src/python_testing/TC_EEVSE_2_2.py - third_party/github/project-chip/connectedhomeip - Git at Google

 #
 #    Copyright (c) 2023 Project CHIP Authors
 #    All rights reserved.
 #
 #    Licensed under the Apache License, Version 2.0 (the "License");
 #    you may not use this file except in compliance with the License.
 #    You may obtain a copy of the License at
 #
 #        http://www.apache.org/licenses/LICENSE-2.0
 #
 #    Unless required by applicable law or agreed to in writing, software
 #    distributed under the License is distributed on an "AS IS" BASIS,
 #    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 #    See the License for the specific language governing permissions and
 #    limitations under the License.


 import logging
 import time
 from datetime import datetime, timedelta, timezone

 import chip.clusters as Clusters
 from chip.clusters.Types import NullValue
 from matter_testing_support import EventChangeCallback, MatterBaseTest, TestStep, async_test_body, default_matter_test_main
 from mobly import asserts
 from TC_EEVSE_Utils import EEVSEBaseTestHelper

 logger = logging.getLogger(__name__)


 class TC_EEVSE_2_2(MatterBaseTest, EEVSEBaseTestHelper):

     def desc_TC_EEVSE_2_2(self) -> str:
         """Returns a description of this test"""
         return "5.1.3. [TC-EEVSE-2.2] Primary functionality with DUT as Server"

     def pics_TC_EEVSE_2_2(self):
         """ This function returns a list of PICS for this test case that must be True for the test to be run"""
         # In this case - there is no feature flags needed to run this test case
         return ["EEVSE.S"]

     def steps_TC_EEVSE_2_2(self) -> list[TestStep]:
         steps = [
             TestStep("1", "Commissioning, already done", is_commissioning=True),
             TestStep("2", "TH reads TestEventTriggersEnabled attribute from General Diagnostics Cluster. Verify that TestEventTriggersEnabled attribute has a value of 1 (True)"),
             TestStep("3", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for Basic Functionality Test Event"),
             TestStep("3a", "After a few seconds TH reads from the DUT the State attribute. Verify value is 0x00 (NotPluggedIn)"),
             TestStep("3b", "TH reads from the DUT the SupplyState attribute. Verify value is 0x00 (Disabled)"),
             TestStep("3c", "TH reads from the DUT the FaultState attribute. Verify value is 0x00 (NoError)"),
             TestStep("4", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Plugged-in Test Event. Verify Event EEVSE.S.E00(EVConnected) sent"),
             TestStep("4a", "TH reads from the DUT the State attribute. Verify value is 0x01 (PluggedInNoDemand)"),
             TestStep("4b", "TH reads from the DUT the SessionID attribute. Value is noted for later"),
             TestStep("5", "TH sends command EnableCharging with ChargingEnabledUntil=2 minutes in the future, minimumChargeCurrent=6000, maximumChargeCurrent=60000"),
             TestStep("6", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event. Verify Event EEVSE.S.E02(EnergyTransferStarted) sent."),
             TestStep("6a", "TH reads from the DUT the State attribute. Verify value is 0x3 (PluggedInCharging)"),
             TestStep("6b", "TH reads from the DUT the SupplyState attribute. Verify value is 0x1 (ChargingEnabled)"),
             TestStep("6c", "TH reads from the DUT the ChargingEnabledUntil attribute. Verify value is the commanded value"),
             TestStep("6d", "TH reads from the DUT the MinimumChargeCurrent attribute. Verify value is the commanded value (6000)"),
             TestStep("6e", "TH reads from the DUT the MaximumChargeCurrent attribute. Verify value is the min(command value (60000), CircuitCapacity)"),
             TestStep("7", "Wait 2 minutes. Verify Event EEVSE.S.E03(EnergyTransferStopped) sent with reason EvseStopped"),
             TestStep("7a", "TH reads from the DUT the State attribute. Verify value is 0x02 (PluggedInDemand)"),
             TestStep("7b", "TH reads from the DUT the SupplyState attribute. Verify value is 0x00 (Disabled)"),
             TestStep("8", "TH sends command EnableCharging with ChargingEnabledUntil=NULL, minimumChargeCurrent = 6000, maximumChargeCurrent=12000"),
             TestStep("8a", "TH reads from the DUT the State attribute. Verify value is 0x03 (PluggedInCharging)"),
             TestStep("8b", "TH reads from the DUT the SupplyState attribute. Verify value is 1 (ChargingEnabled)"),
             TestStep("8c", "TH reads from the DUT the ChargingEnabledUntil attribute. Verify value is the commanded value (NULL)"),
             TestStep("8d", "TH reads from the DUT the MinimumChargeCurrent attribute. Verify value is the commanded value (6000)"),
             TestStep("8e", "TH reads from the DUT the MaximumChargeCurrent attribute. Verify value is the MIN(command value (60000), CircuitCapacity)"),
             TestStep("9", "If the optional attribute is supported TH writes to the DUT UserMaximumChargeCurrent=6000"),
             TestStep("9a", "After a few seconds TH reads from the DUT the MaximumChargeCurrent. Verify value is UserMaximumChargeCurrent value (6000)"),
             TestStep("10", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event Clear. Verify Event EEVSE.S.E03(EnergyTransferStopped) sent with reason EvStopped"),
             TestStep("10a", "TH reads from the DUT the State attribute. Verify value is 0x01 (PluggedInNoDemand)"),
             TestStep("11", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event. Verify Event EEVSE.S.E02(EnergyTransferStarted) sent."),
             TestStep("11a", "TH reads from the DUT the State attribute. Verify value is 0x03 (PluggedInCharging)"),
             TestStep("12", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event Clear. Verify Event EEVSE.S.E03(EnergyTransferStopped) sent with reason EvStopped"),
             TestStep("12a", "TH reads from the DUT the State attribute. Verify value is 0x01 (PluggedInNoDemand)"),
             TestStep("13", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Plugged-in Test Event Clear. Verify Event EEVSE.S.E01(EVNotDetected) sent"),
             TestStep("13a", "TH reads from the DUT the State attribute. Verify value is 0x00 (NotPluggedIn)"),
             TestStep("13b", "TH reads from the DUT the SupplyState attribute. Verify value is 0x01 (ChargingEnabled)"),
             TestStep("13c", "TH reads from the DUT the SessionID attribute. Verify value is the same value noted in 4b"),
             TestStep("13d", "TH reads from the DUT the SessionDuration attribute. Verify value is greater than 120 (and match the time taken for the tests from step 4 to step 13)"),
             TestStep("14", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Plugged-in Test Event. Verify  Event EEVSE.S.E00(EVConnected) sent"),
             TestStep("14a", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event. Verify Event EEVSE.S.E02(EnergyTransferStarted) sent."),
             TestStep("14b", "TH reads from the DUT the SessionID attribute. Verify value is 1 more than the value noted in 4b"),
             TestStep("15", "TH sends command Disable. Verify Event EEVSE.S.E03(EnergyTransferStopped) sent with reason EvseStopped"),
             TestStep("15a", "TH reads from the DUT the SupplyState attribute. Verify value is 0x00 (Disabled)"),
             TestStep("16", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event Clear."),
             TestStep("17", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Plugged-in Test Event Clear. Verify Event EEVSE.S.E01(EVNotDetected) sent"),
             TestStep("18", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for Basic Functionality Test Event Clear."),
         ]

         return steps

     @async_test_body
     async def test_TC_EEVSE_2_2(self):

         self.step("1")
         # Commission DUT - already done

         # Subscribe to Events and when they are sent push them to a queue for checking later
         events_callback = EventChangeCallback(Clusters.EnergyEvse)
         await events_callback.start(self.default_controller,
                                     self.dut_node_id,
                                     self.matter_test_config.endpoint)

         self.step("2")
         await self.check_test_event_triggers_enabled()

         self.step("3")
         await self.send_test_event_trigger_basic()

         # After a few seconds...
         time.sleep(1)

         self.step("3a")
         await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kNotPluggedIn)

         self.step("3b")
         await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kDisabled)

         self.step("3c")
         await self.check_evse_attribute("FaultState", Clusters.EnergyEvse.Enums.FaultStateEnum.kNoError)

         self.step("4")
         await self.send_test_event_trigger_pluggedin()
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EVConnected)

         self.step("4a")
         await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInNoDemand)

         self.step("4b")
         # Save Session ID for later and check it against the value in the event
         session_id = await self.read_evse_attribute_expect_success(attribute="SessionID")
         self.validate_ev_connected_event(event_data, session_id)

         self.step("5")
         charging_duration = 5  # TODO test plan spec says 120s - reduced for now
         min_charge_current = 6000
         max_charge_current = 60000
         expected_state = Clusters.EnergyEvse.Enums.StateEnum.kPluggedInCharging
         # get epoch time for ChargeUntil variable (2 minutes from now)
         utc_time_charging_end = datetime.now(tz=timezone.utc) + timedelta(seconds=charging_duration)

         # Matter epoch is 0 hours, 0 minutes, 0 seconds on Jan 1, 2000 UTC
         epoch_time = int((utc_time_charging_end - datetime(2000, 1, 1, 0, 0, 0, 0, timezone.utc)).total_seconds())
         await self.send_enable_charge_command(endpoint=1, charge_until=epoch_time, min_charge=min_charge_current, max_charge=max_charge_current)

         self.step("6")
         await self.send_test_event_trigger_charge_demand()
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStarted)

         self.step("6a")
         await self.check_evse_attribute("State", expected_state)

         self.step("6b")
         await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kChargingEnabled)

         self.step("6c")
         await self.check_evse_attribute("ChargingEnabledUntil", epoch_time)

         self.step("6d")
         await self.check_evse_attribute("MinimumChargeCurrent", min_charge_current)

         self.step("6e")
         circuit_capacity = await self.read_evse_attribute_expect_success(attribute="CircuitCapacity")
         expected_max_charge = min(max_charge_current, circuit_capacity)
         await self.check_evse_attribute("MaximumChargeCurrent", expected_max_charge)

         self.validate_energy_transfer_started_event(event_data, session_id, expected_state, expected_max_charge)

         self.step("7")
         # Sleep for the charging duration plus a couple of seconds to check it has stopped
         time.sleep(charging_duration + 2)
         # check EnergyTransferredStoped (EvseStopped)
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStopped)
         expected_reason = Clusters.EnergyEvse.Enums.EnergyTransferStoppedReasonEnum.kEVSEStopped
         self.validate_energy_transfer_stopped_event(event_data, session_id, expected_state, expected_reason)

         self.step("7a")
         await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInDemand)

         self.step("7b")
         await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kDisabled)

         self.step("8")
         charge_until = NullValue
         min_charge_current = 6000
         max_charge_current = 12000

         await self.send_enable_charge_command(charge_until=charge_until, min_charge=min_charge_current, max_charge=max_charge_current)
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStarted)

         self.step("8a")
         await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInCharging)

         self.step("8b")
         await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kChargingEnabled)

         self.step("8c")
         await self.check_evse_attribute("ChargingEnabledUntil", charge_until)

         self.step("8d")
         await self.check_evse_attribute("MinimumChargeCurrent", min_charge_current)

         self.step("8e")
         circuit_capacity = await self.read_evse_attribute_expect_success(attribute="CircuitCapacity")
         expected_max_charge = min(max_charge_current, circuit_capacity)
         await self.check_evse_attribute("MaximumChargeCurrent", expected_max_charge)

         # from step 8 above - validate event
         self.validate_energy_transfer_started_event(event_data, session_id, expected_state, expected_max_charge)

         self.step("9")
         # This will only work if the optional UserMaximumChargeCurrent attribute is supported
         supported_attributes = await self.get_supported_energy_evse_attributes()
         if Clusters.EnergyEvse.Attributes.UserMaximumChargeCurrent.attribute_id in supported_attributes:
             logging.info("UserMaximumChargeCurrent is supported...")
             user_max_charge_current = 6000
             await self.write_user_max_charge(1, user_max_charge_current)

             self.step("9a")
             time.sleep(3)

             expected_max_charge = min(user_max_charge_current, circuit_capacity)
             await self.check_evse_attribute("MaximumChargeCurrent", expected_max_charge)
         else:
             logging.info("UserMaximumChargeCurrent is NOT supported... skipping.")

         self.step("10")
         await self.send_test_event_trigger_charge_demand_clear()
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStopped)
         expected_reason = Clusters.EnergyEvse.Enums.EnergyTransferStoppedReasonEnum.kEVStopped
         self.validate_energy_transfer_stopped_event(event_data, session_id, expected_state, expected_reason)

         self.step("10a")
         await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInNoDemand)

         self.step("11")
         await self.send_test_event_trigger_charge_demand()
         # Check we get EnergyTransferStarted again
         await self.send_enable_charge_command(charge_until=charge_until, min_charge=min_charge_current, max_charge=max_charge_current)
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStarted)
         self.validate_energy_transfer_started_event(event_data, session_id, expected_state, expected_max_charge)

         self.step("11a")
         await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInCharging)

         self.step("12")
         await self.send_test_event_trigger_charge_demand_clear()
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStopped)
         expected_reason = Clusters.EnergyEvse.Enums.EnergyTransferStoppedReasonEnum.kEVStopped
         self.validate_energy_transfer_stopped_event(event_data, session_id, expected_state, expected_reason)

         self.step("12a")
         await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInNoDemand)

         self.step("13")
         await self.send_test_event_trigger_pluggedin_clear()
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EVNotDetected)
         expected_state = Clusters.EnergyEvse.Enums.StateEnum.kPluggedInNoDemand
         self.validate_ev_not_detected_event(event_data, session_id, expected_state, expected_duration=0, expected_charged=0)

         self.step("13a")
         await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kNotPluggedIn)

         self.step("13b")
         await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kChargingEnabled)

         self.step("13c")
         await self.check_evse_attribute("SessionID", session_id)

         self.step("13d")
         session_duration = await self.read_evse_attribute_expect_success(attribute="SessionDuration")
         asserts.assert_greater_equal(session_duration, charging_duration,
                                      f"Unexpected 'SessionDuration' value - expected >= {charging_duration}, was {session_duration}")

         self.step("14")
         await self.send_test_event_trigger_pluggedin()
         # New plug in means session ID should increase by 1
         session_id = session_id + 1

         # Check we get a new EVConnected event with updated session ID
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EVConnected)
         self.validate_ev_connected_event(event_data, session_id)

         self.step("14a")
         await self.send_test_event_trigger_charge_demand()
         expected_state = Clusters.EnergyEvse.Enums.StateEnum.kPluggedInCharging  # This is the value at the event time
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStarted)
         self.validate_energy_transfer_started_event(event_data, session_id, expected_state, expected_max_charge)

         self.step("14b")
         await self.check_evse_attribute("SessionID", session_id)

         self.step("15")
         await self.send_disable_command()
         expected_state = Clusters.EnergyEvse.Enums.StateEnum.kPluggedInCharging  # This is the value prior to stopping
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStopped)
         expected_reason = Clusters.EnergyEvse.Enums.EnergyTransferStoppedReasonEnum.kEVSEStopped
         self.validate_energy_transfer_stopped_event(event_data, session_id, expected_state, expected_reason)

         self.step("15a")
         await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kDisabled)

         self.step("16")
         await self.send_test_event_trigger_charge_demand_clear()

         self.step("17")
         await self.send_test_event_trigger_pluggedin_clear()
         event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EVNotDetected)
         expected_state = Clusters.EnergyEvse.Enums.StateEnum.kPluggedInNoDemand
         self.validate_ev_not_detected_event(event_data, session_id, expected_state, expected_duration=0, expected_charged=0)

         self.step("18")
         await self.send_test_event_trigger_basic_clear()


 if __name__ == "__main__":
     default_matter_test_main()
	#
	# Copyright (c) 2023 Project CHIP Authors
	# All rights reserved.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.


	import logging
	import time
	from datetime import datetime, timedelta, timezone

	import chip.clusters as Clusters
	from chip.clusters.Types import NullValue
	from matter_testing_support import EventChangeCallback, MatterBaseTest, TestStep, async_test_body, default_matter_test_main
	from mobly import asserts
	from TC_EEVSE_Utils import EEVSEBaseTestHelper

	logger = logging.getLogger(__name__)


	class TC_EEVSE_2_2(MatterBaseTest, EEVSEBaseTestHelper):

	def desc_TC_EEVSE_2_2(self) -> str:
	"""Returns a description of this test"""
	return "5.1.3. [TC-EEVSE-2.2] Primary functionality with DUT as Server"

	def pics_TC_EEVSE_2_2(self):
	""" This function returns a list of PICS for this test case that must be True for the test to be run"""
	# In this case - there is no feature flags needed to run this test case
	return ["EEVSE.S"]

	def steps_TC_EEVSE_2_2(self) -> list[TestStep]:
	steps = [
	TestStep("1", "Commissioning, already done", is_commissioning=True),
	TestStep("2", "TH reads TestEventTriggersEnabled attribute from General Diagnostics Cluster. Verify that TestEventTriggersEnabled attribute has a value of 1 (True)"),
	TestStep("3", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for Basic Functionality Test Event"),
	TestStep("3a", "After a few seconds TH reads from the DUT the State attribute. Verify value is 0x00 (NotPluggedIn)"),
	TestStep("3b", "TH reads from the DUT the SupplyState attribute. Verify value is 0x00 (Disabled)"),
	TestStep("3c", "TH reads from the DUT the FaultState attribute. Verify value is 0x00 (NoError)"),
	TestStep("4", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Plugged-in Test Event. Verify Event EEVSE.S.E00(EVConnected) sent"),
	TestStep("4a", "TH reads from the DUT the State attribute. Verify value is 0x01 (PluggedInNoDemand)"),
	TestStep("4b", "TH reads from the DUT the SessionID attribute. Value is noted for later"),
	TestStep("5", "TH sends command EnableCharging with ChargingEnabledUntil=2 minutes in the future, minimumChargeCurrent=6000, maximumChargeCurrent=60000"),
	TestStep("6", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event. Verify Event EEVSE.S.E02(EnergyTransferStarted) sent."),
	TestStep("6a", "TH reads from the DUT the State attribute. Verify value is 0x3 (PluggedInCharging)"),
	TestStep("6b", "TH reads from the DUT the SupplyState attribute. Verify value is 0x1 (ChargingEnabled)"),
	TestStep("6c", "TH reads from the DUT the ChargingEnabledUntil attribute. Verify value is the commanded value"),
	TestStep("6d", "TH reads from the DUT the MinimumChargeCurrent attribute. Verify value is the commanded value (6000)"),
	TestStep("6e", "TH reads from the DUT the MaximumChargeCurrent attribute. Verify value is the min(command value (60000), CircuitCapacity)"),
	TestStep("7", "Wait 2 minutes. Verify Event EEVSE.S.E03(EnergyTransferStopped) sent with reason EvseStopped"),
	TestStep("7a", "TH reads from the DUT the State attribute. Verify value is 0x02 (PluggedInDemand)"),
	TestStep("7b", "TH reads from the DUT the SupplyState attribute. Verify value is 0x00 (Disabled)"),
	TestStep("8", "TH sends command EnableCharging with ChargingEnabledUntil=NULL, minimumChargeCurrent = 6000, maximumChargeCurrent=12000"),
	TestStep("8a", "TH reads from the DUT the State attribute. Verify value is 0x03 (PluggedInCharging)"),
	TestStep("8b", "TH reads from the DUT the SupplyState attribute. Verify value is 1 (ChargingEnabled)"),
	TestStep("8c", "TH reads from the DUT the ChargingEnabledUntil attribute. Verify value is the commanded value (NULL)"),
	TestStep("8d", "TH reads from the DUT the MinimumChargeCurrent attribute. Verify value is the commanded value (6000)"),
	TestStep("8e", "TH reads from the DUT the MaximumChargeCurrent attribute. Verify value is the MIN(command value (60000), CircuitCapacity)"),
	TestStep("9", "If the optional attribute is supported TH writes to the DUT UserMaximumChargeCurrent=6000"),
	TestStep("9a", "After a few seconds TH reads from the DUT the MaximumChargeCurrent. Verify value is UserMaximumChargeCurrent value (6000)"),
	TestStep("10", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event Clear. Verify Event EEVSE.S.E03(EnergyTransferStopped) sent with reason EvStopped"),
	TestStep("10a", "TH reads from the DUT the State attribute. Verify value is 0x01 (PluggedInNoDemand)"),
	TestStep("11", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event. Verify Event EEVSE.S.E02(EnergyTransferStarted) sent."),
	TestStep("11a", "TH reads from the DUT the State attribute. Verify value is 0x03 (PluggedInCharging)"),
	TestStep("12", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event Clear. Verify Event EEVSE.S.E03(EnergyTransferStopped) sent with reason EvStopped"),
	TestStep("12a", "TH reads from the DUT the State attribute. Verify value is 0x01 (PluggedInNoDemand)"),
	TestStep("13", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Plugged-in Test Event Clear. Verify Event EEVSE.S.E01(EVNotDetected) sent"),
	TestStep("13a", "TH reads from the DUT the State attribute. Verify value is 0x00 (NotPluggedIn)"),
	TestStep("13b", "TH reads from the DUT the SupplyState attribute. Verify value is 0x01 (ChargingEnabled)"),
	TestStep("13c", "TH reads from the DUT the SessionID attribute. Verify value is the same value noted in 4b"),
	TestStep("13d", "TH reads from the DUT the SessionDuration attribute. Verify value is greater than 120 (and match the time taken for the tests from step 4 to step 13)"),
	TestStep("14", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Plugged-in Test Event. Verify Event EEVSE.S.E00(EVConnected) sent"),
	TestStep("14a", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event. Verify Event EEVSE.S.E02(EnergyTransferStarted) sent."),
	TestStep("14b", "TH reads from the DUT the SessionID attribute. Verify value is 1 more than the value noted in 4b"),
	TestStep("15", "TH sends command Disable. Verify Event EEVSE.S.E03(EnergyTransferStopped) sent with reason EvseStopped"),
	TestStep("15a", "TH reads from the DUT the SupplyState attribute. Verify value is 0x00 (Disabled)"),
	TestStep("16", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Charge Demand Test Event Clear."),
	TestStep("17", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for EV Plugged-in Test Event Clear. Verify Event EEVSE.S.E01(EVNotDetected) sent"),
	TestStep("18", "TH sends TestEventTrigger command to General Diagnostics Cluster on Endpoint 0 with EnableKey field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER_KEY and EventTrigger field set to PIXIT.EEVSE.TEST_EVENT_TRIGGER for Basic Functionality Test Event Clear."),
	]

	return steps

	@async_test_body
	async def test_TC_EEVSE_2_2(self):

	self.step("1")
	# Commission DUT - already done

	# Subscribe to Events and when they are sent push them to a queue for checking later
	events_callback = EventChangeCallback(Clusters.EnergyEvse)
	await events_callback.start(self.default_controller,
	self.dut_node_id,
	self.matter_test_config.endpoint)

	self.step("2")
	await self.check_test_event_triggers_enabled()

	self.step("3")
	await self.send_test_event_trigger_basic()

	# After a few seconds...
	time.sleep(1)

	self.step("3a")
	await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kNotPluggedIn)

	self.step("3b")
	await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kDisabled)

	self.step("3c")
	await self.check_evse_attribute("FaultState", Clusters.EnergyEvse.Enums.FaultStateEnum.kNoError)

	self.step("4")
	await self.send_test_event_trigger_pluggedin()
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EVConnected)

	self.step("4a")
	await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInNoDemand)

	self.step("4b")
	# Save Session ID for later and check it against the value in the event
	session_id = await self.read_evse_attribute_expect_success(attribute="SessionID")
	self.validate_ev_connected_event(event_data, session_id)

	self.step("5")
	charging_duration = 5 # TODO test plan spec says 120s - reduced for now
	min_charge_current = 6000
	max_charge_current = 60000
	expected_state = Clusters.EnergyEvse.Enums.StateEnum.kPluggedInCharging
	# get epoch time for ChargeUntil variable (2 minutes from now)
	utc_time_charging_end = datetime.now(tz=timezone.utc) + timedelta(seconds=charging_duration)

	# Matter epoch is 0 hours, 0 minutes, 0 seconds on Jan 1, 2000 UTC
	epoch_time = int((utc_time_charging_end - datetime(2000, 1, 1, 0, 0, 0, 0, timezone.utc)).total_seconds())
	await self.send_enable_charge_command(endpoint=1, charge_until=epoch_time, min_charge=min_charge_current, max_charge=max_charge_current)

	self.step("6")
	await self.send_test_event_trigger_charge_demand()
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStarted)

	self.step("6a")
	await self.check_evse_attribute("State", expected_state)

	self.step("6b")
	await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kChargingEnabled)

	self.step("6c")
	await self.check_evse_attribute("ChargingEnabledUntil", epoch_time)

	self.step("6d")
	await self.check_evse_attribute("MinimumChargeCurrent", min_charge_current)

	self.step("6e")
	circuit_capacity = await self.read_evse_attribute_expect_success(attribute="CircuitCapacity")
	expected_max_charge = min(max_charge_current, circuit_capacity)
	await self.check_evse_attribute("MaximumChargeCurrent", expected_max_charge)

	self.validate_energy_transfer_started_event(event_data, session_id, expected_state, expected_max_charge)

	self.step("7")
	# Sleep for the charging duration plus a couple of seconds to check it has stopped
	time.sleep(charging_duration + 2)
	# check EnergyTransferredStoped (EvseStopped)
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStopped)
	expected_reason = Clusters.EnergyEvse.Enums.EnergyTransferStoppedReasonEnum.kEVSEStopped
	self.validate_energy_transfer_stopped_event(event_data, session_id, expected_state, expected_reason)

	self.step("7a")
	await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInDemand)

	self.step("7b")
	await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kDisabled)

	self.step("8")
	charge_until = NullValue
	min_charge_current = 6000
	max_charge_current = 12000

	await self.send_enable_charge_command(charge_until=charge_until, min_charge=min_charge_current, max_charge=max_charge_current)
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStarted)

	self.step("8a")
	await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInCharging)

	self.step("8b")
	await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kChargingEnabled)

	self.step("8c")
	await self.check_evse_attribute("ChargingEnabledUntil", charge_until)

	self.step("8d")
	await self.check_evse_attribute("MinimumChargeCurrent", min_charge_current)

	self.step("8e")
	circuit_capacity = await self.read_evse_attribute_expect_success(attribute="CircuitCapacity")
	expected_max_charge = min(max_charge_current, circuit_capacity)
	await self.check_evse_attribute("MaximumChargeCurrent", expected_max_charge)

	# from step 8 above - validate event
	self.validate_energy_transfer_started_event(event_data, session_id, expected_state, expected_max_charge)

	self.step("9")
	# This will only work if the optional UserMaximumChargeCurrent attribute is supported
	supported_attributes = await self.get_supported_energy_evse_attributes()
	if Clusters.EnergyEvse.Attributes.UserMaximumChargeCurrent.attribute_id in supported_attributes:
	logging.info("UserMaximumChargeCurrent is supported...")
	user_max_charge_current = 6000
	await self.write_user_max_charge(1, user_max_charge_current)

	self.step("9a")
	time.sleep(3)

	expected_max_charge = min(user_max_charge_current, circuit_capacity)
	await self.check_evse_attribute("MaximumChargeCurrent", expected_max_charge)
	else:
	logging.info("UserMaximumChargeCurrent is NOT supported... skipping.")

	self.step("10")
	await self.send_test_event_trigger_charge_demand_clear()
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStopped)
	expected_reason = Clusters.EnergyEvse.Enums.EnergyTransferStoppedReasonEnum.kEVStopped
	self.validate_energy_transfer_stopped_event(event_data, session_id, expected_state, expected_reason)

	self.step("10a")
	await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInNoDemand)

	self.step("11")
	await self.send_test_event_trigger_charge_demand()
	# Check we get EnergyTransferStarted again
	await self.send_enable_charge_command(charge_until=charge_until, min_charge=min_charge_current, max_charge=max_charge_current)
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStarted)
	self.validate_energy_transfer_started_event(event_data, session_id, expected_state, expected_max_charge)

	self.step("11a")
	await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInCharging)

	self.step("12")
	await self.send_test_event_trigger_charge_demand_clear()
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStopped)
	expected_reason = Clusters.EnergyEvse.Enums.EnergyTransferStoppedReasonEnum.kEVStopped
	self.validate_energy_transfer_stopped_event(event_data, session_id, expected_state, expected_reason)

	self.step("12a")
	await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kPluggedInNoDemand)

	self.step("13")
	await self.send_test_event_trigger_pluggedin_clear()
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EVNotDetected)
	expected_state = Clusters.EnergyEvse.Enums.StateEnum.kPluggedInNoDemand
	self.validate_ev_not_detected_event(event_data, session_id, expected_state, expected_duration=0, expected_charged=0)

	self.step("13a")
	await self.check_evse_attribute("State", Clusters.EnergyEvse.Enums.StateEnum.kNotPluggedIn)

	self.step("13b")
	await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kChargingEnabled)

	self.step("13c")
	await self.check_evse_attribute("SessionID", session_id)

	self.step("13d")
	session_duration = await self.read_evse_attribute_expect_success(attribute="SessionDuration")
	asserts.assert_greater_equal(session_duration, charging_duration,
	f"Unexpected 'SessionDuration' value - expected >= {charging_duration}, was {session_duration}")

	self.step("14")
	await self.send_test_event_trigger_pluggedin()
	# New plug in means session ID should increase by 1
	session_id = session_id + 1

	# Check we get a new EVConnected event with updated session ID
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EVConnected)
	self.validate_ev_connected_event(event_data, session_id)

	self.step("14a")
	await self.send_test_event_trigger_charge_demand()
	expected_state = Clusters.EnergyEvse.Enums.StateEnum.kPluggedInCharging # This is the value at the event time
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStarted)
	self.validate_energy_transfer_started_event(event_data, session_id, expected_state, expected_max_charge)

	self.step("14b")
	await self.check_evse_attribute("SessionID", session_id)

	self.step("15")
	await self.send_disable_command()
	expected_state = Clusters.EnergyEvse.Enums.StateEnum.kPluggedInCharging # This is the value prior to stopping
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EnergyTransferStopped)
	expected_reason = Clusters.EnergyEvse.Enums.EnergyTransferStoppedReasonEnum.kEVSEStopped
	self.validate_energy_transfer_stopped_event(event_data, session_id, expected_state, expected_reason)

	self.step("15a")
	await self.check_evse_attribute("SupplyState", Clusters.EnergyEvse.Enums.SupplyStateEnum.kDisabled)

	self.step("16")
	await self.send_test_event_trigger_charge_demand_clear()

	self.step("17")
	await self.send_test_event_trigger_pluggedin_clear()
	event_data = events_callback.wait_for_event_report(Clusters.EnergyEvse.Events.EVNotDetected)
	expected_state = Clusters.EnergyEvse.Enums.StateEnum.kPluggedInNoDemand
	self.validate_ev_not_detected_event(event_data, session_id, expected_state, expected_duration=0, expected_charged=0)

	self.step("18")
	await self.send_test_event_trigger_basic_clear()


	if __name__ == "__main__":
	default_matter_test_main()