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Current File : /proc/self/root/lib/python3.6/site-packages/tuned/plugins/plugin_disk.py
import errno
from . import hotplug
from .decorators import *
import tuned.logs
import tuned.consts as consts
from tuned.utils.commands import commands
import os
import re

log = tuned.logs.get()

class DiskPlugin(hotplug.Plugin):
	"""
	Plugin for tuning options of disks.
	"""

	def __init__(self, *args, **kwargs):
		super(DiskPlugin, self).__init__(*args, **kwargs)

		self._power_levels = [254, 225, 195, 165, 145, 125, 105, 85, 70, 55, 30, 20]
		self._spindown_levels = [0, 250, 230, 210, 190, 170, 150, 130, 110, 90, 70, 60]
		self._levels = len(self._power_levels)
		self._level_steps = 6
		self._load_smallest = 0.01
		self._cmd = commands()

	def _init_devices(self):
		super(DiskPlugin, self)._init_devices()
		self._devices_supported = True
		self._free_devices = set()
		for device in self._hardware_inventory.get_devices("block"):
			if self._device_is_supported(device):
				self._free_devices.add(device.sys_name)

		self._assigned_devices = set()

	def _get_device_objects(self, devices):
		return [self._hardware_inventory.get_device("block", x) for x in devices]

	@classmethod
	def _device_is_supported(cls, device):
		return  device.device_type == "disk" and \
			device.attributes.get("removable", None) == b"0" and \
			(device.parent is None or \
					device.parent.subsystem in ["scsi", "virtio", "xen"])

	def _hardware_events_init(self):
		self._hardware_inventory.subscribe(self, "block", self._hardware_events_callback)

	def _hardware_events_cleanup(self):
		self._hardware_inventory.unsubscribe(self)

	def _hardware_events_callback(self, event, device):
		if self._device_is_supported(device) or event == "remove":
			super(DiskPlugin, self)._hardware_events_callback(event, device)

	def _added_device_apply_tuning(self, instance, device_name):
		if instance._load_monitor is not None:
			instance._load_monitor.add_device(device_name)
		super(DiskPlugin, self)._added_device_apply_tuning(instance, device_name)

	def _removed_device_unapply_tuning(self, instance, device_name):
		if instance._load_monitor is not None:
			instance._load_monitor.remove_device(device_name)
		super(DiskPlugin, self)._removed_device_unapply_tuning(instance, device_name)

	@classmethod
	def _get_config_options(cls):
		return {
			"dynamic"            : True, # FIXME: do we want this default?
			"elevator"           : None,
			"apm"                : None,
			"spindown"           : None,
			"readahead"          : None,
			"readahead_multiply" : None,
			"scheduler_quantum"  : None,
		}

	@classmethod
	def _get_config_options_used_by_dynamic(cls):
		return [
			"apm",
			"spindown",
		]

	def _instance_init(self, instance):
		instance._has_static_tuning = True

		self._apm_errcnt = 0
		self._spindown_errcnt = 0

		if self._option_bool(instance.options["dynamic"]):
			instance._has_dynamic_tuning = True
			instance._load_monitor = \
					self._monitors_repository.create(
					"disk", instance.assigned_devices)
			instance._device_idle = {}
			instance._stats = {}
			instance._idle = {}
			instance._spindown_change_delayed = {}
		else:
			instance._has_dynamic_tuning = False
			instance._load_monitor = None

	def _instance_cleanup(self, instance):
		if instance._load_monitor is not None:
			self._monitors_repository.delete(instance._load_monitor)
			instance._load_monitor = None

	def _update_errcnt(self, rc, spindown):
		if spindown:
			s = "spindown"
			cnt = self._spindown_errcnt
		else:
			s = "apm"
			cnt = self._apm_errcnt
		if cnt >= consts.ERROR_THRESHOLD:
			return
		if rc == 0:
			cnt = 0
		elif rc == -errno.ENOENT:
			self._spindown_errcnt = self._apm_errcnt = consts.ERROR_THRESHOLD + 1
			log.warn("hdparm command not found, ignoring future set_apm / set_spindown commands")
			return
		else:
			cnt += 1
			if cnt == consts.ERROR_THRESHOLD:
				log.info("disabling set_%s command: too many consecutive errors" % s)
		if spindown:
			self._spindown_errcnt = cnt
		else:
			self._apm_errcnt = cnt

	def _change_spindown(self, instance, device, new_spindown_level):
		log.debug("changing spindown to %d" % new_spindown_level)
		(rc, out) = self._cmd.execute(["hdparm", "-S%d" % new_spindown_level, "/dev/%s" % device], no_errors = [errno.ENOENT])
		self._update_errcnt(rc, True)
		instance._spindown_change_delayed[device] = False

	def _drive_spinning(self, device):
		(rc, out) = self._cmd.execute(["hdparm", "-C", "/dev/%s" % device], no_errors = [errno.ENOENT])
		return not "standby" in out and not "sleeping" in out

	def _instance_update_dynamic(self, instance, device):
		load = instance._load_monitor.get_device_load(device)
		if load is None:
			return

		if not device in instance._stats:
			self._init_stats_and_idle(instance, device)

		self._update_stats(instance, device, load)
		self._update_idle(instance, device)

		stats = instance._stats[device]
		idle = instance._idle[device]

		# level change decision

		if idle["level"] + 1 < self._levels and idle["read"] >= self._level_steps and idle["write"] >= self._level_steps:
			level_change = 1
		elif idle["level"] > 0 and (idle["read"] == 0 or idle["write"] == 0):
			level_change = -1
		else:
			level_change = 0

		# change level if decided

		if level_change != 0:
			idle["level"] += level_change
			new_power_level = self._power_levels[idle["level"]]
			new_spindown_level = self._spindown_levels[idle["level"]]

			log.debug("tuning level changed to %d" % idle["level"])
			if self._spindown_errcnt < consts.ERROR_THRESHOLD:
				if not self._drive_spinning(device) and level_change > 0:
					log.debug("delaying spindown change to %d, drive has already spun down" % new_spindown_level)
					instance._spindown_change_delayed[device] = True
				else:
					self._change_spindown(instance, device, new_spindown_level)
			if self._apm_errcnt < consts.ERROR_THRESHOLD:
				log.debug("changing APM_level to %d" % new_power_level)
				(rc, out) = self._cmd.execute(["hdparm", "-B%d" % new_power_level, "/dev/%s" % device], no_errors = [errno.ENOENT])
				self._update_errcnt(rc, False)
		elif instance._spindown_change_delayed[device] and self._drive_spinning(device):
			new_spindown_level = self._spindown_levels[idle["level"]]
			self._change_spindown(instance, device, new_spindown_level)

		log.debug("%s load: read %0.2f, write %0.2f" % (device, stats["read"], stats["write"]))
		log.debug("%s idle: read %d, write %d, level %d" % (device, idle["read"], idle["write"], idle["level"]))

	def _init_stats_and_idle(self, instance, device):
		instance._stats[device] = { "new": 11 * [0], "old": 11 * [0], "max": 11 * [1] }
		instance._idle[device] = { "level": 0, "read": 0, "write": 0 }
		instance._spindown_change_delayed[device] = False

	def _update_stats(self, instance, device, new_load):
		instance._stats[device]["old"] = old_load = instance._stats[device]["new"]
		instance._stats[device]["new"] = new_load

		# load difference
		diff = [new_old[0] - new_old[1] for new_old in zip(new_load, old_load)]
		instance._stats[device]["diff"] = diff

		# adapt maximum expected load if the difference is higer
		old_max_load = instance._stats[device]["max"]
		max_load = [max(pair) for pair in zip(old_max_load, diff)]
		instance._stats[device]["max"] = max_load

		# read/write ratio
		instance._stats[device]["read"] =  float(diff[1]) / float(max_load[1])
		instance._stats[device]["write"] = float(diff[5]) / float(max_load[5])

	def _update_idle(self, instance, device):
		# increase counter if there is no load, otherwise reset the counter
		for operation in ["read", "write"]:
			if instance._stats[device][operation] < self._load_smallest:
				instance._idle[device][operation] += 1
			else:
				instance._idle[device][operation] = 0

	def _instance_unapply_dynamic(self, instance, device):
		pass

	def _sysfs_path(self, device, suffix, prefix = "/sys/block/"):
		if "/" in device:
			dev = os.path.join(prefix, device.replace("/", "!"), suffix)
			if os.path.exists(dev):
				return dev
		return os.path.join(prefix, device, suffix)

	def _elevator_file(self, device):
		return self._sysfs_path(device, "queue/scheduler")

	@command_set("elevator", per_device=True)
	def _set_elevator(self, value, device, sim):
		sys_file = self._elevator_file(device)
		if not sim:
			self._cmd.write_to_file(sys_file, value)
		return value

	@command_get("elevator")
	def _get_elevator(self, device, ignore_missing=False):
		sys_file = self._elevator_file(device)
		# example of scheduler file content:
		# noop deadline [cfq]
		return self._cmd.get_active_option(self._cmd.read_file(sys_file, no_error=ignore_missing))

	@command_set("apm", per_device=True)
	def _set_apm(self, value, device, sim):
		if self._apm_errcnt < consts.ERROR_THRESHOLD:
			if not sim:
				(rc, out) = self._cmd.execute(["hdparm", "-B", str(value), "/dev/" + device], no_errors = [errno.ENOENT])
				self._update_errcnt(rc, False)
			return str(value)
		else:
			return None

	@command_get("apm")
	def _get_apm(self, device, ignore_missing=False):
		value = None
		err = False
		(rc, out) = self._cmd.execute(["hdparm", "-B", "/dev/" + device], no_errors = [errno.ENOENT])
		if rc == -errno.ENOENT:
			return None
		elif rc != 0:
			err = True
		else:
			m = re.match(r".*=\s*(\d+).*", out, re.S)
			if m:
				try:
					value = int(m.group(1))
				except ValueError:
					err = True
		if err:
			log.error("could not get current APM settings for device '%s'" % device)
		return value

	@command_set("spindown", per_device=True)
	def _set_spindown(self, value, device, sim):
		if self._spindown_errcnt < consts.ERROR_THRESHOLD:
			if not sim:
				(rc, out) = self._cmd.execute(["hdparm", "-S", str(value), "/dev/" + device], no_errors = [errno.ENOENT])
				self._update_errcnt(rc, True)
			return str(value)
		else:
			return None

	@command_get("spindown")
	def _get_spindown(self, device, ignore_missing=False):
		# There's no way how to get current/old spindown value, hardcoding vendor specific 253
		return 253

	def _readahead_file(self, device):
		return self._sysfs_path(device, "queue/read_ahead_kb")

	def _parse_ra(self, value):
		val = str(value).split(None, 1)
		try:
			v = int(val[0])
		except ValueError:
			return None
		if len(val) > 1 and val[1][0] == "s":
			# v *= 512 / 1024
			v /= 2
		return v

	@command_set("readahead", per_device=True)
	def _set_readahead(self, value, device, sim):
		sys_file = self._readahead_file(device)
		val = self._parse_ra(value)
		if val is None:
			log.error("Invalid readahead value '%s' for device '%s'" % (value, device))
		else:
			if not sim:
				self._cmd.write_to_file(sys_file, "%d" % val)
		return val

	@command_get("readahead")
	def _get_readahead(self, device, ignore_missing=False):
		sys_file = self._readahead_file(device)
		value = self._cmd.read_file(sys_file, no_error=ignore_missing).strip()
		if len(value) == 0:
			return None
		return int(value)

	@command_custom("readahead_multiply", per_device=True)
	def _multiply_readahead(self, enabling, multiplier, device, verify, ignore_missing):
		if verify:
			return None
		storage_key = self._storage_key(
				command_name = "readahead_multiply",
				device_name = device)
		if enabling:
			old_readahead = self._get_readahead(device)
			if old_readahead is None:
				return
			new_readahead = int(float(multiplier) * old_readahead)
			self._storage.set(storage_key, old_readahead)
			self._set_readahead(new_readahead, device, False)
		else:
			old_readahead = self._storage.get(storage_key)
			if old_readahead is None:
				return
			self._set_readahead(old_readahead, device, False)
			self._storage.unset(storage_key)

	def _scheduler_quantum_file(self, device):
		return self._sysfs_path(device, "queue/iosched/quantum")

	@command_set("scheduler_quantum", per_device=True)
	def _set_scheduler_quantum(self, value, device, sim):
		sys_file = self._scheduler_quantum_file(device)
		if not sim:
			self._cmd.write_to_file(sys_file, "%d" % int(value))
		return value

	@command_get("scheduler_quantum")
	def _get_scheduler_quantum(self, device, ignore_missing=False):
		sys_file = self._scheduler_quantum_file(device)
		value = self._cmd.read_file(sys_file, no_error=ignore_missing).strip()
		if len(value) == 0:
			if not ignore_missing:
				log.info("disk_scheduler_quantum option is not supported by this HW")
			return None
		return int(value)

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