client/site_tests/hardware_DiskSize/hardware_DiskSize.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # Copyright (c) 2010 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 os
 import re

 from autotest_lib.client.bin import test, utils
 from autotest_lib.client.common_lib import error

 DEFAULT_MIN_GB = 16
 # Allowable amount of bits eMMC vendor can use in firmware to support bad block
 # replacement and metadata.
 EMMC_VENDOR_ALLOWED_GB = 0.25

 class hardware_DiskSize(test.test):
     version = 1

     def _is_emmc(self):
         path = os.path.join("/sys/class/block/", self._device,
                             "device", "type")
         if not os.path.exists(path):
             return False
         return utils.read_one_line(path) == 'MMC'


     def _compute_min_gb(self):
         """Computes minimum size allowed primary storage device.

         TODO(tbroch): Add computation of raw bytes in eMMC using 'Chip Specific
         Data' (CSD & EXT_CSD) defined by JEDEC JESD84-A44.pdf if possible.

         CSD :: /sys/class/block/<device>/device/csd
         EXT_CSD :: debugfs

         Algorithm should look something like this:
         CSD[C_SIZE] = 0xfff == eMMC > 2GB
         EXT_CSD[SEC_COUNT] = # of 512byte sectors

         Now for existing eMMC I've examined I do see the C_SIZE == 0xfff.
         Unfortunately the SEC_COUNT appears to have excluded the sectors
         reserved for metadata & repair.  Perhaps thats by design in which case
         there is no mechanism to determine the actual raw sectors.

         For now I use 0.25GB as an acceptable fudge.

         Returns:
             integer, in GB of minimum storage size.
         """

         min_gb = DEFAULT_MIN_GB
         if self._is_emmc():
             min_gb -= EMMC_VENDOR_ALLOWED_GB
         return min_gb


     def run_once(self):
         devnode = utils.system_output('rootdev -s -d -i')
         self._device = os.path.basename(devnode)

         for line in file('/proc/partitions'):
             try:
                 _, _, blocks, name = re.split(r' +', line.strip())
             except ValueError:
                 continue
             if name == self._device:
                 blocks = int(blocks)
                 break
         else:
             raise error.TestError('Unable to determine main disk size')

         # Capacity of a hard disk is quoted with SI prefixes, incrementing by
         # powers of 1000, instead of powers of 1024.
         gb = blocks * 1024.0 / 1000.0 / 1000.0 / 1000.0
         self.write_perf_keyval({"gb_main_disk_size": gb})
         min_gb = self._compute_min_gb()
         logging.info("DiskSize: %.3f GB MinDiskSize: %.3f GB", gb, min_gb)
         if (gb < min_gb):
             raise error.TestError("DiskSize %.3f GB below minimum (%.3f GB)" \
                 % (gb, min_gb))
	# Copyright (c) 2010 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 os
	import re

	from autotest_lib.client.bin import test, utils
	from autotest_lib.client.common_lib import error

	DEFAULT_MIN_GB = 16
	# Allowable amount of bits eMMC vendor can use in firmware to support bad block
	# replacement and metadata.
	EMMC_VENDOR_ALLOWED_GB = 0.25

	class hardware_DiskSize(test.test):
	version = 1

	def _is_emmc(self):
	path = os.path.join("/sys/class/block/", self._device,
	"device", "type")
	if not os.path.exists(path):
	return False
	return utils.read_one_line(path) == 'MMC'


	def _compute_min_gb(self):
	"""Computes minimum size allowed primary storage device.

	TODO(tbroch): Add computation of raw bytes in eMMC using 'Chip Specific
	Data' (CSD & EXT_CSD) defined by JEDEC JESD84-A44.pdf if possible.

	CSD :: /sys/class/block/<device>/device/csd
	EXT_CSD :: debugfs

	Algorithm should look something like this:
	CSD[C_SIZE] = 0xfff == eMMC > 2GB
	EXT_CSD[SEC_COUNT] = # of 512byte sectors

	Now for existing eMMC I've examined I do see the C_SIZE == 0xfff.
	Unfortunately the SEC_COUNT appears to have excluded the sectors
	reserved for metadata & repair. Perhaps thats by design in which case
	there is no mechanism to determine the actual raw sectors.

	For now I use 0.25GB as an acceptable fudge.

	Returns:
	integer, in GB of minimum storage size.
	"""

	min_gb = DEFAULT_MIN_GB
	if self._is_emmc():
	min_gb -= EMMC_VENDOR_ALLOWED_GB
	return min_gb


	def run_once(self):
	devnode = utils.system_output('rootdev -s -d -i')
	self._device = os.path.basename(devnode)

	for line in file('/proc/partitions'):
	try:
	_, _, blocks, name = re.split(r' +', line.strip())
	except ValueError:
	continue
	if name == self._device:
	blocks = int(blocks)
	break
	else:
	raise error.TestError('Unable to determine main disk size')

	# Capacity of a hard disk is quoted with SI prefixes, incrementing by
	# powers of 1000, instead of powers of 1024.
	gb = blocks * 1024.0 / 1000.0 / 1000.0 / 1000.0
	self.write_perf_keyval({"gb_main_disk_size": gb})
	min_gb = self._compute_min_gb()
	logging.info("DiskSize: %.3f GB MinDiskSize: %.3f GB", gb, min_gb)
	if (gb < min_gb):
	raise error.TestError("DiskSize %.3f GB below minimum (%.3f GB)" \
	% (gb, min_gb))