client/cros/power/power_rapl.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # Copyright (c) 2012 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.
 """Methods and Classes to support RAPL power access.

 Intel processors (Sandybridge and beyond) provide access to a set of registers
 via the MSR interface to control and measure energy/power consumption.  These
 RAPL ( Running Average Power Limit ) registers can be queried and written to
 change and evaluate power consumption on the CPU.

 See 'Intel 64 and IA-32 Architectures Software Developer's Manual Volume 3'
 (Section 14.9) for complete details.

 TODO(tbroch)
 1. Investigate exposing access to control Power policy.  Current implementation
 just surveys consumption via energy status registers.
 """
 import logging
 import os
 import time

 from autotest_lib.client.bin import utils
 from autotest_lib.client.common_lib import error
 from autotest_lib.client.cros.power import power_status
 from autotest_lib.client.cros.power import power_utils
 from numpy import uint32


 VALID_DOMAINS = ['pkg', 'pp0', 'gfx', 'dram']


 def get_rapl_measurement(tname, exe_function=time.sleep, exe_args=(10,),
                          exe_kwargs={}):
     """Get rapl measurement.

     @param name: String of test name.
     @param exe_function: function that should be executed during measuring
                          rapl readings.
     @param exe_args: tuple of args to be passed into exe_function.
     @param exe_kwargs: dict of args to be passed into exe_function.
     """
     logging.info('Now measuring rapl power consumption.')
     measurement = []
     if power_utils.has_rapl_support():
         measurement += create_rapl()
     power_logger = power_status.PowerLogger(measurement)
     power_logger.start()
     with power_logger.checkblock(tname):
         exe_function(*exe_args, **exe_kwargs)
     keyval = power_logger.calc()
     return keyval


 def create_rapl(domains=None):
     """Create a set of Rapl instances.

     Args:
         domains: list of strings, representing desired RAPL domains to
         instantiate.

     Returns:
         list of Rapl objects.

     Raises:
         error.TestFail: If domain is invalid.
     """
     if not domains:
         domains = VALID_DOMAINS
     rapl_list = []
     for domain in set(domains):
         rapl_list.append(Rapl(domain))
     return rapl_list


 class Rapl(power_status.PowerMeasurement):
     """Class to expose RAPL functionality.

     Public attibutes:
         domain: string, name of power rail domain.

     Private attributes:
         _joules_per_lsb: float, joules per lsb of energy.
         _joules_start: float, joules measured at the beginning of operation.
         _time_start: float, time in seconds since Epoch.

     Public methods:
         refresh(): Refreshes starting point of RAPL power measurement and
                    returns power in watts.
     """
     _DOMAIN_MSRS = {'pkg': {'power_limit':    0x610,
                             'energy_status':  0x611,
                             'perf_status':    0x613,
                             'power_info':     0x614},
                     'pp0': {'power_limit':    0x638,
                             'energy_status':  0x639,
                             'policy':         0x63a,
                             'perf_status':    0x63b},
                     'gfx': {'power_limit':    0x640,
                             'energy_status':  0x641,
                             'policy':         0x642},
                     'dram': {'power_limit':   0x618,
                              'energy_status': 0x619,
                              'perf_status':   0x61b,
                              'power_info':    0x61c}}

     # Units for Power, Energy & Time
     _POWER_UNIT_MSR = 0x606

     _POWER_UNIT_OFFSET  = 0x0
     _POWER_UNIT_MASK    = 0x0F
     _ENERGY_UNIT_OFFSET = 0x08
     _ENERGY_UNIT_MASK   = 0x1F00
     _TIME_UNIT_OFFSET   = 0x10
     _TIME_UNIT_MASK     = 0xF000

     # Maximum number of seconds allowable between energy status samples.  See
     # docstring in power method for complete details.
     _MAX_MEAS_SECS = 1800


     def __init__(self, domain):
         """Constructor for Rapl class.

         Args:
             domain: string, name of power rail domain

         Raises:
             error.TestError: If domain is invalid
         """
         if domain not in VALID_DOMAINS:
             raise error.TestError("domain %s not in valid domains ( %s )" %
                                   (domain, ", ".join(VALID_DOMAINS)))
         super(Rapl, self).__init__(domain)

         self._joules_per_lsb = self._get_joules_per_lsb()
         logging.debug("RAPL %s joules_per_lsb = %.3e", domain,
                       self._joules_per_lsb)
         self._joules_start = self._get_energy()
         self._time_start = time.time()


     def __del__(self):
         """Deconstructor for Rapl class.

         Raises:
             error.TestError: If the joules per lsb changed during sampling time.
         """
         if self._get_joules_per_lsb() != self._joules_per_lsb:
             raise error.TestError("Results suspect as joules_per_lsb changed "
                                   "during sampling")


     def _rdmsr(self, msr, cpu_id=0):
         """Read MSR ( Model Specific Register )

         Read MSR value for x86 systems.

         Args:
             msr: Integer, address of MSR.
             cpu_id: Integer, number of CPU to read MSR for.  Default 0.
         Returns:
             Integer, representing the requested MSR register.
         """
         return int(utils.system_output('iotools rdmsr %d %d' %
                                        (cpu_id, msr)), 0)


     def _get_joules_per_lsb(self):
         """Calculate and return energy in joules per lsb.

         Value used as a multiplier while reading the RAPL energy status MSR.

         Returns:
             Float, value of joules per lsb.
         """
         msr_val = self._rdmsr(self._POWER_UNIT_MSR)
         return 1.0 / pow(2, (msr_val & self._ENERGY_UNIT_MASK) >>
                          self._ENERGY_UNIT_OFFSET)


     def _get_energy(self):
         """Get energy reading.

         Returns:
             Integer (32-bit), representing total energy consumed since power-on.
         """
         msr = self._DOMAIN_MSRS[self.domain]['energy_status']
         return uint32(self._rdmsr(msr))


     def domain(self):
         """Convenience method to expose Rapl instance domain name.

         Returns:
            string, name of Rapl domain.
         """
         return self.domain


     def refresh(self):
         """Calculate the average power used for RAPL domain.

         Note, Intel doc says ~60secs but in practice it seems much longer on
         laptop class devices.  Using numpy's uint32 correctly calculates single
         wraparound.  Risk is whether wraparound occurs multiple times.  As the
         RAPL facilities don't provide any way to identify multiple wraparounds
         it does present a risk to long samples.  To remedy, method raises an
         exception for long measurements that should be well below the multiple
         wraparound window.  Length of time between measurements must be managed
         by periodic logger instantiating this object to avoid the exception.

         Returns:
             float, average power (in watts) over the last time interval tracked.
         Raises:
             error.TestError:  If time between measurements too great.
         """
         joules_now = self._get_energy()
         time_now = time.time()
         energy_used = (joules_now - self._joules_start) * self._joules_per_lsb
         time_used = time_now - self._time_start
         if time_used > self._MAX_MEAS_SECS:
             raise error.TestError("Time between reads of %s energy status "
                                   "register was > %d seconds" % \
                                       (self.domain, self._MAX_MEAS_SECS))
         average_power = energy_used / time_used
         self._joules_start = joules_now
         self._time_start = time_now
         return average_power


 def create_powercap():
     """Create a list of Powercap instances of PowerMeasurement

     Args:
         (none)

     Returns:
         A list of Powercap objects.
     """
     powercap = '/sys/devices/virtual/powercap/intel-rapl/'
     # Failsafe check
     if not os.path.isdir(powercap):
         logging.debug("RAPL: no powercap driver found")
         return []
     rapl_map = {}
     for root, dir, file in os.walk(powercap):
         if os.path.isfile(root + '/energy_uj'):
             with open(root + '/name', 'r') as fn:
                 name = fn.read().rstrip()
                 rapl_map[name] = root + '/energy_uj'
     return [Powercap(name, path) for name, path in rapl_map.iteritems()]


 class Powercap(power_status.PowerMeasurement):
     """Classes to support RAPL power measurement via powercap sysfs

     This class utilizes the subset of Linux powercap driver to report
     energy consumption, in this manner, we do not need microarchitecture
     knowledge in userspace program.

     For more detail of powercap framework, readers could refer to:
     https://www.kernel.org/doc/Documentation/power/powercap/powercap.txt
     https://youtu.be/1Rl8PyuK6yA

     Private attributes:
         _file: sysfs reporting energy of the particular RAPL domain.
         _energy_start: float, micro-joule measured at the beginning.
         _time_start: float, time in seconds since Epoch.
     """
     def __init__(self, name, path):
         """Constructor for Powercap class.
         """
         super(Powercap, self).__init__(name)

         self._file = open(path, 'r')
         self._energy_start = self._get_energy()
         self._time_start = time.time()
         logging.debug("RAPL: monitor domain %s", name)


     def __del__(self):
         """Deconstructor for Powercap class.
         """
         self._file.close()


     def _get_energy(self):
         """Get energy reading in micro-joule unit.
         """
         self._file.seek(0)
         return int(self._file.read().rstrip())


     def refresh(self):
         """Calculate the average power used per RAPL domain.
         """
         energy_now = self._get_energy()
         time_now = time.time()
         energy_used = (energy_now - self._energy_start) / 1000000.0
         time_used = time_now - self._time_start
         average_power = energy_used / time_used
         self._energy_start = energy_now
         self._time_start = time_now
         return average_power
	# Copyright (c) 2012 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.
	"""Methods and Classes to support RAPL power access.

	Intel processors (Sandybridge and beyond) provide access to a set of registers
	via the MSR interface to control and measure energy/power consumption. These
	RAPL ( Running Average Power Limit ) registers can be queried and written to
	change and evaluate power consumption on the CPU.

	See 'Intel 64 and IA-32 Architectures Software Developer's Manual Volume 3'
	(Section 14.9) for complete details.

	TODO(tbroch)
	1. Investigate exposing access to control Power policy. Current implementation
	just surveys consumption via energy status registers.
	"""
	import logging
	import os
	import time

	from autotest_lib.client.bin import utils
	from autotest_lib.client.common_lib import error
	from autotest_lib.client.cros.power import power_status
	from autotest_lib.client.cros.power import power_utils
	from numpy import uint32


	VALID_DOMAINS = ['pkg', 'pp0', 'gfx', 'dram']


	def get_rapl_measurement(tname, exe_function=time.sleep, exe_args=(10,),
	exe_kwargs={}):
	"""Get rapl measurement.

	@param name: String of test name.
	@param exe_function: function that should be executed during measuring
	rapl readings.
	@param exe_args: tuple of args to be passed into exe_function.
	@param exe_kwargs: dict of args to be passed into exe_function.
	"""
	logging.info('Now measuring rapl power consumption.')
	measurement = []
	if power_utils.has_rapl_support():
	measurement += create_rapl()
	power_logger = power_status.PowerLogger(measurement)
	power_logger.start()
	with power_logger.checkblock(tname):
	exe_function(exe_args, *exe_kwargs)
	keyval = power_logger.calc()
	return keyval


	def create_rapl(domains=None):
	"""Create a set of Rapl instances.

	Args:
	domains: list of strings, representing desired RAPL domains to
	instantiate.

	Returns:
	list of Rapl objects.

	Raises:
	error.TestFail: If domain is invalid.
	"""
	if not domains:
	domains = VALID_DOMAINS
	rapl_list = []
	for domain in set(domains):
	rapl_list.append(Rapl(domain))
	return rapl_list


	class Rapl(power_status.PowerMeasurement):
	"""Class to expose RAPL functionality.

	Public attibutes:
	domain: string, name of power rail domain.

	Private attributes:
	_joules_per_lsb: float, joules per lsb of energy.
	_joules_start: float, joules measured at the beginning of operation.
	_time_start: float, time in seconds since Epoch.

	Public methods:
	refresh(): Refreshes starting point of RAPL power measurement and
	returns power in watts.
	"""
	_DOMAIN_MSRS = {'pkg': {'power_limit': 0x610,
	'energy_status': 0x611,
	'perf_status': 0x613,
	'power_info': 0x614},
	'pp0': {'power_limit': 0x638,
	'energy_status': 0x639,
	'policy': 0x63a,
	'perf_status': 0x63b},
	'gfx': {'power_limit': 0x640,
	'energy_status': 0x641,
	'policy': 0x642},
	'dram': {'power_limit': 0x618,
	'energy_status': 0x619,
	'perf_status': 0x61b,
	'power_info': 0x61c}}

	# Units for Power, Energy & Time
	_POWER_UNIT_MSR = 0x606

	_POWER_UNIT_OFFSET = 0x0
	_POWER_UNIT_MASK = 0x0F
	_ENERGY_UNIT_OFFSET = 0x08
	_ENERGY_UNIT_MASK = 0x1F00
	_TIME_UNIT_OFFSET = 0x10
	_TIME_UNIT_MASK = 0xF000

	# Maximum number of seconds allowable between energy status samples. See
	# docstring in power method for complete details.
	_MAX_MEAS_SECS = 1800


	def __init__(self, domain):
	"""Constructor for Rapl class.

	Args:
	domain: string, name of power rail domain

	Raises:
	error.TestError: If domain is invalid
	"""
	if domain not in VALID_DOMAINS:
	raise error.TestError("domain %s not in valid domains ( %s )" %
	(domain, ", ".join(VALID_DOMAINS)))
	super(Rapl, self).__init__(domain)

	self._joules_per_lsb = self._get_joules_per_lsb()
	logging.debug("RAPL %s joules_per_lsb = %.3e", domain,
	self._joules_per_lsb)
	self._joules_start = self._get_energy()
	self._time_start = time.time()


	def __del__(self):
	"""Deconstructor for Rapl class.

	Raises:
	error.TestError: If the joules per lsb changed during sampling time.
	"""
	if self._get_joules_per_lsb() != self._joules_per_lsb:
	raise error.TestError("Results suspect as joules_per_lsb changed "
	"during sampling")


	def _rdmsr(self, msr, cpu_id=0):
	"""Read MSR ( Model Specific Register )

	Read MSR value for x86 systems.

	Args:
	msr: Integer, address of MSR.
	cpu_id: Integer, number of CPU to read MSR for. Default 0.
	Returns:
	Integer, representing the requested MSR register.
	"""
	return int(utils.system_output('iotools rdmsr %d %d' %
	(cpu_id, msr)), 0)


	def _get_joules_per_lsb(self):
	"""Calculate and return energy in joules per lsb.

	Value used as a multiplier while reading the RAPL energy status MSR.

	Returns:
	Float, value of joules per lsb.
	"""
	msr_val = self._rdmsr(self._POWER_UNIT_MSR)
	return 1.0 / pow(2, (msr_val & self._ENERGY_UNIT_MASK) >>
	self._ENERGY_UNIT_OFFSET)


	def _get_energy(self):
	"""Get energy reading.

	Returns:
	Integer (32-bit), representing total energy consumed since power-on.
	"""
	msr = self._DOMAIN_MSRS[self.domain]['energy_status']
	return uint32(self._rdmsr(msr))


	def domain(self):
	"""Convenience method to expose Rapl instance domain name.

	Returns:
	string, name of Rapl domain.
	"""
	return self.domain


	def refresh(self):
	"""Calculate the average power used for RAPL domain.

	Note, Intel doc says ~60secs but in practice it seems much longer on
	laptop class devices. Using numpy's uint32 correctly calculates single
	wraparound. Risk is whether wraparound occurs multiple times. As the
	RAPL facilities don't provide any way to identify multiple wraparounds
	it does present a risk to long samples. To remedy, method raises an
	exception for long measurements that should be well below the multiple
	wraparound window. Length of time between measurements must be managed
	by periodic logger instantiating this object to avoid the exception.

	Returns:
	float, average power (in watts) over the last time interval tracked.
	Raises:
	error.TestError: If time between measurements too great.
	"""
	joules_now = self._get_energy()
	time_now = time.time()
	energy_used = (joules_now - self._joules_start) * self._joules_per_lsb
	time_used = time_now - self._time_start
	if time_used > self._MAX_MEAS_SECS:
	raise error.TestError("Time between reads of %s energy status "
	"register was > %d seconds" % \
	(self.domain, self._MAX_MEAS_SECS))
	average_power = energy_used / time_used
	self._joules_start = joules_now
	self._time_start = time_now
	return average_power


	def create_powercap():
	"""Create a list of Powercap instances of PowerMeasurement

	Args:
	(none)

	Returns:
	A list of Powercap objects.
	"""
	powercap = '/sys/devices/virtual/powercap/intel-rapl/'
	# Failsafe check
	if not os.path.isdir(powercap):
	logging.debug("RAPL: no powercap driver found")
	return []
	rapl_map = {}
	for root, dir, file in os.walk(powercap):
	if os.path.isfile(root + '/energy_uj'):
	with open(root + '/name', 'r') as fn:
	name = fn.read().rstrip()
	rapl_map[name] = root + '/energy_uj'
	return [Powercap(name, path) for name, path in rapl_map.iteritems()]


	class Powercap(power_status.PowerMeasurement):
	"""Classes to support RAPL power measurement via powercap sysfs

	This class utilizes the subset of Linux powercap driver to report
	energy consumption, in this manner, we do not need microarchitecture
	knowledge in userspace program.

	For more detail of powercap framework, readers could refer to:
	https://www.kernel.org/doc/Documentation/power/powercap/powercap.txt
	https://youtu.be/1Rl8PyuK6yA

	Private attributes:
	_file: sysfs reporting energy of the particular RAPL domain.
	_energy_start: float, micro-joule measured at the beginning.
	_time_start: float, time in seconds since Epoch.
	"""
	def __init__(self, name, path):
	"""Constructor for Powercap class.
	"""
	super(Powercap, self).__init__(name)

	self._file = open(path, 'r')
	self._energy_start = self._get_energy()
	self._time_start = time.time()
	logging.debug("RAPL: monitor domain %s", name)


	def __del__(self):
	"""Deconstructor for Powercap class.
	"""
	self._file.close()


	def _get_energy(self):
	"""Get energy reading in micro-joule unit.
	"""
	self._file.seek(0)
	return int(self._file.read().rstrip())


	def refresh(self):
	"""Calculate the average power used per RAPL domain.
	"""
	energy_now = self._get_energy()
	time_now = time.time()
	energy_used = (energy_now - self._energy_start) / 1000000.0
	time_used = time_now - self._time_start
	average_power = energy_used / time_used
	self._energy_start = energy_now
	self._time_start = time_now
	return average_power