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JTNE协议、JTNewEnergy协议、GBNewEnergy协议、新能源协议、电动汽车远程服务与管理系统平台数据交换协议

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JTNewEnergy协议

MIT LicenceBuild Status

前提条件

  1. 掌握进制转换:二进制转十六进制;
  2. 掌握BCD编码、Hex编码;
  3. 掌握各种位移、异或;
  4. 掌握常用反射;
  5. 掌握快速ctrl+c、ctrl+v;
  6. 掌握以上装逼技能,就可以开始搬砖了。

JTNewEnergy数据结构解析

数据包[JTNEPackage]

起始标识1 起始标识2 命令标识 应答标志 车辆识别码 数据加密方式 数据单元长度 数据体 校验码
BeginFlag1 BeginFlag2 MsgId AskId VIN EncryptMethod DataUnitLength JTNEBodies BCCCode
0x23(#) 0x23(#) - - - - - - -

消息体属性[JTNEBodies]

根据对应消息ID:MsgId

举个栗子1

1.组包:

MsgId 0x02:实时信息上报

JTNEPackage jTNEPackage = new JTNEPackage();
//消息头
jTNEPackage.AskId = JTNEAskId.Success.ToByteValue();
jTNEPackage.MsgId = JTNEMsgId.uploadim.ToByteValue();
jTNEPackage.VIN = "123456789";
//消息体
JTNE_0x02 jTNE_0X02 = new JTNE_0x02();
jTNE_0X02.Values = new Dictionary<byte, JTNE_0x02_Body>();
//整车数据
JTNE_0x02_0x01 jTNE_0X02_0X01 = new JTNE_0x02_0x01();
jTNE_0X02_0X01.Accelerator = 0x02;
jTNE_0X02_0X01.Brakes = 0x03;
jTNE_0X02_0X01.CarStatus = 0x04;
jTNE_0X02_0X01.ChargeStatus = 0x05;
jTNE_0X02_0X01.DCStatus = 0x06;
jTNE_0X02_0X01.OperationMode = 0x07;
jTNE_0X02_0X01.Resistance = 123;
jTNE_0X02_0X01.SOC = 0x03;
jTNE_0X02_0X01.Speed = 58;
jTNE_0X02_0X01.Stall = 0x02;
jTNE_0X02_0X01.TotalDis = 6666;
jTNE_0X02_0X01.TotalTemp = 99;
jTNE_0X02_0X01.TotalVoltage = 100;
jTNE_0X02.Values.Add(JTNE_0x02_Body.JTNE_0x02_0x01, jTNE_0X02_0X01);
//驱动电机数据
JTNE_0x02_0x02 jTNE_0X02_0X02 = new JTNE_0x02_0x02();
jTNE_0X02_0X02.Electricals = new List<Metadata.Electrical>();
Metadata.Electrical electrical1 = new Metadata.Electrical();
electrical1.ElControlTemp = 0x01;
electrical1.ElCurrent = 100;
electrical1.ElNo = 0x01;
electrical1.ElSpeed = 65;
electrical1.ElStatus = 0x02;
electrical1.ElTemp = 0x03;
electrical1.ElTorque = 55;
electrical1.ElVoltage = 236;
Metadata.Electrical electrical2 = new Metadata.Electrical();
electrical2.ElControlTemp = 0x02;
electrical2.ElCurrent = 101;
electrical2.ElNo = 0x02;
electrical2.ElSpeed = 66;
electrical2.ElStatus = 0x03;
electrical2.ElTemp = 0x05;
electrical2.ElTorque = 566;
electrical2.ElVoltage = 2136;
jTNE_0X02_0X02.Electricals.Add(electrical1);
jTNE_0X02_0X02.Electricals.Add(electrical2);
jTNE_0X02.Values.Add(JTNE_0x02_Body.JTNE_0x02_0x02, jTNE_0X02_0X02);
//燃料电池数据
JTNE_0x02_0x03 jTNE_0X02_0X03 = new JTNE_0x02_0x03();
jTNE_0X02_0X03.DCStatus = 0x02;
jTNE_0X02_0X03.FuelBatteryCurrent = 111;
jTNE_0X02_0X03.FuelBatteryVoltage = 2222;
jTNE_0X02_0X03.FuelConsumptionRate = 3222;
jTNE_0X02_0X03.HydrogenSystemMaxConcentrations = 6666;
jTNE_0X02_0X03.HydrogenSystemMaxConcentrationsNo = 0x56;
jTNE_0X02_0X03.HydrogenSystemMaxPressure = 3336;
jTNE_0X02_0X03.HydrogenSystemMaxPressureNo = 0x65;
jTNE_0X02_0X03.HydrogenSystemMaxTemp = 3355;
jTNE_0X02_0X03.HydrogenSystemMaxTempNo = 0x22;
jTNE_0X02_0X03.Temperatures = new byte[]
{
    0x01,0x02,0x03
};
jTNE_0X02.Values.Add(JTNE_0x02_Body.JTNE_0x02_0x03, jTNE_0X02_0X03);
//发动机数据
JTNE_0x02_0x04 jTNE_0X02_0X04 = new JTNE_0x02_0x04();
jTNE_0X02_0X04.EngineStatus = 0x01;
jTNE_0X02_0X04.FuelRate = 102;
jTNE_0X02_0X04.Revs = 203;
jTNE_0X02.Values.Add(JTNE_0x02_Body.JTNE_0x02_0x04, jTNE_0X02_0X04);
//车辆位置数据
JTNE_0x02_0x05 jTNE_0X02_0X05 = new JTNE_0x02_0x05();
jTNE_0X02_0X05.Lat = 1233355;
jTNE_0X02_0X05.Lng = 3255555;
jTNE_0X02_0X05.PositioStatus = 0x01;
jTNE_0X02.Values.Add(JTNE_0x02_Body.JTNE_0x02_0x05, jTNE_0X02_0X05);
//极值数据
JTNE_0x02_0x06 jTNE_0X02_0X06 = new JTNE_0x02_0x06();
jTNE_0X02_0X06.MaxTempBatteryAssemblyNo = 0x12;
jTNE_0X02_0X06.MaxTempProbeBatteryNo = 0x32;
jTNE_0X02_0X06.MaxTempProbeBatteryValue = 0x42;
jTNE_0X02_0X06.MaxVoltageBatteryAssemblyNo = 0x11;
jTNE_0X02_0X06.MaxVoltageSingleBatteryNo = 0x15;
jTNE_0X02_0X06.MaxVoltageSingleBatteryValue = 123;
jTNE_0X02_0X06.MinTempBatteryAssemblyNo = 0x32;
jTNE_0X02_0X06.MinTempProbeBatteryNo = 0x11;
jTNE_0X02_0X06.MinTempProbeBatteryValue = 0x06;
jTNE_0X02_0X06.MinVoltageBatteryAssemblyNo = 0x07;
jTNE_0X02_0X06.MinVoltageSingleBatteryNo = 0x09;
jTNE_0X02_0X06.MinVoltageSingleBatteryValue = 0x08;
jTNE_0X02.Values.Add(JTNE_0x02_Body.JTNE_0x02_0x06, jTNE_0X02_0X06);
//报警数据
JTNE_0x02_0x07 jTNE_0X02_0X07 = new JTNE_0x02_0x07();
jTNE_0X02_0X07.AlarmBatteryFlag = 5533;
jTNE_0X02_0X07.AlarmLevel = 0x11;
jTNE_0X02_0X07.AlarmBatteryOthers = new List<uint>
{
    1000,1001,1002
};
jTNE_0X02_0X07.AlarmEls = new List<uint>
{
    2000,2001,2002
};
jTNE_0X02_0X07.AlarmEngines = new List<uint>
{
    3000,3001,3002
};
jTNE_0X02_0X07.AlarmOthers = new List<uint>
{
    4000,4001,4002
};
jTNE_0X02.Values.Add(JTNE_0x02_Body.JTNE_0x02_0x07, jTNE_0X02_0X07);
//可充电储能装置电压数据
JTNE_0x02_0x08 jTNE_0X02_0X08 = new JTNE_0x02_0x08();
jTNE_0X02_0X08.BatteryAssemblies = new List<Metadata.BatteryAssembly>();
Metadata.BatteryAssembly batteryAssembly1 = new Metadata.BatteryAssembly();
batteryAssembly1.BatteryAssemblyCurrent = 123;
batteryAssembly1.BatteryAssemblyNo = 0x01;
batteryAssembly1.BatteryAssemblyVoltage = 0x02;
batteryAssembly1.SingleBatteryCount = 55;
batteryAssembly1.ThisSingleBatteryBeginCount = 0x02;
batteryAssembly1.ThisSingleBatteryBeginNo = 111;
batteryAssembly1.SingleBatteryVoltages = new List<ushort> {
    111,222,333
};
Metadata.BatteryAssembly batteryAssembly2 = new Metadata.BatteryAssembly();
batteryAssembly2.BatteryAssemblyCurrent = 1234;
batteryAssembly2.BatteryAssemblyNo = 0x03;
batteryAssembly2.BatteryAssemblyVoltage = 0x05;
batteryAssembly2.SingleBatteryCount = 66;
batteryAssembly2.ThisSingleBatteryBeginCount = 0x02;
batteryAssembly2.ThisSingleBatteryBeginNo = 222;
batteryAssembly2.SingleBatteryVoltages = new List<ushort> {
    444,555,666
};
jTNE_0X02_0X08.BatteryAssemblies.Add(batteryAssembly1);
jTNE_0X02_0X08.BatteryAssemblies.Add(batteryAssembly2);
jTNE_0X02.Values.Add(JTNE_0x02_Body.JTNE_0x02_0x08, jTNE_0X02_0X08);

//可充电储能装置温度数据
JTNE_0x02_0x09 jTNE_0X02_0X09 = new JTNE_0x02_0x09();
jTNE_0X02_0X09.BatteryTemperatures = new List<Metadata.BatteryTemperature>();

Metadata.BatteryTemperature batteryTemperature1 = new Metadata.BatteryTemperature();
batteryTemperature1.BatteryAssemblyNo = 0x01;
batteryTemperature1.Temperatures = new byte[]
{
    0x01,0x02,0x03,0x04
};

Metadata.BatteryTemperature batteryTemperature2 = new Metadata.BatteryTemperature();
batteryTemperature2.BatteryAssemblyNo = 0x02;
batteryTemperature2.Temperatures = new byte[]
{
    0x05,0x06,0x07,0x08
};

jTNE_0X02_0X09.BatteryTemperatures.Add(batteryTemperature1);
jTNE_0X02_0X09.BatteryTemperatures.Add(batteryTemperature2);
jTNE_0X02.Values.Add(JTNE_0x02_Body.JTNE_0x02_0x09, jTNE_0X02_0X09);

jTNEPackage.Bodies = jTNE_0X02;
var hex = JTNESerializer.Serialize(jTNEPackage).ToHexString();

// 输出结果Hex:
2323020131323334353637383900000000000000000100D001040507003A00001A0A00640063030602007B02030202010201004100370300EC00640203020042023605085800650308AE006F0C9600030102030D1B221A0A560D086502040100CB006605010031AD030012D1CB061115007B0709000832124211320607110000159D03000003E8000003E9000003EA03000007D0000007D1000007D20300000BB800000BB900000BBA0300000FA000000FA100000FA20802010002007B0037006F03006F00DE014D03000504D2004200DE0301BC022B029A0902010004010203040200040506070867

2.手动解包:

1.原包:
2323020131323334353637383900000000000000000100D001040507003A00001A0A00640063030602007B02030202010201004100370300EC00640203020042023605085800650308AE006F0C9600030102030D1B221A0A560D086502040100CB006605010031AD030012D1CB061115007B0709000832124211320607110000159D03000003E8000003E9000003EA03000007D0000007D1000007D20300000BB800000BB900000BBA0300000FA000000FA100000FA20802010002007B0037006F03006F00DE014D03000504D2004200DE0301BC022B029A0902010004010203040200040506070867

2.拆解
23 23                         --起始符
02                            --命令标识
01                            --应答标志 
31 32 33 34 35 36 37 38 
39 00 00 00 00 00 00 00 00    --VIN
01                            --数据加密方式
00 D0                         --数据单元长度

01                            --整车数据
04 05 07 00 3A 00 00 1A 
0A 00 64 00 63 03 06 02 
00 7B 02 03 
02                            --驱动电机数据 
02 01 02 01 00 41 00 37 
03 00 EC 00 64 02 03 02 
00 42 02 36 05 08 58 00 65
03                            --燃料电池数据
08 AE 00 6F 0C 96 00 03 
01 02 03 0D 1B 22 1A 0A 
56 0D 08 65 02 
04                            --发动机数据
01 00 CB 00 66 
05                            --车辆位置数据
01 00 31 AD 03 00 12 D1 
CB
06                            --极值数据
11 15 00 7B 07 09 00 08 
32 12 42 11 32 06 
07                            --报警数据
11 00 00 15 9D 03 00 00 
03 E8 00 00 03 E9 00 00 
03 EA 03 00 00 07 D0 00 
00 07 D1 00 00 07 D2 03 
00 00 0B B8 00 00 0B B9 
00 00 0B BA 03 00 00 0F 
A0 00 00 0F A1 00 00 0F 
A2
08                            --可充电储能装置电压数据
02 01 00 02 00 7B 00 37 
00 6F 03 00 6F 00 DE 01
4D 03 00 05 04 D2 00 42
00 DE 03 01 BC 02 2B 02 9A 
09                            --可充电储能装置温度数据
02 01 00 04 01 02 03 04 
02 00 04 05 06 07 08 

67                            --校验位

3.程序解包:

1.原包:
string data="2323020131323334353637383900000000000000000100D001040507003A00001A0A00640063030602007B02030202010201004100370300EC00640203020042023605085800650308AE006F0C9600030102030D1B221A0A560D086502040100CB006605010031AD030012D1CB061115007B0709000832124211320607110000159D03000003E8000003E9000003EA03000007D0000007D1000007D20300000BB800000BB900000BBA0300000FA000000FA100000FA20802010002007B0037006F03006F00DE014D03000504D2004200DE0301BC022B029A0902010004010203040200040506070867";

2.将原包反序列化
JTNEPackage jTNEPackage = JTNESerializer.Deserialize(data);
JTNE_0x02 jTNE_0X02 = jTNEPackage.Bodies as JTNE_0x02;

//整车数据
JTNE_0x02_0x01 jTNE_0X02_0X01 = jTNE_0X02.Values[JTNE_0x02_Body.JTNE_0x02_0x01] as JTNE_0x02_0x01;
Assert.Equal(JTNE_0x02_Body.JTNE_0x02_0x01, jTNE_0X02_0X01.TypeCode);
Assert.Equal(0x02, jTNE_0X02_0X01.Accelerator);
Assert.Equal(0x03, jTNE_0X02_0X01.Brakes);
Assert.Equal(0x04, jTNE_0X02_0X01.CarStatus);
Assert.Equal(0x05, jTNE_0X02_0X01.ChargeStatus);
Assert.Equal(0x06, jTNE_0X02_0X01.DCStatus);
Assert.Equal(0x07, jTNE_0X02_0X01.OperationMode);
Assert.Equal(123, jTNE_0X02_0X01.Resistance);
Assert.Equal(0x03, jTNE_0X02_0X01.SOC);
Assert.Equal(58, jTNE_0X02_0X01.Speed);
Assert.Equal(0x02, jTNE_0X02_0X01.Stall);
Assert.Equal((uint)6666, jTNE_0X02_0X01.TotalDis);
Assert.Equal(99, jTNE_0X02_0X01.TotalTemp);
Assert.Equal(100, jTNE_0X02_0X01.TotalVoltage);

//驱动电机数据
JTNE_0x02_0x02 jTNE_0X02_0X02 = jTNE_0X02.Values[JTNE_0x02_Body.JTNE_0x02_0x02] as JTNE_0x02_0x02;
Assert.Equal(JTNE_0x02_Body.JTNE_0x02_0x02, jTNE_0X02_0X02.TypeCode);
Assert.Equal(2, jTNE_0X02_0X02.ElectricalCount);
Metadata.Electrical electrical1 = jTNE_0X02_0X02.Electricals[0];
Assert.Equal(0x01, electrical1.ElControlTemp);
Assert.Equal(100, electrical1.ElCurrent);
Assert.Equal(0x01, electrical1.ElNo);
Assert.Equal(65, electrical1.ElSpeed);
Assert.Equal(0x02, electrical1.ElStatus);
Assert.Equal(0x03, electrical1.ElTemp);
Assert.Equal(55, electrical1.ElTorque);
Assert.Equal(236, electrical1.ElVoltage);
Metadata.Electrical electrical2 = jTNE_0X02_0X02.Electricals[1];
Assert.Equal(0x02, electrical2.ElControlTemp);
Assert.Equal(101, electrical2.ElCurrent);
Assert.Equal(0x02, electrical2.ElNo);
Assert.Equal(66, electrical2.ElSpeed);
Assert.Equal(0x03, electrical2.ElStatus);
Assert.Equal(0x05, electrical2.ElTemp);
Assert.Equal(566, electrical2.ElTorque);
Assert.Equal(2136, electrical2.ElVoltage);

//燃料电池数据
JTNE_0x02_0x03 jTNE_0X02_0X03 = jTNE_0X02.Values[JTNE_0x02_Body.JTNE_0x02_0x03] as JTNE_0x02_0x03;
Assert.Equal(JTNE_0x02_Body.JTNE_0x02_0x03, jTNE_0X02_0X03.TypeCode);
Assert.Equal(0x02, jTNE_0X02_0X03.DCStatus);
Assert.Equal(111, jTNE_0X02_0X03.FuelBatteryCurrent);
Assert.Equal(2222, jTNE_0X02_0X03.FuelBatteryVoltage);
Assert.Equal(3222, jTNE_0X02_0X03.FuelConsumptionRate);
Assert.Equal(6666, jTNE_0X02_0X03.HydrogenSystemMaxConcentrations);
Assert.Equal(0x56, jTNE_0X02_0X03.HydrogenSystemMaxConcentrationsNo);
Assert.Equal(3336, jTNE_0X02_0X03.HydrogenSystemMaxPressure);
Assert.Equal(0x65, jTNE_0X02_0X03.HydrogenSystemMaxPressureNo);
Assert.Equal(3355, jTNE_0X02_0X03.HydrogenSystemMaxTemp);
Assert.Equal(0x22, jTNE_0X02_0X03.HydrogenSystemMaxTempNo);
Assert.Equal(new byte[] { 0x01, 0x02, 0x03 }, jTNE_0X02_0X03.Temperatures);

//发动机数据
JTNE_0x02_0x04 jTNE_0X02_0X04 = jTNE_0X02.Values[JTNE_0x02_Body.JTNE_0x02_0x04] as JTNE_0x02_0x04;
Assert.Equal(JTNE_0x02_Body.JTNE_0x02_0x04, jTNE_0X02_0X04.TypeCode);
Assert.Equal(0x01, jTNE_0X02_0X04.EngineStatus);
Assert.Equal(102, jTNE_0X02_0X04.FuelRate);
Assert.Equal(203, jTNE_0X02_0X04.Revs);

//车辆位置数据
JTNE_0x02_0x05 jTNE_0X02_0X05 = jTNE_0X02.Values[JTNE_0x02_Body.JTNE_0x02_0x05] as JTNE_0x02_0x05;
Assert.Equal(JTNE_0x02_Body.JTNE_0x02_0x05, jTNE_0X02_0X05.TypeCode);
Assert.Equal((uint)1233355, jTNE_0X02_0X05.Lat);
Assert.Equal((uint)3255555, jTNE_0X02_0X05.Lng);
Assert.Equal(0x01, jTNE_0X02_0X05.PositioStatus);

//极值数据
JTNE_0x02_0x06 jTNE_0X02_0X06 = jTNE_0X02.Values[JTNE_0x02_Body.JTNE_0x02_0x06] as JTNE_0x02_0x06;
Assert.Equal(0x12, jTNE_0X02_0X06.MaxTempBatteryAssemblyNo);
Assert.Equal(0x32, jTNE_0X02_0X06.MaxTempProbeBatteryNo);
Assert.Equal(0x42, jTNE_0X02_0X06.MaxTempProbeBatteryValue);
Assert.Equal(0x11, jTNE_0X02_0X06.MaxVoltageBatteryAssemblyNo);
Assert.Equal(0x15, jTNE_0X02_0X06.MaxVoltageSingleBatteryNo);
Assert.Equal(123, jTNE_0X02_0X06.MaxVoltageSingleBatteryValue);
Assert.Equal(0x11, jTNE_0X02_0X06.MinTempProbeBatteryNo);
Assert.Equal(0x06, jTNE_0X02_0X06.MinTempProbeBatteryValue);
Assert.Equal(0x07, jTNE_0X02_0X06.MinVoltageBatteryAssemblyNo);
Assert.Equal(0x09, jTNE_0X02_0X06.MinVoltageSingleBatteryNo);
Assert.Equal(0x08, jTNE_0X02_0X06.MinVoltageSingleBatteryValue);

//报警数据
JTNE_0x02_0x07 jTNE_0X02_0X07 = jTNE_0X02.Values[JTNE_0x02_Body.JTNE_0x02_0x07] as JTNE_0x02_0x07;
Assert.Equal(JTNE_0x02_Body.JTNE_0x02_0x07, jTNE_0X02_0X07.TypeCode);
Assert.Equal(0x11, jTNE_0X02_0X07.AlarmLevel);
Assert.Equal(3, jTNE_0X02_0X07.AlarmBatteryOthers.Count);
Assert.Equal(new List<uint>
{
    1000,1001,1002
}, jTNE_0X02_0X07.AlarmBatteryOthers);
Assert.Equal(3, jTNE_0X02_0X07.AlarmEls.Count);
Assert.Equal(new List<uint>
{
    2000,2001,2002
}, jTNE_0X02_0X07.AlarmEls);
Assert.Equal(3, jTNE_0X02_0X07.AlarmEngines.Count);
Assert.Equal(new List<uint>
{
    3000,3001,3002
}, jTNE_0X02_0X07.AlarmEngines);
Assert.Equal(3, jTNE_0X02_0X07.AlarmOthers.Count);
Assert.Equal(new List<uint>
{
    4000,4001,4002
}, jTNE_0X02_0X07.AlarmOthers);

//可充电储能装置电压数据
JTNE_0x02_0x08 jTNE_0X02_0X08 = jTNE_0X02.Values[JTNE_0x02_Body.JTNE_0x02_0x08] as JTNE_0x02_0x08;
Assert.Equal(JTNE_0x02_Body.JTNE_0x02_0x08, jTNE_0X02_0X08.TypeCode);
Assert.Equal(2, jTNE_0X02_0X08.BatteryAssemblyCount);

Metadata.BatteryAssembly batteryAssembly1 = jTNE_0X02_0X08.BatteryAssemblies[0];
Assert.Equal(123, batteryAssembly1.BatteryAssemblyCurrent);
Assert.Equal(0x01, batteryAssembly1.BatteryAssemblyNo);
Assert.Equal(0x02, batteryAssembly1.BatteryAssemblyVoltage);
Assert.Equal(55, batteryAssembly1.SingleBatteryCount);
Assert.Equal(111, batteryAssembly1.ThisSingleBatteryBeginNo);
Assert.Equal(3, batteryAssembly1.ThisSingleBatteryBeginCount);
Assert.Equal(new List<ushort> {
    111,222,333
}, batteryAssembly1.SingleBatteryVoltages);

Metadata.BatteryAssembly batteryAssembly2 = jTNE_0X02_0X08.BatteryAssemblies[1];
Assert.Equal(1234, batteryAssembly2.BatteryAssemblyCurrent);
Assert.Equal(0x03, batteryAssembly2.BatteryAssemblyNo);
Assert.Equal(0x05, batteryAssembly2.BatteryAssemblyVoltage);
Assert.Equal(66, batteryAssembly2.SingleBatteryCount);
Assert.Equal(222, batteryAssembly2.ThisSingleBatteryBeginNo);
Assert.Equal(3, batteryAssembly2.ThisSingleBatteryBeginCount);
Assert.Equal(new List<ushort> {
    444,555,666
}, batteryAssembly2.SingleBatteryVoltages);

//可充电储能装置温度数据
JTNE_0x02_0x09 jTNE_0X02_0X09 = jTNE_0X02.Values[JTNE_0x02_Body.JTNE_0x02_0x09] as JTNE_0x02_0x09;
Assert.Equal(JTNE_0x02_Body.JTNE_0x02_0x09, jTNE_0X02_0X09.TypeCode);
Assert.Equal(2, jTNE_0X02_0X09.BatteryTemperatureCount);

Metadata.BatteryTemperature batteryTemperature1 = jTNE_0X02_0X09.BatteryTemperatures[0];
Assert.Equal(0x01, batteryTemperature1.BatteryAssemblyNo);
Assert.Equal(4, batteryTemperature1.TemperatureProbeCount);
Assert.Equal(new byte[]
{
    0x01,0x02,0x03,0x04
}, batteryTemperature1.Temperatures);

Metadata.BatteryTemperature batteryTemperature2 = jTNE_0X02_0X09.BatteryTemperatures[1];
Assert.Equal(0x02, batteryTemperature2.BatteryAssemblyNo);
Assert.Equal(4, batteryTemperature2.TemperatureProbeCount);
Assert.Equal(new byte[]
{
    0x05,0x06,0x07,0x08
}, batteryTemperature2.Temperatures);

举个栗子2

// 使用消息Id的扩展方法创建JTNEPackage包
JTNEPackage jTNEPackage= JTNEMsgId.login.Create("123456789", JTNEAskId.CMD, new JTNE_0x01
{
    PDATime = DateTime.Parse("2019-01-22 23:55:56"),
    LoginNum = 1,
    BatteryLength = 0x04,
    SIM = "12345678998765432100",
    BatteryNos = new List<string>()
    {
       "1234",
       "4567",
       "9870"
    }
});
var hex = JTNESerializer.Serialize(jTNEPackage).ToHexString();
//输出结果Hex:
232301FE313233343536373839000000000000000001002A130116173738000131323334353637383939383736353433323130300304313233343435363739383730FD

举个栗子3

// 全局配置
JTNEGlobalConfig.Instance
    //.SetDeviceMsgSNDistributed(//todo 实现IDeviceMsgSNDistributed设备流水号)
    //.SetPlatformMsgSNDistributed(//todo 实现IPlatformMsgSNDistributed平台流水号)
    //.SetDataBodiesEncrypt(//todo 实现IJTNEEncrypt消息数据体加密算法)
    //.SetPlatformLoginEncrypt(//todo 实现IJTNEEncrypt平台登入加密算法)
    // 注册自定义车载终端控制命令
    //.Register_JTNE0x82CustomBody(//todo 继承自JTNE_0x82_Body类)
    // 注册自定义实时信息上报信息
    //.Register_JTNE0x02CustomBody(//todo 继承自JTNE_0x02_CustomBody类)
    // 若为终端设置命令,则自定义终端设置命令,若为参数查询响应命令,则为自定义参数查询响应命令
    //.Register_JTNE0x81CustomBody(//todo 继承自JTNE_0x81_Body类)
    // 若为终端设置命令,则自定义终端设置命令依赖对象,若为参数查询响应命令,则为自定义参数查询响应命令依赖对象
    //.Register_JTNE0x81CustomDepenedBody("依赖对象消息id","被依赖对象消息id")
    // 跳过校验码验证
    .SetSkipCRCCode(true);

NuGet安装

Package Name Version Downloads
Install-Package JTNewEnergy JTNewEnergy JTNewEnergy

使用BenchmarkDotNet性能测试报告(只是玩玩,不能当真)

BenchmarkDotNet=v0.11.3, OS=Windows 10.0.17134.472 (1803/April2018Update/Redstone4)
Intel Core i7-8700K CPU 3.70GHz (Coffee Lake), 1 CPU, 12 logical and 6 physical cores
  [Host]     : .NET Framework 4.7.2 (CLR 4.0.30319.42000), 64bit RyuJIT-v4.7.3260.0
  Job-FVMQGI : .NET Framework 4.7.2 (CLR 4.0.30319.42000), 64bit RyuJIT-v4.7.3260.0
  Job-LGLQDK : .NET Core 2.2.0 (CoreCLR 4.6.27110.04, CoreFX 4.6.27110.04), 64bit RyuJIT

Platform=AnyCpu  Runtime=Clr  Server=False  
Method Toolchain N Mean Error StdDev Gen 0/1k Op Gen 1/1k Op Gen 2/1k Op Allocated Memory/Op
JTNE_0x02_Serialize Default 100 5.997 ms 0.0704 ms 0.0659 ms 156.2500 - - 1000.83 KB
JTNE_0x02_Deserialize Default 100 5.713 ms 0.0654 ms 0.0611 ms 140.6250 - - 906.31 KB
JTNE_0x02_Serialize .NET Core 2.2 100 5.003 ms 0.0706 ms 0.0660 ms 140.6250 - - 878.13 KB
JTNE_0x02_Deserialize .NET Core 2.2 100 4.591 ms 0.0876 ms 0.0899 ms 125.0000 - - 780.47 KB
JTNE_0x02_Serialize Default 10000 621.248 ms 12.0181 ms 11.8034 ms 16000.0000 - - 100081.45 KB
JTNE_0x02_Deserialize Default 10000 569.567 ms 9.4221 ms 8.8135 ms 14000.0000 - - 90629.45 KB
JTNE_0x02_Serialize .NET Core 2.2 10000 509.149 ms 9.9488 ms 9.3061 ms 14000.0000 - - 87812.5 KB
JTNE_0x02_Deserialize .NET Core 2.2 10000 457.481 ms 8.6865 ms 8.9204 ms 12000.0000 - - 78046.88 KB
JTNE_0x02_Serialize Default 100000 6,038.592 ms 37.8782 ms 35.4313 ms 162000.0000 1000.0000 - 1000795.95 KB
JTNE_0x02_Deserialize Default 100000 5,676.756 ms 51.2919 ms 47.9785 ms 147000.0000 1000.0000 - 906264.57 KB
JTNE_0x02_Serialize .NET Core 2.2 100000 5,112.387 ms 66.7348 ms 59.1586 ms 142000.0000 1000.0000 - 878125 KB
JTNE_0x02_Deserialize .NET Core 2.2 100000 4,469.358 ms 20.2586 ms 15.8166 ms 127000.0000 1000.0000 - 780468.75 KB

JTNewEnergy终端通讯协议消息对照表

序号 消息ID 完成情况 测试情况 消息体名称
1 0x01 车辆登入
2 0x02 实时信息上传
3 0x03 补传信息上传
4 0x04 车辆登出
5 0x05 平台登入
6 0x06 平台登出
7 0x07 心跳
8 0x08 终端校时
9 0x09~0x7F - - 上行数据系统预留
10 0x80 查询命令
11 0x81 设置命令
12 0x82 车载终端控制命令
13 0x83~0xBF - - 下行数据系统预留
14 0xC0~0xFE - - 平台交换自定义数据

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JTNE协议、JTNewEnergy协议、GBNewEnergy协议、新能源协议、电动汽车远程服务与管理系统平台数据交换协议

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