# Lint as: python2, python3 # Copyriht (c) 2014 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. from __future__ import absolute_import from __future__ import division from __future__ import print_function import logging import six # Following Beaglebone GPIO pins are used to control the 8 port multiplexer. MUX_EN = '20' MUX_S0 = '115' MUX_S1 = '117' MUX_S2 = '49' ENABLE_MUX = '1' DISABLE_MUX = '0' # Various commands used to control the GPIO pins at the kernel level. LS_GPIO_DIRECTORY = 'ls /sys/class/gpio' EXPORT_GPIO_PIN = 'echo %s > /sys/class/gpio/export' SET_GPIO_DIRECTION = 'echo high > /sys/class/gpio/gpio%s/direction' SET_GPIO_VALUE = 'echo %s > /sys/class/gpio/gpio%s/value' UNEXPORT_GPIO_PIN = 'echo %s > /sys/class/gpio/unexport' # Values passed to each GPIO pin to enable a specific port. # Bit sequence: MUX_S2, MUX_S1, MUX_S0 # Example: To enable port 5, MUX_S2 will be set to 1, MUX_S1 will be set to 0 # and MUX_S0 will be set to 1 ports = {0:'000', 1:'001', 2:'010', 3:'011', 4:'100', 5:'101', 6:'110', 7:'111'} class USBMuxController(object): """Class to control individual ports on a 8 port USB switch/hub. This class is responsible for enabling all the GPIO pins on the beaglebone needed to control the 8 port USB switch/hub. In order to use this USB mux controller you need custom hardware setup which connects to the beaglebone and drives the 8 port relay switch to turn the individual ports on the USB hub 'on'/'off'. TODO(harpreet) Write a USB mux hardware design document and provide a link here. """ version = 1 def __init__(self, host): """Initializes this USB Mux Controller instance. @param host: Host where the test will be run. """ self.host = host def __del__(self): """Destructor of USBMuxController. Disables all GPIO pins used that control the multiplexer. """ self.mux_teardown() def mux_setup(self): """ Enable GPIO pins that control the multiplexer. """ logging.info('Enable GPIO pins that control the multiplexer.') self.enable_gpio_pins(MUX_EN) self.disable_all_ports() self.enable_gpio_pins(MUX_S2) self.enable_gpio_pins(MUX_S1) self.enable_gpio_pins(MUX_S0) def mux_teardown(self): """ Disable the multiplexer and unexport all GPIO pins. """ logging.info('Start USB multiplexer teardown.') self.disable_all_ports() # unexport gpio pins logging.info('Unexport all GPIO pins.') self.host.servo.system(UNEXPORT_GPIO_PIN % MUX_S0) self.host.servo.system(UNEXPORT_GPIO_PIN % MUX_S1) self.host.servo.system(UNEXPORT_GPIO_PIN % MUX_S2) self.host.servo.system(UNEXPORT_GPIO_PIN % MUX_EN) logging.info('Completed USB multiplexer teardown. All USB ports should' 'now be turned off.') def enable_gpio_pins(self, pin): """ Enables the given GPIO pin by exporting the pin and setting the direction. @param pin: GPIO pin to be enabled. """ if 'gpio' + pin not in self.host.servo.system_output(LS_GPIO_DIRECTORY): self.host.servo.system(EXPORT_GPIO_PIN % pin) self.host.servo.system(SET_GPIO_DIRECTION % pin) def enable_port(self, usb_port): """ Enables the given port on the USB hub. @param usb_port: USB port to be enabled. """ port = ports[usb_port] logging.info('Enable port %s.', port) self.mux_setup() self.disable_all_ports() logging.info('Set GPIO pins to correct logic levels.') self.host.servo.system(SET_GPIO_VALUE % (port[0], MUX_S2)) self.host.servo.system(SET_GPIO_VALUE % (port[1], MUX_S1)) self.host.servo.system(SET_GPIO_VALUE % (port[2], MUX_S0)) logging.info('Enable USB multiplexer. Appropriate port should now be' 'enabled') self.host.servo.system(SET_GPIO_VALUE % (ENABLE_MUX, MUX_EN)) def disable_all_ports(self): """ Disables all USB ports that are currently enabled. """ if 'gpio20' in self.host.servo.system_output(LS_GPIO_DIRECTORY): logging.info('Disable USB ports.') self.host.servo.system(SET_GPIO_VALUE % (DISABLE_MUX, MUX_EN))