client/common_lib/smogcheck_ina219.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # Copyright (c) 2011 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.

 """A Python library to interact with INA219 module for TPM testing.

 Background
  - INA219 is one of two modules on TTCI board
  - This library provides methods to interact with INA219 programmatically

 Dependency
  - This library depends on a new C shared library called "libsmogcheck.so".
  - In order to run test cases built using this API, one needs a TTCI board

 Notes:
  - An exception is raised if it doesn't make logical sense to continue program
    flow (e.g. I/O error prevents test case from executing)
  - An exception is caught and then converted to an error code if the caller
    expects to check for error code per API definition
 """

 import logging, re
 from autotest_lib.client.common_lib import i2c_slave


 # INA219 registers
 INA_REG = {
     'CONF': 0,        # Configuration Register
     'SHUNT_VOLT': 1,  # Shunt Voltage
     'BUS_VOLT': 2,    # Bus Voltage
     'POWER': 3,       # Power
     'CURRENT': 4,     # Current
     'CALIB': 5,       # Calibration
     }

 # Regex pattern for measurement value
 HEX_STR_PATTERN = re.compile('^0x([0-9a-f]{2})([0-9a-f]{2})$')

 # Constants used to initialize INA219 registers
 # TODO(tgao): add docstring for these values after stevenh replies
 INA_CONF_INIT_VAL = 0x9f31
 INA_CALIB_INIT_VAL = 0xc90e

 # Default values used to calculate/interpret voltage and current measurements.
 DEFAULT_MEAS_RANGE_VALUE = {
     'current': {'max': 0.1, 'min': 0.0, 'denom': 10000.0,
                 'reg': INA_REG['CURRENT']},
     'voltage': {'max': 3.35, 'min': 3.25, 'denom': 2000.0,
                 'reg': INA_REG['BUS_VOLT']},
     }


 class InaError(Exception):
     """Base class for all errors in this module."""


 class InaController(i2c_slave.I2cSlave):
     """Object to control INA219 module on TTCI board."""

     def __init__(self, slave_addr=None, range_dict=None):
         """Constructor.

         Mandatory params:
           slave_addr: slave address to set. Default: None.

         Optional param:
           range_dict: desired max/min thresholds for measurement values.
                       Default: DEFAULT_MEAS_RANGE_VALUE.

         Args:
           slave_addr: an integer, address of main or backup power.
           range_dict: desired max/min thresholds for measurement values.

         Raises:
           InaError: if error initializing INA219 module or invalid range_dict.
         """
         super(InaController, self).__init__()
         if slave_addr is None:
             raise InaError('Error slave_addr expected')

         try:
             if range_dict is None:
                 range_dict = DEFAULT_MEAS_RANGE_VALUE
             else:
                 self._validateRangeDict(DEFAULT_MEAS_RANGE_VALUE, range_dict)
             self.range_dict = range_dict

             self.setSlaveAddress(slave_addr)
             self.writeWord(INA_REG['CONF'], INA_CONF_INIT_VAL)
             self.writeWord(INA_REG['CALIB'], INA_CALIB_INIT_VAL)
         except InaError, e:
             raise InaError('Error initializing INA219: %s' % e)

     def _validateRangeDict(self, d_ref, d_in):
         """Validates keys and types of value in range_dict.

         Iterate over d_ref to make sure all keys exist in d_in and
         values are of the correct type.

         Args:
           d_ref: a dictionary, used as reference.
           d_in: a dictionary, to be validated against reference.

         Raises:
           InaError: if range_dict is invalid.
         """
         for k, v in d_ref.iteritems():
             if k not in d_in:
                 raise InaError('Key %s not present in dict %r' % (k, d_in))
             if type(v) != type(d_in[k]):
                 raise InaError(
                     'Value type mismatch for key %s. Expected: %s; actual = %s'
                     % (k, type(v), type(d_in[k])))
             if type(v) is dict:
                 self._validateRangeDict(v, d_in[k])

     def readMeasure(self, measure):
         """Reads requested measurement.

         Args:
           measure: a string, 'current' or 'voltage'.

         Returns:
           a float, measurement in native units. Or None if error.

         Raises:
           InaError: if error reading requested measurement.
         """
         try:
             hex_str = '0x%.4x' % self.readWord(self.range_dict[measure]['reg'])
             logging.debug('Word read = %r', hex_str)
             return self._checkMeasureRange(hex_str, measure)
         except InaError, e:
             logging.error('Error reading %s: %s', measure, e)

     def getPowerMetrics(self):
         """Get measurement metrics for Main Power.

         Returns:
           an integer, 0 for success and -1 for error.
           a float, voltage value in Volts. Or None if error.
           a float, current value in Amps. Or None if error.
         """
         logging.info('Attempt to get power metrics')
         try:
             return (0, self.readMeasure('voltage'),
                     self.readMeasure('current'))
         except InaError, e:
             logging.error('getPowerMetrics(): %s', e)
             return (-1, None, None)

     def _checkMeasureRange(self, hex_str, measure):
         """Checks if measurement value falls within a pre-specified range.

         Args:
           hex_str: a string (hex value).
           measure: a string, 'current' or 'voltage'.

         Returns:
           measure_float: a float, measurement value.

         Raises:
           InaError: if value doesn't fall in range.
         """
         measure_float = self._convertHexToFloat(
             hex_str, self.range_dict[measure]['denom'])
         measure_msg = '%s value %.2f' % (measure, measure_float)
         range_msg = '[%(min).2f, %(max).2f]' % self.range_dict[measure]
         if (measure_float < self.range_dict[measure]['min'] or
             measure_float > self.range_dict[measure]['max']):
             raise InaError('%s is out of range %s' % measure_msg, range_msg)
         logging.info('%s is in range %s', measure_msg, range_msg)
         return measure_float

     def _convertHexToFloat(self, hex_str, denom):
         """Performs measurement calculation.

         The measurement reading from INA219 module is a 2-byte hex string.
         To convert this hex string to a float, we need to swap these two bytes
         and perform a division. An example:
           response = 0xca19
           swap bytes to get '0x19ca'
           convert to decimal value = 6602
           divide decimal by 2000.0 = 3.301 (volts)

         Args:
           hex_str: a string (raw hex value).
           denom: a float, denominator used for hex-to-float conversion.

         Returns:
           a float, measurement value.

         Raises:
           InaError: if error converting measurement to float.
         """
         match = HEX_STR_PATTERN.match(hex_str)
         if not match:
             raise InaError('Error: hex string %s does not match '
                            'expected pattern' % hex_str)

         decimal = int('0x%s%s' % (match.group(2), match.group(1)), 16)
         return decimal/denom
	# Copyright (c) 2011 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.

	"""A Python library to interact with INA219 module for TPM testing.

	Background
	- INA219 is one of two modules on TTCI board
	- This library provides methods to interact with INA219 programmatically

	Dependency
	- This library depends on a new C shared library called "libsmogcheck.so".
	- In order to run test cases built using this API, one needs a TTCI board

	Notes:
	- An exception is raised if it doesn't make logical sense to continue program
	flow (e.g. I/O error prevents test case from executing)
	- An exception is caught and then converted to an error code if the caller
	expects to check for error code per API definition
	"""

	import logging, re
	from autotest_lib.client.common_lib import i2c_slave


	# INA219 registers
	INA_REG = {
	'CONF': 0, # Configuration Register
	'SHUNT_VOLT': 1, # Shunt Voltage
	'BUS_VOLT': 2, # Bus Voltage
	'POWER': 3, # Power
	'CURRENT': 4, # Current
	'CALIB': 5, # Calibration
	}

	# Regex pattern for measurement value
	HEX_STR_PATTERN = re.compile('^0x([0-9a-f]{2})([0-9a-f]{2})$')

	# Constants used to initialize INA219 registers
	# TODO(tgao): add docstring for these values after stevenh replies
	INA_CONF_INIT_VAL = 0x9f31
	INA_CALIB_INIT_VAL = 0xc90e

	# Default values used to calculate/interpret voltage and current measurements.
	DEFAULT_MEAS_RANGE_VALUE = {
	'current': {'max': 0.1, 'min': 0.0, 'denom': 10000.0,
	'reg': INA_REG['CURRENT']},
	'voltage': {'max': 3.35, 'min': 3.25, 'denom': 2000.0,
	'reg': INA_REG['BUS_VOLT']},
	}


	class InaError(Exception):
	"""Base class for all errors in this module."""


	class InaController(i2c_slave.I2cSlave):
	"""Object to control INA219 module on TTCI board."""

	def __init__(self, slave_addr=None, range_dict=None):
	"""Constructor.

	Mandatory params:
	slave_addr: slave address to set. Default: None.

	Optional param:
	range_dict: desired max/min thresholds for measurement values.
	Default: DEFAULT_MEAS_RANGE_VALUE.

	Args:
	slave_addr: an integer, address of main or backup power.
	range_dict: desired max/min thresholds for measurement values.

	Raises:
	InaError: if error initializing INA219 module or invalid range_dict.
	"""
	super(InaController, self).__init__()
	if slave_addr is None:
	raise InaError('Error slave_addr expected')

	try:
	if range_dict is None:
	range_dict = DEFAULT_MEAS_RANGE_VALUE
	else:
	self._validateRangeDict(DEFAULT_MEAS_RANGE_VALUE, range_dict)
	self.range_dict = range_dict

	self.setSlaveAddress(slave_addr)
	self.writeWord(INA_REG['CONF'], INA_CONF_INIT_VAL)
	self.writeWord(INA_REG['CALIB'], INA_CALIB_INIT_VAL)
	except InaError, e:
	raise InaError('Error initializing INA219: %s' % e)

	def _validateRangeDict(self, d_ref, d_in):
	"""Validates keys and types of value in range_dict.

	Iterate over d_ref to make sure all keys exist in d_in and
	values are of the correct type.

	Args:
	d_ref: a dictionary, used as reference.
	d_in: a dictionary, to be validated against reference.

	Raises:
	InaError: if range_dict is invalid.
	"""
	for k, v in d_ref.iteritems():
	if k not in d_in:
	raise InaError('Key %s not present in dict %r' % (k, d_in))
	if type(v) != type(d_in[k]):
	raise InaError(
	'Value type mismatch for key %s. Expected: %s; actual = %s'
	% (k, type(v), type(d_in[k])))
	if type(v) is dict:
	self._validateRangeDict(v, d_in[k])

	def readMeasure(self, measure):
	"""Reads requested measurement.

	Args:
	measure: a string, 'current' or 'voltage'.

	Returns:
	a float, measurement in native units. Or None if error.

	Raises:
	InaError: if error reading requested measurement.
	"""
	try:
	hex_str = '0x%.4x' % self.readWord(self.range_dict[measure]['reg'])
	logging.debug('Word read = %r', hex_str)
	return self._checkMeasureRange(hex_str, measure)
	except InaError, e:
	logging.error('Error reading %s: %s', measure, e)

	def getPowerMetrics(self):
	"""Get measurement metrics for Main Power.

	Returns:
	an integer, 0 for success and -1 for error.
	a float, voltage value in Volts. Or None if error.
	a float, current value in Amps. Or None if error.
	"""
	logging.info('Attempt to get power metrics')
	try:
	return (0, self.readMeasure('voltage'),
	self.readMeasure('current'))
	except InaError, e:
	logging.error('getPowerMetrics(): %s', e)
	return (-1, None, None)

	def _checkMeasureRange(self, hex_str, measure):
	"""Checks if measurement value falls within a pre-specified range.

	Args:
	hex_str: a string (hex value).
	measure: a string, 'current' or 'voltage'.

	Returns:
	measure_float: a float, measurement value.

	Raises:
	InaError: if value doesn't fall in range.
	"""
	measure_float = self._convertHexToFloat(
	hex_str, self.range_dict[measure]['denom'])
	measure_msg = '%s value %.2f' % (measure, measure_float)
	range_msg = '[%(min).2f, %(max).2f]' % self.range_dict[measure]
	if (measure_float < self.range_dict[measure]['min'] or
	measure_float > self.range_dict[measure]['max']):
	raise InaError('%s is out of range %s' % measure_msg, range_msg)
	logging.info('%s is in range %s', measure_msg, range_msg)
	return measure_float

	def _convertHexToFloat(self, hex_str, denom):
	"""Performs measurement calculation.

	The measurement reading from INA219 module is a 2-byte hex string.
	To convert this hex string to a float, we need to swap these two bytes
	and perform a division. An example:
	response = 0xca19
	swap bytes to get '0x19ca'
	convert to decimal value = 6602
	divide decimal by 2000.0 = 3.301 (volts)

	Args:
	hex_str: a string (raw hex value).
	denom: a float, denominator used for hex-to-float conversion.

	Returns:
	a float, measurement value.

	Raises:
	InaError: if error converting measurement to float.
	"""
	match = HEX_STR_PATTERN.match(hex_str)
	if not match:
	raise InaError('Error: hex string %s does not match '
	'expected pattern' % hex_str)

	decimal = int('0x%s%s' % (match.group(2), match.group(1)), 16)
	return decimal/denom