mirror of
https://github.com/uhi22/pyPLC.git
synced 2024-12-20 01:31:52 +00:00
440 lines
21 KiB
Python
440 lines
21 KiB
Python
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# EXI is specified in w3.org/TR/exi
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# For decoding and encoding, different decoders are availabe:
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# 1. https://github.com/FlUxIuS/V2Gdecoder
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# https://github.com/FlUxIuS/V2Gdecoder/releases
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# Install java from https://www.java.com/de/download/manual.jsp
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#
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# C:\>java -version
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# java version "1.8.0_351"
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# Java(TM) SE Runtime Environment (build 1.8.0_351-b10)
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# Java HotSpot(TM) Client VM (build 25.351-b10, mixed mode, sharing)
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# C:\>
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#
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# java -jar V2Gdecoder.jar -e -s 8000dbab9371d3234b71d1b981899189d191818991d26b9b3a232b30020000040040
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# ERROR: 'Premature EOS found while reading data.'
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# <?xml version="1.0" encoding="UTF-8"?><ns4:supportedAppProtocolReq xmlns:ns4="urn:iso:15118:2:2010:AppProtocol"
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# xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:ns3="http://www.w3.org/2001/XMLSchema">
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# <AppProtocol>
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# <ProtocolNamespace>urn:din:70121:2012:MsgDef</ProtocolNamespace>
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# <VersionNumberMajor>2</VersionNumberMajor>
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# <VersionNumberMinor>0</VersionNumberMinor>
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# <SchemaID>1</SchemaID>
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# <Priority>1</Priority>
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# </AppProtocol>
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# </ns4:supportedAppProtocolReq>
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#
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# 2. OpenV2G from https://github.com/Martin-P/OpenV2G
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# Pro: The schema-specific files are already included as generated C-code, this
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# makes it very fast.
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# Contra: Is only a demo, does not provide an interface which could be used for decoding/encoding.
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# Work in progress: Fork in https://github.com/uhi22/OpenV2Gx, to add a command line interface (and maybe a socket interface).
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#
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#
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#
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#
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#
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#
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#
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from helpers import showAsHex, twoCharHex
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import subprocess
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import sys
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import time
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import json
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import os
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# Example data:
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# (1) From the Ioniq:
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# In wireshark: Copy as hex stream
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# 01fe8001000000228000dbab9371d3234b71d1b981899189d191818991d26b9b3a232b30020000040040
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# remove the 8 bytes V2GTP header
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# 8000dbab9371d3234b71d1b981899189d191818991d26b9b3a232b30020000040040
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exiHexDemoSupportedApplicationProtocolRequestIoniq="8000dbab9371d3234b71d1b981899189d191818991d26b9b3a232b30020000040040"
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# Command line:
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# ./OpenV2G.exe DH8000dbab9371d3234b71d1b981899189d191818991d26b9b3a232b30020000040040
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# (1b) From the tesla. Source https://github.com/SmartEVSE/SmartEVSE-3/issues/25#issuecomment-1606259381)
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exiHexDemoSupportedApplicationProtocolRequestTesla="8000DBAB9371D3234B71D1B981899189D191818991D26B9B3A232B30020000040401B75726E3A7465736C613A64696E3A323031383A4D736744656600001C0100080"
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# The BMW iX3 handshake request (one schema, schemaID 0, from https://github.com/SmartEVSE/SmartEVSE-3/issues/25#issuecomment-1606271999)
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exiHexDemoSupportedApplicationProtocolRequestBMWiX3="8000DBAB9371D3234B71D1B981899189D191818991D26B9B3A232B30020000000040"
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# (2) From OpenV2G main_example.appHandshake()
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# 8000ebab9371d34b9b79d189a98989c1d191d191818981d26b9b3a232b30010000040001b75726e3a64696e3a37303132313a323031323a4d73674465660020000100880
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exiHexDemoSupportedApplicationProtocolRequest2="8000ebab9371d34b9b79d189a98989c1d191d191818981d26b9b3a232b30010000040001b75726e3a64696e3a37303132313a323031323a4d73674465660020000100880"
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# Command line:
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# ./OpenV2G.exe DH8000ebab9371d34b9b79d189a98989c1d191d191818981d26b9b3a232b30010000040001b75726e3a64696e3a37303132313a323031323a4d73674465660020000100880
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# (3) SupportedApplicationProtocolResponse
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# 80400040
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# Command line:
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# ./OpenV2G.exe DH80400040
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# (4) SessionSetupRequest DIN
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# 809a0011d00000
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# Command line:
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# ./OpenV2G.exe DD809a0011d00000
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# (5) SessionSetupResponse DIN
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# 809a02004080c1014181c211e0000080
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# ./OpenV2G.exe DD809a02004080c1014181c211e0000080
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# (6) CableCheckReq
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# "result": "809a001010400000"
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# (7) PreChargeReq
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# "result": "809a001150400000c80006400000"
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# 809a0232417b661514a4cb91e0202d0691559529548c0841e0fc1af4507460c0 SessionSetupRes with NewSessionEstablished
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# 809a0232417b661514a4cb91e0A02d0691559529548c0841e0fc1af4507460c0 SessionSetupRes with SequenceError
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# 809a021a3b7c417774813311a00120024100c4 ServiceDiscoveryRes
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# 809a021a3b7c417774813311a0A120024100c4 ServiceDiscoveryRes with SequenceError
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# 809a021a3b7c417774813311c000 ServicePaymentSelectionRes
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# 809a021a3b7c417774813311c0A0 ServicePaymentSelectionRes with SequenceError
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# 809a021a3b7c417774813310c00200 ContractAuthenticationRes
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# 809a021a3b7c417774813310c0A200 ContractAuthenticationRes with SequenceError
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# 809a0125e6cecc50800001ec00200004051828758405500080000101844138101c2432c04081436c900c0c000041435ecc044606000200 ChargeParameterDiscovery
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# 809a0125e6cecd50810001ec00201004051828758405500080000101844138101c2432c04081436c900c0c000041435ecc044606000200 ChargeParameterDiscovery with ServiceSelectionInvalid
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# 809a0125e6cecc5020004080000400 CableCheckRes
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# 809a0125e6cecc5020804080000400 CableCheckRes with "FAILED"
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# 809a0125e6cecc516000408000008284de880800 PreChargeRes
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# 809a0125e6cecc516080408000008284de880800 PreChargeRes with "FAILED"
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# 809a0125e6cecc51400420400000 PowerDeliveryRes
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# 809a0125e6cecc51408420400000 PowerDeliveryRes with "FAILED"
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# 809a0125e6cecc50e0004080000082867dc8081818000000040a1b64802030882702038486580800 CurrentDemandRes
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# 809a0125e6cecc50e0804080000082867dc8081818000000040a1b64802030882702038486580800 CurrentDemandRes with "FAILED"
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# Further examples are collected in the DemoExiLog.txt.
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# Configuration of the exi converter tool
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if os.name == "nt":
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# Windows: Path to the EXI decoder/encoder
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pathToOpenV2GExe = "..\\OpenV2Gx\\Release\\OpenV2G.exe"
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else:
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# Linux: Path to the EXI decoder/encoder
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pathToOpenV2GExe = "../OpenV2Gx/Release/OpenV2G.exe";
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# Functions
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def exiprint(s):
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# todo: print to console or log or whatever
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pass
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def exiHexToByteArray(hexString):
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# input: a string with the two-byte-hex representation
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# output: a byte array with the same data.
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# If the convertion fails, we return an empty byte array.
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hexlen=len(hexString)
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if ((hexlen % 2)!=0):
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print("exiHexToByteArray: unplausible length of " + hexString)
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return bytearray(0)
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exiframe = bytearray(int(hexlen/2)) # two characters in the input string are one byte in the exiframe
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for i in range(0, int(hexlen/2)):
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x = hexString[2*i: 2*i+2]
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#print("valuestring = " + x)
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try:
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v = int(x, 16)
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#print("value " + hex(v))
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exiframe[i] = v
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except:
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print("exiHexToByteArray: unplausible data " + x)
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return bytearray(0)
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return exiframe
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def exiByteArrayToHex(b):
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# input: Byte array
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# output: a string with the two-byte-hex representation of the byte array
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s = ""
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for i in range(0, len(b)):
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s = s + twoCharHex(b[i])
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return s
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def addV2GTPHeader(exidata):
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#print("type is " + str(type(exidata)))
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if (str(type(exidata)) == "<class 'str'>"):
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#print("changing type to bytearray")
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exidata = exiHexToByteArray(exidata)
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#print("type is " + str(type(exidata)))
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# takes the bytearray with exidata, and adds a header to it, according to the Vehicle-to-Grid-Transport-Protocol
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exiLen = len(exidata)
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header = bytearray(8) # V2GTP header has 8 bytes
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# 1 byte protocol version
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# 1 byte protocol version inverted
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# 2 bytes payload type
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# 4 byte payload length
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header[0] = 0x01 # version
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header[1] = 0xfe # version inverted
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header[2] = 0x80 # payload type. 0x8001 means "EXI data"
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header[3] = 0x01 #
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header[4] = (exiLen >> 24) & 0xff # length 4 byte.
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header[5] = (exiLen >> 16) & 0xff
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header[6] = (exiLen >> 8) & 0xff
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header[7] = exiLen & 0xff
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return header + exidata
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def removeV2GTPHeader(v2gtpData):
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#removeV2GTPHeader
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return v2gtpData[8:]
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def exiDecode(exiHex, prefix="DH"):
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# input: exi data. Either hexstring, or bytearray or bytes
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# prefix to select the schema
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# if the input is a byte array, we convert it into hex string. If it is already a hex string, we take it as it is.
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#print("type is " + str(type(exiHex)))
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if (str(type(exiHex)) == "<class 'bytearray'>"):
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#print("changing type to hex string")
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exiHex = exiByteArrayToHex(exiHex)
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if (str(type(exiHex)) == "<class 'bytes'>"):
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#print("changing type to hex string")
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exiHex = exiByteArrayToHex(exiHex)
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#print("type is " + str(type(exiHex)))
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param1 = prefix + exiHex # DH for decode handshake
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#print("exiDecode: trying to decode " + exiHex + " with schema " + prefix)
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result = subprocess.run(
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[pathToOpenV2GExe, param1], capture_output=True, text=True)
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#print("stdout:", result.stdout)
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if (len(result.stderr)>0):
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print("exiDecode ERROR. stderr:" + result.stderr)
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strConverterResult = result.stdout
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return strConverterResult
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def exiEncode(strMessageName):
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# todo: handle the schema, the message name and the parameters
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# param1 = "Eh" # Eh for encode handshake, SupportedApplicationProtocolResponse
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# param1 = "EDa" # EDa for Encode, Din, SessionSetupResponse
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param1 = strMessageName
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exiprint("[EXICONNECTOR] exiEncode " + param1)
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result = subprocess.run([pathToOpenV2GExe, param1], capture_output=True, text=True)
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if (len(result.stderr)>0):
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strConverterResult = "exiEncode ERROR. stderr:" + result.stderr
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print(strConverterResult)
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else:
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#print("exiEncode stdout:", result.stdout)
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# Now we have an encoder result in json form, something like:
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# {
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# "info": "",
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# "error": "",
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# "result": "8004440400"
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# }
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try:
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jsondict = json.loads(result.stdout)
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strConverterResult = jsondict["result"]
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strConverterError = jsondict["error"]
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if (len(strConverterError)>0):
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print("[EXICONNECTOR] exiEncode error " + strConverterError)
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#print("strConverterResult is " + str(strConverterResult))
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except:
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strConverterResult = "exiEncode failed to convert json to dict."
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print(strConverterResult)
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return strConverterResult
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def testByteArrayConversion(s):
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print("Testing conversion of " + s)
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x = exiHexToByteArray(s)
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newHexString = exiByteArrayToHex(x)
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print("exi as hex=" + newHexString)
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exiWithHeader = addV2GTPHeader(x)
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exiWithHeaderString = exiByteArrayToHex(exiWithHeader)
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print("with V2GTP header=" + exiWithHeaderString)
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def testDecoder(strHex, pre="DH", comment=""):
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global nFail
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strHex = strHex.replace(" ", "") # remove blanks
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print("Decoder test for " + comment + " with data " + strHex)
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decoded=exiDecode(strHex, pre)
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print(decoded)
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if (len(comment)>0):
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strExpected = comment
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if (decoded.find(strExpected)>0):
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print("---pass---")
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else:
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print("---***!!!FAIL!!!***---")
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nFail+=1
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def testReadExiFromSnifferFile():
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file1 = open('results\\tmp.txt', 'r')
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Lines = file1.readlines()
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for myLine in Lines:
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if (myLine[0:9]=="[SNIFFER]"):
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posOfEqualsign = myLine.find("=")
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s = myLine[posOfEqualsign+1:] # The part after the "=" contains the EXI hex data.
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s = s.replace(" ", "") # Remove blanks
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s = s.replace("\n", "") # Remove line feeds
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#print(s)
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testDecoder(s, "DD", "")
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def testReadExiFromExiLogFile(strLogFileName):
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print("Trying to read from ExiLogFile " + strLogFileName)
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try:
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file1 = open(strLogFileName, 'r')
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isFileOk = True
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except:
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print("Could not open " + strLogFileName)
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isFileOk = False
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if (strLogFileName == "PevExiLog.txt"):
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print("This is no problem. The PevExiLog.txt will be created when the pyPLC runs in PevMode, and can be decoded afterwards.")
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if (isFileOk):
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fileOut = open(strLogFileName + '.decoded.txt', 'w')
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# example: "ED 809a02004080c1014181c210b8"
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# example with timestamp: "2022-12-20T08:17:15.055755=ED 809a02004080c1014181c21198"
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Lines = file1.readlines()
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for myLine in Lines:
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posOfEqual=myLine.find("=")
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if (posOfEqual>0):
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# we have an equal-sign. Take the string behind it.
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strToDecode=myLine[posOfEqual+1:]
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else:
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# no equal-sign. Take the complete line.
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strToDecode=myLine
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if (myLine[0]=="#"):
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# take-over comment lines into the output
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print(myLine.replace("\n", ""))
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print(myLine.replace("\n", ""), file=fileOut)
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strDecoderSelection = "" # default: unknown line
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if (strToDecode[1:3]=="D "):
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strDecoderSelection = "D" # it is a DIN message
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if (strToDecode[1:3]=="H ") or (strToDecode[1:3]=="h "):
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strDecoderSelection = "H" # it is a ProtocolHandshake message
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if (strDecoderSelection==""): # no decoder prefix contained in the file. Assume DIN.
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strDecoderSelection = "D"
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if (len(strDecoderSelection)>0): # if we have selected a valid decoder
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posOfSpace=strToDecode.find(" ")
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if (posOfSpace>0):
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posStartOfData = posOfSpace+1 # we have a space in the line, the exi data starts after the space
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else:
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print(strToDecode[0:4])
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if (strToDecode[0:4]=="01fe"):
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print("seems we have a v2gtp header")
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posStartOfData = 16 # we have a v2gtp header, so the exi data starts after 16 characters
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else:
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print("seems we have raw exi data")
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posStartOfData = 1 # assume raw exi at the start of the line
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s = strToDecode[posStartOfData:] # The part after the " " contains the EXI hex data.
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s = s.replace(" ", "") # Remove blanks
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s = s.replace("\n", "") # Remove line feeds
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print(s)
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decoded=exiDecode(s, "D"+strDecoderSelection)
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print(myLine.replace("\n", "") + " means:")
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print(decoded)
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print(myLine.replace("\n", "") + " means:", file=fileOut)
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print(decoded, file=fileOut)
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fileOut.close()
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def testTimeConsumption():
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strHex = "809a001150400000c80006400000"
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pre = "DD"
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tStart = time.time()
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nRuns = 100
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for i in range(0, nRuns):
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decoded=exiDecode(strHex, pre)
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tStop = time.time()
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elapsed_time = tStop - tStart
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print("Decoder: Execution time for " + str(nRuns) + " runs:", elapsed_time, "seconds")
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tStart = time.time()
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nRuns = 100
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for i in range(0, nRuns):
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s = exiEncode("EDC_1122334455667788")
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tStop = time.time()
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elapsed_time = tStop - tStart
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print("Encoder: Execution time for " + str(nRuns) + " runs:", elapsed_time, "seconds")
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if __name__ == "__main__":
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nFail=0
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print("Testing exiConnector...")
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if (False):
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testTimeConsumption()
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exit()
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if (False):
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testReadExiFromExiLogFile('DemoExiLog.txt')
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testReadExiFromExiLogFile('PevExiLog.txt')
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exit()
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if (True):
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testReadExiFromExiLogFile('RawExiLog.txt')
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exit()
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if (True):
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print("ChargeParameterDiscovery of the BMW iX, https://github.com/uhi22/pyPLC/issues/14#issuecomment-1895437190")
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print("From Everest logs (successful)")
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testDecoder("809a0211c1ff77aed4fdff907190000009204061104e04070a8c30102050961f12805000", pre="DD", comment="")
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testDecoder("809a0211c1ff77aed4fdff90800000040020000405182824138550008000018180c80c1c", pre="DD", comment="")
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print("From pyPLC (failed)")
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testDecoder("809A02004080C1014181C21080004800400000C0C320040C0E014060A184060606002060A190020303005030300510", pre="DD", comment="")
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if (False):
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testDecoder("8000ebab9371d34b9b79d189a98989c1d191d191818981d26b9b3a232b30010000040001b75726e3a64696e3a37303132313a323031323a4d73674465660020000100880", pre="DH", comment="supportedAppProtocolReq")
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testDecoder("80400040", pre="DH", comment="supportedAppProtocolRes")
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testDecoder("809a0011d00000", pre="DD", comment="SessionSetupReq")
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testDecoder("809a02004080c1014181c211e0000080", pre="DD", comment="SessionSetupRes")
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testDecoder("809a001198", pre="DD", comment="ServiceDiscoveryReq")
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testDecoder("809a0011a0012002412104", pre="DD", comment="ServiceDiscoveryRes")
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testDecoder("809a0011b2001280", pre="DD", comment="ServicePaymentSelectionReq")
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testDecoder("809a0011c000", pre="DD", comment="ServicePaymentSelectionRes")
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testDecoder("809a00107211400dc0c8c82324701900", pre="DD", comment="ChargeParameterDiscoveryReq")
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testDecoder("809a001080004820400000c99002062050193080c0c802064c8010190140c80a20", pre="DD", comment="ChargeParameterDiscoveryRes")
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testDecoder("809a001010400000", pre="DD", comment="CableCheckReq")
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testDecoder("809a0010200200000000", pre="DD", comment="CableCheckRes")
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testDecoder("809a001150400000c80006400000", pre="DD", comment="PreChargeReq")
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testDecoder("809a00116002000000320000", pre="DD", comment="PreChargeRes")
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if (False):
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print("The request from the Ioniq after the EVSE sent ServicePaymentSelectionRes:")
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testDecoder("809A00113020000A00000000", pre="DD", comment="PowerDeliveryReq")
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if (False):
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#print("The session setup request of the Ioniq:")
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#testDecoder("809A02000000000000000011D01811959401930C00", pre="DD", comment="SessionSetupReq")
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print("Ioniq with pyPlc")
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testDecoder("809a02004080c1014181c2107190000005004061a01e04070c84c02050a02000c2438368040309094820105e0a60", pre="DD") # 2022-11-11, 25.315s ChargeParameterDiscoveryReq
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#testDecoder("809a02004080c1014181c21080004820400000c99002062050193080c0c802064c8010190140c80a20", pre="DD") # 2022-11-11, 25.408s ChargeParamDisc Res
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#testDecoder("809a02004080c1014181c210200200000000", pre="DD") # 2022-11-11, 26.32s CableCheckRes
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#testDecoder("809a02004080c1014181c2116002000000320000", pre="DD") # 2022-11-11, 27.659s PrechargeRes
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#print("A ChargeParameterDiscoveryReq")
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#testDecoder("809a00107211400dc0c8c82324701900", pre="DD", comment="ChargeParameterDiscoveryReq")
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if (False):
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print("From https://openinverter.org/forum/viewtopic.php?p=54692#p54692")
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testDecoder("809A0233EBC74AB099A6DC907191400500C8C82324701900", pre="DD") # from https://openinverter.org/forum/viewtopic.php?p=54692#p54692
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if (False):
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testDecoder("80 9A 02 00 40 80 C1 01 41 81 C2 11 E0 00 00 80", pre="DD", comment="SessionSetupRes")
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testDecoder("80 9A 02 00 40 80 C1 01 41 81 C2 11 94 00", pre="DD", comment="ServiceDiscoveryReq")
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testDecoder("80 9A 02 00 40 80 C1 01 41 81 C2 11 A0 01 20 02 41 00 84", pre="DD", comment="ServiceDiscoveryRes")
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testDecoder("80 9A 02 00 40 80 C1 01 41 81 C2 11 B2 00 12 80", pre="DD", comment="ServicePaymentSelectionReq")
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testDecoder("80 9A 02 00 40 80 C1 01 41 81 C2 11 C0 00", pre="DD", comment="ServicePaymentSelectionRes")
|
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print("The error response of the Ioniq with FAILED_ChargingSystemIncompatibility")
|
|
testDecoder("80 9A 02 00 40 80 C1 01 41 81 C2 11 30 20 00 0A 00 00 00 00", pre="DD", comment="PowerDeliveryReq")
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|
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print("The request of the Ioniq after ServicePaymentSelectionResponse")
|
|
testDecoder("80 9A 02 00 40 80 C1 01 41 81 C2 10 B8", pre="DD", comment="ContractAuthenticationReq")
|
|
if (False):
|
|
print("The response of the Alpi chargeParameterDiscovery")
|
|
testDecoder("80 9A 02 00 00 00 00 03 1F DC 8B D0 80 02 00 00 00 00 00 10 00 2A 80 04 00 00 14 0C 00 40 80 E1 8A 3A 0A 0A 00 A0 60 60 00 08 0A 01 E2 30 30 06 10", pre="DD", comment="ChargeParameterDiscoveryRes")
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if (False):
|
|
testDecoder("809a00113060", pre="DD", comment="PowerDeliveryReq")
|
|
testDecoder("809a0011400420400000", pre="DD", comment="PowerDeliveryRes")
|
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testDecoder("809a0010d0400000c800410c8000", pre="DD", comment="CurrentDemandReq")
|
|
testDecoder("809a0010e0020000003200019000000600", pre="DD", comment="CurrentDemandRes")
|
|
testDecoder("809a001210400000", pre="DD", comment="WeldingDetectionReq")
|
|
testDecoder("809a00122002000000320000", pre="DD", comment="WeldingDetectionRes")
|
|
testDecoder("809a0011f0", pre="DD", comment="SessionStopReq")
|
|
testDecoder("809a00120000", pre="DD", comment="SessionStopRes")
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|
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|
print("Number of fails: " + str(nFail))
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|
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|
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#print("Testing exiDecode with exiHexDemoSupportedApplicationProtocolRequestIoniq")
|
|
#print(exiDecode(exiHexDemoSupportedApplicationProtocolRequestIoniq))
|
|
#print("Testing exiDecode with exiHexDemoSupportedApplicationProtocolRequest2")
|
|
#strConverterResult = exiDecode(exiHexDemoSupportedApplicationProtocolRequest2)
|
|
#print(strConverterResult)
|
|
|
|
#strConverterResult = exiDecode(exiHexToByteArray(exiHexDemoSupportedApplicationProtocolRequest2))
|
|
#print(strConverterResult)
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