
         for line in self._info:
             m = re.match(nvme_fail, line)
             if m:
                 param = m.group('param')
                 logging.debug('Found line for usage => ' + line)
                 try:
                     val = int(param)
                     used_value = val
                 except ValueError as e:
                     logging.info('Could not cast: %s to int ', param)
                 break

         if used_value < 91:
             return STORAGE_STATE_NORMAL
         # Stop mark device as bad when they reached 100% usage
         # TODO(otabek) crbug.com/1140507 re-evaluate the max usage
         return STORAGE_STATE_WARNING

     def _get_device_storage_path(self):
         """Find and return the path to the device storage.

         Method support detection even when the device booted from USB.

         @returns path to the main device like '/dev/XXXX'
         """
         # find the name of device storage
         cmd = ('. /usr/sbin/write_gpt.sh;'
                ' . /usr/share/misc/chromeos-common.sh;'
                ' load_base_vars; get_fixed_dst_drive')
         cmd_result = self._host.run(cmd,
                                     ignore_status=True,
                                     timeout=60)
         if cmd_result.exit_status != 0:
             logging.debug('Failed to detect path to the device storage')
             return None
         return cmd_result.stdout.strip()

     def _run_readonly_badblocks_check(self):
         """Run backblocks readonly verification on device storage.

         The blocksize set as 512 based.
         """
         path = self._get_device_storage_path()
         if not path:
             # cannot continue if storage was not detected
             return
         logging.info("Running readonly badblocks check; path=%s", path)
         cmd = 'badblocks -e 1 -s -b 512 %s' % path
         try:
             # set limit in 1 hour but expecting to finish it up 30 minutes
             cmd_result = self._host.run(cmd, ignore_status=True, timeout=3600)
             if cmd_result.exit_status != 0:
                 logging.debug('Failed to detect path to the device storage')
                 return
             result = cmd_result.stdout.strip()
             if result:
                 logging.debug("Check result: '%s'", result)
                 # So has result is Bad and empty is Good.
                 self._storage_state = STORAGE_STATE_CRITICAL
         except Exception as e:
             if 'Timeout encountered:' in str(e):
                 logging.info('Timeout during running action')
             logging.debug(str(e))

     def _run_read_write_badblocks_check(self):
         """Run non-destructive read-write check on device storage.

         The blocksize set as 512 based.
         We can run this test only when DUT booted from USB.
         """
         path = self._get_device_storage_path()
         if not path:
             # cannot continue if storage was not detected
             return
         logging.info("Running read-write badblocks check; path=%s", path)
         cmd = 'badblocks -e 1 -nsv -b 4096 %s' % path
         try:
             # set limit in 90 minutes but expecting to finish it up 50 minutes
             cmd_result = self._host.run(cmd, ignore_status=True, timeout=5400)
             if cmd_result.exit_status != 0:
                 logging.debug('Failed to detect path to the device storage')
                 return
             result = cmd_result.stdout.strip()
             if result:
                 logging.debug("Check result: '%s'", result)
                 # So has result is Bad and empty is Good.
                 self._storage_state = STORAGE_STATE_CRITICAL
         except Exception as e:
             if 'Timeout encountered:' in str(e):
                 logging.info('Timeout during running action')
             logging.info('(Not critical) %s', e)

     def _support_health_profile(self):
         return (hasattr(self._host, 'health_profile')
                 and self._host.health_profile)


 def _is_time_to_run_badblocks_ro(dhp):
     """Verify that device can proceed to run read-only badblocks check.
     The RO check can be executed not often then one per 6 days.

     @returns True if can proceed, False if not
     """
     today_time = int(time.time())
     last_check = dhp.get_badblocks_ro_run_time_epoch()
     can_run = today_time > (last_check + (6 * 24 * 60 * 60))
     if not can_run:
         logging.info(
                 'Run RO badblocks not allowed because we have run it recently,'
                 ' last run %s. RO check allowed to run only once per 6 days',
                 dhp.get_badblocks_ro_run_time())
     return can_run


 def _is_time_to_run_badblocks_rw(dhp):
     """Verify that device can proceed to run read-write badblocks check.
     The RW check can be executed not often then one per 60 days.

     @returns True if can proceed, False if not
     """
     today_time = int(time.time())
     last_check = dhp.get_badblocks_rw_run_time_epoch()
     can_run = today_time > (last_check + (60 * 24 * 60 * 60))
     if not can_run:
         logging.info(
                 'Run RW badblocks not allowed because we have run it recently,'
                 ' last run %s. RW check allowed to run only once per 60 days',
                 dhp.get_badblocks_rw_run_time())
     return can_run
	#!/usr/bin/env python2
	# Copyright 2020 The Chromium OS Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import logging
	import time
	import re

	from autotest_lib.client.common_lib import error

	# Storage types supported
	STORAGE_TYPE_SSD = 'ssd'
	STORAGE_TYPE_NVME = 'nvme'
	STORAGE_TYPE_MMC = 'mmc'

	# Storage states supported
	STORAGE_STATE_NORMAL = 'normal'
	STORAGE_STATE_WARNING = 'warning'
	STORAGE_STATE_CRITICAL = 'critical'

	BADBLOCK_CHECK_RO = 'RO'
	BADBLOCK_CHECK_RW = 'RW'


	class StorageError(error.TestFail):
	"""Custom error class to indicate is unsupported or unavailable
	detect storage info.
	"""
	pass


	class ConsoleError(error.TestFail):
	"""Common error class for servod console-back control failures."""
	pass


	class StorageStateValidator(object):
	"""Class to detect types and state of the DUT storage.

	The class supporting SSD, NVME and MMC storage types.
	The state detection and set state as:
	- normal - drive in a good shape
	- warning - drive close to the worn out state by any metrics
	- critical - drive is worn out and has errors
	"""

	def __init__(self, host):
	"""Initialize the storage validator.

	@param host: cros_host object providing console access
	for reading the target info.

	@raises ConsoleError: if cannot read info
	@raises StorageError: if info is not preset
	"""
	self._host = host
	self._storage_type = None
	self._storage_state = None
	self._info = []

	if not self._host:
	raise StorageError('Host is not provided')

	self._read_storage_info()

	def _read_storage_info(self):
	"""Reading the storage info from SMART

	The info will be located as collection of lines
	@raises StorageError: if no info provided or data unavailable
	"""
	logging.info('Extraction storage info')
	command = '. /usr/share/misc/storage-info-common.sh; get_storage_info'
	cmd_result = self._host.run(command, ignore_status=True)
	if cmd_result.exit_status != 0:
	raise StorageError('receive error: %s;', cmd_result.stderr)

	if cmd_result.stdout:
	self._info = cmd_result.stdout.splitlines()
	if len(self._info) == 0:
	raise StorageError('Storage info is empty')

	def get_type(self):
	"""Determine the type of the storage on the host.

	@returns storage type (SSD, NVME, MMC)

	@raises StorageError: if type not supported or not determine
	"""
	if not self._storage_type:
	self._storage_type = self._get_storage_type()
	return self._storage_type

	def get_state(self, run_badblocks=None):
	"""Determine the type of the storage on the host.

	@param run_badblocks: string key to run badblock check.
	None - check if we can run it
	"NOT" - do not run check
	"RW" - run read-write if booted from USB
	"RO" - run read-only check
	@returns storage state (normal\|warning\|critical)

	@raises StorageError: if type not supported or state cannot
	be determine
	"""
	if not self._storage_state:
	storage_type = self.get_type()
	if storage_type == STORAGE_TYPE_SSD:
	self._storage_state = self._get_state_for_ssd()
	elif storage_type == STORAGE_TYPE_MMC:
	self._storage_state = self._get_state_for_mms()
	elif storage_type == STORAGE_TYPE_NVME:
	self._storage_state = self._get_state_for_nvme()
	if (run_badblocks != 'NOT'
	and self._storage_state != STORAGE_STATE_CRITICAL
	and self._support_health_profile()):
	# run badblocks if storage not in critical state
	# if bad block found then mark storage as bad
	logging.info('Trying run badblocks on device')
	dhp = self._host.health_profile
	usb_boot = self._host.is_boot_from_external_device()
	if run_badblocks is None:
	if _is_time_to_run_badblocks_ro(dhp):
	run_badblocks = BADBLOCK_CHECK_RO
	# Blocked for now till we confirm that SMART stats is not
	# detect is before we do.
	# if usb_boot and _is_time_to_run_badblocks_rw(dhp):
	# run_badblocks = BADBLOCK_CHECK_RW
	logging.debug('run_badblocks=%s', run_badblocks)
	if usb_boot and run_badblocks == BADBLOCK_CHECK_RW:
	self._run_read_write_badblocks_check()
	dhp.refresh_badblocks_rw_run_time()
	# RO is subclass of RW so update it too
	dhp.refresh_badblocks_ro_run_time()
	if run_badblocks == BADBLOCK_CHECK_RO:
	# SMART stats sometimes is not giving issue if blocks
	# bad for reading. So we run RO check.
	self._run_readonly_badblocks_check()
	dhp.refresh_badblocks_ro_run_time()
	return self._storage_state

	def _get_storage_type(self):
	"""Read the info to detect type of the storage by patterns"""
	logging.info('Extraction storage type')
	# Example "SATA Version is: SATA 3.1, 6.0 Gb/s (current: 6.0 Gb/s)"
	sata_detect = r"SATA Version is:.*"

	# Example " Extended CSD rev 1.7 (MMC 5.0)"
	mmc_detect = r"\sExtended CSD rev.MMC (?P<version>\d+.\d+)"

	# Example "SMART/Health Information (NVMe Log 0x02, NSID 0xffffffff)"
	nvme_detect = r".NVMe Log ."

	for line in self._info:
	if re.match(sata_detect, line):
	logging.info('Found SATA device')
	logging.debug('Found line => ' + line)
	return STORAGE_TYPE_SSD

	m = re.match(mmc_detect, line)
	if m:
	version = m.group('version')
	logging.info('Found eMMC device, version: %s', version)
	logging.debug('Found line => ' + line)
	return STORAGE_TYPE_MMC

	if re.match(nvme_detect, line):
	logging.info('Found NVMe device')
	logging.debug('Found line => ' + line)
	return STORAGE_TYPE_NVME
	raise StorageError('Storage type cannot be detect')

	def _get_state_for_ssd(self):
	"""Read the info to detect state for SSD storage"""
	logging.info('Extraction metrics for SSD storage')
	# Field meaning and example line that have failing attribute
	# https://en.wikipedia.org/wiki/S.M.A.R.T.
	# ID# ATTRIBUTE_NAME FLAGS VALUE WORST THRESH FAIL RAW_VALUE
	# 184 End-to-End_Error PO--CK 001 001 097 NOW 135
	ssd_fail = r"""\s*(?P<param>\S+\s\S+) # ID and attribute name
	\s+[P-][O-][S-][R-][C-][K-] # flags
	(\s+\d{3}){3} # three 3-digits numbers
	\s+NOW # fail indicator"""

	ssd_relocate_sectors = r"""\s*\d\sReallocated_Sector_Ct
	\s*[P-][O-][S-][R-][C-][K-] # flags
	\s*(?P<value>\d{3}) # VALUE
	\s*(?P<worst>\d{3}) # WORST
	\s*(?P<thresh>\d{3})# THRESH
	"""
	# future optimizations: read GPL and determine persentage
	for line in self._info:
	if re.match(ssd_fail, line):
	logging.debug('Found fail line => ' + line)
	return STORAGE_STATE_CRITICAL

	m = re.match(ssd_relocate_sectors, line)
	if m:
	logging.info('Found critical line => ' + line)
	value = int(m.group('value'))
	# manufacture set default value 100,
	# if number started to grow then it is time to mark it
	if value > 100:
	return STORAGE_STATE_WARNING
	return STORAGE_STATE_NORMAL

	def _get_state_for_mms(self):
	"""Read the info to detect state for MMC storage"""
	logging.debug('Extraction metrics for MMC storage')
	# Ex:
	# Device life time type A [DEVICE_LIFE_TIME_EST_TYP_A: 0x01]
	# 0x00~9 means 0-90% band
	# 0x0a means 90-100% band
	# 0x0b means over 100% band
	mmc_fail_lev = r""".*(?P<param>DEVICE_LIFE_TIME_EST_TYP_.)]?:
	0x0(?P<val>\S)""" #life time persentage

	# Ex "Pre EOL information [PRE_EOL_INFO: 0x01]"
	# 0x00 - not defined
	# 0x01 - Normal
	# 0x02 - Warning, consumed 80% of the reserved blocks
	# 0x03 - Urgent, consumed 90% of the reserved blocks
	mmc_fail_eol = r".*(?P<param>PRE_EOL_INFO.)]?: 0x0(?P<val>\d)"

	eol_value = 0
	lev_value = -1
	for line in self._info:
	m = re.match(mmc_fail_lev, line)
	if m:
	param = m.group('val')
	logging.debug('Found line for lifetime estimate => ' + line)
	if 'a' == param:
	val = 100
	elif 'b' == param:
	val = 101
	else:
	val = int(param)*10
	if val > lev_value:
	lev_value = val
	continue

	m = re.match(mmc_fail_eol, line)
	if m:
	param = m.group('val')
	logging.debug('Found line for end-of-life => ' + line)
	eol_value = int(param)
	break

	# set state based on end-of-life
	if eol_value == 3:
	return STORAGE_STATE_CRITICAL
	elif eol_value == 2:
	return STORAGE_STATE_WARNING
	elif eol_value == 1:
	return STORAGE_STATE_NORMAL

	# set state based on life of estimates
	elif lev_value < 90:
	return STORAGE_STATE_NORMAL
	elif lev_value < 100:
	return STORAGE_STATE_WARNING
	return STORAGE_STATE_CRITICAL

	def _get_state_for_nvme(self):
	"""Read the info to detect state for NVMe storage"""
	logging.debug('Extraction metrics for NVMe storage')
	# Ex "Percentage Used: 100%"
	nvme_fail = r"Percentage Used:\s+(?P<param>(\d{1,3}))%"
	used_value = -1
	for line in self._info:
	m = re.match(nvme_fail, line)
	if m:
	param = m.group('param')
	logging.debug('Found line for usage => ' + line)
	try:
	val = int(param)
	used_value = val
	except ValueError as e:
	logging.info('Could not cast: %s to int ', param)
	break

	if used_value < 91:
	return STORAGE_STATE_NORMAL
	# Stop mark device as bad when they reached 100% usage
	# TODO(otabek) crbug.com/1140507 re-evaluate the max usage
	return STORAGE_STATE_WARNING

	def _get_device_storage_path(self):
	"""Find and return the path to the device storage.

	Method support detection even when the device booted from USB.

	@returns path to the main device like '/dev/XXXX'
	"""
	# find the name of device storage
	cmd = ('. /usr/sbin/write_gpt.sh;'
	' . /usr/share/misc/chromeos-common.sh;'
	' load_base_vars; get_fixed_dst_drive')
	cmd_result = self._host.run(cmd,
	ignore_status=True,
	timeout=60)
	if cmd_result.exit_status != 0:
	logging.debug('Failed to detect path to the device storage')
	return None
	return cmd_result.stdout.strip()

	def _run_readonly_badblocks_check(self):
	"""Run backblocks readonly verification on device storage.

	The blocksize set as 512 based.
	"""
	path = self._get_device_storage_path()
	if not path:
	# cannot continue if storage was not detected
	return
	logging.info("Running readonly badblocks check; path=%s", path)
	cmd = 'badblocks -e 1 -s -b 512 %s' % path
	try:
	# set limit in 1 hour but expecting to finish it up 30 minutes
	cmd_result = self._host.run(cmd, ignore_status=True, timeout=3600)
	if cmd_result.exit_status != 0:
	logging.debug('Failed to detect path to the device storage')
	return
	result = cmd_result.stdout.strip()
	if result:
	logging.debug("Check result: '%s'", result)
	# So has result is Bad and empty is Good.
	self._storage_state = STORAGE_STATE_CRITICAL
	except Exception as e:
	if 'Timeout encountered:' in str(e):
	logging.info('Timeout during running action')
	logging.debug(str(e))

	def _run_read_write_badblocks_check(self):
	"""Run non-destructive read-write check on device storage.

	The blocksize set as 512 based.
	We can run this test only when DUT booted from USB.
	"""
	path = self._get_device_storage_path()
	if not path:
	# cannot continue if storage was not detected
	return
	logging.info("Running read-write badblocks check; path=%s", path)
	cmd = 'badblocks -e 1 -nsv -b 4096 %s' % path
	try:
	# set limit in 90 minutes but expecting to finish it up 50 minutes
	cmd_result = self._host.run(cmd, ignore_status=True, timeout=5400)
	if cmd_result.exit_status != 0:
	logging.debug('Failed to detect path to the device storage')
	return
	result = cmd_result.stdout.strip()
	if result:
	logging.debug("Check result: '%s'", result)
	# So has result is Bad and empty is Good.
	self._storage_state = STORAGE_STATE_CRITICAL
	except Exception as e:
	if 'Timeout encountered:' in str(e):
	logging.info('Timeout during running action')
	logging.info('(Not critical) %s', e)

	def _support_health_profile(self):
	return (hasattr(self._host, 'health_profile')
	and self._host.health_profile)


	def _is_time_to_run_badblocks_ro(dhp):
	"""Verify that device can proceed to run read-only badblocks check.
	The RO check can be executed not often then one per 6 days.

	@returns True if can proceed, False if not
	"""
	today_time = int(time.time())
	last_check = dhp.get_badblocks_ro_run_time_epoch()
	can_run = today_time > (last_check + (6 * 24 * 60 * 60))
	if not can_run:
	logging.info(
	'Run RO badblocks not allowed because we have run it recently,'
	' last run %s. RO check allowed to run only once per 6 days',
	dhp.get_badblocks_ro_run_time())
	return can_run


	def _is_time_to_run_badblocks_rw(dhp):
	"""Verify that device can proceed to run read-write badblocks check.
	The RW check can be executed not often then one per 60 days.

	@returns True if can proceed, False if not
	"""
	today_time = int(time.time())
	last_check = dhp.get_badblocks_rw_run_time_epoch()
	can_run = today_time > (last_check + (60 * 24 * 60 * 60))
	if not can_run:
	logging.info(
	'Run RW badblocks not allowed because we have run it recently,'
	' last run %s. RW check allowed to run only once per 60 days',
	dhp.get_badblocks_rw_run_time())
	return can_run