src/bluetooth_test.py - platform/test/vts-testcase/nbu - Git at Google

 """Bluetooth tests."""


 from mobly import asserts
 from mobly import test_runner
 from mobly import utils
 from utils import android_base_test

 # Number of seconds for the target to stay discoverable on Bluetooth.
 DISCOVERABLE_TIME = 180
 # Random DATA to represent device bluetooth name.
 DEVICE_NAME = utils.rand_ascii_str(8)
 # UUID value for RfComm connection
 RFCOMM_UUID = 'fa87c0d0-afac-11de-8a39-0800200c9a66'


 def DiscoverBluetoothDeviceByName(device, name):
   """Start a bluetooth scan and find the device that has the bluetooth name.

   Args:
     device: AndroidDevice. Device to start bluetooth scan.
     name: the bluetooth name looking for.

   Returns:
     Dict represents a bluetooth device if found.
   """
   discovered_devices = device.android.btDiscoverAndGetResults()
   for device in discovered_devices:
     if name == device['Name']:
       device_discovered = device
       return device_discovered
   asserts.fail('Failed to discover the target device %s over Bluetooth.' % name)


 class BluetoothTest(android_base_test.AndroidBaseTest):
   """Bluetooth tests."""

   def setup_class(self):
     super(BluetoothTest, self).setup_class()
     self.initiator = self.dut_a
     # Sets the tag that represents this device in logs.
     self.initiator.debug_tag = 'initiator'
     # The device that is expected to be discovered and receive messages.
     self.receiver = self.dut_b
     self.receiver.debug_tag = 'receiver'

   def setup_test(self):
     # Make sure bluetooth is on.
     self.initiator.android.btEnable()
     self.receiver.android.btEnable()
     # Set Bluetooth name on target device.
     self.receiver.android.btSetName(DEVICE_NAME)

   def test_bluetooth_process(self):
     """Test for basic bluetooth rfcomm process flow.

     Steps:
       1. Receiver becomes discoverable.
       2. Initiator discovers receiver via bluetooth.
       3. Initiator connects to receiver via rfcomm profile.
       4. Initiator sends a message to receiver and receiver receives the exact
       message.

     Verifies:
       Receiver receives the correct message.
     """
     # Name value for RfComm connection
     rfcomm_name = utils.rand_ascii_str(8)
     self.receiver.connection_callback = (
         self.receiver.android.btRfcommStartServer(rfcomm_name, RFCOMM_UUID))
     self.receiver.log.info('Start Rfcomm server with name: %s uuid: %s' %
                            (rfcomm_name, RFCOMM_UUID))
     target_name = self.receiver.android.btGetName()
     self.receiver.log.info('Become discoverable with name "%s" for %ds.',
                            target_name, DISCOVERABLE_TIME)
     self.receiver.android.btBecomeDiscoverable(DISCOVERABLE_TIME)
     self.initiator.log.info('Looking for Bluetooth devices.')
     discovered_device = DiscoverBluetoothDeviceByName(
         self.initiator, target_name)
     self.initiator.log.info('Target device is found. Device: %s'
                             % discovered_device)
     remote_address = discovered_device['Address']
     self.initiator.android.btRfcommConnect(remote_address, RFCOMM_UUID)
     self.receiver.connection_callback.waitAndGet('onAccepted', 30)
     # self.initiator.connection_callback.waitAndGet('onConnected', 30)
     self.initiator.log.info('Connection established')
     # Random data to be sent through bluetooth rfcomm.
     data = utils.rand_ascii_str(8)
     self.receiver.read_callback = self.receiver.android.btRfcommRead()
     self.initiator.android.btRfcommWrite(data)
     read_result = self.receiver.read_callback.waitAndGet('onDataAvailable', 30)
     asserts.assert_equal(read_result.data['Data'], data)
     self.receiver.log.info('Received correct message from the other side')
     self.initiator.android.btRfcommDisconnect()
     self.receiver.android.btRfcommStopServer()

   def teardown_test(self):
     # Turn Bluetooth off on both devices after test finishes.
     self.receiver.android.btDisable()
     self.initiator.android.btDisable()


 if __name__ == '__main__':
   test_runner.main()
	"""Bluetooth tests."""



	from mobly import asserts
	from mobly import test_runner
	from mobly import utils
	from utils import android_base_test

	# Number of seconds for the target to stay discoverable on Bluetooth.
	DISCOVERABLE_TIME = 180
	# Random DATA to represent device bluetooth name.
	DEVICE_NAME = utils.rand_ascii_str(8)
	# UUID value for RfComm connection
	RFCOMM_UUID = 'fa87c0d0-afac-11de-8a39-0800200c9a66'


	def DiscoverBluetoothDeviceByName(device, name):
	"""Start a bluetooth scan and find the device that has the bluetooth name.

	Args:
	device: AndroidDevice. Device to start bluetooth scan.
	name: the bluetooth name looking for.

	Returns:
	Dict represents a bluetooth device if found.
	"""
	discovered_devices = device.android.btDiscoverAndGetResults()
	for device in discovered_devices:
	if name == device['Name']:
	device_discovered = device
	return device_discovered
	asserts.fail('Failed to discover the target device %s over Bluetooth.' % name)


	class BluetoothTest(android_base_test.AndroidBaseTest):
	"""Bluetooth tests."""

	def setup_class(self):
	super(BluetoothTest, self).setup_class()
	self.initiator = self.dut_a
	# Sets the tag that represents this device in logs.
	self.initiator.debug_tag = 'initiator'
	# The device that is expected to be discovered and receive messages.
	self.receiver = self.dut_b
	self.receiver.debug_tag = 'receiver'

	def setup_test(self):
	# Make sure bluetooth is on.
	self.initiator.android.btEnable()
	self.receiver.android.btEnable()
	# Set Bluetooth name on target device.
	self.receiver.android.btSetName(DEVICE_NAME)

	def test_bluetooth_process(self):
	"""Test for basic bluetooth rfcomm process flow.

	Steps:
	1. Receiver becomes discoverable.
	2. Initiator discovers receiver via bluetooth.
	3. Initiator connects to receiver via rfcomm profile.
	4. Initiator sends a message to receiver and receiver receives the exact
	message.

	Verifies:
	Receiver receives the correct message.
	"""
	# Name value for RfComm connection
	rfcomm_name = utils.rand_ascii_str(8)
	self.receiver.connection_callback = (
	self.receiver.android.btRfcommStartServer(rfcomm_name, RFCOMM_UUID))
	self.receiver.log.info('Start Rfcomm server with name: %s uuid: %s' %
	(rfcomm_name, RFCOMM_UUID))
	target_name = self.receiver.android.btGetName()
	self.receiver.log.info('Become discoverable with name "%s" for %ds.',
	target_name, DISCOVERABLE_TIME)
	self.receiver.android.btBecomeDiscoverable(DISCOVERABLE_TIME)
	self.initiator.log.info('Looking for Bluetooth devices.')
	discovered_device = DiscoverBluetoothDeviceByName(
	self.initiator, target_name)
	self.initiator.log.info('Target device is found. Device: %s'
	% discovered_device)
	remote_address = discovered_device['Address']
	self.initiator.android.btRfcommConnect(remote_address, RFCOMM_UUID)
	self.receiver.connection_callback.waitAndGet('onAccepted', 30)
	# self.initiator.connection_callback.waitAndGet('onConnected', 30)
	self.initiator.log.info('Connection established')
	# Random data to be sent through bluetooth rfcomm.
	data = utils.rand_ascii_str(8)
	self.receiver.read_callback = self.receiver.android.btRfcommRead()
	self.initiator.android.btRfcommWrite(data)
	read_result = self.receiver.read_callback.waitAndGet('onDataAvailable', 30)
	asserts.assert_equal(read_result.data['Data'], data)
	self.receiver.log.info('Received correct message from the other side')
	self.initiator.android.btRfcommDisconnect()
	self.receiver.android.btRfcommStopServer()

	def teardown_test(self):
	# Turn Bluetooth off on both devices after test finishes.
	self.receiver.android.btDisable()
	self.initiator.android.btDisable()


	if __name__ == '__main__':
	test_runner.main()