class TestEndToEnd(unittest.TestCase):
def setUp(self):
print(self.id().split('.')[-1]) # test name
self.vlab = Vlab(working_directory=setting.dir, print_uart=True)
self.vlab.load(setting.fw_bin)
self.uart = self.vlab.uart
self.vlab.run_for_ms(500)
print('Virtual device is running')
def tearDown(self):
self.vlab.stop()
def push_button(self):
print('Button on')
self.vlab.BUTTON1.on()
self.vlab.run_for_ms(60)
print('Button off')
self.vlab.BUTTON1.off()
self.vlab.run_for_ms(200)
'''
Black Box Test
Set temperature, click a button and verify that the same temperature was printed to UART
'''
def test_2_Black_Box(self):
for i in range(3):
self.push_button()
line = self.uart.read()
match = re.search('(Temperature: )(\d{2})', line)
temp_uart = int(match.group(2))
self.assertTrue(20 <= temp_uart <= 40)
class TestDebouncer(unittest.TestCase):
def setUp(self):
# set up the device simulation
self.v = Vlab(working_directory=".",
print_uart=True,
token="demo-token-for-ci")
self.v.load("BUILD/STM32_Button_Debounce.bin")
self.v.on_pin_level_event(self.pin_listener)
# running for a while to get the BSP done
self.v.run_for_ms(10)
self.is_led_on = False
self.times_pressed = 0
def tearDown(self):
self.v.stop()
def pin_listener(self, pin_number, pin_level):
if pin_number == 5 and pin_level == 1:
self.is_led_on = True
self.times_pressed = self.times_pressed + 1
def test_debouncer(self):
self.v.UserButton.on()
self.v.run_for_ms(10)
self.v.UserButton.off()
self.v.run_for_ms(10)
self.v.UserButton.on()
self.v.run_for_ms(10)
self.v.UserButton.off()
self.v.run_for_ms(10)
self.v.UserButton.on()
self.v.UserButton.off()
self.v.run_for_ms(280)
self.assertEqual(self.is_led_on, True)
self.assertEqual(self.times_pressed, 1)
class TestBma280(unittest.TestCase):
def setUp(self):
self.vlab = Vlab(working_directory=dir, print_uart=True)
self.vlab.load(fw_bin)
self.uart = self.vlab.uart
# self.vlab.run_for_ms(500)
self.vlab.start()
print('Virtual device is running')
def tearDown(self):
self.vlab.stop()
def test_should_recognize_low_g(self):
self.vlab.BMA280Device.set_interrupt('low_g')
self.vlab.run_for_ms(1000)
self.assertRegexpMatches(
self.uart.read(), "Firmware recognized bma280 interrupt: low_g")
def test_should_recognize_orient_xy(self):
self.vlab.BMA280Device.set_interrupt('orient_xy')
self.vlab.run_for_ms(1000)
self.assertRegexpMatches(
self.uart.read(),
"Firmware recognized bma280 interrupt: orient_xy")
def test_should_recognize_slope_x(self):
self.vlab.BMA280Device.set_interrupt('slope_x')
self.vlab.run_for_ms(1000)
self.assertRegexpMatches(
self.uart.read(), "Firmware recognized bma280 interrupt: slope_x")
class TestAppButton(unittest.TestCase):
def pins_listener(self, pin_number, pin_level):
if pin_number == 17 and pin_level == 0:
self.is_led_on = True
def setUp(self):
self.vlab = Vlab(working_directory=dir)
self.vlab.load(fw_bin)
self.vlab.on_pin_level_event(self.pins_listener)
self.vlab.run_for_ms(500)
print('Virtual device is running')
self.is_led_on = False
def tearDown(self):
self.vlab.stop()
def test_should_ignore_button_noise(self):
self.vlab.BUTTON1.on()
self.vlab.run_for_ms(1)
self.vlab.BUTTON1.off()
self.vlab.run_for_ms(500)
self.assertFalse(self.is_led_on)
def test_led_should_turn_on_on_button_push(self):
self.vlab.BUTTON1.on()
self.vlab.run_for_ms(60)
self.vlab.BUTTON1.off()
self.vlab.run_for_ms(500)
self.assertTrue(self.is_led_on)
class TestEndToEnd(unittest.TestCase):
def setUp(self):
print(self.id().split('.')[-1])
tcp_server_dir = os.path.join(here, '..', 'tcp-server')
self.gateway_process = subprocess.Popen(
['python', 'aws-temprature.py'], cwd=tcp_server_dir)
sleep(2)
self.vlab = Vlab(working_directory=setting.dir, print_uart=True)
self.vlab.load(setting.fw_bin_aws)
self.uart = self.vlab.uart
self.vlab.run_for_ms(500)
print('Virtual device is running')
def tearDown(self):
self.vlab.stop()
self.gateway_process.terminate()
self.gateway_process.wait()
def push_button(self):
print('Button on')
self.vlab.BUTTON1.on()
self.vlab.run_for_ms(60)
print('Button off')
self.vlab.BUTTON1.off()
self.vlab.run_for_ms(1000)
def read_from_aws(self):
response = client.get_thing_shadow(thingName='my_temp_sensor')
streaming_body = response["payload"]
raw_data_bytes = streaming_body.read()
raw_data_string = raw_data_bytes.decode('utf-8') # Python 3.x specific
json_state = json.loads(raw_data_string)
return json_state['state']['desired']['temprature']
'''
Integration Test
Set temperature, click a button and verify that the shadow device on AWS was updated with the same temperature
'''
def test_3_Integration_Test(self):
for i in range(3):
self.push_button()
match = re.search('(Temperature: )(\d{2})', self.uart.read())
temp_uart = int(match.group(2))
success = False
temp_aws = 0
for j in range(60):
try:
temp_aws = int(self.read_from_aws())
print('Temperature from aws: ' + str(temp_aws))
success = temp_uart == temp_aws
if success:
break
except Exception as e:
pass
sleep(1)
self.assertTrue(20 <= temp_aws <= 40)
self.assertTrue(success)
class TestClass(unittest.TestCase):
_FAIL = False
_PASS = True
def setUp(self):
##########################
# change these arguments #
##########################
self.fw = 'BUILD/STM32_Button_Debounce.elf' # TODO: YOUR FW HERE
self.timeout = 10000
self.timeout_result = self._FAIL
self.uart_test = True
self.uart_test_value = 'mBed boot done'
self.uart_test_result = self._PASS
self.gpio_test = False
self.gpio_test_pin = None
self.gpio_test_value = None
self.gpio_test_result = None
self._is_pass = False
# set up the device simulation
self.v = Vlab(working_directory=".",
print_uart=True,
token="demo-token-for-ci")
self.v.load(self.fw)
self.v.on_pin_level_event(self.pin_listener)
# running for a while to get the BSP done
self.v.start(0)
self.uart_data = ''
self._condition_found = False
self.v.stop_after_ms(self.timeout)
self.v.resume()
def tearDown(self):
self.v.stop()
def pin_listener(self, pin_number, pin_level):
if self.gpio_test and self.gpio_test_pin == pin_number and self.gpio_test_value == pin_level:
self._is_pass = True if self.gpio_test_result == self._PASS else False
self._condition_found = True
def read_from_uart(self):
self.uart_data += self.v.uart.read()
if self.uart_test and self.uart_test_value in self.uart_data:
self._is_pass = True if self.uart_test_result == self._PASS else False
self._condition_found = True
def test_debouncer(self):
while self.v.get_state() == 'running' and not self._condition_found:
self.read_from_uart()
sleep(0.1)
self.assertEqual(self._is_pass, True)
class TestAppButton(unittest.TestCase):
def setUp(self):
print(self.id().split('.')[-1]) # test name
self.vlab = Vlab(working_directory=dir)
self.vlab.load(fw_bin)
self.vlab.on_pin_level_event(self.pins_listener)
self.vlab.run_for_ms(500)
print('Virtual device is running')
self.is_led_on = False
def pins_listener(self, pin_number, pin_level):
if pin_number == 17 and pin_level == 0:
self.is_led_on = True
def tearDown(self):
self.vlab.stop()
def print_device_time(self):
print('Device time: ' + str(self.vlab.get_device_time_ms()) + ' ms')
def test_led_should_turn_on_on_button_push(self):
self.print_device_time()
print('Button on')
self.vlab.BUTTON1.on()
self.vlab.run_for_ms(60)
self.print_device_time()
print('Button off')
self.vlab.BUTTON1.off()
self.vlab.run_for_ms(500)
# in this case we are going to poll for the pin level
self.assertEqual(self.vlab.get_pin_level(17), 0)
def test_should_ignore_button_noise(self):
self.print_device_time()
print('Button on')
self.vlab.BUTTON1.on()
self.vlab.run_for_ms(1)
self.print_device_time()
print('Button off')
self.vlab.BUTTON1.off()
self.vlab.run_for_ms(500)
self.assertFalse(self.is_led_on)
class TestCLI(unittest.TestCase):
def setUp(self):
self.vlab = Vlab(working_directory=dir, print_uart=True)
self.vlab.load(fw_bin)
self.uart = self.vlab.uart
self.vlab.start()
print('Virtual device is running')
def tearDown(self):
self.vlab.stop()
def test_cli(self):
self.vlab.uart.write(b'log\r\n')
self.vlab.uart.wait_until_uart_receives(b'status :Logger status',
500)
self.vlab.uart.write(b'python\r\n')
self.vlab.uart.wait_until_uart_receives(b'Nice joke ;)', 500)
self.vlab.uart.write(b'history\r\n')
self.vlab.uart.wait_until_uart_receives(b'[ 2] history', 500)
class TestBq24160(unittest.TestCase):
def setUp(self):
self.vlab = Vlab(working_directory=dir)
self.vlab.load(fw_bin)
self.uart = self.vlab.uart
self.vlab.run_for_ms(500)
self.vlab.on_pin_level_event(self.pins_listener)
print('Virtual device is running')
self.success = False
self.need_to_be_on = False
self.pin_number_should_toggle = 6
def pins_listener(self, pin_number, pin_level):
if self.pin_number_should_toggle == pin_number:
self.success = True
def tearDown(self):
self.vlab.stop()
def test_should_raise_interrupt_bq24160(self):
print("raise watchdog interrupt")
self.pin_number_should_toggle = 3
self.success = False
self.vlab.bq24160.interrupt(
self.vlab.bq24160.WATCHDOG_EXPIRATION_INTERRUPT)
self.vlab.run_for_ms(0.5)
self.assertTrue(self.success)
self.pin_number_should_toggle = 7
self.success = False
self.vlab.run_for_ms(1.2)
self.assertTrue(self.success)
def test_should_charge_discharge_bq24160(self):
print("charge usb")
self.pin_number_should_toggle = 6
self.success = False
self.vlab.bq24160.charge("usb")
self.vlab.run_for_ms(500)
self.assertTrue(self.success)
self.assertRegexpMatches(self.uart.read(), "Charging from usb")
self.pin_number_should_toggle = 8
self.success = False
print("discharge")
self.vlab.bq24160.discharge()
self.vlab.run_for_ms(500)
self.assertTrue(self.success)
self.assertRegexpMatches(self.uart.read(), "Stopped charging")
self.pin_number_should_toggle = 5
self.success = False
print("charge in")
self.success = False
self.vlab.bq24160.charge("in")
self.vlab.run_for_ms(500)
self.assertTrue(self.success)
self.assertRegexpMatches(self.uart.read(), "Charging from in")
self.pin_number_should_toggle = 8
self.success = False
print("discharge")
self.vlab.bq24160.discharge()
self.vlab.run_for_ms(500)
self.assertTrue(self.success)
self.assertRegexpMatches(self.uart.read(), "Stopped charging")
dir = os.path.dirname(os.path.abspath(__file__))
fw_bin = os.path.join(dir, 'pca10040', 'blank', 'armgcc', '_build', 'nrf52832_xxaa.bin')
vlab = Vlab(working_directory=dir, print_uart=False)
vlab.load(fw_bin)
vlab.run_for_ms(500)
vlab.resume()
print('Virtual device is running')
print('Reading chip ID from register {}'.format(hex(CHIP_ID_REGISTER)))
chip_id = vlab.BME280.get_register_value(CHIP_ID_REGISTER)
print('Chip id is: {}'.format(hex(chip_id)))
chip_id = 0xFF
print('Setting chip ID to {}'.format(hex(chip_id)))
vlab.BME280.set_register_value(CHIP_ID_REGISTER, chip_id)
print('Reading chip ID from register {}'.format(hex(CHIP_ID_REGISTER)))
chip_id = vlab.BME280.get_register_value(CHIP_ID_REGISTER)
print('Chip id is: {}'.format(hex(chip_id)))
vlab.pause()
for i in range(10):
temperature_lsb = vlab.BME280.get_register_value(TEMP_LSB_REGISTER)
temperature_msb = vlab.BME280.get_register_value(TEMP_MSB_REGISTER)
temperature = (temperature_msb << 1) | temperature_lsb
print('Raw data in temperature register is: {}'.format(temperature))
vlab.run_for_ms(1000)
vlab.stop()
#!/usr/bin/python2
from jumper.vlab import Vlab
# set up the device simulation
v = Vlab(working_directory=".", print_uart=True, platform="nrf52832")
v.load("build/zephyr/zephyr.bin")
v.run_for_ms(500)
v.BUTTON1.on()
v.run_for_ms(500)
v.BUTTON1.off()
v.run_for_ms(500)
v.stop()