devil/devil/utils/find_usb_devices.py - catapult - Git at Google

 #!/usr/bin/python
 # Copyright 2016 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import argparse
 import logging
 import os
 import re
 import sys

 if __name__ == '__main__':
   sys.path.append(
       os.path.abspath(os.path.join(os.path.dirname(__file__), '..', '..')))

 from devil.utils import cmd_helper
 from devil.utils import usb_hubs
 from devil.utils import lsusb

 logger = logging.getLogger(__name__)

 # Note: In the documentation below, "virtual port" refers to the port number
 # as observed by the system (e.g. by usb-devices) and "physical port" refers
 # to the physical numerical label on the physical port e.g. on a USB hub.
 # The mapping between virtual and physical ports is not always the identity
 # (e.g. the port labeled "1" on a USB hub does not always show up as "port 1"
 # when you plug something into it) but, as far as we are aware, the mapping
 # between virtual and physical ports is always the same for a given
 # model of USB hub. When "port number" is referenced without specifying, it
 # means the virtual port number.


 # Wrapper functions for system commands to get output. These are in wrapper
 # functions so that they can be more easily mocked-out for tests.
 def _GetParsedLSUSBOutput():
   return lsusb.lsusb()


 def _GetUSBDevicesOutput():
   return cmd_helper.GetCmdOutput(['usb-devices'])


 def _GetTtyUSBInfo(tty_string):
   cmd = ['udevadm', 'info', '--name=/dev/' + tty_string, '--attribute-walk']
   return cmd_helper.GetCmdOutput(cmd)


 def _GetCommList():
   return cmd_helper.GetCmdOutput('ls /dev', shell=True)


 def GetTTYList():
   return [x for x in _GetCommList().splitlines() if 'ttyUSB' in x]


 # Class to identify nodes in the USB topology. USB topology is organized as
 # a tree.
 class USBNode(object):
   def __init__(self):
     self._port_to_node = {}

   @property
   def desc(self):
     raise NotImplementedError

   @property
   def info(self):
     raise NotImplementedError

   @property
   def device_num(self):
     raise NotImplementedError

   @property
   def bus_num(self):
     raise NotImplementedError

   def HasPort(self, port):
     """Determines if this device has a device connected to the given port."""
     return port in self._port_to_node

   def PortToDevice(self, port):
     """Gets the device connected to the given port on this device."""
     return self._port_to_node[port]

   def Display(self, port_chain='', info=False):
     """Displays information about this node and its descendants.

     Output format is, e.g. 1:3:3:Device 42 (ID 1234:5678 Some Device)
     meaning that from the bus, if you look at the device connected
     to port 1, then the device connected to port 3 of that,
     then the device connected to port 3 of that, you get the device
     assigned device number 42, which is Some Device. Note that device
     numbers will be reassigned whenever a connected device is powercycled
     or reinserted, but port numbers stay the same as long as the device
     is reinserted back into the same physical port.

     Args:
       port_chain: [string] Chain of ports from bus to this node (e.g. '2:4:')
       info: [bool] Whether to display detailed info as well.
     """
     raise NotImplementedError

   def AddChild(self, port, device):
     """Adds child to the device tree.

     Args:
       port: [int] Port number of the device.
       device: [USBDeviceNode] Device to add.

     Raises:
       ValueError: If device already has a child at the given port.
     """
     if self.HasPort(port):
       raise ValueError('Duplicate port number')
     else:
       self._port_to_node[port] = device

   def AllNodes(self):
     """Generator that yields this node and all of its descendants.

     Yields:
       [USBNode] First this node, then each of its descendants (recursively)
     """
     yield self
     for child_node in self._port_to_node.values():
       for descendant_node in child_node.AllNodes():
         yield descendant_node

   def FindDeviceNumber(self, findnum):
     """Find device with given number in tree

     Searches the portion of the device tree rooted at this node for
     a device with the given device number.

     Args:
       findnum: [int] Device number to search for.

     Returns:
       [USBDeviceNode] Node that is found.
     """
     for node in self.AllNodes():
       if node.device_num == findnum:
         return node
     return None


 class USBDeviceNode(USBNode):
   def __init__(self, bus_num=0, device_num=0, serial=None, info=None):
     """Class that represents a device in USB tree.

     Args:
       bus_num: [int] Bus number that this node is attached to.
       device_num: [int] Device number of this device (or 0, if this is a bus)
       serial: [string] Serial number.
       info: [dict] Map giving detailed device info.
     """
     super(USBDeviceNode, self).__init__()
     self._bus_num = bus_num
     self._device_num = device_num
     self._serial = serial
     self._info = {} if info is None else info

   #override
   @property
   def desc(self):
     return self._info.get('desc')

   #override
   @property
   def info(self):
     return self._info

   #override
   @property
   def device_num(self):
     return self._device_num

   #override
   @property
   def bus_num(self):
     return self._bus_num

   @property
   def serial(self):
     return self._serial

   @serial.setter
   def serial(self, serial):
     self._serial = serial

   #override
   def Display(self, port_chain='', info=False):
     logger.info('%s Device %d (%s)', port_chain, self.device_num, self.desc)
     if info:
       logger.info('%s', self.info)
     for (port, device) in self._port_to_node.items():
       device.Display('%s%d:' % (port_chain, port), info=info)


 class USBBusNode(USBNode):
   def __init__(self, bus_num=0):
     """Class that represents a node (either a bus or device) in USB tree.

     Args:
       is_bus: [bool] If true, node is bus; if not, node is device.
       bus_num: [int] Bus number that this node is attached to.
       device_num: [int] Device number of this device (or 0, if this is a bus)
       desc: [string] Short description of device.
       serial: [string] Serial number.
       info: [dict] Map giving detailed device info.
       port_to_dev: [dict(int:USBDeviceNode)]
           Maps port # to device connected to port.
     """
     super(USBBusNode, self).__init__()
     self._bus_num = bus_num

   #override
   @property
   def desc(self):
     return 'BUS %d' % self._bus_num

   #override
   @property
   def info(self):
     return {}

   #override
   @property
   def device_num(self):
     return -1

   #override
   @property
   def bus_num(self):
     return self._bus_num

   #override
   def Display(self, port_chain='', info=False):
     logger.info('=== %s ===', self.desc)
     for (port, device) in self._port_to_node.items():
       device.Display('%s%d:' % (port_chain, port), info=info)


 _T_LINE_REGEX = re.compile(r'T:  Bus=(?P<bus>\d{2}) Lev=(?P<lev>\d{2}) '
                            r'Prnt=(?P<prnt>\d{2,3}) Port=(?P<port>\d{2}) '
                            r'Cnt=(?P<cnt>\d{2}) Dev#=(?P<dev>.{3}) .*')

 _S_LINE_REGEX = re.compile(r'S:  SerialNumber=(?P<serial>.*)')
 _LSUSB_BUS_DEVICE_RE = re.compile(r'^Bus (\d{3}) Device (\d{3}): (.*)')


 def GetBusNumberToDeviceTreeMap(fast=True):
   """Gets devices currently attached.

   Args:
     fast [bool]: whether to do it fast (only get description, not
     the whole dictionary, from lsusb)

   Returns:
     map of {bus number: bus object}
     where the bus object has all the devices attached to it in a tree.
   """
   if fast:
     info_map = {}
     for line in lsusb.raw_lsusb().splitlines():
       match = _LSUSB_BUS_DEVICE_RE.match(line)
       if match:
         info_map[(int(match.group(1)), int(match.group(2)))] = ({
             'desc': match.group(3)
         })
   else:
     info_map = {((int(line['bus']), int(line['device']))): line
                 for line in _GetParsedLSUSBOutput()}

   tree = {}
   bus_num = -1
   for line in _GetUSBDevicesOutput().splitlines():
     match = _T_LINE_REGEX.match(line)
     if match:
       bus_num = int(match.group('bus'))
       parent_num = int(match.group('prnt'))
       # usb-devices starts counting ports from 0, so add 1
       port_num = int(match.group('port')) + 1
       device_num = int(match.group('dev'))

       # create new bus if necessary
       if bus_num not in tree:
         tree[bus_num] = USBBusNode(bus_num=bus_num)

       # create the new device
       new_device = USBDeviceNode(
           bus_num=bus_num,
           device_num=device_num,
           info=info_map.get((bus_num, device_num), {'desc': 'NOT AVAILABLE'}))

       # add device to bus
       if parent_num != 0:
         tree[bus_num].FindDeviceNumber(parent_num).AddChild(
             port_num, new_device)
       else:
         tree[bus_num].AddChild(port_num, new_device)

     match = _S_LINE_REGEX.match(line)
     if match:
       if bus_num == -1:
         raise ValueError('S line appears before T line in input file')
       # put the serial number in the device
       tree[bus_num].FindDeviceNumber(device_num).serial = match.group('serial')

   return tree


 def GetHubsOnBus(bus, hub_types):
   """Scans for all hubs on a bus of given hub types.

   Args:
     bus: [USBNode] Bus object.
     hub_types: [iterable(usb_hubs.HubType)] Possible types of hubs.

   Yields:
     Sequence of tuples representing (hub, type of hub)
   """
   for device in bus.AllNodes():
     for hub_type in hub_types:
       if hub_type.IsType(device):
         yield (device, hub_type)


 def GetPhysicalPortToNodeMap(hub, hub_type):
   """Gets physical-port:node mapping for a given hub.
   Args:
     hub: [USBNode] Hub to get map for.
     hub_type: [usb_hubs.HubType] Which type of hub it is.

   Returns:
     Dict of {physical port: node}
   """
   port_device = hub_type.GetPhysicalPortToNodeTuples(hub)
   return {port: device for (port, device) in port_device}


 def GetPhysicalPortToBusDeviceMap(hub, hub_type):
   """Gets physical-port:(bus#, device#) mapping for a given hub.
   Args:
     hub: [USBNode] Hub to get map for.
     hub_type: [usb_hubs.HubType] Which type of hub it is.

   Returns:
     Dict of {physical port: (bus number, device number)}
   """
   port_device = hub_type.GetPhysicalPortToNodeTuples(hub)
   return {
       port: (device.bus_num, device.device_num)
       for (port, device) in port_device
   }


 def GetPhysicalPortToSerialMap(hub, hub_type):
   """Gets physical-port:serial# mapping for a given hub.

   Args:
     hub: [USBNode] Hub to get map for.
     hub_type: [usb_hubs.HubType] Which type of hub it is.

   Returns:
     Dict of {physical port: serial number)}
   """
   port_device = hub_type.GetPhysicalPortToNodeTuples(hub)
   return {
       port: device.serial
       for (port, device) in port_device if device.serial
   }


 def GetPhysicalPortToTTYMap(device, hub_type):
   """Gets physical-port:tty-string mapping for a given hub.
   Args:
     hub: [USBNode] Hub to get map for.
     hub_type: [usb_hubs.HubType] Which type of hub it is.

   Returns:
     Dict of {physical port: tty-string)}
   """
   port_device = hub_type.GetPhysicalPortToNodeTuples(device)
   bus_device_to_tty = GetBusDeviceToTTYMap()
   return {
       port: bus_device_to_tty[(device.bus_num, device.device_num)]
       for (port, device) in port_device
       if (device.bus_num, device.device_num) in bus_device_to_tty
   }


 def CollectHubMaps(hub_types, map_func, device_tree_map=None, fast=False):
   """Runs a function on all hubs in the system and collects their output.

   Args:
     hub_types: [usb_hubs.HubType] List of possible hub types.
     map_func: [string] Function to run on each hub.
     device_tree: Previously constructed device tree map, if any.
     fast: Whether to construct device tree fast, if not already provided

   Yields:
     Sequence of dicts of {physical port: device} where the type of
     device depends on the ident keyword. Each dict is a separate hub.
   """
   if device_tree_map is None:
     device_tree_map = GetBusNumberToDeviceTreeMap(fast=fast)
   for bus in device_tree_map.values():
     for (hub, hub_type) in GetHubsOnBus(bus, hub_types):
       yield map_func(hub, hub_type)


 def GetAllPhysicalPortToNodeMaps(hub_types, **kwargs):
   return CollectHubMaps(hub_types, GetPhysicalPortToNodeMap, **kwargs)


 def GetAllPhysicalPortToBusDeviceMaps(hub_types, **kwargs):
   return CollectHubMaps(hub_types, GetPhysicalPortToBusDeviceMap, **kwargs)


 def GetAllPhysicalPortToSerialMaps(hub_types, **kwargs):
   return CollectHubMaps(hub_types, GetPhysicalPortToSerialMap, **kwargs)


 def GetAllPhysicalPortToTTYMaps(hub_types, **kwargs):
   return CollectHubMaps(hub_types, GetPhysicalPortToTTYMap, **kwargs)


 _BUS_NUM_REGEX = re.compile(r'.*ATTRS{busnum}=="(\d*)".*')
 _DEVICE_NUM_REGEX = re.compile(r'.*ATTRS{devnum}=="(\d*)".*')


 def GetBusDeviceFromTTY(tty_string):
   """Gets bus and device number connected to a ttyUSB port.

   Args:
     tty_string: [String] Identifier for ttyUSB (e.g. 'ttyUSB0')

   Returns:
     Tuple (bus, device) giving device connected to that ttyUSB.

   Raises:
     ValueError: If bus and device information could not be found.
   """
   bus_num = None
   device_num = None
   # Expected output of GetCmdOutput should be something like:
   # looking at device /devices/something/.../.../...
   # KERNELS="ttyUSB0"
   # SUBSYSTEMS=...
   # DRIVERS=...
   # ATTRS{foo}=...
   # ATTRS{bar}=...
   # ...
   for line in _GetTtyUSBInfo(tty_string).splitlines():
     bus_match = _BUS_NUM_REGEX.match(line)
     device_match = _DEVICE_NUM_REGEX.match(line)
     if bus_match and bus_num is None:
       bus_num = int(bus_match.group(1))
     if device_match and device_num is None:
       device_num = int(device_match.group(1))
   if bus_num is None or device_num is None:
     raise ValueError('Info not found')
   return (bus_num, device_num)


 def GetBusDeviceToTTYMap():
   """Gets all mappings from (bus, device) to ttyUSB string.

   Gets mapping from (bus, device) to ttyUSB string (e.g. 'ttyUSB0'),
   for all ttyUSB strings currently active.

   Returns:
     [dict] Dict that maps (bus, device) to ttyUSB string
   """
   result = {}
   for tty in GetTTYList():
     result[GetBusDeviceFromTTY(tty)] = tty
   return result


 # This dictionary described the mapping between physical and
 # virtual ports on a Plugable 7-Port Hub (model USB2-HUB7BC).
 # Keys are the virtual ports, values are the physical port.
 # The entry 4:{1:4, 2:3, 3:2, 4:1} indicates that virtual port
 # 4 connects to another 'virtual' hub that itself has the
 # virtual-to-physical port mapping {1:4, 2:3, 3:2, 4:1}.


 def TestUSBTopologyScript():
   """Test display and hub identification."""
   # The following makes logger.info behave pretty much like print
   # during this test script.
   logging.basicConfig(format='%(message)s', stream=sys.stdout)
   logger.setLevel(logging.INFO)

   # Identification criteria for Plugable 7-Port Hub
   logger.info('==== USB TOPOLOGY SCRIPT TEST ====')
   logger.info('')

   # Display devices
   logger.info('==== DEVICE DISPLAY ====')
   device_trees = GetBusNumberToDeviceTreeMap()
   for device_tree in device_trees.values():
     device_tree.Display()
   logger.info('')

   # Display TTY information about devices plugged into hubs.
   logger.info('==== TTY INFORMATION ====')
   for port_map in GetAllPhysicalPortToTTYMaps(
       usb_hubs.ALL_HUBS, device_tree_map=device_trees):
     logger.info('%s', port_map)
   logger.info('')

   # Display serial number information about devices plugged into hubs.
   logger.info('==== SERIAL NUMBER INFORMATION ====')
   for port_map in GetAllPhysicalPortToSerialMaps(
       usb_hubs.ALL_HUBS, device_tree_map=device_trees):
     logger.info('%s', port_map)

   return 0


 def parse_options(argv):
   """Parses and checks the command-line options.

   Returns:
     A tuple containing the options structure and a list of categories to
     be traced.
   """
   USAGE = '''./find_usb_devices [--help]
     This script shows the mapping between USB devices and port numbers.
     Clients are not intended to call this script from the command line.
     Clients are intended to call the functions in this script directly.
     For instance, GetAllPhysicalPortToSerialMaps(...)
     Running this script with --help will display this message.
     Running this script without --help will display information about
     devices attached, TTY mapping, and serial number mapping,
     for testing purposes. See design document for API documentation.
   '''
   parser = argparse.ArgumentParser(usage=USAGE)
   return parser.parse_args(argv[1:])


 def main():
   parse_options(sys.argv)
   TestUSBTopologyScript()


 if __name__ == "__main__":
   sys.exit(main())
	#!/usr/bin/python
	# Copyright 2016 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import argparse
	import logging
	import os
	import re
	import sys

	if __name__ == '__main__':
	sys.path.append(
	os.path.abspath(os.path.join(os.path.dirname(__file__), '..', '..')))

	from devil.utils import cmd_helper
	from devil.utils import usb_hubs
	from devil.utils import lsusb

	logger = logging.getLogger(__name__)

	# Note: In the documentation below, "virtual port" refers to the port number
	# as observed by the system (e.g. by usb-devices) and "physical port" refers
	# to the physical numerical label on the physical port e.g. on a USB hub.
	# The mapping between virtual and physical ports is not always the identity
	# (e.g. the port labeled "1" on a USB hub does not always show up as "port 1"
	# when you plug something into it) but, as far as we are aware, the mapping
	# between virtual and physical ports is always the same for a given
	# model of USB hub. When "port number" is referenced without specifying, it
	# means the virtual port number.


	# Wrapper functions for system commands to get output. These are in wrapper
	# functions so that they can be more easily mocked-out for tests.
	def _GetParsedLSUSBOutput():
	return lsusb.lsusb()


	def _GetUSBDevicesOutput():
	return cmd_helper.GetCmdOutput(['usb-devices'])


	def _GetTtyUSBInfo(tty_string):
	cmd = ['udevadm', 'info', '--name=/dev/' + tty_string, '--attribute-walk']
	return cmd_helper.GetCmdOutput(cmd)


	def _GetCommList():
	return cmd_helper.GetCmdOutput('ls /dev', shell=True)


	def GetTTYList():
	return [x for x in _GetCommList().splitlines() if 'ttyUSB' in x]


	# Class to identify nodes in the USB topology. USB topology is organized as
	# a tree.
	class USBNode(object):
	def __init__(self):
	self._port_to_node = {}

	@property
	def desc(self):
	raise NotImplementedError

	@property
	def info(self):
	raise NotImplementedError

	@property
	def device_num(self):
	raise NotImplementedError

	@property
	def bus_num(self):
	raise NotImplementedError

	def HasPort(self, port):
	"""Determines if this device has a device connected to the given port."""
	return port in self._port_to_node

	def PortToDevice(self, port):
	"""Gets the device connected to the given port on this device."""
	return self._port_to_node[port]

	def Display(self, port_chain='', info=False):
	"""Displays information about this node and its descendants.

	Output format is, e.g. 1:3:3:Device 42 (ID 1234:5678 Some Device)
	meaning that from the bus, if you look at the device connected
	to port 1, then the device connected to port 3 of that,
	then the device connected to port 3 of that, you get the device
	assigned device number 42, which is Some Device. Note that device
	numbers will be reassigned whenever a connected device is powercycled
	or reinserted, but port numbers stay the same as long as the device
	is reinserted back into the same physical port.

	Args:
	port_chain: [string] Chain of ports from bus to this node (e.g. '2:4:')
	info: [bool] Whether to display detailed info as well.
	"""
	raise NotImplementedError

	def AddChild(self, port, device):
	"""Adds child to the device tree.

	Args:
	port: [int] Port number of the device.
	device: [USBDeviceNode] Device to add.

	Raises:
	ValueError: If device already has a child at the given port.
	"""
	if self.HasPort(port):
	raise ValueError('Duplicate port number')
	else:
	self._port_to_node[port] = device

	def AllNodes(self):
	"""Generator that yields this node and all of its descendants.

	Yields:
	[USBNode] First this node, then each of its descendants (recursively)
	"""
	yield self
	for child_node in self._port_to_node.values():
	for descendant_node in child_node.AllNodes():
	yield descendant_node

	def FindDeviceNumber(self, findnum):
	"""Find device with given number in tree

	Searches the portion of the device tree rooted at this node for
	a device with the given device number.

	Args:
	findnum: [int] Device number to search for.

	Returns:
	[USBDeviceNode] Node that is found.
	"""
	for node in self.AllNodes():
	if node.device_num == findnum:
	return node
	return None


	class USBDeviceNode(USBNode):
	def __init__(self, bus_num=0, device_num=0, serial=None, info=None):
	"""Class that represents a device in USB tree.

	Args:
	bus_num: [int] Bus number that this node is attached to.
	device_num: [int] Device number of this device (or 0, if this is a bus)
	serial: [string] Serial number.
	info: [dict] Map giving detailed device info.
	"""
	super(USBDeviceNode, self).__init__()
	self._bus_num = bus_num
	self._device_num = device_num
	self._serial = serial
	self._info = {} if info is None else info

	#override
	@property
	def desc(self):
	return self._info.get('desc')

	#override
	@property
	def info(self):
	return self._info

	#override
	@property
	def device_num(self):
	return self._device_num

	#override
	@property
	def bus_num(self):
	return self._bus_num

	@property
	def serial(self):
	return self._serial

	@serial.setter
	def serial(self, serial):
	self._serial = serial

	#override
	def Display(self, port_chain='', info=False):
	logger.info('%s Device %d (%s)', port_chain, self.device_num, self.desc)
	if info:
	logger.info('%s', self.info)
	for (port, device) in self._port_to_node.items():
	device.Display('%s%d:' % (port_chain, port), info=info)


	class USBBusNode(USBNode):
	def __init__(self, bus_num=0):
	"""Class that represents a node (either a bus or device) in USB tree.

	Args:
	is_bus: [bool] If true, node is bus; if not, node is device.
	bus_num: [int] Bus number that this node is attached to.
	device_num: [int] Device number of this device (or 0, if this is a bus)
	desc: [string] Short description of device.
	serial: [string] Serial number.
	info: [dict] Map giving detailed device info.
	port_to_dev: [dict(int:USBDeviceNode)]
	Maps port # to device connected to port.
	"""
	super(USBBusNode, self).__init__()
	self._bus_num = bus_num

	#override
	@property
	def desc(self):
	return 'BUS %d' % self._bus_num

	#override
	@property
	def info(self):
	return {}

	#override
	@property
	def device_num(self):
	return -1

	#override
	@property
	def bus_num(self):
	return self._bus_num

	#override
	def Display(self, port_chain='', info=False):
	logger.info('=== %s ===', self.desc)
	for (port, device) in self._port_to_node.items():
	device.Display('%s%d:' % (port_chain, port), info=info)


	_T_LINE_REGEX = re.compile(r'T: Bus=(?P<bus>\d{2}) Lev=(?P<lev>\d{2}) '
	r'Prnt=(?P<prnt>\d{2,3}) Port=(?P<port>\d{2}) '
	r'Cnt=(?P<cnt>\d{2}) Dev#=(?P<dev>.{3}) .*')

	_S_LINE_REGEX = re.compile(r'S: SerialNumber=(?P<serial>.*)')
	_LSUSB_BUS_DEVICE_RE = re.compile(r'^Bus (\d{3}) Device (\d{3}): (.*)')


	def GetBusNumberToDeviceTreeMap(fast=True):
	"""Gets devices currently attached.

	Args:
	fast [bool]: whether to do it fast (only get description, not
	the whole dictionary, from lsusb)

	Returns:
	map of {bus number: bus object}
	where the bus object has all the devices attached to it in a tree.
	"""
	if fast:
	info_map = {}
	for line in lsusb.raw_lsusb().splitlines():
	match = _LSUSB_BUS_DEVICE_RE.match(line)
	if match:
	info_map[(int(match.group(1)), int(match.group(2)))] = ({
	'desc': match.group(3)
	})
	else:
	info_map = {((int(line['bus']), int(line['device']))): line
	for line in _GetParsedLSUSBOutput()}

	tree = {}
	bus_num = -1
	for line in _GetUSBDevicesOutput().splitlines():
	match = _T_LINE_REGEX.match(line)
	if match:
	bus_num = int(match.group('bus'))
	parent_num = int(match.group('prnt'))
	# usb-devices starts counting ports from 0, so add 1
	port_num = int(match.group('port')) + 1
	device_num = int(match.group('dev'))

	# create new bus if necessary
	if bus_num not in tree:
	tree[bus_num] = USBBusNode(bus_num=bus_num)

	# create the new device
	new_device = USBDeviceNode(
	bus_num=bus_num,
	device_num=device_num,
	info=info_map.get((bus_num, device_num), {'desc': 'NOT AVAILABLE'}))

	# add device to bus
	if parent_num != 0:
	tree[bus_num].FindDeviceNumber(parent_num).AddChild(
	port_num, new_device)
	else:
	tree[bus_num].AddChild(port_num, new_device)

	match = _S_LINE_REGEX.match(line)
	if match:
	if bus_num == -1:
	raise ValueError('S line appears before T line in input file')
	# put the serial number in the device
	tree[bus_num].FindDeviceNumber(device_num).serial = match.group('serial')

	return tree


	def GetHubsOnBus(bus, hub_types):
	"""Scans for all hubs on a bus of given hub types.

	Args:
	bus: [USBNode] Bus object.
	hub_types: [iterable(usb_hubs.HubType)] Possible types of hubs.

	Yields:
	Sequence of tuples representing (hub, type of hub)
	"""
	for device in bus.AllNodes():
	for hub_type in hub_types:
	if hub_type.IsType(device):
	yield (device, hub_type)


	def GetPhysicalPortToNodeMap(hub, hub_type):
	"""Gets physical-port:node mapping for a given hub.
	Args:
	hub: [USBNode] Hub to get map for.
	hub_type: [usb_hubs.HubType] Which type of hub it is.

	Returns:
	Dict of {physical port: node}
	"""
	port_device = hub_type.GetPhysicalPortToNodeTuples(hub)
	return {port: device for (port, device) in port_device}


	def GetPhysicalPortToBusDeviceMap(hub, hub_type):
	"""Gets physical-port:(bus#, device#) mapping for a given hub.
	Args:
	hub: [USBNode] Hub to get map for.
	hub_type: [usb_hubs.HubType] Which type of hub it is.

	Returns:
	Dict of {physical port: (bus number, device number)}
	"""
	port_device = hub_type.GetPhysicalPortToNodeTuples(hub)
	return {
	port: (device.bus_num, device.device_num)
	for (port, device) in port_device
	}


	def GetPhysicalPortToSerialMap(hub, hub_type):
	"""Gets physical-port:serial# mapping for a given hub.

	Args:
	hub: [USBNode] Hub to get map for.
	hub_type: [usb_hubs.HubType] Which type of hub it is.

	Returns:
	Dict of {physical port: serial number)}
	"""
	port_device = hub_type.GetPhysicalPortToNodeTuples(hub)
	return {
	port: device.serial
	for (port, device) in port_device if device.serial
	}


	def GetPhysicalPortToTTYMap(device, hub_type):
	"""Gets physical-port:tty-string mapping for a given hub.
	Args:
	hub: [USBNode] Hub to get map for.
	hub_type: [usb_hubs.HubType] Which type of hub it is.

	Returns:
	Dict of {physical port: tty-string)}
	"""
	port_device = hub_type.GetPhysicalPortToNodeTuples(device)
	bus_device_to_tty = GetBusDeviceToTTYMap()
	return {
	port: bus_device_to_tty[(device.bus_num, device.device_num)]
	for (port, device) in port_device
	if (device.bus_num, device.device_num) in bus_device_to_tty
	}


	def CollectHubMaps(hub_types, map_func, device_tree_map=None, fast=False):
	"""Runs a function on all hubs in the system and collects their output.

	Args:
	hub_types: [usb_hubs.HubType] List of possible hub types.
	map_func: [string] Function to run on each hub.
	device_tree: Previously constructed device tree map, if any.
	fast: Whether to construct device tree fast, if not already provided

	Yields:
	Sequence of dicts of {physical port: device} where the type of
	device depends on the ident keyword. Each dict is a separate hub.
	"""
	if device_tree_map is None:
	device_tree_map = GetBusNumberToDeviceTreeMap(fast=fast)
	for bus in device_tree_map.values():
	for (hub, hub_type) in GetHubsOnBus(bus, hub_types):
	yield map_func(hub, hub_type)


	def GetAllPhysicalPortToNodeMaps(hub_types, **kwargs):
	return CollectHubMaps(hub_types, GetPhysicalPortToNodeMap, **kwargs)


	def GetAllPhysicalPortToBusDeviceMaps(hub_types, **kwargs):
	return CollectHubMaps(hub_types, GetPhysicalPortToBusDeviceMap, **kwargs)


	def GetAllPhysicalPortToSerialMaps(hub_types, **kwargs):
	return CollectHubMaps(hub_types, GetPhysicalPortToSerialMap, **kwargs)


	def GetAllPhysicalPortToTTYMaps(hub_types, **kwargs):
	return CollectHubMaps(hub_types, GetPhysicalPortToTTYMap, **kwargs)


	_BUS_NUM_REGEX = re.compile(r'.ATTRS{busnum}=="(\d)".*')
	_DEVICE_NUM_REGEX = re.compile(r'.ATTRS{devnum}=="(\d)".*')


	def GetBusDeviceFromTTY(tty_string):
	"""Gets bus and device number connected to a ttyUSB port.

	Args:
	tty_string: [String] Identifier for ttyUSB (e.g. 'ttyUSB0')

	Returns:
	Tuple (bus, device) giving device connected to that ttyUSB.

	Raises:
	ValueError: If bus and device information could not be found.
	"""
	bus_num = None
	device_num = None
	# Expected output of GetCmdOutput should be something like:
	# looking at device /devices/something/.../.../...
	# KERNELS="ttyUSB0"
	# SUBSYSTEMS=...
	# DRIVERS=...
	# ATTRS{foo}=...
	# ATTRS{bar}=...
	# ...
	for line in _GetTtyUSBInfo(tty_string).splitlines():
	bus_match = _BUS_NUM_REGEX.match(line)
	device_match = _DEVICE_NUM_REGEX.match(line)
	if bus_match and bus_num is None:
	bus_num = int(bus_match.group(1))
	if device_match and device_num is None:
	device_num = int(device_match.group(1))
	if bus_num is None or device_num is None:
	raise ValueError('Info not found')
	return (bus_num, device_num)


	def GetBusDeviceToTTYMap():
	"""Gets all mappings from (bus, device) to ttyUSB string.

	Gets mapping from (bus, device) to ttyUSB string (e.g. 'ttyUSB0'),
	for all ttyUSB strings currently active.

	Returns:
	[dict] Dict that maps (bus, device) to ttyUSB string
	"""
	result = {}
	for tty in GetTTYList():
	result[GetBusDeviceFromTTY(tty)] = tty
	return result


	# This dictionary described the mapping between physical and
	# virtual ports on a Plugable 7-Port Hub (model USB2-HUB7BC).
	# Keys are the virtual ports, values are the physical port.
	# The entry 4:{1:4, 2:3, 3:2, 4:1} indicates that virtual port
	# 4 connects to another 'virtual' hub that itself has the
	# virtual-to-physical port mapping {1:4, 2:3, 3:2, 4:1}.


	def TestUSBTopologyScript():
	"""Test display and hub identification."""
	# The following makes logger.info behave pretty much like print
	# during this test script.
	logging.basicConfig(format='%(message)s', stream=sys.stdout)
	logger.setLevel(logging.INFO)

	# Identification criteria for Plugable 7-Port Hub
	logger.info('==== USB TOPOLOGY SCRIPT TEST ====')
	logger.info('')

	# Display devices
	logger.info('==== DEVICE DISPLAY ====')
	device_trees = GetBusNumberToDeviceTreeMap()
	for device_tree in device_trees.values():
	device_tree.Display()
	logger.info('')

	# Display TTY information about devices plugged into hubs.
	logger.info('==== TTY INFORMATION ====')
	for port_map in GetAllPhysicalPortToTTYMaps(
	usb_hubs.ALL_HUBS, device_tree_map=device_trees):
	logger.info('%s', port_map)
	logger.info('')

	# Display serial number information about devices plugged into hubs.
	logger.info('==== SERIAL NUMBER INFORMATION ====')
	for port_map in GetAllPhysicalPortToSerialMaps(
	usb_hubs.ALL_HUBS, device_tree_map=device_trees):
	logger.info('%s', port_map)

	return 0


	def parse_options(argv):
	"""Parses and checks the command-line options.

	Returns:
	A tuple containing the options structure and a list of categories to
	be traced.
	"""
	USAGE = '''./find_usb_devices [--help]
	This script shows the mapping between USB devices and port numbers.
	Clients are not intended to call this script from the command line.
	Clients are intended to call the functions in this script directly.
	For instance, GetAllPhysicalPortToSerialMaps(...)
	Running this script with --help will display this message.
	Running this script without --help will display information about
	devices attached, TTY mapping, and serial number mapping,
	for testing purposes. See design document for API documentation.
	'''
	parser = argparse.ArgumentParser(usage=USAGE)
	return parser.parse_args(argv[1:])


	def main():
	parse_options(sys.argv)
	TestUSBTopologyScript()


	if __name__ == "__main__":
	sys.exit(main())