Sideband_CE/sbapp/plyer/tests/test_battery.py

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2022-09-16 18:07:57 +02:00
'''
TestBattery
===========
Tested platforms:
* Windows
* Linux - upower, kernel sysclass
* macOS - ioreg
'''
import unittest
from io import BytesIO
from os.path import join
from textwrap import dedent
from mock import patch, Mock
from plyer.tests.common import PlatformTest, platform_import
class MockedKernelSysclass:
'''
Mocked object used instead of Linux's sysclass for power_supply
battery uevent.
'''
@property
def path(self):
'''
Mocked path to Linux kernel sysclass.
'''
return join('/sys', 'class', 'power_supply', 'BAT0')
@property
def charging(self):
'''
Mocked battery charging status.
'''
return u'Discharging'
@property
def percentage(self):
'''
Mocked battery charge percentage.
'''
return 89.0
@property
def full(self):
'''
Mocked full battery charge.
'''
return 4764000
@property
def now(self):
'''
Calculated current mocked battery charge.
'''
return self.percentage * self.full / 100.0
@property
def uevent(self):
'''
Mocked /sys/class/power_supply/BAT0 file.
'''
return BytesIO(dedent(b'''\
POWER_SUPPLY_NAME=BAT0
POWER_SUPPLY_STATUS={}
POWER_SUPPLY_PRESENT=1
POWER_SUPPLY_TECHNOLOGY=Li-ion
POWER_SUPPLY_CYCLE_COUNT=0
POWER_SUPPLY_VOLTAGE_MIN_DESIGN=10800000
POWER_SUPPLY_VOLTAGE_NOW=12074000
POWER_SUPPLY_CURRENT_NOW=1584000
POWER_SUPPLY_CHARGE_FULL_DESIGN=5800000
POWER_SUPPLY_CHARGE_FULL={}
POWER_SUPPLY_CHARGE_NOW={}
POWER_SUPPLY_CAPACITY={}
POWER_SUPPLY_CAPACITY_LEVEL=Normal
POWER_SUPPLY_MODEL_NAME=1005HA
POWER_SUPPLY_MANUFACTURER=ASUS
POWER_SUPPLY_SERIAL_NUMBER=0
'''.decode('utf-8').format(
self.charging, self.full,
self.now, int(self.percentage)
)).encode('utf-8'))
class MockedUPower:
'''
Mocked object used instead of 'upower' binary in the Linux specific API
plyer.platforms.linux.battery. The same output structure is tested for
the range of <min_version, max_version>.
.. note:: Extend the object with another data sample if it does not match.
'''
min_version = '0.99.4'
max_version = '0.99.4'
values = {
u'Device': u'/org/freedesktop/UPower/devices/battery_BAT0',
u'native-path': u'BAT0',
u'vendor': u'ASUS',
u'model': u'1005HA',
u'power supply': u'yes',
u'updated': u'Thu 05 Jul 2018 23:15:01 PM CEST',
u'has history': u'yes',
u'has statistics': u'yes',
u'battery': {
u'present': u'yes',
u'rechargeable': u'yes',
u'state': u'discharging',
u'warning-level': u'none',
u'energy': u'48,708 Wh',
u'energy-empty': u'0 Wh',
u'energy-full': u'54,216 Wh',
u'energy-full-design': u'62,64 Wh',
u'energy-rate': u'7,722 W',
u'voltage': u'11,916 V',
u'time to empty': u'6,3 hours',
u'percentage': u'89%',
u'capacity': u'86,5517%',
u'technology': u'lithium-ion',
u'icon-name': u"'battery-full-symbolic"
},
u'History (charge)': u'1530959637 89,000 discharging',
u'History (rate)': u'1530958556 7,474 discharging'
}
data = str(
' native-path: {native-path}\n'
' vendor: {vendor}\n'
' model: {model}\n'
' power supply: {power supply}\n'
' updated: {updated}\n'
' has history: {has history}\n'
' has statistics: {has statistics}\n'
' battery\n'
' present: {battery[present]}\n'
' rechargeable: {battery[rechargeable]}\n'
' state: {battery[state]}\n'
' warning-level: {battery[warning-level]}\n'
' energy: {battery[energy]}\n'
' energy-empty: {battery[energy-empty]}\n'
' energy-full: {battery[energy-full]}\n'
' energy-full-design: {battery[energy-full-design]}\n'
' energy-rate: {battery[energy-rate]}\n'
' voltage: {battery[voltage]}\n'
' time to empty: {battery[time to empty]}\n'
' percentage: {battery[percentage]}\n'
' capacity: {battery[capacity]}\n'
' technology: {battery[technology]}\n'
' icon-name: {battery[icon-name]}\n'
' History (charge):\n'
' {History (charge)}\n'
' History (rate):\n'
' {History (rate)}\n'
).format(**values).encode('utf-8')
# LinuxBattery calls decode()
def __init__(self, *args, **kwargs):
# only to ignore all args, kwargs
pass
@staticmethod
def communicate():
'''
Mock Popen.communicate, so that 'upower' isn't used.
'''
return (MockedUPower.data, )
@staticmethod
def whereis_exe(binary):
'''
Mock whereis_exe, so that it looks like
Linux UPower binary is present on the system.
'''
return binary == 'upower'
@staticmethod
def charging():
'''
Return charging bool from mocked data.
'''
return MockedUPower.values['battery']['state'] == 'charging'
@staticmethod
def percentage():
'''
Return percentage from mocked data.
'''
percentage = MockedUPower.values['battery']['percentage'][:-1]
return float(percentage.replace(',', '.'))
class MockedIOReg:
'''
Mocked object used instead of Apple's ioreg.
'''
values = {
"MaxCapacity": "5023",
"CurrentCapacity": "4222",
"IsCharging": "No"
}
output = dedent(
"""+-o AppleSmartBattery <class AppleSmartBattery,\
id 0x1000002c9, registered, matched, active, busy 0 (0 ms), retain 6>
{{
"TimeRemaining" = 585
"AvgTimeToEmpty" = 585
"InstantTimeToEmpty" = 761
"ExternalChargeCapable" = Yes
"FullPathUpdated" = 1541845134
"CellVoltage" = (4109,4118,4099,0)
"PermanentFailureStatus" = 0
"BatteryInvalidWakeSeconds" = 30
"AdapterInfo" = 0
"MaxCapacity" = {MaxCapacity}
"Voltage" = 12326
"DesignCycleCount70" = 13
"Manufacturer" = "SWD"
"Location" = 0
"CurrentCapacity" = {CurrentCapacity}
"LegacyBatteryInfo" = {{"Amperage"=18446744073709551183,"Flags"=4,\
"Capacity"=5023,"Current"=4222,"Voltage"=12326,"Cycle Count"=40}}
"FirmwareSerialNumber" = 1
"BatteryInstalled" = Yes
"PackReserve" = 117
"CycleCount" = 40
"DesignCapacity" = 5088
"OperationStatus" = 58435
"ManufactureDate" = 19700
"AvgTimeToFull" = 65535
"BatterySerialNumber" = "1234567890ABCDEFGH"
"BootPathUpdated" = 1541839734
"PostDischargeWaitSeconds" = 120
"Temperature" = 3038
"UserVisiblePathUpdated" = 1541845194
"InstantAmperage" = 18446744073709551249
"ManufacturerData" = <000000000>
"FullyCharged" = No
"MaxErr" = 1
"DeviceName" = "bq20z451"
"IOGeneralInterest" = "IOCommand is not serializable"
"Amperage" = 18446744073709551183
"IsCharging" = {IsCharging}
"DesignCycleCount9C" = 1000
"PostChargeWaitSeconds" = 120
"ExternalConnected" = No
}}"""
).format(**values).encode('utf-8')
def __init__(self, *args, **kwargs):
# only to ignore all args, kwargs
pass
@staticmethod
def communicate():
'''
Mock Popen.communicate, so that 'ioreg' isn't used.
'''
return (MockedIOReg.output, )
@staticmethod
def whereis_exe(binary):
'''
Mock whereis_exe, so that it looks like
macOS ioreg binary is present on the system.
'''
return binary == 'ioreg'
@staticmethod
def charging():
'''
Return charging bool from mocked data.
'''
return MockedIOReg.values['IsCharging'] == 'Yes'
@staticmethod
def percentage():
'''
Return percentage from mocked data.
'''
current_capacity = int(MockedIOReg.values['CurrentCapacity'])
max_capacity = int(MockedIOReg.values['MaxCapacity'])
percentage = 100.0 * current_capacity / max_capacity
return percentage
class TestBattery(unittest.TestCase):
'''
TestCase for plyer.battery.
'''
def test_battery_linux_upower(self):
'''
Test mocked Linux UPower for plyer.battery.
'''
battery = platform_import(
platform='linux',
module_name='battery',
whereis_exe=MockedUPower.whereis_exe
)
battery.Popen = MockedUPower
battery = battery.instance()
self.assertEqual(
battery.status, {
'isCharging': MockedUPower.charging(),
'percentage': MockedUPower.percentage()
}
)
def test_battery_linux_kernel(self):
'''
Test mocked Linux kernel sysclass for plyer.battery.
'''
def false(*args, **kwargs):
return False
sysclass = MockedKernelSysclass()
with patch(target='os.path.exists') as bat_path:
# first call to trigger exists() call
platform_import(
platform='linux',
module_name='battery',
whereis_exe=false
).instance()
bat_path.assert_called_once_with(sysclass.path)
# exists() checked with sysclass path
# set mock to proceed with this branch
bat_path.return_value = True
battery = platform_import(
platform='linux',
module_name='battery',
whereis_exe=false
).instance()
stub = Mock(return_value=sysclass.uevent)
target = 'builtins.open'
with patch(target=target, new=stub):
self.assertEqual(
battery.status, {
'isCharging': sysclass.charging == 'Charging',
'percentage': sysclass.percentage
}
)
@PlatformTest('win')
def test_battery_win(self):
'''
Test Windows API for plyer.battery.
'''
battery = platform_import(
platform='win',
module_name='battery'
).instance()
for key in ('isCharging', 'percentage'):
self.assertIn(key, battery.status)
self.assertIsNotNone(battery.status[key])
def test_battery_macosx(self):
'''
Test macOS IOReg for plyer.battery.
'''
battery = platform_import(
platform='macosx',
module_name='battery',
whereis_exe=MockedIOReg.whereis_exe
)
battery.Popen = MockedIOReg
self.assertIn('OSXBattery', dir(battery))
battery = battery.instance()
self.assertIn('OSXBattery', str(battery))
self.assertEqual(
battery.status, {
'isCharging': MockedIOReg.charging(),
'percentage': MockedIOReg.percentage()
}
)
def test_battery_macosx_instance(self):
'''
Test macOS instance for plyer.battery
'''
def no_exe(*args, **kwargs):
return
battery = platform_import(
platform='macosx',
module_name='battery',
whereis_exe=no_exe
)
battery = battery.instance()
self.assertNotIn('OSXBattery', str(battery))
self.assertIn('Battery', str(battery))
if __name__ == '__main__':
unittest.main()