rts-sim-testing-message/protos/device_state.proto

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syntax = "proto3";
import "stationLayoutGraphics.proto";
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import "common_data.proto";
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import "request.proto";
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package state;
option java_package = "club.joylink.bjrtss.ats.verify.protos";
option java_outer_classname = "DeviceStateProto";
option go_package = "joylink.club/bj-rtsts-server/dto/state_proto";
//option go_package = "dto/state_proto;";
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//状态定义面向物理层即只定义物理状态,不定义逻辑层状态
//区段类型
enum SectionType{
Any = 0;
//计轴区段
Axle = 1;
//逻辑区段
Logic = 2;
//物理区段
Physic = 3;
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}
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//相邻端点定义的link的状态
message LinkState{
//link索引
uint32 id = 1;
//link上的列车id列表
repeated string trainId = 2;
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}
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//区段状态
message SectionState{
//区段索引
uint32 id = 1;
//区段占用
//true-占用false-出清
bool occupied = 3;
//计轴故障
bool axleFault = 4;
// 计轴复位
bool axleDrst = 5;
// 计轴预复位
bool axlePdrst = 6;
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}
//道岔状态
message SwitchState{
//道岔索引
uint32 id = 1;
//道岔处于定位(表示)
bool normal = 2;
//道岔处于反位(表示)
bool reverse = 3;
//道岔处于定位(实际)
bool dw = 4;
//道岔处于反位(实际)
bool fw = 5;
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// 道岔设置参数
request.PointsParam param = 6;
// 定操驱动
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bool qdc = 7;
// 反操驱动
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bool qfc = 8;
// 允许操驱动
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bool qyc = 9;
// 定操采集
bool dc = 10;
// 反操采集
bool fc = 11;
// 允许操作采集
bool yc = 12;
// 是否占用
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bool occupied = 13;
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}
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//信号机状态
message SignalState{
//信号机索引
uint32 id = 1;
//信号机的灯列表
Signal.Aspect aspect = 2;
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// 信号机设置参数
request.SignalParam param = 3;
// 信号机继电器状态
map<string, bool> relayStateMap = 4;
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}
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//信号机显示定义
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message Signal {
//信号机显示枚举
enum Aspect {
//灭灯
OFF = 0;
//红
H = 1;
//绿灯亮
L = 2;
//黄
U = 3;
//红黄
HU = 4;
//白
B = 5;
//蓝
A = 6;
}
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}
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//站台状态
message PlatformState{
//站台索引
uint32 id = 1;
// EMP继电器状态
bool empj = 2;
// SPKS继电器状态
repeated ReplyState spksState = 3;
// 门控箱继电器状态
MkxJState mkxJState = 4;
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}
//车站状态
message StationState{
//车站索引
uint32 id = 1;
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}
//列车连接状态
message TrainConnState{
bool conn = 1;//连接状态
TrainConnType connType = 2;
uint32 TrainControlMapId = 3; //关联的列车控制mapId
enum TrainConnType{
NONE = 0;//未知连接
VOBC = 1; //半实物
PC_SIM = 2; //PC仿真
}
}
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//列车状态
message TrainState{
//列车索引
string id = 1;
//列车初始link运行方向
bool up = 2;
// 列车初始速度
float speed = 3;
//列车长度,1=1mm
int64 trainLength = 4;
//列车是否显示此状态仅在列车被删除时为false若需更改用途需增加列车被删除状态
bool show = 5;
// 列车车头所在设备ID
uint32 headDeviceId = 6;
// 列车车头所在设备偏移量
int64 headOffset = 7;
// 设备端口
string devicePort = 8;
// 运行方向指向(区段A-B,道岔:-> 岔心)
bool pointTo = 9;
// 运行上下行(公里标 上行:小 -> 大,下行:大 -> 小)
bool runDirection = 10;
// 列车车头方向
bool headDirection = 11;
// 动力学信息
TrainDynamicState dynamicState = 12;
// 半实物信息
TrainVobcState vobcState = 13;
// 所在公里标
int64 trainKilometer = 14;
// 控制响应延时
int64 controlDelayTime = 15;
// 列车轮径
int32 wheelDiameter = 16;
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//列车动力学配置
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common.TrainDynamicConfig trainDynamicConfig = 17;
//列车A端
common.TrainEndsState trainEndsA = 18;
//列车B端
common.TrainEndsState trainEndsB = 19;
// 列车尾端所在设备ID
uint32 tailDeviceId = 20;
// 列车尾端所在设备偏移量
int64 tailOffset = 21;
// 列车尾端所在设备端口
string tailDevicePort = 22;
// BTM状态
BTMState btmState = 23;
TrainControlState tcc = 24;
TrainConnState connState = 25; //列车连接第三方状态
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SensorSpeedPulseCount pluseCount = 26;
}
//速度传感器脉冲数
message SensorSpeedPulseCount{
uint32 pulseCount1 = 1;
uint32 pulseCount2 = 2;
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}
// 动力学列车状态
message TrainDynamicState {
// 生命信号 每个周期+1
int32 heartbeat = 1;
//车头所在link的索引
string headLinkId = 2;
//车头所在link内的偏移量单位为mm
int64 headLinkOffset = 3;
//车尾所在link的索引
string tailLinkId = 4;
//车尾所在link内的偏移量单位为mm
int64 tailLinkOffset = 5;
//列车所占用的link的索引的列表
//顺序为从车头到车尾
repeated string occupiedLinkIndex = 6;
//列车所在位置坡度值,1=1‰
int32 slope = 7;
//列车所在位置坡度走势,1=上坡true0=下坡false
bool upslope = 8;
//列车当前运行方向,1 =上行true 0 =下行false
bool runningUp = 9;
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//实际运行阻力NtotalResistance,1=1N
float runningResistanceSum = 10;
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//阻力1空气阻力NairResistance,1=1N
float airResistance = 11;
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//阻力2坡道阻力NslopeResistance,1=1N
float rampResistance = 12;
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//阻力3曲线阻力NcurveResistance,1=1N
float curveResistance = 13;
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//列车运行速度m/sspeed,1=1m/s 此处放置的是转换后的数据km/h
int32 speed = 14;
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//头车速传1速度值m/sheadSpeed1,1=1m/s 此处放置的是转换后的数据km/h
int32 headSensorSpeed1 = 15;
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//头车速度2速度值m/sheadSpeed2,1=1m/s 此处放置的是转换后的数据km/h
int32 headSensorSpeed2 = 16;
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//尾车速传1速度值m/stailSpeed1,1=1m/s 此处放置的是转换后的数据km/h
int32 tailSensorSpeed1 = 17;
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//尾车速度2速度值m/stailSpeed2,1=1m/s 此处放置的是转换后的数据km/h
int32 tailSensorSpeed2 = 18;
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//头车雷达速度值m/sheadRadarSpeed,1=1m/s 此处放置的是转换后的数据km/h
int32 headRadarSpeed = 19;
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//尾车雷达速度值m/stailRadarSpeed,1=1m/s 此处放置的是转换后的数据km/h
int32 tailRadarSpeed = 20;
// 通讯中断
bool udpInterruption = 21;
// 加速
float acceleration = 22;
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//列车位移
int32 Displacement = 23;
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}
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// vobc发过来的列车信息 包括 (驾驶台和车载)
message TrainVobcState {
// 生命信号 每个周期+1
int32 lifeSignal = 1;
// TC1激活状态 1=激活
bool tc1Active = 2;
// TC2激活状态 1=激活
bool tc2Active = 3;
// 列车方向向前 1=方向向前
bool directionForward = 4;
// 列车方向向后 1=方向向后
bool directionBackward = 5;
// 列车牵引状态 1=牵引
bool tractionStatus = 6;
// 列车制动状态 1=制动
bool brakingStatus = 7;
// 列车紧急制动状态 1=紧急制动
bool emergencyBrakingStatus = 8;
// 列车折返状态AR 1=折返
bool turnbackStatus = 9;
// 跳跃状态 1=跳跃
bool jumpStatus = 10;
// ATO模式 1=ATO模式
bool ato = 11;
// FAM模式 1=FAM模式
bool fam = 12;
// CAM模式 1=CAM模式
bool cam = 13;
// 牵引安全回路 1=牵引安全切除
bool tractionSafetyCircuit = 14;
// 停放制动状态 1=停放施加
bool parkingBrakeStatus = 15;
// 保持制动状态 1=保持制动施加
bool maintainBrakeStatus = 16;
// 列车牵引力 100=1KN
int64 tractionForce = 17;
// 列车制动力 100=1KN
int64 brakeForce = 18;
//【列车载荷 100=1ton
int64 trainLoad = 19;
// 列车开左门指令 1=开门
bool leftDoorOpenCommand = 20;
// 列车开右门指令 1=开门
bool rightDoorOpenCommand = 21;
// 列车关左门指令 1=关门
bool leftDoorCloseCommand = 22;
// 列车关右门指令 1=关门
bool rightDoorCloseCommand = 23;
// 整列车门关好 1=门关好
bool allDoorClose = 24;
// 通讯中断
bool udpInterruption = 25;
// 更新时间
int64 updateTime = 26;
//强制门允许
bool forceDoorAllow = 27;
// 模式降级按钮
bool modeLevelDownBtn = 28;
// 确认按钮
bool confirmBtn = 29;
// 模式升级按钮
bool modeLevelUpBtn = 30;
// ATO发车按钮
bool atoSendTrainBtn = 31;
// 列车完整性
bool trainIntegrity = 32;
// 车载ATP/ATO旁路状态
bool atpOrAtoBypassState = 33;
// 车辆牵引已切除状态
// bool trainTractionCuted = 34;
// 障碍物检测按钮
bool obstacleCheckBtn = 35;
// 驾驶室激活反馈按钮
bool driverActiveReportBtn = 36;
// 制动重故障按钮
bool brakeHeavyFault = 37;
// 左门状态按钮
bool leftDoorStateBtn = 38;
// 右门状态按钮
bool rightDoorStateBtn = 39;
// 唤醒按钮
bool wakeUpBtn = 40;
// 检修按钮
bool overhaulBtn = 41;
// 欠压按钮
bool undervoltageBtn = 42;
// 休眠按钮
bool sleepBtn = 43;
// 紧急手柄拉下
bool emergentHandleDown = 44;
// 车门锁闭状态
bool doorLockState =45;
// 逃生门状态
bool lifeDoorState=46;
// 车辆低压上电状态
bool trainLowPowerResetState=47;
// ATP上电按钮
bool atpPowerOnBtn=48;
// AA自动开关门
bool doorModeAA=49;
//AM自开人关
bool doorModeAM=50;
// MM人开人关
bool doorModeMM=51;
// 外部紧急制动反馈
bool outerEmergentBrakeReport = 52;
// 车门外指示灯
bool trainDoorOutLed = 53;
//本端ATP控车
bool localAtpControl = 54;
//ATO制动命令输出
bool atoBrakeCommand = 55;
// ATO牵引命令输出
bool atoTractionCommandOut = 56;
//ATO惰行命令输出
bool atoLazyCommandOut = 57;
//// AR灯命令
// bool arLightCommand = 58;
//ATO保持制动
bool atoAlwaysBrake=59;
//ATO开左门
bool atoOpenLeftDoor=60;
//ATO开右门
bool atoOpenRightDoor=61;
//ATO关左门
bool atoCloseLeftDoor=62;
// 零速信号
bool noSpeedSigle = 63;
// 列车启动指示灯
bool trainStartedLed = 64;
// 常用制动
bool mostUseBrake = 65;
// 过分相输出
bool splittingOut = 66;
// 模式继电器
bool modeRelay = 67;
// 牵引有效
bool tractionEffective=68;
// 制动有效
bool brakeEffective=69;
// 制动隔离
bool brakeQuarantine=70;
// 停放制动缓解
bool stopNotAllBrake=71;
// ATO牵引指令1
bool atoTractionCommand1 = 72;
// ATO牵引指令2
bool atoTractionCommand2=73;
// ATO牵引指令3
bool atoTractionCommand3=74;
uint32 mockInfo = 75; //车载接口输出的模拟量信息
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}
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// 发给前端的列车状态
message TrainMapState{
//列车索引
string id = 1;
//列车初始link运行方向
bool up = 2;
// 列车初始速度
float initialSpeed = 3;
//列车长度,1=1mm
int64 trainLength = 4;
//列车是否显示
bool show = 5;
// 列车车头所在设备ID
uint32 headDeviceId = 6;
// 列车车头所在设备偏移量
int64 headOffset = 7;
// 设备端口
string devicePort = 8;
// 运行方向指向(区段A-B,道岔:-> 岔心)
bool pointTo = 9;
// 运行上下行(公里标 上行:小 -> 大,下行:大 -> 小)
bool runDirection = 10;
// 列车车头方向
bool headDirection = 11;
// 所在公里标
int64 trainKilometer = 12;
// 控制响应延时
int64 controlDelayTime = 13;
// 列车轮径
int32 wheelDiameter = 14;
// 动力学信息
// 生命信号 每个周期+1
int32 dynamicHeartbeat = 15;
//车头所在link的索引
string headLinkId = 16;
//车头所在link内的偏移量单位为mm
int64 headLinkOffset = 17;
//车尾所在link的索引
string tailLinkId = 18;
//车尾所在link内的偏移量单位为mm
int64 tailLinkOffset = 19;
//列车所占用的link的索引的列表
//顺序为从车头到车尾
repeated string occupiedLinkIndex = 20;
//列车所在位置坡度值,1=1‰
int32 slope = 21;
//列车所在位置坡度走势,1=上坡true0=下坡false
bool upslope = 22;
//列车当前运行方向,1 =上行true 0 =下行false
bool runningUp = 23;
//实际运行阻力NtotalResistance,1=1KN
float runningResistanceSum = 24;
//阻力1空气阻力NairResistance,1=1KN
float airResistance = 25;
//阻力2坡道阻力NslopeResistance,1=1KN
float rampResistance = 26;
//阻力3曲线阻力NcurveResistance,1=1KN
float curveResistance = 27;
//列车运行速度m/sspeed,1=1km/h
int32 speed = 28;
//头车速传1速度值m/sheadSpeed1,1=1km/h
int32 headSensorSpeed1 = 29;
//头车速度2速度值m/sheadSpeed2,1=1km/h
int32 headSensorSpeed2 = 30;
//尾车速传1速度值m/stailSpeed1,1=1km/h
int32 tailSensorSpeed1 = 31;
//尾车速度2速度值m/stailSpeed2,1=1km/h
int32 tailSensorSpeed2 = 32;
//头车雷达速度值m/sheadRadarSpeed,1=1km/h
int32 headRadarSpeed = 33;
//尾车雷达速度值m/stailRadarSpeed,1=1km/h
int32 tailRadarSpeed = 34;
// 通讯中断
bool dynamicInterruption = 35;
// 加速
float acceleration = 36;
// 半实物信息
// 生命信号 每个周期+1
int32 vobcLifeSignal = 37;
// TC1激活状态 1=激活
bool tc1Active = 38;
// TC2激活状态 1=激活
bool tc2Active = 39;
// 列车方向向前 1=方向向前
bool directionForward = 40;
// 列车方向向后 1=方向向后
bool directionBackward = 41;
// 列车牵引状态 1=牵引
bool tractionStatus = 42;
// 列车制动状态 1=制动
bool brakingStatus = 43;
// 列车紧急制动状态 1=紧急制动
bool emergencyBrakingStatus = 44;
// 列车折返状态AR 1=折返
bool turnbackStatus = 45;
// 跳跃状态 1=跳跃
bool jumpStatus = 46;
// ATO模式 1=ATO模式
bool ato = 47;
// FAM模式 1=FAM模式
bool fam = 48;
// CAM模式 1=CAM模式
bool cam = 49;
// 牵引安全回路 1=牵引安全切除
bool tractionSafetyCircuit = 50;
// 停放制动状态 1=停放施加
bool parkingBrakeStatus = 51;
// 保持制动状态 1=保持制动施加
bool maintainBrakeStatus = 52;
// 列车牵引力 100=1KN
int64 tractionForce = 53;
// 列车制动力 100=1KN
int64 brakeForce = 54;
//【列车载荷 100=1ton
int64 trainLoad = 55;
// 列车开左门指令 1=开门
bool leftDoorOpenCommand = 56;
// 列车开右门指令 1=开门
bool rightDoorOpenCommand = 57;
// 列车关左门指令 1=关门
bool leftDoorCloseCommand = 58;
// 列车关右门指令 1=关门
bool rightDoorCloseCommand = 59;
// 整列车门关好 1=门关好
bool allDoorClose = 60;
// 通讯中断
bool vobcInterruption = 61;
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//列车动力学配置
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TrainDynamicConfigMqtt trainDynamicConfig = 62;
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//列车A端
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TrainEndsStateMqtt trainEndsA = 63;
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//列车B端
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TrainEndsStateMqtt trainEndsB = 64;
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//列车位移
int32 Displacement = 65;
// 列车车尾所在设备ID
uint32 tailDeviceId = 66;
// 列车车尾所在设备偏移量
int64 tailOffset = 67;
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// 列车车尾所在设备端口
string tailDevicePort = 68;
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// BTM状态
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BTMState btmState = 69;
TrainConnState connState = 70; //列车连接第三方状态
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}
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message BTMState {
uint32 dataSerialNumber = 1; //数据流水号0~255变化每次加一
uint32 baliseCount = 2; //应答器计数(每过一个应答器加一,在同一个应答器内不变)0~255
uint32 messageCounter = 3; //报文计数器 (每解出一个报文加一)0~255
string telegram = 4;//报文16进制字符串
int64 distance =5; //BTM天线中心到应答器的距离mm
bool aboveBalise = 6; //BTM天线即将经过应答器
string baliseTelegramForPcSimResend = 7; //列车pc仿真暂存应答器回复数据
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}
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//动力学相关参数返回数据因golang float类型数据序列化后丢失精度故使用string
//此类型需要与 common_data 中的 TrainDynamicConfig类型属性保持一致
message TrainDynamicConfigMqtt{
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//基本阻力参数A 原本数据float
string davisParamA = 1;
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// 基本阻力参数B 原本数据float
string davisParamB = 2;
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// 基本阻力参数C 原本数据float
string davisParamC = 3;
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//曲线阻力参数R1 原本数据float
string curveResistanceParamR1 = 4;
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// 曲线阻力参数R2 原本数据float
string curveResistanceParamR2 = 5;
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// 曲线阻力参数R3 原本数据float
string curveResistanceParamR3 = 6;
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// 曲线阻力参数R4 原本数据float
string curveResistanceParamR4 = 7;
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//旋转质量参数 原本数据float
string revolvingMassParam = 8;
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//是否跳跃
bool jump = 9;
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//打滑加速度(m/s) 默认0 原本属性 float
string slipA = 10;
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// 打滑冲击率(m/s) 默认0
string slipR = 11;
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// 打滑持续时间ms 默认0
int32 slipD = 12;
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// 空转加速度m/s2默认值0 原本属性 float
string idlingA = 14;
// 空转冲击率m/s3默认值0
string idlingR = 15;
// 空转持续时间ms默认值0
int32 idlingD = 16;
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//过标/欠标mm正数过标负数欠标
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int32 stopSign = 17;
// 前溜/后溜m/s正数前溜负数后溜默认值0 原本属性 float
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string slide = 18 ;
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//列车载荷
// int32 trainLoad = 19;
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}
//列车一端的状态
message TrainEndsStateMqtt{
//速度传感器
bool speedSensorEnableA = 1;
bool speedSensorEnableB = 2;
//雷达是否有效
bool radarEnable = 3;
//雷达测速差值(米/秒) 原本数据float
string radarCheckSpeedDiff = 4;
//雷达检测时间(秒)
int32 radarCheckTime = 5;
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bool accEnable = 6;
//加速度测速差值(米/秒)
string accCheckSpeedDiff = 7;
//加速度持续时间
int32 accCheckTime = 8;
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// 速传速度输出(米/秒)
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int32 accOutSpeed = 9;
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// 雷达速度输出(米/秒)
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int32 radarOutSpeed = 10;
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}
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// 继电器状态
message ReplyState {
// 继电器索引
uint32 id = 1;
// 继电器吸合状态
bool xh = 2;
// 继电器编号
string code = 3;
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// 是否强制
bool force = 4;
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}
// 按钮状态
message ButtonState {
uint32 id = 1;
bool down = 2;
bool active = 3; // 带灯的按钮
// bool bypass = 4; //摁钮,钥匙 是否旁路
}
// 警铃状态
message AlarmState {
uint32 id = 1;
bool active = 2;
}
// 灯状态
message LightState {
uint32 id = 1;
bool active = 2;
}
// 屏蔽门状态
message PsdState {
uint32 id = 1; //屏蔽门的id
repeated AsdState asdStates = 2; //滑动门状态
bool mgj = 3; //屏蔽门整体的关闭(继电器)状态
request.PsdParam param = 4; //屏蔽门设置的参数
bool zaw = 5; //有障碍物
}
//滑动门状态
message AsdState {
int32 code = 1; //滑动门的编号
bool kmdw = 2; //开门到位(实际位置)
bool gmdw = 3; //关门到位(实际位置)
bool mgj = 4; //门关继电器
bool zaw = 5; //有障碍物
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bool force = 6; //强制开/关门
}
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// 钥匙状态
message KeyState {
uint32 id = 1;
int32 gear = 2;
// bool bypass = 3; //摁钮,钥匙 是否旁路
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}
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// 战场图门控箱继电器状态
message MkxJState {
string code = 1;
repeated ReplyState replyState = 2;
}
// 应答器状态
message BaliseState {
uint32 id = 1;
graphicData.KilometerSystem km = 2; //当前公里标
string fixedTelegram = 3; //固定报文
string fixedUserTelegram = 4; //固定用户报文
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string variableTelegram = 5; //可变报文
string variableUserTelegram = 6; //可变用户报文
bool work = 7; //是否正常工作
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}
// 车站联锁驱采状态
message StationQc {
repeated State qdStates = 1; //驱动状态
repeated State cjStates = 2; //采集状态
message State {
int32 row = 1; //行
int32 col = 2; //列
bool on = 3; //接通
}
}
// 车库门
message CkmState {
uint32 id = 1; //车库门的id
bool mgj = 2; //车库门关闭继电器
request.CkmParam param = 3; //车库门设置的参数
bool local = 4; //本地/远程(门模式继电器)
bool mplj = 5; //门旁路继电器
}
// 洗车机
message XcjState {
uint32 id = 1; //车库门的id
request.XcjParam param = 2; //洗车机设置的参数
bool xqj = 3; //洗车请求
repeated bool twjList = 4; //停稳
bool tgqj = 5; //通过请求
bool xcjxj = 6; //洗车就绪
bool xcyxj = 7; //洗车允许
repeated bool cfjList = 8; //移动允许
bool jtj = 9; //紧急停车
bool tgyxj = 10; //通过允许
}
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////////////////////////////////////////////////////////////////////////////
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//仿真运行时状态变化量,当前时刻与上一时刻比较得到
message VariationStatus{
//新增或变化的列车的状态
repeated TrainMapState updatedTrain = 1;
//移除的列车的索引
repeated string removedTrainId = 2;
//状态发生变化的道岔
repeated SwitchState updatedSwitch = 3;
//状态发生变化的区段
repeated SectionState updatedSection = 4;
//状态发送变化的继电器
repeated ReplyState updatedReply = 5;
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}
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//仿真运行时的所有设备的状态
message AllDevicesStatus{
// 所有列车状态
repeated TrainMapState trainState = 1;
// 所有道岔状态
repeated SwitchState switchState = 2;
// 所有类型区段状态
repeated SectionState sectionState = 3;
// 所有继电器状态
repeated ReplyState replyState = 4;
// 所有信号机状态
repeated SignalState signalState = 5;
// 按钮状态
repeated ButtonState buttonState = 6;
// 警铃状态
repeated AlarmState AlarmState = 7;
// 灯状态
repeated LightState LightState = 8;
// 屏蔽门状态
repeated PsdState psdState = 9;
// 钥匙状态
repeated KeyState KeyState = 10;
// 站场图站台状态
repeated PlatformState platformState = 11;
// 应答器状态
repeated BaliseState baliseState = 12;
// 车站联锁驱采状态
StationQc stationQc = 13;
// 车库门状态
repeated CkmState ckmStates = 14;
// 防淹门状态
repeated CkmState fymStates = 15;
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// 洗车机状态
repeated XcjState xcjStates = 16;
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}
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//服务器端向前端推送的设备状态信息
message PushedDevicesStatus{
//true-全量设备状态信息此时allStatus有效
//false - 增量设备状态消息此时varStatus有效
bool all = 1;
//增量设备状态消息
VariationStatus varStatus = 2;
//全量设备状态信息
AllDevicesStatus allStatus = 3;
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}
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// 仿真信息状态
message SimulationStatus {
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enum SimulationState {
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Init = 0;
Running = 1;
Pause = 2;
Error = 3;
Destroy = 4;
}
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string simulationId = 1;
SimulationState state = 2;
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// string description = 3;
}
// 仿真在用的第三方接口状态列表
message SimulationThirdPartyApiService {
enum Type {
// 未定义
Undefined = 0;
// 与动力学接口服务
Dynamics = 1;
// 与半实物列车接口服务
SemiPhysicalTrain = 2;
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//列车pc仿真
Train_pc_sim = 3;
}
// 服务状态
enum State {
// 服务正常
Normal = 0;
// 服务异常
Error = 1;
}
// 服务列表
repeated SimulationThirdPartyApiServiceState states = 1;
}
// 仿真第三方接口状态
message SimulationThirdPartyApiServiceState {
// 接口服务类型
SimulationThirdPartyApiService.Type type = 1;
// 服务状态
SimulationThirdPartyApiService.State state = 2;
}
//列车控制状态
message TrainControlState{
EmergentButton ebutton = 1; //紧急摁钮
repeated DriverKeySwitch driverKey = 2; //驾驶端激活
DirectionKeySwitch dirKey = 3; //接车运行方向
PushHandler pushHandler = 4; //牵引制动手柄
message EmergentButton{
uint32 id = 1;
bool passed = 3;
}
message DriverKeySwitch{
uint32 id = 1;
bool val = 2; //0=关1=开
// request.DriverType dt = 3;
}
message DirectionKeySwitch{
uint32 id = 1;
uint32 val = 2; //0=后1=前,2=中位
}
//牵引制动手柄
message PushHandler{
uint32 id = 1;
int32 val = 2; // 牵引或制动 大于0是牵引小于0是制动 整体按照整型传输(*100)使用时除以100
}
}