/
fsmEvse.py
395 lines (357 loc) · 23.1 KB
/
fsmEvse.py
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# State machine for the charger
#
#
#------------------------------------------------------------
import pyPlcTcpSocket
import time # for time.sleep()
from helpers import prettyHexMessage, combineValueAndMultiplier
from mytestsuite import *
from random import random
from exiConnector import * # for EXI data handling/converting
stateWaitForSupportedApplicationProtocolRequest = 0
stateWaitForSessionSetupRequest = 1
stateWaitForServiceDiscoveryRequest = 2
stateWaitForServicePaymentSelectionRequest = 3
stateWaitForFlexibleRequest = 4
stateWaitForChargeParameterDiscoveryRequest = 5
stateWaitForCableCheckRequest = 6
stateWaitForPreChargeRequest = 7
stateWaitForPowerDeliveryRequest = 8
class fsmEvse():
def addToTrace(self, s):
self.callbackAddToTrace("[EVSE] " + s)
def publishStatus(self, s):
self.callbackShowStatus(s, "evseState")
def publishSoCs(self, current_soc: int, full_soc: int = -1, energy_capacity: int = -1, energy_request: int = -1, evccid: str = "", origin: str = ""):
if self.callbackSoCStatus is not None:
self.callbackSoCStatus(current_soc, full_soc, energy_capacity, energy_request, self.evccid, origin)
def enterState(self, n):
self.addToTrace("from " + str(self.state) + " entering " + str(n))
if (self.state!=0) and (n==0):
self.publishStatus("Waiting f AppHandShake")
self.state = n
self.cyclesInState = 0
def isTooLong(self):
# The timeout handling function.
return (self.cyclesInState > 100) # 100*33ms=3.3s
def stateFunctionWaitForSupportedApplicationProtocolRequest(self):
if (len(self.rxData)>0):
self.addToTrace("In state WaitForSupportedApplicationProtocolRequest, received " + prettyHexMessage(self.rxData))
exidata = removeV2GTPHeader(self.rxData)
self.rxData = []
strConverterResult = exiDecode(exidata, "DH") # Decode Handshake-request
self.addToTrace(strConverterResult)
if (strConverterResult.find("supportedAppProtocolReq")>0):
nDinSchemaID = 255 # invalid default value
try:
jsondict = json.loads(strConverterResult)
nAppProtocol_ArrayLen = int(jsondict["AppProtocol_arrayLen"])
self.addToTrace("The car supports " + str(nAppProtocol_ArrayLen) + " schemas.")
for i in range(nAppProtocol_ArrayLen):
strNameSpace = jsondict["NameSpace_"+str(i)]
nSchemaId = int(jsondict["SchemaID_"+str(i)])
self.addToTrace("The NameSpace " + strNameSpace + " has SchemaID " + str(nSchemaId))
if (strNameSpace.find(":din:70121:")>0):
nDinSchemaID = nSchemaId
except:
self.addToTrace("ERROR: Could not decode the supportedAppProtocolReq")
if (nDinSchemaID<255):
self.addToTrace("Detected DIN")
# TESTSUITE: When the EVSE received the Handshake, it selects a new test case.
testsuite_choose_testcase()
# Eh for encode handshake, SupportedApplicationProtocolResponse, with SchemaID as parameter
msg = addV2GTPHeader(exiEncode("Eh__"+str(nDinSchemaID)))
self.addToTrace("responding " + prettyHexMessage(msg))
self.Tcp.transmit(msg)
self.publishStatus("Schema negotiated")
self.enterState(stateWaitForSessionSetupRequest)
else:
self.addToTrace("Error: The connected car does not support DIN. At the moment, the pyPLC only supports DIN.")
def stateFunctionWaitForSessionSetupRequest(self):
if (len(self.rxData)>0):
self.simulatedPresentVoltage = 0
self.addToTrace("In state WaitForSessionSetupRequest, received " + prettyHexMessage(self.rxData))
exidata = removeV2GTPHeader(self.rxData)
self.rxData = []
strConverterResult = exiDecode(exidata, "DD")
self.addToTrace(strConverterResult)
if (strConverterResult.find("SessionSetupReq")>0):
# todo: check the request content, and fill response parameters
msg = addV2GTPHeader(exiEncode("EDa")) # EDa for Encode, Din, SessionSetupResponse
self.addToTrace("responding " + prettyHexMessage(msg))
if (testsuite_faultinjection_is_triggered(TC_EVSE_ResponseCode_SequenceError_for_SessionSetup)):
# send a SessionSetupResponse with Responsecode SequenceError
msg = addV2GTPHeader("809a0232417b661514a4cb91e0A02d0691559529548c0841e0fc1af4507460c0")
self.addToTrace("responding " + prettyHexMessage(msg))
self.Tcp.transmit(msg)
self.publishStatus("Session established")
self.enterState(stateWaitForServiceDiscoveryRequest)
jsondict = json.loads(strConverterResult)
self.evccid = jsondict.get("EVCCID", "")
if (self.isTooLong()):
self.enterState(0)
def stateFunctionWaitForServiceDiscoveryRequest(self):
if (len(self.rxData)>0):
self.addToTrace("In state WaitForServiceDiscoveryRequest, received " + prettyHexMessage(self.rxData))
exidata = removeV2GTPHeader(self.rxData)
self.rxData = []
strConverterResult = exiDecode(exidata, "DD")
self.addToTrace(strConverterResult)
if (strConverterResult.find("ServiceDiscoveryReq")>0):
# todo: check the request content, and fill response parameters
msg = addV2GTPHeader(exiEncode("EDb")) # EDb for Encode, Din, ServiceDiscoveryResponse
if (testsuite_faultinjection_is_triggered(TC_EVSE_ResponseCode_SequenceError_for_ServiceDiscoveryRes)):
# send a ServiceDiscoveryRes with Responsecode SequenceError
msg = addV2GTPHeader("809a021a3b7c417774813311a0A120024100c4")
self.addToTrace("responding " + prettyHexMessage(msg))
self.Tcp.transmit(msg)
self.publishStatus("Services discovered")
self.enterState(stateWaitForServicePaymentSelectionRequest)
if (self.isTooLong()):
self.enterState(0)
def stateFunctionWaitForServicePaymentSelectionRequest(self):
if (len(self.rxData)>0):
self.addToTrace("In state WaitForServicePaymentSelectionRequest, received " + prettyHexMessage(self.rxData))
exidata = removeV2GTPHeader(self.rxData)
self.rxData = []
strConverterResult = exiDecode(exidata, "DD")
self.addToTrace(strConverterResult)
if (strConverterResult.find("ServicePaymentSelectionReq")>0):
# todo: check the request content, and fill response parameters
msg = addV2GTPHeader(exiEncode("EDc")) # EDc for Encode, Din, ServicePaymentSelectionResponse
if (testsuite_faultinjection_is_triggered(TC_EVSE_ResponseCode_SequenceError_for_ServicePaymentSelectionRes)):
# send a ServicePaymentSelectionRes with Responsecode SequenceError
msg = addV2GTPHeader("809a021a3b7c417774813311c0A0")
self.addToTrace("responding " + prettyHexMessage(msg))
self.Tcp.transmit(msg)
self.publishStatus("ServicePayment selected")
self.enterState(stateWaitForFlexibleRequest) # todo: not clear, what is specified. The Ioniq sends PowerDeliveryReq as next.
if (self.isTooLong()):
self.enterState(0)
def stateFunctionWaitForFlexibleRequest(self):
if (len(self.rxData)>0):
self.addToTrace("In state WaitForFlexibleRequest, received " + prettyHexMessage(self.rxData))
exidata = removeV2GTPHeader(self.rxData)
self.rxData = []
strConverterResult = exiDecode(exidata, "DD")
self.addToTrace(strConverterResult)
if (strConverterResult.find("PowerDeliveryReq")>0):
# todo: check the request content, and fill response parameters
self.addToTrace("Received PowerDeliveryReq. Extracting SoC parameters")
jsondict = json.loads(strConverterResult)
current_soc = int(jsondict.get("EVRESSSOC", -1))
self.publishSoCs(current_soc, origin="PowerDeliveryReq")
msg = addV2GTPHeader(exiEncode("EDh")) # EDh for Encode, Din, PowerDeliveryResponse
if (testsuite_faultinjection_is_triggered(TC_EVSE_ResponseCode_Failed_for_PowerDeliveryRes)):
# send a PowerDeliveryResponse with Responsecode Failed
msg = addV2GTPHeader("809a0125e6cecc51408420400000")
self.addToTrace("responding " + prettyHexMessage(msg))
self.publishStatus("PowerDelivery")
self.Tcp.transmit(msg)
self.enterState(stateWaitForFlexibleRequest) # todo: not clear, what is specified in DIN
if (strConverterResult.find("ChargeParameterDiscoveryReq")>0):
self.addToTrace("Received ChargeParameterDiscoveryReq. Extracting SoC parameters via DC")
jsondict = json.loads(strConverterResult)
current_soc = int(jsondict.get("DC_EVStatus.EVRESSSOC", -1))
full_soc = int(jsondict.get("FullSOC", -1))
energy_capacity = int(jsondict.get("EVEnergyCapacity.Value", -1))
energy_request = int(jsondict.get("EVEnergyRequest.Value", -1))
self.publishSoCs(current_soc, full_soc, energy_capacity, energy_request, origin="ChargeParameterDiscoveryReq")
# todo: check the request content, and fill response parameters
msg = addV2GTPHeader(exiEncode("EDe")) # EDe for Encode, Din, ChargeParameterDiscoveryResponse
if (testsuite_faultinjection_is_triggered(TC_EVSE_ResponseCode_ServiceSelectionInvalid_for_ChargeParameterDiscovery)):
# send a ChargeParameterDiscoveryResponse with Responsecode ServiceSelectionInvalid
msg = addV2GTPHeader("809a0125e6cecd50810001ec00201004051828758405500080000101844138101c2432c04081436c900c0c000041435ecc044606000200")
self.addToTrace("responding " + prettyHexMessage(msg))
self.publishStatus("ChargeParamDiscovery")
self.Tcp.transmit(msg)
self.enterState(stateWaitForFlexibleRequest) # todo: not clear, what is specified in DIN
if (strConverterResult.find("CableCheckReq")>0):
# todo: check the request content, and fill response parameters
# todo: make a real cable check, and while it is ongoing, send "Ongoing".
self.addToTrace("Received CableCheckReq. Extracting SoC parameters via DC")
jsondict = json.loads(strConverterResult)
current_soc = int(jsondict.get("DC_EVStatus.EVRESSSOC", -1))
self.publishSoCs(current_soc, -1, -1, origin="CableCheckReq")
msg = addV2GTPHeader(exiEncode("EDf")) # EDf for Encode, Din, CableCheckResponse
if (testsuite_faultinjection_is_triggered(TC_EVSE_ResponseCode_Failed_for_CableCheckRes)):
# send a CableCheckResponse with Responsecode Failed
msg = addV2GTPHeader("809a0125e6cecc5020804080000400")
self.addToTrace("responding " + prettyHexMessage(msg))
self.publishStatus("CableCheck")
if (not testsuite_faultinjection_is_triggered(TC_EVSE_Timeout_during_CableCheck)):
self.Tcp.transmit(msg)
self.enterState(stateWaitForFlexibleRequest) # todo: not clear, what is specified in DIN
if (strConverterResult.find("PreChargeReq")>0):
# check the request content, and fill response parameters
uTarget = 220 # default in case we cannot decode the requested voltage
try:
jsondict = json.loads(strConverterResult)
strEVTargetVoltageValue = jsondict["EVTargetVoltage.Value"]
strEVTargetVoltageMultiplier = jsondict["EVTargetVoltage.Multiplier"]
uTarget = combineValueAndMultiplier(strEVTargetVoltageValue, strEVTargetVoltageMultiplier)
self.addToTrace("EV wants EVTargetVoltage " + str(uTarget))
except:
self.addToTrace("ERROR: Could not decode the PreChargeReq")
# simulating preCharge
if (self.simulatedPresentVoltage<uTarget/2):
self.simulatedPresentVoltage = uTarget/2
if (self.simulatedPresentVoltage<uTarget-30):
self.simulatedPresentVoltage += 20
if (self.simulatedPresentVoltage<uTarget):
self.simulatedPresentVoltage += 5
strPresentVoltage = str(self.simulatedPresentVoltage) # "345"
self.callbackShowStatus(strPresentVoltage, "EVSEPresentVoltage")
msg = addV2GTPHeader(exiEncode("EDg_"+strPresentVoltage)) # EDg for Encode, Din, PreChargeResponse
if (testsuite_faultinjection_is_triggered(TC_EVSE_Shutdown_during_PreCharge)):
# send a PreChargeResponse with StatusCode EVSE_Shutdown, to simulate a user-triggered session stop
msg = addV2GTPHeader("809a02180189551e24fc9e9160004100008182800000")
if (testsuite_faultinjection_is_triggered(TC_EVSE_ResponseCode_Failed_for_PreChargeRes)):
# send a PreChargeResponse with ResponseCode Failed
msg = addV2GTPHeader("809a0125e6cecc516080408000008284de880800")
self.addToTrace("responding " + prettyHexMessage(msg))
self.publishStatus("PreCharging " + strPresentVoltage)
if (not testsuite_faultinjection_is_triggered(TC_EVSE_Timeout_during_PreCharge)):
self.Tcp.transmit(msg)
self.enterState(stateWaitForFlexibleRequest) # todo: not clear, what is specified in DIN
if (strConverterResult.find("ContractAuthenticationReq")>0):
# todo: check the request content, and fill response parameters
msg = addV2GTPHeader(exiEncode("EDl")) # EDl for Encode, Din, ContractAuthenticationResponse
if (testsuite_faultinjection_is_triggered(TC_EVSE_ResponseCode_SequenceError_for_ContractAuthenticationRes)):
# send a ContractAuthenticationResponse with Responsecode SequenceError
msg = addV2GTPHeader("809a021a3b7c417774813310c0A200")
self.addToTrace("responding " + prettyHexMessage(msg))
self.publishStatus("ContractAuthentication")
self.Tcp.transmit(msg)
self.enterState(stateWaitForFlexibleRequest) # todo: not clear, what is specified in DIN
if (strConverterResult.find("CurrentDemandReq")>0):
# check the request content, and fill response parameters
uTarget = 220 # default in case we cannot decode the requested voltage
try:
jsondict = json.loads(strConverterResult)
strEVTargetVoltageValue = jsondict["EVTargetVoltage.Value"]
strEVTargetVoltageMultiplier = jsondict["EVTargetVoltage.Multiplier"]
uTarget = combineValueAndMultiplier(strEVTargetVoltageValue, strEVTargetVoltageMultiplier)
self.addToTrace("EV wants EVTargetVoltage " + str(uTarget))
current_soc = int(jsondict.get("DC_EVStatus.EVRESSSOC", -1))
full_soc = int(jsondict.get("FullSOC", -1))
energy_capacity = int(jsondict.get("EVEnergyCapacity.Value", -1))
energy_request = int(jsondict.get("EVEnergyRequest.Value", -1))
self.publishSoCs(current_soc, full_soc, energy_capacity, energy_request, origin="CurrentDemandReq")
self.callbackShowStatus(str(current_soc), "soc")
except:
self.addToTrace("ERROR: Could not decode the CurrentDemandReq")
self.simulatedPresentVoltage = uTarget + 3*random() # The charger provides the voltage which is demanded by the car.
strPresentVoltage = str(self.simulatedPresentVoltage)
self.callbackShowStatus(strPresentVoltage, "EVSEPresentVoltage")
strEVSEPresentCurrent = "1" # Just as a dummy current
msg = addV2GTPHeader(exiEncode("EDi_"+strPresentVoltage + "_" + strEVSEPresentCurrent)) # EDi for Encode, Din, CurrentDemandRes
if (testsuite_faultinjection_is_triggered(TC_EVSE_Malfunction_during_CurrentDemand)):
# send a CurrentDemandResponse with StatusCode EVSE_Malfunction, to simulate e.g. a voltage overshoot
msg = addV2GTPHeader("809a02203fa9e71c31bc920100821b430b933b4b7339032b93937b908e08043000081828440201818000040060a11c06030306402038441380")
if (testsuite_faultinjection_is_triggered(TC_EVSE_Shutdown_during_CurrentDemand)):
# send a CurrentDemandResponse with StatusCode EVSE_Shutdown, to simulate a user stop request
msg = addV2GTPHeader("809a0125e15c2cd0e000410000018280001818000000040a1b648030300002038486580800")
if (testsuite_faultinjection_is_triggered(TC_EVSE_ResponseCode_Failed_for_CurrentDemandRes)):
# send a CurrentDemandResponse with ResponseCode Failed
msg = addV2GTPHeader("809a0125e6cecc50e0804080000082867dc8081818000000040a1b64802030882702038486580800")
self.addToTrace("responding " + prettyHexMessage(msg))
self.publishStatus("CurrentDemand")
if (not testsuite_faultinjection_is_triggered(TC_EVSE_Timeout_during_CurrentDemand)):
self.Tcp.transmit(msg)
self.enterState(stateWaitForFlexibleRequest) # todo: not clear, what is specified in DIN
if (strConverterResult.find("WeldingDetectionReq")>0):
# todo: check the request content, and fill response parameters
msg = addV2GTPHeader(exiEncode("EDj")) # EDj for Encode, Din, WeldingDetectionRes
self.addToTrace("responding " + prettyHexMessage(msg))
self.publishStatus("WeldingDetection")
self.Tcp.transmit(msg)
self.enterState(stateWaitForFlexibleRequest) # todo: not clear, what is specified in DIN
if (strConverterResult.find("SessionStopReq")>0):
# todo: check the request content, and fill response parameters
msg = addV2GTPHeader(exiEncode("EDk")) # EDk for Encode, Din, SessionStopRes
self.addToTrace("responding " + prettyHexMessage(msg))
self.publishStatus("SessionStop")
self.Tcp.transmit(msg)
self.enterState(stateWaitForFlexibleRequest) # todo: not clear, what is specified in DIN
if (self.isTooLong()):
self.enterState(0)
def stateFunctionWaitForChargeParameterDiscoveryRequest(self):
if (self.isTooLong()):
self.enterState(0)
def stateFunctionWaitForCableCheckRequest(self):
if (self.isTooLong()):
self.enterState(0)
def stateFunctionWaitForPreChargeRequest(self):
if (self.isTooLong()):
self.enterState(0)
def stateFunctionWaitForPowerDeliveryRequest(self):
if (len(self.rxData)>0):
self.addToTrace("In state WaitForPowerDeliveryRequest, received " + prettyHexMessage(self.rxData))
self.addToTrace("Todo: Reaction in state WaitForPowerDeliveryRequest is not implemented yet.")
self.rxData = []
self.enterState(0)
if (self.isTooLong()):
self.enterState(0)
stateFunctions = {
stateWaitForSupportedApplicationProtocolRequest: stateFunctionWaitForSupportedApplicationProtocolRequest,
stateWaitForSessionSetupRequest: stateFunctionWaitForSessionSetupRequest,
stateWaitForServiceDiscoveryRequest: stateFunctionWaitForServiceDiscoveryRequest,
stateWaitForServicePaymentSelectionRequest: stateFunctionWaitForServicePaymentSelectionRequest,
stateWaitForFlexibleRequest: stateFunctionWaitForFlexibleRequest,
stateWaitForChargeParameterDiscoveryRequest: stateFunctionWaitForChargeParameterDiscoveryRequest,
stateWaitForCableCheckRequest: stateFunctionWaitForCableCheckRequest,
stateWaitForPreChargeRequest: stateFunctionWaitForPreChargeRequest,
stateWaitForPowerDeliveryRequest: stateFunctionWaitForPowerDeliveryRequest,
}
def reInit(self):
self.addToTrace("re-initializing fsmEvse")
self.state = 0
self.cyclesInState = 0
self.rxData = []
self.simulatedPresentVoltage = 0
self.Tcp.resetTheConnection()
def socketStateNotification(self, notification):
if (notification==0):
# The TCP informs us, that the connection is broken.
# Let's restart the state machine.
self.publishStatus("TCP conn broken")
self.addToTrace("re-initializing fsmEvse due to broken connection")
self.reInit()
if (notification==1):
# The TCP informs us, that it is listening, means waiting for incoming connection.
self.publishStatus("Listening TCP")
if (notification==2):
# The TCP informs us, that a connection is established.
self.publishStatus("TCP connected")
def __init__(self, addressManager, callbackAddToTrace, hardwareInterface, callbackShowStatus, callbackSoCStatus = None):
self.callbackAddToTrace = callbackAddToTrace
self.callbackShowStatus = callbackShowStatus
self.callbackSoCStatus = callbackSoCStatus
#todo self.addressManager = addressManager
#todo self.hardwareInterface = hardwareInterface
self.addToTrace("initializing fsmEvse")
self.faultInjectionDelayUntilSocketOpen_s = 0
if (self.faultInjectionDelayUntilSocketOpen_s>0):
self.addToTrace("Fault injection: waiting " + str(self.faultInjectionDelayUntilSocketOpen_s) + " s until opening the TCP socket.")
time.sleep(self.faultInjectionDelayUntilSocketOpen_s)
self.Tcp = pyPlcTcpSocket.pyPlcTcpServerSocket(self.callbackAddToTrace, self.socketStateNotification)
self.state = 0
self.cyclesInState = 0
self.rxData = []
self.evccid = ""
def mainfunction(self):
self.Tcp.mainfunction() # call the lower-level worker
if (self.Tcp.isRxDataAvailable()):
self.rxData = self.Tcp.getRxData()
#self.addToTrace("received " + str(self.rxData))
# run the state machine:
self.cyclesInState += 1 # for timeout handling, count how long we are in a state
self.stateFunctions[self.state](self)
if __name__ == "__main__":
print("Testing the evse state machine")
evse = fsmEvse()
print("Press Ctrl-Break for aborting")
while (True):
time.sleep(0.1)
evse.mainfunction()