bootperf-bin/resultset.py - mirrors/cros/chromiumos/platform/crostestutils - 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.

 """Classes and functions for managing platform_BootPerf results.

 Results from the platform_BootPerf test in the ChromiumOS autotest
 package are stored as performance 'keyvals', that is, a mapping
 of names to numeric values.  For each iteration of the test, one
 set of keyvals is recorded.

 This module currently tracks three kinds of keyval results: the boot
 time results, the disk read results, and firmware time results.
 These results are stored with keyval names such as
 'seconds_kernel_to_login', 'rdbytes_kernel_to_login', and
 'seconds_power_on_to_kernel'.  These keyvals record an accumulated
 total measured from a fixed time in the past, e.g.
 'seconds_kernel_to_login' records the total seconds from kernel
 startup to login screen ready.

 The boot time keyval names all start with the prefix
 'seconds_kernel_to_', and record time in seconds since kernel
 startup.

 The disk read keyval names all start with the prefix
 'rdbytes_kernel_to_', and record bytes read from the boot device
 since kernel startup.

 The firmware keyval names all start with the prefix
 'seconds_power_on_to_', and record time in seconds since CPU
 power on.

 """

 import math


 def _ListStats(list_):
   # Utility function - calculate the average and (sample) standard
   # deviation of a list of numbers.  Result is float, even if the
   # input list is full of int's
   sum_ = 0.0
   sumsq = 0.0
   for v in list_:
     sum_ += v
     sumsq += v * v
   n = len(list_)
   avg = sum_ / n
   var = (sumsq - sum_ * avg) / (n - 1)
   if var < 0.0:
     var = 0.0
   dev = math.sqrt(var)
   return (avg, dev)


 def _DoCheck(dict_):
   # Utility function - check the that all keyvals occur the same
   # number of times.  On success, return the number of occurrences;
   # on failure return None
   check = map(len, dict_.values())
   if not check:
     return None
   for i in range(1, len(check)):
     if check[i] != check[i-1]:
       return None
   return check[0]


 def _KeyDelta(dict_, key0, key1):
   # Utility function - return a list of the vector difference between
   # two keyvals.
   return map(lambda a, b: b - a, dict_[key0], dict_[key1])


 class TestResultSet(object):
   """A set of boot time and disk usage result statistics.

   Objects of this class consist of three sets of result statistics:
   the boot time statistics, the disk statistics, and the firmware
   time statistics.

   Class TestResultsSet does not interpret or store keyval mappings
   directly; iteration results are processed by attached _KeySet
   objects, one for each of the three types of result keyval. The
   _KeySet objects are kept in a dictionary; they can be obtained
   by calling the KeySet with the name of the keyset desired.
   Various methods on the KeySet objects will calculate statistics on
   the results, and provide the raw data.

   """

   # The names of the available KeySets, to be used as arguments to
   # KeySet().
   BOOTTIME_KEYSET = "time"
   DISK_KEYSET = "disk"
   FIRMWARE_KEYSET = "firmware"

   def __init__(self, name):
     self.name = name
     self._keysets = {
       self.BOOTTIME_KEYSET : _TimeKeySet(),
       self.DISK_KEYSET : _DiskKeySet(),
       self.FIRMWARE_KEYSET : _FirmwareKeySet(),
     }

   def AddIterationResults(self, runkeys):
     """Add keyval results from a single iteration.

     A TestResultSet is constructed by repeatedly calling
     AddIterationResults(), iteration by iteration.  Iteration
     results are passed in as a dictionary mapping keyval attributes
     to values.  When all iteration results have been added,
     FinalizeResults() makes the results available for analysis.

     """

     for keyset in self._keysets.itervalues():
       keyset.AddIterationResults(runkeys)

   def FinalizeResults(self):
     """Make results available for analysis.

     A TestResultSet is constructed by repeatedly feeding it results,
     iteration by iteration.  Iteration results are passed in as a
     dictionary mapping keyval attributes to values.  When all iteration
     results have been added, FinalizeResults() makes the results
     available for analysis.

     """

     for keyset in self._keysets.itervalues():
       keyset.FinalizeResults()

   def KeySet(self, keytype):
     """Return the boot time statistics result set."""
     return self._keysets[keytype]


 class _KeySet(object):
   """Container for a set of related statistics.

   _KeySet is an abstract superclass for containing collections of
   a related set of performance statistics.  Statistics are stored
   as a dictionary (`_keyvals`) mapping keyval names to lists of
   values.  The lists are indexed by the iteration number.

   The mapped keyval names are shortened by stripping the prefix
   that identifies the type of keyval (keyvals that don't start with
   the proper prefix are ignored).  So, for example, with boot time
   keyvals, 'seconds_kernel_to_login' becomes 'login' (and
   'rdbytes_kernel_to_login' is ignored).

   A list of all valid keyval names is stored in the `markers`
   instance variable.  The list is sorted by the ordering of the
   average of the corresponding values.  Each iteration is required
   to contain the same set of keyvals.  This is enforced in
   FinalizeResults() (see below).

   """

   def __init__(self):
     self._keyvals = {}

   def AddIterationResults(self, runkeys):
     """Add results for one iteration."""

     for key, value in runkeys.iteritems():
       if not key.startswith(self.PREFIX):
         continue
       shortkey = key[len(self.PREFIX):]
       keylist = self._keyvals.setdefault(shortkey, [])
       keylist.append(self._ConvertVal(value))

   def FinalizeResults(self):
     """Finalize this object's results.

     This method makes available the `markers` and `num_iterations`
     instance variables.  It also ensures that every keyval occurred
     in every iteration by requiring that all keyvals have the same
     number of data points.

     """

     count = _DoCheck(self._keyvals)
     if count is None:
       self.num_iterations = 0
       self.markers = []
       return False
     self.num_iterations = count
     keylist = map(lambda k: (sum(self._keyvals[k]), k),
                   self._keyvals.keys())
     keylist.sort(key=lambda tp: tp[0])
     self.markers = map(lambda tp: tp[1], keylist)
     return True

   def RawData(self, key):
     """Return the list of values for the given marker key."""
     return self._keyvals[key]

   def DeltaData(self, key0, key1):
     """Return vector difference of the values of the given keys."""
     return _KeyDelta(self._keyvals, key0, key1)

   def Statistics(self, key):
     """Return the average and standard deviation of the key's values."""
     return _ListStats(self._keyvals[key])

   def DeltaStatistics(self, key0, key1):
     """Return the average and standard deviation of the differences
     between two keys.

     """
     return _ListStats(self.DeltaData(key0, key1))


 class _TimeKeySet(_KeySet):
   """Concrete subclass of _KeySet for boot time statistics."""

   PREFIX = 'seconds_kernel_to_'

   # Time-based keyvals are reported in seconds and get converted to
   # milliseconds
   TIME_SCALE = 1000

   def _ConvertVal(self, value):
     # We want to return the nearest exact integer here.  round()
     # returns a float, and int() truncates its results, so we have
     # to combine them.
     return int(round(self.TIME_SCALE * float(value)))

   def PrintableStatistic(self, value):
     v = int(round(value))
     return ("%d" % v, v)


 class _FirmwareKeySet(_TimeKeySet):
   """Concrete subclass of _KeySet for firmware time statistics."""

   PREFIX = 'seconds_power_on_to_'

   # Time-based keyvals are reported in seconds and get converted to
   # milliseconds
   TIME_SCALE = 1000


 class _DiskKeySet(_KeySet):
   """Concrete subclass of _KeySet for disk read statistics."""

   PREFIX = 'rdbytes_kernel_to_'

   # Disk read keyvals are reported in bytes and get converted to
   # MBytes (1 MByte = 1 million bytes, not 2**20)
   DISK_SCALE = 1.0e-6

   def _ConvertVal(self, value):
     return self.DISK_SCALE * float(value)

   def PrintableStatistic(self, value):
     v = round(value, 1)
     return ("%.1fM" % v, v)
	# 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.

	"""Classes and functions for managing platform_BootPerf results.

	Results from the platform_BootPerf test in the ChromiumOS autotest
	package are stored as performance 'keyvals', that is, a mapping
	of names to numeric values. For each iteration of the test, one
	set of keyvals is recorded.

	This module currently tracks three kinds of keyval results: the boot
	time results, the disk read results, and firmware time results.
	These results are stored with keyval names such as
	'seconds_kernel_to_login', 'rdbytes_kernel_to_login', and
	'seconds_power_on_to_kernel'. These keyvals record an accumulated
	total measured from a fixed time in the past, e.g.
	'seconds_kernel_to_login' records the total seconds from kernel
	startup to login screen ready.

	The boot time keyval names all start with the prefix
	'seconds_kernel_to_', and record time in seconds since kernel
	startup.

	The disk read keyval names all start with the prefix
	'rdbytes_kernel_to_', and record bytes read from the boot device
	since kernel startup.

	The firmware keyval names all start with the prefix
	'seconds_power_on_to_', and record time in seconds since CPU
	power on.

	"""

	import math


	def _ListStats(list_):
	# Utility function - calculate the average and (sample) standard
	# deviation of a list of numbers. Result is float, even if the
	# input list is full of int's
	sum_ = 0.0
	sumsq = 0.0
	for v in list_:
	sum_ += v
	sumsq += v * v
	n = len(list_)
	avg = sum_ / n
	var = (sumsq - sum_ * avg) / (n - 1)
	if var < 0.0:
	var = 0.0
	dev = math.sqrt(var)
	return (avg, dev)


	def _DoCheck(dict_):
	# Utility function - check the that all keyvals occur the same
	# number of times. On success, return the number of occurrences;
	# on failure return None
	check = map(len, dict_.values())
	if not check:
	return None
	for i in range(1, len(check)):
	if check[i] != check[i-1]:
	return None
	return check[0]


	def _KeyDelta(dict_, key0, key1):
	# Utility function - return a list of the vector difference between
	# two keyvals.
	return map(lambda a, b: b - a, dict_[key0], dict_[key1])


	class TestResultSet(object):
	"""A set of boot time and disk usage result statistics.

	Objects of this class consist of three sets of result statistics:
	the boot time statistics, the disk statistics, and the firmware
	time statistics.

	Class TestResultsSet does not interpret or store keyval mappings
	directly; iteration results are processed by attached _KeySet
	objects, one for each of the three types of result keyval. The
	_KeySet objects are kept in a dictionary; they can be obtained
	by calling the KeySet with the name of the keyset desired.
	Various methods on the KeySet objects will calculate statistics on
	the results, and provide the raw data.

	"""

	# The names of the available KeySets, to be used as arguments to
	# KeySet().
	BOOTTIME_KEYSET = "time"
	DISK_KEYSET = "disk"
	FIRMWARE_KEYSET = "firmware"

	def __init__(self, name):
	self.name = name
	self._keysets = {
	self.BOOTTIME_KEYSET : _TimeKeySet(),
	self.DISK_KEYSET : _DiskKeySet(),
	self.FIRMWARE_KEYSET : _FirmwareKeySet(),
	}

	def AddIterationResults(self, runkeys):
	"""Add keyval results from a single iteration.

	A TestResultSet is constructed by repeatedly calling
	AddIterationResults(), iteration by iteration. Iteration
	results are passed in as a dictionary mapping keyval attributes
	to values. When all iteration results have been added,
	FinalizeResults() makes the results available for analysis.

	"""

	for keyset in self._keysets.itervalues():
	keyset.AddIterationResults(runkeys)

	def FinalizeResults(self):
	"""Make results available for analysis.

	A TestResultSet is constructed by repeatedly feeding it results,
	iteration by iteration. Iteration results are passed in as a
	dictionary mapping keyval attributes to values. When all iteration
	results have been added, FinalizeResults() makes the results
	available for analysis.

	"""

	for keyset in self._keysets.itervalues():
	keyset.FinalizeResults()

	def KeySet(self, keytype):
	"""Return the boot time statistics result set."""
	return self._keysets[keytype]


	class _KeySet(object):
	"""Container for a set of related statistics.

	_KeySet is an abstract superclass for containing collections of
	a related set of performance statistics. Statistics are stored
	as a dictionary (`_keyvals`) mapping keyval names to lists of
	values. The lists are indexed by the iteration number.

	The mapped keyval names are shortened by stripping the prefix
	that identifies the type of keyval (keyvals that don't start with
	the proper prefix are ignored). So, for example, with boot time
	keyvals, 'seconds_kernel_to_login' becomes 'login' (and
	'rdbytes_kernel_to_login' is ignored).

	A list of all valid keyval names is stored in the `markers`
	instance variable. The list is sorted by the ordering of the
	average of the corresponding values. Each iteration is required
	to contain the same set of keyvals. This is enforced in
	FinalizeResults() (see below).

	"""

	def __init__(self):
	self._keyvals = {}

	def AddIterationResults(self, runkeys):
	"""Add results for one iteration."""

	for key, value in runkeys.iteritems():
	if not key.startswith(self.PREFIX):
	continue
	shortkey = key[len(self.PREFIX):]
	keylist = self._keyvals.setdefault(shortkey, [])
	keylist.append(self._ConvertVal(value))

	def FinalizeResults(self):
	"""Finalize this object's results.

	This method makes available the `markers` and `num_iterations`
	instance variables. It also ensures that every keyval occurred
	in every iteration by requiring that all keyvals have the same
	number of data points.

	"""

	count = _DoCheck(self._keyvals)
	if count is None:
	self.num_iterations = 0
	self.markers = []
	return False
	self.num_iterations = count
	keylist = map(lambda k: (sum(self._keyvals[k]), k),
	self._keyvals.keys())
	keylist.sort(key=lambda tp: tp[0])
	self.markers = map(lambda tp: tp[1], keylist)
	return True

	def RawData(self, key):
	"""Return the list of values for the given marker key."""
	return self._keyvals[key]

	def DeltaData(self, key0, key1):
	"""Return vector difference of the values of the given keys."""
	return _KeyDelta(self._keyvals, key0, key1)

	def Statistics(self, key):
	"""Return the average and standard deviation of the key's values."""
	return _ListStats(self._keyvals[key])

	def DeltaStatistics(self, key0, key1):
	"""Return the average and standard deviation of the differences
	between two keys.

	"""
	return _ListStats(self.DeltaData(key0, key1))


	class _TimeKeySet(_KeySet):
	"""Concrete subclass of _KeySet for boot time statistics."""

	PREFIX = 'seconds_kernel_to_'

	# Time-based keyvals are reported in seconds and get converted to
	# milliseconds
	TIME_SCALE = 1000

	def _ConvertVal(self, value):
	# We want to return the nearest exact integer here. round()
	# returns a float, and int() truncates its results, so we have
	# to combine them.
	return int(round(self.TIME_SCALE * float(value)))

	def PrintableStatistic(self, value):
	v = int(round(value))
	return ("%d" % v, v)


	class _FirmwareKeySet(_TimeKeySet):
	"""Concrete subclass of _KeySet for firmware time statistics."""

	PREFIX = 'seconds_power_on_to_'

	# Time-based keyvals are reported in seconds and get converted to
	# milliseconds
	TIME_SCALE = 1000


	class _DiskKeySet(_KeySet):
	"""Concrete subclass of _KeySet for disk read statistics."""

	PREFIX = 'rdbytes_kernel_to_'

	# Disk read keyvals are reported in bytes and get converted to
	# MBytes (1 MByte = 1 million bytes, not 2**20)
	DISK_SCALE = 1.0e-6

	def _ConvertVal(self, value):
	return self.DISK_SCALE * float(value)

	def PrintableStatistic(self, value):
	v = round(value, 1)
	return ("%.1fM" % v, v)