Module meshtastic.tests.test_util
Meshtastic unit tests for util.py
Expand source code
"""Meshtastic unit tests for util.py"""
import re
import logging
from unittest.mock import patch
import pytest
from meshtastic.util import (fixme, stripnl, pskToString, our_exit,
support_info, genPSK256, fromStr, fromPSK,
quoteBooleans, catchAndIgnore,
remove_keys_from_dict, Timeout, hexstr,
ipstr, readnet_u16, findPorts, convert_mac_addr,
snake_to_camel, camel_to_snake, eliminate_duplicate_port,
is_windows11, active_ports_on_supported_devices)
from meshtastic.supported_device import SupportedDevice
@pytest.mark.unit
def test_genPSK256():
"""Test genPSK256"""
assert genPSK256() != ''
@pytest.mark.unit
def test_fromStr():
"""Test fromStr"""
assert fromStr('') == b''
assert fromStr('0x12') == b'\x12'
assert fromStr('t')
assert fromStr('T')
assert fromStr('true')
assert fromStr('True')
assert fromStr('yes')
assert fromStr('Yes')
assert fromStr('f') is False
assert fromStr('F') is False
assert fromStr('false') is False
assert fromStr('False') is False
assert fromStr('no') is False
assert fromStr('No') is False
assert fromStr('100.01') == 100.01
assert fromStr('123') == 123
assert fromStr('abc') == 'abc'
assert fromStr('123456789') == 123456789
@pytest.mark.unitslow
def test_quoteBooleans():
"""Test quoteBooleans"""
assert quoteBooleans('') == ''
assert quoteBooleans('foo') == 'foo'
assert quoteBooleans('true') == 'true'
assert quoteBooleans('false') == 'false'
assert quoteBooleans(': true') == ": 'true'"
assert quoteBooleans(': false') == ": 'false'"
@pytest.mark.unit
def test_fromPSK():
"""Test fromPSK"""
assert fromPSK('random') != ''
assert fromPSK('none') == b'\x00'
assert fromPSK('default') == b'\x01'
assert fromPSK('simple22') == b'\x17'
assert fromPSK('trash') == 'trash'
@pytest.mark.unit
def test_stripnl():
"""Test stripnl"""
assert stripnl('') == ''
assert stripnl('a\n') == 'a'
assert stripnl(' a \n ') == 'a'
assert stripnl('a\nb') == 'a b'
@pytest.mark.unit
def test_pskToString_empty_string():
"""Test pskToString empty string"""
assert pskToString('') == 'unencrypted'
@pytest.mark.unit
def test_pskToString_string():
"""Test pskToString string"""
assert pskToString('hunter123') == 'secret'
@pytest.mark.unit
def test_pskToString_one_byte_zero_value():
"""Test pskToString one byte that is value of 0"""
assert pskToString(bytes([0x00])) == 'unencrypted'
@pytest.mark.unitslow
def test_pskToString_one_byte_non_zero_value():
"""Test pskToString one byte that is non-zero"""
assert pskToString(bytes([0x01])) == 'default'
@pytest.mark.unitslow
def test_pskToString_many_bytes():
"""Test pskToString many bytes"""
assert pskToString(bytes([0x02, 0x01])) == 'secret'
@pytest.mark.unit
def test_pskToString_simple():
"""Test pskToString simple"""
assert pskToString(bytes([0x03])) == 'simple2'
@pytest.mark.unitslow
def test_our_exit_zero_return_value(capsys):
"""Test our_exit with a zero return value"""
with pytest.raises(SystemExit) as pytest_wrapped_e:
our_exit("Warning: Some message", 0)
out, err = capsys.readouterr()
assert re.search(r'Warning: Some message', out, re.MULTILINE)
assert err == ''
assert pytest_wrapped_e.type == SystemExit
assert pytest_wrapped_e.value.code == 0
@pytest.mark.unitslow
def test_our_exit_non_zero_return_value(capsys):
"""Test our_exit with a non-zero return value"""
with pytest.raises(SystemExit) as pytest_wrapped_e:
our_exit("Error: Some message", 1)
out, err = capsys.readouterr()
assert re.search(r'Error: Some message', out, re.MULTILINE)
assert err == ''
assert pytest_wrapped_e.type == SystemExit
assert pytest_wrapped_e.value.code == 1
@pytest.mark.unitslow
def test_fixme():
"""Test fixme()"""
with pytest.raises(Exception) as pytest_wrapped_e:
fixme("some exception")
assert pytest_wrapped_e.type == Exception
@pytest.mark.unit
def test_support_info(capsys):
"""Test support_info"""
support_info()
out, err = capsys.readouterr()
assert re.search(r'System', out, re.MULTILINE)
assert re.search(r'Platform', out, re.MULTILINE)
assert re.search(r'Machine', out, re.MULTILINE)
assert re.search(r'Executable', out, re.MULTILINE)
assert err == ''
@pytest.mark.unit
def test_catchAndIgnore(caplog):
"""Test catchAndIgnore() does not actually throw an exception, but just logs"""
def some_closure():
raise Exception('foo')
with caplog.at_level(logging.DEBUG):
catchAndIgnore("something", some_closure)
assert re.search(r'Exception thrown in something', caplog.text, re.MULTILINE)
@pytest.mark.unitslow
def test_remove_keys_from_dict_empty_keys_empty_dict():
"""Test when keys and dict both are empty"""
assert not remove_keys_from_dict((), {})
@pytest.mark.unitslow
def test_remove_keys_from_dict_empty_dict():
"""Test when dict is empty"""
assert not remove_keys_from_dict(('a'), {})
@pytest.mark.unit
def test_remove_keys_from_dict_empty_keys():
"""Test when keys is empty"""
assert remove_keys_from_dict((), {'a':1}) == {'a':1}
@pytest.mark.unitslow
def test_remove_keys_from_dict():
"""Test remove_keys_from_dict()"""
assert remove_keys_from_dict(('b'), {'a':1, 'b':2}) == {'a':1}
@pytest.mark.unitslow
def test_remove_keys_from_dict_multiple_keys():
"""Test remove_keys_from_dict()"""
keys = ('a', 'b')
adict = {'a': 1, 'b': 2, 'c': 3}
assert remove_keys_from_dict(keys, adict) == {'c':3}
@pytest.mark.unit
def test_remove_keys_from_dict_nested():
"""Test remove_keys_from_dict()"""
keys = ('b')
adict = {'a': {'b': 1}, 'b': 2, 'c': 3}
exp = {'a': {}, 'c': 3}
assert remove_keys_from_dict(keys, adict) == exp
@pytest.mark.unitslow
def test_Timeout_not_found():
"""Test Timeout()"""
to = Timeout(0.2)
attrs = ('foo')
to.waitForSet('bar', attrs)
@pytest.mark.unitslow
def test_Timeout_found():
"""Test Timeout()"""
to = Timeout(0.2)
attrs = ()
to.waitForSet('bar', attrs)
@pytest.mark.unitslow
def test_hexstr():
"""Test hexstr()"""
assert hexstr(b'123') == '31:32:33'
assert hexstr(b'') == ''
@pytest.mark.unitslow
def test_ipstr():
"""Test ipstr()"""
assert ipstr(b'1234') == '49.50.51.52'
assert ipstr(b'') == ''
@pytest.mark.unitslow
def test_readnet_u16():
"""Test readnet_u16()"""
assert readnet_u16(b'123456', 2) == 13108
@pytest.mark.unitslow
@patch('serial.tools.list_ports.comports', return_value=[])
def test_findPorts_when_none_found(patch_comports):
"""Test findPorts()"""
assert not findPorts()
patch_comports.assert_called()
@pytest.mark.unitslow
@patch('serial.tools.list_ports.comports')
def test_findPorts_when_duplicate_found_and_duplicate_option_used(patch_comports):
"""Test findPorts()"""
class TempPort:
""" temp class for port"""
def __init__(self, device=None, vid=None):
self.device = device
self.vid = vid
fake1 = TempPort('/dev/cu.usbserial-1430', vid='fake1')
fake2 = TempPort('/dev/cu.wchusbserial1430', vid='fake2')
patch_comports.return_value = [fake1, fake2]
assert findPorts(eliminate_duplicates=True) == ['/dev/cu.wchusbserial1430']
patch_comports.assert_called()
@pytest.mark.unitslow
@patch('serial.tools.list_ports.comports')
def test_findPorts_when_duplicate_found_and_duplicate_option_used_ports_reversed(patch_comports):
"""Test findPorts()"""
class TempPort:
""" temp class for port"""
def __init__(self, device=None, vid=None):
self.device = device
self.vid = vid
fake1 = TempPort('/dev/cu.usbserial-1430', vid='fake1')
fake2 = TempPort('/dev/cu.wchusbserial1430', vid='fake2')
patch_comports.return_value = [fake2, fake1]
assert findPorts(eliminate_duplicates=True) == ['/dev/cu.wchusbserial1430']
patch_comports.assert_called()
@pytest.mark.unitslow
@patch('serial.tools.list_ports.comports')
def test_findPorts_when_duplicate_found_and_duplicate_option_not_used(patch_comports):
"""Test findPorts()"""
class TempPort:
""" temp class for port"""
def __init__(self, device=None, vid=None):
self.device = device
self.vid = vid
fake1 = TempPort('/dev/cu.usbserial-1430', vid='fake1')
fake2 = TempPort('/dev/cu.wchusbserial1430', vid='fake2')
patch_comports.return_value = [fake1, fake2]
assert findPorts() == ['/dev/cu.usbserial-1430', '/dev/cu.wchusbserial1430']
patch_comports.assert_called()
@pytest.mark.unitslow
def test_convert_mac_addr():
"""Test convert_mac_addr()"""
assert convert_mac_addr('/c0gFyhb') == 'fd:cd:20:17:28:5b'
assert convert_mac_addr('fd:cd:20:17:28:5b') == 'fd:cd:20:17:28:5b'
assert convert_mac_addr('') == ''
@pytest.mark.unit
def test_snake_to_camel():
"""Test snake_to_camel"""
assert snake_to_camel('') == ''
assert snake_to_camel('foo') == 'foo'
assert snake_to_camel('foo_bar') == 'fooBar'
assert snake_to_camel('fooBar') == 'fooBar'
@pytest.mark.unit
def test_camel_to_snake():
"""Test camel_to_snake"""
assert camel_to_snake('') == ''
assert camel_to_snake('foo') == 'foo'
assert camel_to_snake('Foo') == 'foo'
assert camel_to_snake('fooBar') == 'foo_bar'
assert camel_to_snake('fooBarBaz') == 'foo_bar_baz'
@pytest.mark.unit
def test_eliminate_duplicate_port():
"""Test eliminate_duplicate_port()"""
assert not eliminate_duplicate_port([])
assert eliminate_duplicate_port(['/dev/fake']) == ['/dev/fake']
assert eliminate_duplicate_port(['/dev/fake', '/dev/fake1']) == ['/dev/fake', '/dev/fake1']
assert eliminate_duplicate_port(['/dev/fake', '/dev/fake1', '/dev/fake2']) == ['/dev/fake', '/dev/fake1', '/dev/fake2']
assert eliminate_duplicate_port(['/dev/cu.usbserial-1430', '/dev/cu.wchusbserial1430']) == ['/dev/cu.wchusbserial1430']
assert eliminate_duplicate_port(['/dev/cu.wchusbserial1430', '/dev/cu.usbserial-1430']) == ['/dev/cu.wchusbserial1430']
assert eliminate_duplicate_port(['/dev/cu.SLAB_USBtoUART', '/dev/cu.usbserial-0001']) == ['/dev/cu.usbserial-0001']
assert eliminate_duplicate_port(['/dev/cu.usbserial-0001', '/dev/cu.SLAB_USBtoUART']) == ['/dev/cu.usbserial-0001']
assert eliminate_duplicate_port(['/dev/cu.usbmodem11301', '/dev/cu.wchusbserial11301']) == ['/dev/cu.wchusbserial11301']
assert eliminate_duplicate_port(['/dev/cu.wchusbserial11301', '/dev/cu.usbmodem11301']) == ['/dev/cu.wchusbserial11301']
assert eliminate_duplicate_port(['/dev/cu.usbmodem53230051441', '/dev/cu.wchusbserial53230051441']) == ['/dev/cu.wchusbserial53230051441']
assert eliminate_duplicate_port(['/dev/cu.wchusbserial53230051441', '/dev/cu.usbmodem53230051441']) == ['/dev/cu.wchusbserial53230051441']
@patch('platform.version', return_value='10.0.22000.194')
@patch('platform.release', return_value='10')
@patch('platform.system', return_value='Windows')
def test_is_windows11_true(patched_platform, patched_release, patched_version):
"""Test is_windows11()"""
assert is_windows11() is True
patched_platform.assert_called()
patched_release.assert_called()
patched_version.assert_called()
@patch('platform.version', return_value='10.0.a2200.foo') # made up
@patch('platform.release', return_value='10')
@patch('platform.system', return_value='Windows')
def test_is_windows11_true2(patched_platform, patched_release, patched_version):
"""Test is_windows11()"""
assert is_windows11() is False
patched_platform.assert_called()
patched_release.assert_called()
patched_version.assert_called()
@patch('platform.version', return_value='10.0.17763') # windows 10 home
@patch('platform.release', return_value='10')
@patch('platform.system', return_value='Windows')
def test_is_windows11_false(patched_platform, patched_release, patched_version):
"""Test is_windows11()"""
assert is_windows11() is False
patched_platform.assert_called()
patched_release.assert_called()
patched_version.assert_called()
@patch('platform.release', return_value='8.1')
@patch('platform.system', return_value='Windows')
def test_is_windows11_false_win8_1(patched_platform, patched_release):
"""Test is_windows11()"""
assert is_windows11() is False
patched_platform.assert_called()
patched_release.assert_called()
@pytest.mark.unit
@patch('platform.system', return_value='Linux')
def test_active_ports_on_supported_devices_empty(mock_platform):
"""Test active_ports_on_supported_devices()"""
sds = set()
assert active_ports_on_supported_devices(sds) == set()
mock_platform.assert_called()
@pytest.mark.unit
@patch('subprocess.getstatusoutput')
@patch('platform.system', return_value='Linux')
def test_active_ports_on_supported_devices_linux(mock_platform, mock_sp):
"""Test active_ports_on_supported_devices()"""
mock_sp.return_value = (None, 'crw-rw-rw- 1 root wheel 0x9000000 Feb 8 22:22 /dev/ttyUSBfake')
fake_device = SupportedDevice(name='a', for_firmware='heltec-v2.1', baseport_on_linux='ttyUSB')
fake_supported_devices = [fake_device]
assert active_ports_on_supported_devices(fake_supported_devices) == {'/dev/ttyUSBfake'}
mock_platform.assert_called()
mock_sp.assert_called()
@pytest.mark.unit
@patch('subprocess.getstatusoutput')
@patch('platform.system', return_value='Darwin')
def test_active_ports_on_supported_devices_mac(mock_platform, mock_sp):
"""Test active_ports_on_supported_devices()"""
mock_sp.return_value = (None, 'crw-rw-rw- 1 root wheel 0x9000000 Feb 8 22:22 /dev/cu.usbserial-foo')
fake_device = SupportedDevice(name='a', for_firmware='heltec-v2.1', baseport_on_linux='cu.usbserial-')
fake_supported_devices = [fake_device]
assert active_ports_on_supported_devices(fake_supported_devices) == {'/dev/cu.usbserial-foo'}
mock_platform.assert_called()
mock_sp.assert_called()
@pytest.mark.unit
@patch('meshtastic.util.detect_windows_port', return_value={'COM2'})
@patch('platform.system', return_value='Windows')
def test_active_ports_on_supported_devices_win(mock_platform, mock_dwp):
"""Test active_ports_on_supported_devices()"""
fake_device = SupportedDevice(name='a', for_firmware='heltec-v2.1')
fake_supported_devices = [fake_device]
assert active_ports_on_supported_devices(fake_supported_devices) == {'COM2'}
mock_platform.assert_called()
mock_dwp.assert_called()
@pytest.mark.unit
@patch('subprocess.getstatusoutput')
@patch('platform.system', return_value='Darwin')
def test_active_ports_on_supported_devices_mac_no_duplicates_check(mock_platform, mock_sp):
"""Test active_ports_on_supported_devices()"""
mock_sp.return_value = (None, ('crw-rw-rw- 1 root wheel 0x9000005 Mar 8 10:05 /dev/cu.usbmodem53230051441\n'
'crw-rw-rw- 1 root wheel 0x9000003 Mar 8 10:06 /dev/cu.wchusbserial53230051441'))
fake_device = SupportedDevice(name='a', for_firmware='tbeam', baseport_on_mac='cu.usbmodem')
fake_supported_devices = [fake_device]
assert active_ports_on_supported_devices(fake_supported_devices, False) == {'/dev/cu.usbmodem53230051441', '/dev/cu.wchusbserial53230051441'}
mock_platform.assert_called()
mock_sp.assert_called()
@pytest.mark.unit
@patch('subprocess.getstatusoutput')
@patch('platform.system', return_value='Darwin')
def test_active_ports_on_supported_devices_mac_duplicates_check(mock_platform, mock_sp):
"""Test active_ports_on_supported_devices()"""
mock_sp.return_value = (None, ('crw-rw-rw- 1 root wheel 0x9000005 Mar 8 10:05 /dev/cu.usbmodem53230051441\n'
'crw-rw-rw- 1 root wheel 0x9000003 Mar 8 10:06 /dev/cu.wchusbserial53230051441'))
fake_device = SupportedDevice(name='a', for_firmware='tbeam', baseport_on_mac='cu.usbmodem')
fake_supported_devices = [fake_device]
assert active_ports_on_supported_devices(fake_supported_devices, True) == {'/dev/cu.wchusbserial53230051441'}
mock_platform.assert_called()
mock_sp.assert_called()
Functions
def test_Timeout_found()
-
Test Timeout()
Expand source code
@pytest.mark.unitslow def test_Timeout_found(): """Test Timeout()""" to = Timeout(0.2) attrs = () to.waitForSet('bar', attrs)
def test_Timeout_not_found()
-
Test Timeout()
Expand source code
@pytest.mark.unitslow def test_Timeout_not_found(): """Test Timeout()""" to = Timeout(0.2) attrs = ('foo') to.waitForSet('bar', attrs)
def test_active_ports_on_supported_devices_empty(mock_platform)
-
Test active_ports_on_supported_devices()
Expand source code
@pytest.mark.unit @patch('platform.system', return_value='Linux') def test_active_ports_on_supported_devices_empty(mock_platform): """Test active_ports_on_supported_devices()""" sds = set() assert active_ports_on_supported_devices(sds) == set() mock_platform.assert_called()
def test_active_ports_on_supported_devices_linux(mock_platform, mock_sp)
-
Test active_ports_on_supported_devices()
Expand source code
@pytest.mark.unit @patch('subprocess.getstatusoutput') @patch('platform.system', return_value='Linux') def test_active_ports_on_supported_devices_linux(mock_platform, mock_sp): """Test active_ports_on_supported_devices()""" mock_sp.return_value = (None, 'crw-rw-rw- 1 root wheel 0x9000000 Feb 8 22:22 /dev/ttyUSBfake') fake_device = SupportedDevice(name='a', for_firmware='heltec-v2.1', baseport_on_linux='ttyUSB') fake_supported_devices = [fake_device] assert active_ports_on_supported_devices(fake_supported_devices) == {'/dev/ttyUSBfake'} mock_platform.assert_called() mock_sp.assert_called()
def test_active_ports_on_supported_devices_mac(mock_platform, mock_sp)
-
Test active_ports_on_supported_devices()
Expand source code
@pytest.mark.unit @patch('subprocess.getstatusoutput') @patch('platform.system', return_value='Darwin') def test_active_ports_on_supported_devices_mac(mock_platform, mock_sp): """Test active_ports_on_supported_devices()""" mock_sp.return_value = (None, 'crw-rw-rw- 1 root wheel 0x9000000 Feb 8 22:22 /dev/cu.usbserial-foo') fake_device = SupportedDevice(name='a', for_firmware='heltec-v2.1', baseport_on_linux='cu.usbserial-') fake_supported_devices = [fake_device] assert active_ports_on_supported_devices(fake_supported_devices) == {'/dev/cu.usbserial-foo'} mock_platform.assert_called() mock_sp.assert_called()
def test_active_ports_on_supported_devices_mac_duplicates_check(mock_platform, mock_sp)
-
Test active_ports_on_supported_devices()
Expand source code
@pytest.mark.unit @patch('subprocess.getstatusoutput') @patch('platform.system', return_value='Darwin') def test_active_ports_on_supported_devices_mac_duplicates_check(mock_platform, mock_sp): """Test active_ports_on_supported_devices()""" mock_sp.return_value = (None, ('crw-rw-rw- 1 root wheel 0x9000005 Mar 8 10:05 /dev/cu.usbmodem53230051441\n' 'crw-rw-rw- 1 root wheel 0x9000003 Mar 8 10:06 /dev/cu.wchusbserial53230051441')) fake_device = SupportedDevice(name='a', for_firmware='tbeam', baseport_on_mac='cu.usbmodem') fake_supported_devices = [fake_device] assert active_ports_on_supported_devices(fake_supported_devices, True) == {'/dev/cu.wchusbserial53230051441'} mock_platform.assert_called() mock_sp.assert_called()
def test_active_ports_on_supported_devices_mac_no_duplicates_check(mock_platform, mock_sp)
-
Test active_ports_on_supported_devices()
Expand source code
@pytest.mark.unit @patch('subprocess.getstatusoutput') @patch('platform.system', return_value='Darwin') def test_active_ports_on_supported_devices_mac_no_duplicates_check(mock_platform, mock_sp): """Test active_ports_on_supported_devices()""" mock_sp.return_value = (None, ('crw-rw-rw- 1 root wheel 0x9000005 Mar 8 10:05 /dev/cu.usbmodem53230051441\n' 'crw-rw-rw- 1 root wheel 0x9000003 Mar 8 10:06 /dev/cu.wchusbserial53230051441')) fake_device = SupportedDevice(name='a', for_firmware='tbeam', baseport_on_mac='cu.usbmodem') fake_supported_devices = [fake_device] assert active_ports_on_supported_devices(fake_supported_devices, False) == {'/dev/cu.usbmodem53230051441', '/dev/cu.wchusbserial53230051441'} mock_platform.assert_called() mock_sp.assert_called()
def test_active_ports_on_supported_devices_win(mock_platform, mock_dwp)
-
Test active_ports_on_supported_devices()
Expand source code
@pytest.mark.unit @patch('meshtastic.util.detect_windows_port', return_value={'COM2'}) @patch('platform.system', return_value='Windows') def test_active_ports_on_supported_devices_win(mock_platform, mock_dwp): """Test active_ports_on_supported_devices()""" fake_device = SupportedDevice(name='a', for_firmware='heltec-v2.1') fake_supported_devices = [fake_device] assert active_ports_on_supported_devices(fake_supported_devices) == {'COM2'} mock_platform.assert_called() mock_dwp.assert_called()
def test_camel_to_snake()
-
Test camel_to_snake
Expand source code
@pytest.mark.unit def test_camel_to_snake(): """Test camel_to_snake""" assert camel_to_snake('') == '' assert camel_to_snake('foo') == 'foo' assert camel_to_snake('Foo') == 'foo' assert camel_to_snake('fooBar') == 'foo_bar' assert camel_to_snake('fooBarBaz') == 'foo_bar_baz'
def test_catchAndIgnore(caplog)
-
Test catchAndIgnore() does not actually throw an exception, but just logs
Expand source code
@pytest.mark.unit def test_catchAndIgnore(caplog): """Test catchAndIgnore() does not actually throw an exception, but just logs""" def some_closure(): raise Exception('foo') with caplog.at_level(logging.DEBUG): catchAndIgnore("something", some_closure) assert re.search(r'Exception thrown in something', caplog.text, re.MULTILINE)
def test_convert_mac_addr()
-
Test convert_mac_addr()
Expand source code
@pytest.mark.unitslow def test_convert_mac_addr(): """Test convert_mac_addr()""" assert convert_mac_addr('/c0gFyhb') == 'fd:cd:20:17:28:5b' assert convert_mac_addr('fd:cd:20:17:28:5b') == 'fd:cd:20:17:28:5b' assert convert_mac_addr('') == ''
def test_eliminate_duplicate_port()
-
Test eliminate_duplicate_port()
Expand source code
@pytest.mark.unit def test_eliminate_duplicate_port(): """Test eliminate_duplicate_port()""" assert not eliminate_duplicate_port([]) assert eliminate_duplicate_port(['/dev/fake']) == ['/dev/fake'] assert eliminate_duplicate_port(['/dev/fake', '/dev/fake1']) == ['/dev/fake', '/dev/fake1'] assert eliminate_duplicate_port(['/dev/fake', '/dev/fake1', '/dev/fake2']) == ['/dev/fake', '/dev/fake1', '/dev/fake2'] assert eliminate_duplicate_port(['/dev/cu.usbserial-1430', '/dev/cu.wchusbserial1430']) == ['/dev/cu.wchusbserial1430'] assert eliminate_duplicate_port(['/dev/cu.wchusbserial1430', '/dev/cu.usbserial-1430']) == ['/dev/cu.wchusbserial1430'] assert eliminate_duplicate_port(['/dev/cu.SLAB_USBtoUART', '/dev/cu.usbserial-0001']) == ['/dev/cu.usbserial-0001'] assert eliminate_duplicate_port(['/dev/cu.usbserial-0001', '/dev/cu.SLAB_USBtoUART']) == ['/dev/cu.usbserial-0001'] assert eliminate_duplicate_port(['/dev/cu.usbmodem11301', '/dev/cu.wchusbserial11301']) == ['/dev/cu.wchusbserial11301'] assert eliminate_duplicate_port(['/dev/cu.wchusbserial11301', '/dev/cu.usbmodem11301']) == ['/dev/cu.wchusbserial11301'] assert eliminate_duplicate_port(['/dev/cu.usbmodem53230051441', '/dev/cu.wchusbserial53230051441']) == ['/dev/cu.wchusbserial53230051441'] assert eliminate_duplicate_port(['/dev/cu.wchusbserial53230051441', '/dev/cu.usbmodem53230051441']) == ['/dev/cu.wchusbserial53230051441']
def test_findPorts_when_duplicate_found_and_duplicate_option_not_used(patch_comports)
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Test findPorts()
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@pytest.mark.unitslow @patch('serial.tools.list_ports.comports') def test_findPorts_when_duplicate_found_and_duplicate_option_not_used(patch_comports): """Test findPorts()""" class TempPort: """ temp class for port""" def __init__(self, device=None, vid=None): self.device = device self.vid = vid fake1 = TempPort('/dev/cu.usbserial-1430', vid='fake1') fake2 = TempPort('/dev/cu.wchusbserial1430', vid='fake2') patch_comports.return_value = [fake1, fake2] assert findPorts() == ['/dev/cu.usbserial-1430', '/dev/cu.wchusbserial1430'] patch_comports.assert_called()
def test_findPorts_when_duplicate_found_and_duplicate_option_used(patch_comports)
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Test findPorts()
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@pytest.mark.unitslow @patch('serial.tools.list_ports.comports') def test_findPorts_when_duplicate_found_and_duplicate_option_used(patch_comports): """Test findPorts()""" class TempPort: """ temp class for port""" def __init__(self, device=None, vid=None): self.device = device self.vid = vid fake1 = TempPort('/dev/cu.usbserial-1430', vid='fake1') fake2 = TempPort('/dev/cu.wchusbserial1430', vid='fake2') patch_comports.return_value = [fake1, fake2] assert findPorts(eliminate_duplicates=True) == ['/dev/cu.wchusbserial1430'] patch_comports.assert_called()
def test_findPorts_when_duplicate_found_and_duplicate_option_used_ports_reversed(patch_comports)
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Test findPorts()
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@pytest.mark.unitslow @patch('serial.tools.list_ports.comports') def test_findPorts_when_duplicate_found_and_duplicate_option_used_ports_reversed(patch_comports): """Test findPorts()""" class TempPort: """ temp class for port""" def __init__(self, device=None, vid=None): self.device = device self.vid = vid fake1 = TempPort('/dev/cu.usbserial-1430', vid='fake1') fake2 = TempPort('/dev/cu.wchusbserial1430', vid='fake2') patch_comports.return_value = [fake2, fake1] assert findPorts(eliminate_duplicates=True) == ['/dev/cu.wchusbserial1430'] patch_comports.assert_called()
def test_findPorts_when_none_found(patch_comports)
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Test findPorts()
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@pytest.mark.unitslow @patch('serial.tools.list_ports.comports', return_value=[]) def test_findPorts_when_none_found(patch_comports): """Test findPorts()""" assert not findPorts() patch_comports.assert_called()
def test_fixme()
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Test fixme()
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@pytest.mark.unitslow def test_fixme(): """Test fixme()""" with pytest.raises(Exception) as pytest_wrapped_e: fixme("some exception") assert pytest_wrapped_e.type == Exception
def test_fromPSK()
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Test fromPSK
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@pytest.mark.unit def test_fromPSK(): """Test fromPSK""" assert fromPSK('random') != '' assert fromPSK('none') == b'\x00' assert fromPSK('default') == b'\x01' assert fromPSK('simple22') == b'\x17' assert fromPSK('trash') == 'trash'
def test_fromStr()
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Test fromStr
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@pytest.mark.unit def test_fromStr(): """Test fromStr""" assert fromStr('') == b'' assert fromStr('0x12') == b'\x12' assert fromStr('t') assert fromStr('T') assert fromStr('true') assert fromStr('True') assert fromStr('yes') assert fromStr('Yes') assert fromStr('f') is False assert fromStr('F') is False assert fromStr('false') is False assert fromStr('False') is False assert fromStr('no') is False assert fromStr('No') is False assert fromStr('100.01') == 100.01 assert fromStr('123') == 123 assert fromStr('abc') == 'abc' assert fromStr('123456789') == 123456789
def test_genPSK256()
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Test genPSK256
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@pytest.mark.unit def test_genPSK256(): """Test genPSK256""" assert genPSK256() != ''
def test_hexstr()
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Test hexstr()
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@pytest.mark.unitslow def test_hexstr(): """Test hexstr()""" assert hexstr(b'123') == '31:32:33' assert hexstr(b'') == ''
def test_ipstr()
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Test ipstr()
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@pytest.mark.unitslow def test_ipstr(): """Test ipstr()""" assert ipstr(b'1234') == '49.50.51.52' assert ipstr(b'') == ''
def test_is_windows11_false(patched_platform, patched_release, patched_version)
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Test is_windows11()
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@patch('platform.version', return_value='10.0.17763') # windows 10 home @patch('platform.release', return_value='10') @patch('platform.system', return_value='Windows') def test_is_windows11_false(patched_platform, patched_release, patched_version): """Test is_windows11()""" assert is_windows11() is False patched_platform.assert_called() patched_release.assert_called() patched_version.assert_called()
def test_is_windows11_false_win8_1(patched_platform, patched_release)
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Test is_windows11()
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@patch('platform.release', return_value='8.1') @patch('platform.system', return_value='Windows') def test_is_windows11_false_win8_1(patched_platform, patched_release): """Test is_windows11()""" assert is_windows11() is False patched_platform.assert_called() patched_release.assert_called()
def test_is_windows11_true(patched_platform, patched_release, patched_version)
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Test is_windows11()
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@patch('platform.version', return_value='10.0.22000.194') @patch('platform.release', return_value='10') @patch('platform.system', return_value='Windows') def test_is_windows11_true(patched_platform, patched_release, patched_version): """Test is_windows11()""" assert is_windows11() is True patched_platform.assert_called() patched_release.assert_called() patched_version.assert_called()
def test_is_windows11_true2(patched_platform, patched_release, patched_version)
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Test is_windows11()
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@patch('platform.version', return_value='10.0.a2200.foo') # made up @patch('platform.release', return_value='10') @patch('platform.system', return_value='Windows') def test_is_windows11_true2(patched_platform, patched_release, patched_version): """Test is_windows11()""" assert is_windows11() is False patched_platform.assert_called() patched_release.assert_called() patched_version.assert_called()
def test_our_exit_non_zero_return_value(capsys)
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Test our_exit with a non-zero return value
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@pytest.mark.unitslow def test_our_exit_non_zero_return_value(capsys): """Test our_exit with a non-zero return value""" with pytest.raises(SystemExit) as pytest_wrapped_e: our_exit("Error: Some message", 1) out, err = capsys.readouterr() assert re.search(r'Error: Some message', out, re.MULTILINE) assert err == '' assert pytest_wrapped_e.type == SystemExit assert pytest_wrapped_e.value.code == 1
def test_our_exit_zero_return_value(capsys)
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Test our_exit with a zero return value
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@pytest.mark.unitslow def test_our_exit_zero_return_value(capsys): """Test our_exit with a zero return value""" with pytest.raises(SystemExit) as pytest_wrapped_e: our_exit("Warning: Some message", 0) out, err = capsys.readouterr() assert re.search(r'Warning: Some message', out, re.MULTILINE) assert err == '' assert pytest_wrapped_e.type == SystemExit assert pytest_wrapped_e.value.code == 0
def test_pskToString_empty_string()
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Test pskToString empty string
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@pytest.mark.unit def test_pskToString_empty_string(): """Test pskToString empty string""" assert pskToString('') == 'unencrypted'
def test_pskToString_many_bytes()
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Test pskToString many bytes
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@pytest.mark.unitslow def test_pskToString_many_bytes(): """Test pskToString many bytes""" assert pskToString(bytes([0x02, 0x01])) == 'secret'
def test_pskToString_one_byte_non_zero_value()
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Test pskToString one byte that is non-zero
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@pytest.mark.unitslow def test_pskToString_one_byte_non_zero_value(): """Test pskToString one byte that is non-zero""" assert pskToString(bytes([0x01])) == 'default'
def test_pskToString_one_byte_zero_value()
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Test pskToString one byte that is value of 0
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@pytest.mark.unit def test_pskToString_one_byte_zero_value(): """Test pskToString one byte that is value of 0""" assert pskToString(bytes([0x00])) == 'unencrypted'
def test_pskToString_simple()
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Test pskToString simple
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@pytest.mark.unit def test_pskToString_simple(): """Test pskToString simple""" assert pskToString(bytes([0x03])) == 'simple2'
def test_pskToString_string()
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Test pskToString string
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@pytest.mark.unit def test_pskToString_string(): """Test pskToString string""" assert pskToString('hunter123') == 'secret'
def test_quoteBooleans()
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Test quoteBooleans
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@pytest.mark.unitslow def test_quoteBooleans(): """Test quoteBooleans""" assert quoteBooleans('') == '' assert quoteBooleans('foo') == 'foo' assert quoteBooleans('true') == 'true' assert quoteBooleans('false') == 'false' assert quoteBooleans(': true') == ": 'true'" assert quoteBooleans(': false') == ": 'false'"
def test_readnet_u16()
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Test readnet_u16()
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@pytest.mark.unitslow def test_readnet_u16(): """Test readnet_u16()""" assert readnet_u16(b'123456', 2) == 13108
def test_remove_keys_from_dict()
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Test remove_keys_from_dict()
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@pytest.mark.unitslow def test_remove_keys_from_dict(): """Test remove_keys_from_dict()""" assert remove_keys_from_dict(('b'), {'a':1, 'b':2}) == {'a':1}
def test_remove_keys_from_dict_empty_dict()
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Test when dict is empty
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@pytest.mark.unitslow def test_remove_keys_from_dict_empty_dict(): """Test when dict is empty""" assert not remove_keys_from_dict(('a'), {})
def test_remove_keys_from_dict_empty_keys()
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Test when keys is empty
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@pytest.mark.unit def test_remove_keys_from_dict_empty_keys(): """Test when keys is empty""" assert remove_keys_from_dict((), {'a':1}) == {'a':1}
def test_remove_keys_from_dict_empty_keys_empty_dict()
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Test when keys and dict both are empty
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@pytest.mark.unitslow def test_remove_keys_from_dict_empty_keys_empty_dict(): """Test when keys and dict both are empty""" assert not remove_keys_from_dict((), {})
def test_remove_keys_from_dict_multiple_keys()
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Test remove_keys_from_dict()
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@pytest.mark.unitslow def test_remove_keys_from_dict_multiple_keys(): """Test remove_keys_from_dict()""" keys = ('a', 'b') adict = {'a': 1, 'b': 2, 'c': 3} assert remove_keys_from_dict(keys, adict) == {'c':3}
def test_remove_keys_from_dict_nested()
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Test remove_keys_from_dict()
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@pytest.mark.unit def test_remove_keys_from_dict_nested(): """Test remove_keys_from_dict()""" keys = ('b') adict = {'a': {'b': 1}, 'b': 2, 'c': 3} exp = {'a': {}, 'c': 3} assert remove_keys_from_dict(keys, adict) == exp
def test_snake_to_camel()
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Test snake_to_camel
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@pytest.mark.unit def test_snake_to_camel(): """Test snake_to_camel""" assert snake_to_camel('') == '' assert snake_to_camel('foo') == 'foo' assert snake_to_camel('foo_bar') == 'fooBar' assert snake_to_camel('fooBar') == 'fooBar'
def test_stripnl()
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Test stripnl
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@pytest.mark.unit def test_stripnl(): """Test stripnl""" assert stripnl('') == '' assert stripnl('a\n') == 'a' assert stripnl(' a \n ') == 'a' assert stripnl('a\nb') == 'a b'
def test_support_info(capsys)
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Test support_info
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@pytest.mark.unit def test_support_info(capsys): """Test support_info""" support_info() out, err = capsys.readouterr() assert re.search(r'System', out, re.MULTILINE) assert re.search(r'Platform', out, re.MULTILINE) assert re.search(r'Machine', out, re.MULTILINE) assert re.search(r'Executable', out, re.MULTILINE) assert err == ''