client/cros/i2c/usb_to_i2c.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.

 '''
 USB to I2C controller.
 '''

 import glob
 import logging
 import os
 import re
 import serial
 import time

 from autotest_lib.client.cros import tty

 # Least significant bit of I2C address.
 WRITE_BIT = 0
 READ_BIT = 1


 def create_i2c_controller(chipset_config):
     '''Factory method for I2CController.

     This function is a factory method to create an I2CController instance.

     @param chipset_config: Chipset configuration.
     @return An I2CController if succeeded.
     @throws AssertionError if a valid instance cannot be created.
     '''
     if chipset_config.split(':')[0] == 'SC18IM700':
         usb_uart_driver = chipset_config.split(':')[1]
         # Try to find a tty terminal that driver name matches usb_uart_driver.
         tty_path = tty.find_tty_by_driver(usb_uart_driver)
         if tty_path:
             return _I2CControllerSC18IM700(tty_path)

     assert False, "Unsupported configuration: %s" % chipset_config


 class I2CController(object):
     '''
     The base class of I2C controller.
     '''

     # Constants indicate I2C bus status.
     I2C_OK = 1
     I2C_NACK_ON_ADDRESS = 2
     I2C_NACK_ON_DATA = 3
     I2C_TIME_OUT = 4

     def send_and_check_status(self, slave_addr, int_array):
         '''Sends data to I2C slave device and checks the bus status.

         @param slave_addr: The address of slave in 7bits format.
         @param int_array: The data to send in integer array.
         @param status_check: Whether to check I2C bus status.

         @return An integer indicates I2C bus status.
         '''
         self.send(slave_addr, int_array)
         return self.read_bus_status()

     def read_bus_status(self):
         '''Returns the I2C bus status.'''
         raise NotImplementedError

     def send(self, slave_addr, int_array):
         '''Sends data to I2C slave device.

         Caller should call read_bus_status() explicitly to confirm whether the
         data sent successfully.

         @param slave_addr: The address of slave in 7bits format.
         @param int_array: The data to send in integer array.
         '''
         raise NotImplementedError

     def read(self, slave_addr, bytes_to_read):
         '''Reads data from I2C slave device.

         @param slave_addr: The address of slave in 7bits format.
         @param bytes_to_read: The number of bytes to read from device.
         @return An array of data.
         '''
         raise NotImplementedError


 class _I2CControllerSC18IM700(I2CController):
     '''
     Implementation of I2C Controller for NXP SC18IM700.
     '''
     SEC_WAIT_I2C = 0.1

     # Constants from official datasheet.
     # http://www.nxp.com/documents/data_sheet/SC18IM700.pdf
     I2C_STATUS = {0b11110000: I2CController.I2C_OK,
                   0b11110001: I2CController.I2C_NACK_ON_ADDRESS,
                   0b11110011: I2CController.I2C_NACK_ON_DATA,
                   0b11111000: I2CController.I2C_TIME_OUT}

     def __init__(self, device_path):
         '''Connects to NXP via serial port.

         @param device_path: The device path of serial port.
         '''
         self.logger = logging.getLogger('SC18IM700')
         self.logger.info('Setup serial device... [%s]', device_path)
         self.device_path = device_path
         self.serial = serial.Serial(port=self.device_path,
                                     baudrate=9600,
                                     bytesize=serial.EIGHTBITS,
                                     parity=serial.PARITY_NONE,
                                     stopbits=serial.STOPBITS_ONE,
                                     xonxoff=False,
                                     rtscts=True,
                                     interCharTimeout=1)
         self.logger.info('pySerial [%s] configuration : %s',
                          serial.VERSION, self.serial.__repr__())
         # Clean the buffer.
         self.serial.flush()

     def _write(self, data):
         '''Converts data to bytearray and writes to the serial port.'''
         self.serial.write(bytearray(data))
         self.serial.flush()

     def _read(self):
         '''Reads data from serial port(Non-Blocking).'''
         ret = self.serial.read(self.serial.inWaiting())
         self.logger.info('Hex and binary dump of datas - ')
         for char in ret:
             self.logger.info('  %x - %s', ord(char), bin(ord(char)))
         return ret

     @staticmethod
     def _convert_to_8bits_addr(slave_addr_7bits, lsb):
         '''Converts slave_addr from 7 bits to 8 bits with given LSB.'''
         assert (slave_addr_7bits >> 7) == 0, "Address must not exceed 7 bits."
         assert (lsb & ~0x01) == 0, "lsb must not exceed one bit."
         return (slave_addr_7bits << 1) | lsb

     def read_bus_status(self):
         cmd = [ord('R'), 0x0A, ord('P')]
         self._write(cmd)
         time.sleep(self.SEC_WAIT_I2C)
         ret = self._read()
         if (len(ret) == 1) and (ord(ret[0]) in self.I2C_STATUS):
             return self.I2C_STATUS[ord(ret[0])]
         raise IOError("I2C_STATUS_READ_FAILED")

     def send(self, slave_addr, int_array):
         cmd = ([ord('S'),
                 self._convert_to_8bits_addr(slave_addr, WRITE_BIT),
                 len(int_array)] +
                int_array + [ord('P')])
         self._write(cmd)

     def read(self, slave_addr, bytes_to_read):
         cmd = ([ord('S'),
                 self._convert_to_8bits_addr(slave_addr, READ_BIT),
                 bytes_to_read,
                 ord('P')])
         self._write(cmd)
         time.sleep(self.SEC_WAIT_I2C)
         return self._read()

     def write_gpio(self, data):
         self._write([ord('O'), data, ord('P')])

     def read_gpio(self):
         self._write([ord('I'), ord('P')])
         time.sleep(self.SEC_WAIT_I2C)
         return self._read()

     def write_register(self, regs, datas):
         assert len(regs) == len(datas)
         cmd = [ord('W')]
         for i in range(len(regs)):
             cmd.append(regs[i])
             cmd.append(datas[i])
         cmd.append(ord('P'))
         self._write(cmd)

     def read_register(self, regs):
         cmd = [ord('R')] + regs + [ord('P')]
         self._write(cmd)
         time.sleep(self.SEC_WAIT_I2C)
         return self._read()
	# 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.

	'''
	USB to I2C controller.
	'''

	import glob
	import logging
	import os
	import re
	import serial
	import time

	from autotest_lib.client.cros import tty

	# Least significant bit of I2C address.
	WRITE_BIT = 0
	READ_BIT = 1


	def create_i2c_controller(chipset_config):
	'''Factory method for I2CController.

	This function is a factory method to create an I2CController instance.

	@param chipset_config: Chipset configuration.
	@return An I2CController if succeeded.
	@throws AssertionError if a valid instance cannot be created.
	'''
	if chipset_config.split(':')[0] == 'SC18IM700':
	usb_uart_driver = chipset_config.split(':')[1]
	# Try to find a tty terminal that driver name matches usb_uart_driver.
	tty_path = tty.find_tty_by_driver(usb_uart_driver)
	if tty_path:
	return _I2CControllerSC18IM700(tty_path)

	assert False, "Unsupported configuration: %s" % chipset_config


	class I2CController(object):
	'''
	The base class of I2C controller.
	'''

	# Constants indicate I2C bus status.
	I2C_OK = 1
	I2C_NACK_ON_ADDRESS = 2
	I2C_NACK_ON_DATA = 3
	I2C_TIME_OUT = 4

	def send_and_check_status(self, slave_addr, int_array):
	'''Sends data to I2C slave device and checks the bus status.

	@param slave_addr: The address of slave in 7bits format.
	@param int_array: The data to send in integer array.
	@param status_check: Whether to check I2C bus status.

	@return An integer indicates I2C bus status.
	'''
	self.send(slave_addr, int_array)
	return self.read_bus_status()

	def read_bus_status(self):
	'''Returns the I2C bus status.'''
	raise NotImplementedError

	def send(self, slave_addr, int_array):
	'''Sends data to I2C slave device.

	Caller should call read_bus_status() explicitly to confirm whether the
	data sent successfully.

	@param slave_addr: The address of slave in 7bits format.
	@param int_array: The data to send in integer array.
	'''
	raise NotImplementedError

	def read(self, slave_addr, bytes_to_read):
	'''Reads data from I2C slave device.

	@param slave_addr: The address of slave in 7bits format.
	@param bytes_to_read: The number of bytes to read from device.
	@return An array of data.
	'''
	raise NotImplementedError


	class _I2CControllerSC18IM700(I2CController):
	'''
	Implementation of I2C Controller for NXP SC18IM700.
	'''
	SEC_WAIT_I2C = 0.1

	# Constants from official datasheet.
	# http://www.nxp.com/documents/data_sheet/SC18IM700.pdf
	I2C_STATUS = {0b11110000: I2CController.I2C_OK,
	0b11110001: I2CController.I2C_NACK_ON_ADDRESS,
	0b11110011: I2CController.I2C_NACK_ON_DATA,
	0b11111000: I2CController.I2C_TIME_OUT}

	def __init__(self, device_path):
	'''Connects to NXP via serial port.

	@param device_path: The device path of serial port.
	'''
	self.logger = logging.getLogger('SC18IM700')
	self.logger.info('Setup serial device... [%s]', device_path)
	self.device_path = device_path
	self.serial = serial.Serial(port=self.device_path,
	baudrate=9600,
	bytesize=serial.EIGHTBITS,
	parity=serial.PARITY_NONE,
	stopbits=serial.STOPBITS_ONE,
	xonxoff=False,
	rtscts=True,
	interCharTimeout=1)
	self.logger.info('pySerial [%s] configuration : %s',
	serial.VERSION, self.serial.__repr__())
	# Clean the buffer.
	self.serial.flush()

	def _write(self, data):
	'''Converts data to bytearray and writes to the serial port.'''
	self.serial.write(bytearray(data))
	self.serial.flush()

	def _read(self):
	'''Reads data from serial port(Non-Blocking).'''
	ret = self.serial.read(self.serial.inWaiting())
	self.logger.info('Hex and binary dump of datas - ')
	for char in ret:
	self.logger.info(' %x - %s', ord(char), bin(ord(char)))
	return ret

	@staticmethod
	def _convert_to_8bits_addr(slave_addr_7bits, lsb):
	'''Converts slave_addr from 7 bits to 8 bits with given LSB.'''
	assert (slave_addr_7bits >> 7) == 0, "Address must not exceed 7 bits."
	assert (lsb & ~0x01) == 0, "lsb must not exceed one bit."
	return (slave_addr_7bits << 1) \| lsb

	def read_bus_status(self):
	cmd = [ord('R'), 0x0A, ord('P')]
	self._write(cmd)
	time.sleep(self.SEC_WAIT_I2C)
	ret = self._read()
	if (len(ret) == 1) and (ord(ret[0]) in self.I2C_STATUS):
	return self.I2C_STATUS[ord(ret[0])]
	raise IOError("I2C_STATUS_READ_FAILED")

	def send(self, slave_addr, int_array):
	cmd = ([ord('S'),
	self._convert_to_8bits_addr(slave_addr, WRITE_BIT),
	len(int_array)] +
	int_array + [ord('P')])
	self._write(cmd)

	def read(self, slave_addr, bytes_to_read):
	cmd = ([ord('S'),
	self._convert_to_8bits_addr(slave_addr, READ_BIT),
	bytes_to_read,
	ord('P')])
	self._write(cmd)
	time.sleep(self.SEC_WAIT_I2C)
	return self._read()

	def write_gpio(self, data):
	self._write([ord('O'), data, ord('P')])

	def read_gpio(self):
	self._write([ord('I'), ord('P')])
	time.sleep(self.SEC_WAIT_I2C)
	return self._read()

	def write_register(self, regs, datas):
	assert len(regs) == len(datas)
	cmd = [ord('W')]
	for i in range(len(regs)):
	cmd.append(regs[i])
	cmd.append(datas[i])
	cmd.append(ord('P'))
	self._write(cmd)

	def read_register(self, regs):
	cmd = [ord('R')] + regs + [ord('P')]
	self._write(cmd)
	time.sleep(self.SEC_WAIT_I2C)
	return self._read()