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262 lines
13 KiB
Python
262 lines
13 KiB
Python
# State machine for the car
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#
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#
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#------------------------------------------------------------
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import pyPlcTcpSocket
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import time # for time.sleep()
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from helpers import prettyHexMessage
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from exiConnector import * # for EXI data handling/converting
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import json
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stateInitialized = 0
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stateWaitForSupportedApplicationProtocolResponse = 1
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stateWaitForSessionSetupResponse = 2
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stateWaitForServiceDiscoveryResponse = 3
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stateWaitForServicePaymentSelectionResponse = 4
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stateWaitForAuthorizationResponse = 5
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stateWaitForChargeParameterDiscoveryResponse = 6
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stateWaitForCableCheckResponse = 7
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stateWaitForPreChargeResponse = 8
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stateWaitForPowerDeliveryResponse = 9
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stateNotYetInitialized = 10
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dinEVSEProcessingType_Finished = "0"
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dinEVSEProcessingType_Ongoing = "1"
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class fsmPev():
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def addToTrace(self, s):
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self.callbackAddToTrace("[PEV] " + s)
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def enterState(self, n):
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print("from " + str(self.state) + " entering " + str(n))
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self.state = n
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self.cyclesInState = 0
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def isTooLong(self):
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# The timeout handling function.
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limit = 30 # number of call cycles until timeout
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if (self.state==stateWaitForCableCheckResponse):
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limit = 30*30 # CableCheck may need some time. Wait at least 30s.
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if (self.state==stateWaitForPreChargeResponse):
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limit = 30*30 # PreCharge may need some time. Wait at least 30s.
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return (self.cyclesInState > limit)
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def stateFunctionInitialized(self):
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if (self.Tcp.isConnected):
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# we just use the initial request message from the Ioniq. It contains one entry: DIN.
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self.addToTrace("Sending the initial SupportedApplicationProtocolReq")
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self.Tcp.transmit(addV2GTPHeader(exiHexToByteArray(exiHexDemoSupportedApplicationProtocolRequestIoniq)))
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self.enterState(stateWaitForSupportedApplicationProtocolResponse)
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def stateFunctionWaitForSupportedApplicationProtocolResponse(self):
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if (len(self.rxData)>0):
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self.addToTrace("In state WaitForSupportedApplicationProtocolResponse, received " + prettyHexMessage(self.rxData))
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exidata = removeV2GTPHeader(self.rxData)
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self.rxData = []
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strConverterResult = exiDecode(exidata, "Dh") # Decode Handshake-response
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self.addToTrace(strConverterResult)
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if (strConverterResult.find("supportedAppProtocolRes")>0):
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# todo: check the request content, and fill response parameters
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self.addToTrace("Will send SessionSetupReq")
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msg = addV2GTPHeader(exiEncode("EDA")) # EDA for Encode, Din, SessionSetupReq
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self.addToTrace("responding " + prettyHexMessage(msg))
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self.Tcp.transmit(msg)
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self.enterState(stateWaitForSessionSetupResponse)
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if (self.isTooLong()):
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self.enterState(0)
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def stateFunctionWaitForSessionSetupResponse(self):
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if (len(self.rxData)>0):
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self.addToTrace("In state WaitForSessionSetupResponse, received " + prettyHexMessage(self.rxData))
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exidata = removeV2GTPHeader(self.rxData)
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self.rxData = []
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strConverterResult = exiDecode(exidata, "DD") # Decode DIN
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self.addToTrace(strConverterResult)
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if (strConverterResult.find("SessionSetupRes")>0):
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# todo: check the request content, and fill response parameters
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try:
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y = json.loads(strConverterResult)
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strSessionId = y["header.SessionID"]
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self.addToTrace("The Evse decided for SessionId " + strSessionId)
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self.sessionId = strSessionId
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except:
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self.addToTrace("ERROR: Could not decode the sessionID")
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self.addToTrace("Will send ServiceDiscoveryReq")
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msg = addV2GTPHeader(exiEncode("EDB_"+self.sessionId)) # EDB for Encode, Din, ServiceDiscoveryRequest
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self.addToTrace("responding " + prettyHexMessage(msg))
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self.Tcp.transmit(msg)
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self.enterState(stateWaitForServiceDiscoveryResponse)
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if (self.isTooLong()):
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self.enterState(0)
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def stateFunctionWaitForServiceDiscoveryResponse(self):
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if (len(self.rxData)>0):
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self.addToTrace("In state WaitForServiceDiscoveryResponse, received " + prettyHexMessage(self.rxData))
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exidata = removeV2GTPHeader(self.rxData)
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self.rxData = []
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strConverterResult = exiDecode(exidata, "DD") # Decode DIN
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self.addToTrace(strConverterResult)
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if (strConverterResult.find("ServiceDiscoveryRes")>0):
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# todo: check the request content, and fill response parameters
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self.addToTrace("Will send ServicePaymentSelectionReq")
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msg = addV2GTPHeader(exiEncode("EDC_"+self.sessionId)) # EDC for Encode, Din, ServicePaymentSelection
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self.addToTrace("responding " + prettyHexMessage(msg))
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self.Tcp.transmit(msg)
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self.enterState(stateWaitForServicePaymentSelectionResponse)
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if (self.isTooLong()):
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self.enterState(0)
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def stateFunctionWaitForServicePaymentSelectionResponse(self):
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if (len(self.rxData)>0):
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self.addToTrace("In state WaitForServicePaymentSelectionResponse, received " + prettyHexMessage(self.rxData))
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exidata = removeV2GTPHeader(self.rxData)
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self.rxData = []
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strConverterResult = exiDecode(exidata, "DD") # Decode DIN
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self.addToTrace(strConverterResult)
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if (strConverterResult.find("ServicePaymentSelectionRes")>0):
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# todo: check the request content, and fill response parameters
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self.addToTrace("Will send ChargeParameterDiscoveryReq")
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msg = addV2GTPHeader(exiEncode("EDE_"+self.sessionId)) # EDE for Encode, Din, ChargeParameterDiscovery. We ignore Authorization, not specified in DIN.
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self.addToTrace("responding " + prettyHexMessage(msg))
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self.Tcp.transmit(msg)
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self.enterState(stateWaitForChargeParameterDiscoveryResponse)
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if (self.isTooLong()):
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self.enterState(0)
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def stateFunctionWaitForChargeParameterDiscoveryResponse(self):
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if (len(self.rxData)>0):
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self.addToTrace("In state WaitForChargeParameterDiscoveryResponse, received " + prettyHexMessage(self.rxData))
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exidata = removeV2GTPHeader(self.rxData)
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self.rxData = []
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strConverterResult = exiDecode(exidata, "DD") # Decode DIN
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self.addToTrace(strConverterResult)
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if (strConverterResult.find("ChargeParameterDiscoveryRes")>0):
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# todo: check the request content, and fill response parameters
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self.addToTrace("Will send CableCheckReq")
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msg = addV2GTPHeader(exiEncode("EDF_"+self.sessionId)) # EDF for Encode, Din, CableCheck
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self.addToTrace("responding " + prettyHexMessage(msg))
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self.Tcp.transmit(msg)
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self.enterState(stateWaitForCableCheckResponse)
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if (self.isTooLong()):
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self.enterState(0)
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def stateFunctionWaitForCableCheckResponse(self):
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if (len(self.rxData)>0):
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self.addToTrace("In state WaitForCableCheckResponse, received " + prettyHexMessage(self.rxData))
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exidata = removeV2GTPHeader(self.rxData)
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self.rxData = []
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strConverterResult = exiDecode(exidata, "DD") # Decode DIN
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self.addToTrace(strConverterResult)
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if (strConverterResult.find("CableCheckRes")>0):
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try:
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y = json.loads(strConverterResult)
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strResponseCode = y["ResponseCode"]
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strEVSEProcessing = y["EVSEProcessing"]
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self.addToTrace("[PEV] The CableCheck result is " + strResponseCode + " " + strEVSEProcessing)
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except:
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self.addToTrace("ERROR: Could not decode the CableCheckRes")
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# todo: check the request content, and fill response parameters
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# We have two cases here:
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# 1) The charger says "cable check is finished and cable ok", by setting ResponseCode=OK and EVSEProcessing=Finished.
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# 2) Else: The charger says "need more time or cable not ok". In this case, we just run into timeout and start from the beginning.
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if ((strEVSEProcessing==dinEVSEProcessingType_Finished) and (strResponseCode=="OK")):
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self.addToTrace("The EVSE says that the CableCheck is finished and ok.")
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self.addToTrace("Will send PreChargeReq")
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msg = addV2GTPHeader(exiEncode("EDG_"+self.sessionId)) # EDG for Encode, Din, PreCharge
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self.addToTrace("responding " + prettyHexMessage(msg))
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self.Tcp.transmit(msg)
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self.enterState(stateWaitForPreChargeResponse)
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else:
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# cable check not yet finished or finished with bad result -> try again
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self.addToTrace("Will again send CableCheckReq")
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msg = addV2GTPHeader(exiEncode("EDF_"+self.sessionId)) # EDF for Encode, Din, CableCheck
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self.addToTrace("responding " + prettyHexMessage(msg))
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self.Tcp.transmit(msg)
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if (self.isTooLong()):
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self.enterState(0)
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def stateFunctionWaitForPreChargeResponse(self):
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if (self.DelayCycles>0):
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self.DelayCycles-=1
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return
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if (len(self.rxData)>0):
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self.addToTrace("In state WaitForPreChargeResponse, received " + prettyHexMessage(self.rxData))
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exidata = removeV2GTPHeader(self.rxData)
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self.rxData = []
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strConverterResult = exiDecode(exidata, "DD") # Decode DIN
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self.addToTrace(strConverterResult)
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if (strConverterResult.find("PreChargeRes")>0):
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# todo: check the request content, and fill response parameters
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self.addToTrace("PreCharge aknowledge received.")
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self.addToTrace("As Demo, we stay in PreCharge forever.")
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msg = addV2GTPHeader(exiEncode("EDG_"+self.sessionId)) # EDG for Encode, Din, PreCharge
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self.addToTrace("responding " + prettyHexMessage(msg))
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self.Tcp.transmit(msg)
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self.DelayCycles=15 # wait with the next evaluation approx half a second
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if (self.isTooLong()):
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self.enterState(0)
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def stateFunctionNotYetInitialized(self):
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pass # nothing to do, just wait for external event for re-initialization
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stateFunctions = {
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stateInitialized: stateFunctionInitialized,
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stateWaitForSupportedApplicationProtocolResponse: stateFunctionWaitForSupportedApplicationProtocolResponse,
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stateWaitForSessionSetupResponse: stateFunctionWaitForSessionSetupResponse,
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stateWaitForServiceDiscoveryResponse: stateFunctionWaitForServiceDiscoveryResponse,
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stateWaitForServicePaymentSelectionResponse: stateFunctionWaitForServicePaymentSelectionResponse,
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stateWaitForChargeParameterDiscoveryResponse: stateFunctionWaitForChargeParameterDiscoveryResponse,
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stateWaitForCableCheckResponse: stateFunctionWaitForCableCheckResponse,
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stateWaitForPreChargeResponse: stateFunctionWaitForPreChargeResponse,
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stateNotYetInitialized: stateFunctionNotYetInitialized
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}
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def reInit(self):
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self.addToTrace("re-initializing fsmPev")
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self.state = stateInitialized
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self.cyclesInState = 0
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self.rxData = []
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if (not self.Tcp.isConnected):
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#evseIp = 'fe80:0000:0000:0000:c690:83f3:fbcb:980e'
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evseIp = self.addressManager.getSeccIp() # the EVSE IP address which was found out with SDP
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self.Tcp.connect(evseIp, 15118)
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if (not self.Tcp.isConnected):
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self.addToTrace("connection failed")
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else:
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self.addToTrace("connected")
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def __init__(self, addressManager, callbackAddToTrace):
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self.callbackAddToTrace = callbackAddToTrace
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self.addToTrace("initializing fsmPev")
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self.Tcp = pyPlcTcpSocket.pyPlcTcpClientSocket(self.callbackAddToTrace)
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self.addressManager = addressManager
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self.state = stateNotYetInitialized
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self.sessionId = "DEAD55AADEAD55AA"
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self.cyclesInState = 0
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self.DelayCycles = 0
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self.rxData = []
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# we do NOT call the reInit, because we want to wait with the connection until external trigger comes
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def mainfunction(self):
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#self.Tcp.mainfunction() # call the lower-level worker
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if (self.Tcp.isRxDataAvailable()):
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self.rxData = self.Tcp.getRxData()
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#self.addToTrace("received " + prettyHexMessage(self.rxData))
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# run the state machine:
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self.cyclesInState += 1 # for timeout handling, count how long we are in a state
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self.stateFunctions[self.state](self)
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if __name__ == "__main__":
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print("Testing the pev state machine")
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pev = fsmPev()
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print("Press Ctrl-Break for aborting")
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while (True):
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time.sleep(0.1)
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pev.mainfunction()
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