Merge branch 'master' of https://git.code.tencent.com/beijing-rtss-test/bj-rtsts-server-go

2023-11-09 14:27:40 +08:00 · 2023-11-09 14:27:40 +08:00 · 2387b9e90a
commit 2387b9e90a
parent 2f17438079 de7d72b92a
9 changed files with 217 additions and 71 deletions
--- a/config/config.go
+++ b/config/config.go
@ -3,7 +3,6 @@ package config
 import (
 	"flag"
 	"fmt"
 	"joylink.club/bj-rtsts-server/third_party/axle_device"
 	"log/slog"
 	"net"
 	"os"
@ -53,11 +52,11 @@ type centrifugo struct {
 // 第三方配置结构
 type ThridPartyConfig struct {
-	Id         int32             `json:"id"`
+	Id           int32             `json:"id"`
-	Dynamics   DynamicsConfig    `json:"dynamics" description:"动力学配置"`
+	Dynamics     DynamicsConfig    `json:"dynamics" description:"动力学配置"`
-	Vobc       VobcConfig        `json:"vobc" description:"半实物配置"`
+	Vobc         VobcConfig        `json:"vobc" description:"半实物配置"`
-	Interlocks []InterlockConfig `json:"interlock" description:"联锁配置"`
+	Interlocks   []InterlockConfig `json:"interlock" description:"联锁配置"`
-	RsspAxle   RsspAxleConfig    `json:"rsspAxle" description:"计轴RSSP-I配置"`
+	RsspAxleCfgs []RsspAxleConfig  `json:"rsspAxleCfgs" description:"所有联锁集中站计轴RSSP-I配置"`
 }
 type DynamicsConfig struct {
 	Ip                 string `json:"ip" description:"IP配置"`
@ -80,11 +79,49 @@ type InterlockConfig struct {
 	Open       bool   `json:"open" description:"是否开启"`
 	Code       string `json:"code" description:"所属集中站"`
 }
 // RsspAxleConfig 计轴区段与联锁安全通信配置
 type RsspAxleConfig struct {
-	MasterRssp axle_device.RsspConfig `json:"masterRssp" description:"主安全通道配置"`
+	City               string       `json:"city" description:"所属城市"`
-	SlaveRssp  axle_device.RsspConfig `json:"slaveRssp" description:"备安全通道配置"`
+	LineId             string       `json:"lineId" description:"所属线路"`
 	CentralizedStation string       `json:"centralizedStation" description:"所属集中站"`
 	RsspCfgs           []RsspConfig `json:"rsspCfgs" description:"主备安全通道配置"`
 	SendingPeriod      uint32       `json:"sendingPeriod" description:"发送周期值"`           //接收方每个安全通信会话对应的发送周期值,单位ms
 	SsrRsspTimeout     uint32       `json:"ssrRsspTimeout" description:"等待SSR回应的定时器超时值"` //等待SSR回应的定时器超时值,为RsspTimer时间,1=SendingPeriod
 	Mtv                uint32       `json:"mtv" description:"最大时序偏差"`                    //每个安全通信会话可容忍的最大时序偏差,即当前接收的RSD的序列号与上一次RSD的序列号最大允许差值
 	Udl                uint32       `json:"udl" description:"RSD应用数据长度配置值"`              //每个安全通信会话RSD应用数据长度发送和接收的配置值（支持固定长度和可变长度）;0-可变长度，大于0即固定长度
 	DeviceA            bool         `json:"deviceA" description:"true-A机；false-B机"`      //true-A机；false-B机
 }
 // RsspConfig CI系统与计轴设备的安全通信协议配置参数
 // 计轴设备(管理一个集中站的所有计轴器)配置
 type RsspConfig struct {
 	SrcAddr        uint16 `json:"srcAddr" description:"16位源地址,本地地址"`  //16位源地址,本地地址
 	DstAddr        uint16 `json:"dstAddr" description:"16位目的地址,远程地址"` //16位目的地址,远程地址
 	DataVer1       uint32 `json:"dataVer1" description:"通道1数据版本"`     //通道1数据版本
 	DataVer2       uint32 `json:"dataVer2" description:"通道2数据版本"`     //通道2数据版本
 	SID1           uint32 `json:"sID1" description:"通道1源标识"`          //通道1源标识
 	SID2           uint32 `json:"sID2" description:"通道2源标识"`          //通道2源标识
 	SINIT1         uint32 `json:"sINIT1" description:"通道1序列初始"`       //通道1序列初始
 	SINIT2         uint32 `json:"sINIT2" description:"通道2序列初始"`       //通道2序列初始
 	SendingPeriod  uint32 //接收方每个安全通信会话对应的发送周期值,单位ms
 	SsrRsspTimeout uint32 //等待SSR回应的定时器超时值,为RsspTimer时间,1=SendingPeriod
 	Mtv            uint32 //每个安全通信会话可容忍的最大时序偏差,即当前接收的RSD的序列号与上一次RSD的序列号最大允许差值
 	Udl            uint32 //每个安全通信会话RSD应用数据长度发送和接收的配置值（支持固定长度和可变长度）;0-可变长度，大于0即固定长度
 	DeviceA        bool   //true-A机；false-B机
 	PicType        byte   `json:"picType" description:"协议交互类别"`        //协议交互类别，message.PicType
 	RemoteIp       string `json:"remoteIp" description:"远程服务器ip"`      //远程服务器ip
 	RemoteUdpPort  int    `json:"remoteUdpPort" description:"远程服务器端口"` //远程服务器端口
 	LocalUdpPort   int    `json:"localUdpPort" description:"本地服务器端口"`  //本地服务器端口
 }
 // CheckAddress 检测目标源地址目的地址是否在配置中
 func (c *RsspConfig) CheckAddress(srcAddr uint16, dstAddr uint16) bool {
 	return true
 }
 ///////////////////////////////////////////////////////////////////////////////////////
 var Config AppConfig
 var SimulationId_prefix = (func() string {
--- a/third_party/axle_device/config.go
+++ b/third_party/axle_device/config.go
@ -1,32 +0,0 @@
 package axle_device
 import "joylink.club/bj-rtsts-server/third_party/message"
 // RsspConfig CI系统与计轴设备的安全通信协议配置参数
 // 计轴设备(管理一个集中站的所有计轴器)配置
 type RsspConfig struct {
 	SrcAddr        uint16 `json:"SrcAddr" description:"16位源地址,本地地址"`           //16位源地址,本地地址
 	DstAddr        uint16 `json:"DstAddr" description:"16位目的地址,远程地址"`          //16位目的地址,远程地址
 	DataVer1       uint32 `json:"DataVer1" description:"通道1数据版本"`              //通道1数据版本
 	DataVer2       uint32 `json:"DataVer2" description:"通道2数据版本"`              //通道2数据版本
 	SID1           uint32 `json:"SID1" description:"通道1源标识"`                   //通道1源标识
 	SID2           uint32 `json:"SID2" description:"通道2源标识"`                   //通道2源标识
 	SINIT1         uint32 `json:"SINIT1" description:"通道1序列初始"`                //通道1序列初始
 	SINIT2         uint32 `json:"SINIT2" description:"通道2序列初始"`                //通道2序列初始
 	SendingPeriod  uint32 `json:"SendingPeriod" description:"发送周期值"`           //接收方每个安全通信会话对应的发送周期值,单位ms
 	SsrRsspTimeout uint32 `json:"SsrRsspTimeout" description:"等待SSR回应的定时器超时值"` //等待SSR回应的定时器超时值,为RsspTimer时间,1=SendingPeriod
 	Mtv            uint32 `json:"Mtv" description:"最大时序偏差"`                    //每个安全通信会话可容忍的最大时序偏差,即当前接收的RSD的序列号与上一次RSD的序列号最大允许差值
 	Udl            uint32 `json:"Udl" description:"RSD应用数据长度配置值"`              //每个安全通信会话RSD应用数据长度发送和接收的配置值（支持固定长度和可变长度）;0-可变长度，大于0即固定长度
 	PicType message.PicType `json:"PicType" description:"协议交互类别"`           //协议交互类别
 	DeviceA bool            `json:"DeviceA" description:"true-A机；false-B机"` //true-A机；false-B机
 	RemoteIp      string `json:"RemoteIp" description:"远程服务器ip"`      //远程服务器ip
 	RemoteUdpPort int    `json:"RemoteUdpPort" description:"远程服务器端口"` //远程服务器端口
 	LocalUdpPort  int    `json:"LocalUdpPort" description:"本地服务器端口"`  //本地服务器端口
 }
 // CheckAddress 检测目标源地址目的地址是否在配置中
 func (c *RsspConfig) CheckAddress(srcAddr uint16, dstAddr uint16) bool {
 	return true
 }
--- a/third_party/axle_device/rssp_axle.go
+++ b/third_party/axle_device/rssp_axle.go
@ -2,9 +2,12 @@ package axle_device
 import (
 	"context"
 	"fmt"
 	"joylink.club/bj-rtsts-server/config"
 	"joylink.club/bj-rtsts-server/third_party/message"
 	"log/slog"
 	"runtime/debug"
 	"time"
 )
 //计轴设备与联锁系统安全通信应用层实现
@ -16,13 +19,6 @@ type RsspAxle interface {
 	Stop()
 }
 type AxleMessageManager interface {
 	//HandleSectionCmdMsg 计轴设备接收到联锁发送来的控制命令
 	HandleSectionCmdMsg(city string, lineId string, centralizedStation string, msg *message.SectionCmdMsgPack)
 	//CollectSectionStatus 收集仿真中计轴区段状态
 	CollectSectionStatus(city string, lineId string, centralizedStation string) ([]*message.SectionStatusMsg, error)
 }
 type rsspAxle struct {
 	//所属城市
 	city string
@ -30,6 +26,8 @@ type rsspAxle struct {
 	lineId string
 	//所属集中站
 	centralizedStation string
 	//接收方每个安全通信会话对应的发送周期值,单位ms
 	sendingPeriod uint32
 	//主安全通道
 	masterRssp *RsspChannel
 	//备安全通道
@ -40,12 +38,42 @@ type rsspAxle struct {
 	cancelSendStatus context.CancelFunc
 }
-func NewRsspAxle(masterConfig *RsspConfig, slaveConfig *RsspConfig) RsspAxle {
+func InitRsspAxle(cfg *config.RsspAxleConfig) RsspAxle {
-	mr := &RsspChannel{}
+	ra := &rsspAxle{}
-	mr.Init(masterConfig)
+	//
-	lr := &RsspChannel{}
+	ra.city = cfg.City
-	lr.Init(slaveConfig)
+	ra.lineId = cfg.LineId
-	return &rsspAxle{masterRssp: mr, slaveRssp: lr}
+	ra.centralizedStation = cfg.CentralizedStation
 	ra.sendingPeriod = cfg.SendingPeriod
 	//
 	cfgLen := len(cfg.RsspCfgs)
 	var masterConfig, slaveConfig *config.RsspConfig
 	if cfgLen >= 1 {
 		masterConfig = &cfg.RsspCfgs[0]
 		masterConfig.SendingPeriod = cfg.SendingPeriod
 		masterConfig.SsrRsspTimeout = cfg.SsrRsspTimeout
 		masterConfig.Mtv = cfg.Mtv
 		masterConfig.Udl = cfg.Udl
 		masterConfig.DeviceA = cfg.DeviceA
 	}
 	if cfgLen >= 2 {
 		slaveConfig = &cfg.RsspCfgs[1]
 		slaveConfig.SendingPeriod = cfg.SendingPeriod
 		slaveConfig.SsrRsspTimeout = cfg.SsrRsspTimeout
 		slaveConfig.Mtv = cfg.Mtv
 		slaveConfig.Udl = cfg.Udl
 		slaveConfig.DeviceA = cfg.DeviceA
 	}
 	if masterConfig != nil {
 		mrc := &RsspChannel{}
 		ra.masterRssp = mrc.Init(masterConfig)
 	}
 	if slaveConfig != nil {
 		src := &RsspChannel{}
 		ra.slaveRssp = src.Init(slaveConfig)
 	}
 	//
 	return ra
 }
 // rssp 安全层执行
@ -83,12 +111,15 @@ func (s *rsspAxle) Stop() {
 	if s.cancelSendStatus != nil {
 		s.cancelSendStatus()
 	}
 	if s.cancelSendStatus != nil {
 		s.cancelSendStatus()
 	}
 	s.messageManager = nil
 }
 func (s *rsspAxle) doTaskSendStatus(sendContext context.Context) {
 	defer func() {
 		if e := recover(); e != nil {
-			slog.Error("定时发送计轴区段状态任务异常", "error", e, "stack", string(debug.Stack()))
+			slog.Error(fmt.Sprintf("[%s-%s-%s]定时发送计轴区段状态任务异常", s.city, s.lineId, s.centralizedStation), "error", e, "stack", string(debug.Stack()))
 			debug.PrintStack()
 		}
 	}()
@ -99,7 +130,7 @@ func (s *rsspAxle) doTaskSendStatus(sendContext context.Context) {
 		default:
 		}
 		if s.messageManager == nil {
-			slog.Warn("定时发送计轴区段状态任务因messageManager不存在退出")
+			slog.Warn(fmt.Sprintf("[%s-%s-%s]定时发送计轴区段状态任务因messageManager不存在退出", s.city, s.lineId, s.centralizedStation))
 			return
 		}
 		//收集区段状态
@ -114,6 +145,8 @@ func (s *rsspAxle) doTaskSendStatus(sendContext context.Context) {
 		} else {
 			slog.Debug(e.Error())
 		}
 		//todo
 		time.Sleep(time.Duration(s.sendingPeriod) * time.Millisecond)
 	}
 }
--- a/third_party/axle_device/rssp_axle_manage.go
+++ b/third_party/axle_device/rssp_axle_manage.go
@ -0,0 +1,29 @@
 package axle_device
 import (
 	"fmt"
 	"joylink.club/bj-rtsts-server/config"
 	"joylink.club/bj-rtsts-server/third_party/message"
 	"log/slog"
 )
 //联锁集中站计轴与联锁通信管理
 type AxleMessageManager interface {
 	GetLineAllRsspAxleCfgs() []config.RsspAxleConfig
 	//HandleSectionCmdMsg 计轴设备接收到联锁发送来的控制命令
 	HandleSectionCmdMsg(city string, lineId string, centralizedStation string, msg *message.SectionCmdMsgPack)
 	//CollectSectionStatus 收集仿真中计轴区段状态
 	CollectSectionStatus(city string, lineId string, centralizedStation string) ([]*message.SectionStatusMsg, error)
 }
 func StartLineAllRsspAxleServices(ram AxleMessageManager) {
 	cfgs := ram.GetLineAllRsspAxleCfgs()
 	for _, cfg := range cfgs {
 		if len(cfg.RsspCfgs) > 0 {
 			InitRsspAxle(&cfg).Start(ram)
 		} else {
 			slog.Debug(fmt.Sprintf(""))
 		}
 	}
 }
--- a/third_party/axle_device/rssp_channel.go
+++ b/third_party/axle_device/rssp_channel.go
@ -2,6 +2,7 @@ package axle_device
 import (
 	"fmt"
 	"joylink.club/bj-rtsts-server/config"
 	"joylink.club/bj-rtsts-server/third_party/message"
 	"joylink.club/bj-rtsts-server/third_party/udp"
 	"log/slog"
@ -21,7 +22,7 @@ type RsspChannel struct {
 	//回调应用层
 	handleUserData HandleUserData
 	//rssp安全通信配置
-	config *RsspConfig
+	config *config.RsspConfig
 	//rssp时钟
 	rsspTimer *RsspTimer
 	//批次编号,发送序列号
@ -40,12 +41,13 @@ type RsspChannel struct {
 	sendSseRecord *SseFireRecord
 }
-func (s *RsspChannel) Init(config *RsspConfig) {
+func (s *RsspChannel) Init(config *config.RsspConfig) *RsspChannel {
 	s.config = config
 	s.rsspTimer = &RsspTimer{t: 0}
 	s.sn = message.NewRsspSn(1)
 	s.ch1Ts = message.NewRsspLFSR(message.RsspTsC1, 32, s.config.SID1, false)
 	s.ch2Ts = message.NewRsspLFSR(message.RsspTsC2, 32, s.config.SID2, false)
 	return s
 }
 // Start 启动安全通道
--- a/third_party/third_party.go
+++ b/third_party/third_party.go
@ -1,5 +1,7 @@
 package third_party
-func Init() {
+import "joylink.club/bj-rtsts-server/third_party/message"
 func Init() {
 	message.InitRsspCrcTable()
 }
--- a/ts/simulation/wayside/memory/wayside_memory_map.go
+++ b/ts/simulation/wayside/memory/wayside_memory_map.go
@ -176,7 +176,7 @@ func findCalcLinkIdAndOffset(sim *VerifySimulation, link *repository.Link, offse
 	if tp == nil {
 		panic(sys_error.New("列车偏移超出link位置"))
 	}
-	nextPort := getTurnoutNextPort(sim, tp)
+	nextPort := getTurnoutNextPort(sim, tp.Device().Id(), tp.Port().String())
 	if nextPort == proto2.Port_None {
 		panic(sys_error.New("列车偏移超出link位置"))
 	}
@ -209,37 +209,37 @@ func findCalcLinkIdAndOffset(sim *VerifySimulation, link *repository.Link, offse
 // 根据当前link端，寻找下一个link连接端端口
 // 入参：仿真、道岔端口
 // 输出：道岔端口
-func getTurnoutNextPort(sim *VerifySimulation, tp *repository.TurnoutPort) proto2.Port {
+func getTurnoutNextPort(sim *VerifySimulation, turnoutId string, port string) proto2.Port {
-	entry, ok := entity.GetEntityByUid(sim.World, tp.Device().Id())
+	entry, ok := entity.GetEntityByUid(sim.World, turnoutId)
 	if !ok {
-		panic(sys_error.New(fmt.Sprintf("道岔不存在: World id=%d,道岔id=%s", sim.World.Id(), tp.Device().Id())))
+		panic(sys_error.New(fmt.Sprintf("道岔不存在: World id=%d,道岔id=%s", sim.World.Id(), turnoutId)))
 	}
 	if !entry.HasComponent(component.TurnoutPositionType) {
-		panic(sys_error.New(fmt.Sprintf("道岔没有TurnoutPosition组件: World id=%d,道岔id=%s", sim.World.Id(), tp.Device().Id())))
+		panic(sys_error.New(fmt.Sprintf("道岔没有TurnoutPosition组件: World id=%d,道岔id=%s", sim.World.Id(), turnoutId)))
 	}
 	// 获取定反数据
 	pos := component.TurnoutPositionType.Get(entry)
-	switch tp.Port() {
+	switch port {
-	case proto2.Port_A:
+	case "A":
 		if pos.Dw {
 			return proto2.Port_B
 		} else {
 			return proto2.Port_C
 		}
-	case proto2.Port_B:
+	case "B":
 		if pos.Dw {
 			return proto2.Port_A
 		} else {
 			return proto2.Port_None
 		}
-	case proto2.Port_C:
+	case "C":
 		if pos.Dw {
 			return proto2.Port_None
 		} else {
 			return proto2.Port_A
 		}
 	}
-	panic(sys_error.New(fmt.Sprintf("非法端口:端口=%s", tp.Port().String())))
+	panic(sys_error.New(fmt.Sprintf("非法端口:端口=%s", port)))
 }
 // 计算link offset 在道岔上的位置
@ -542,3 +542,60 @@ func turnoutOffsetToKilometer(repo *repository.Repository, uid string, runDirect
 	}
 	return
 }
 // 根据起始与末尾端查找经过的设备ID列表
 // 入参：起始设备uid、起始设备端口、终点设备uid、在区段（a->b）或道岔（->岔心）上的找寻方向
 // 输出：占用物理区段的ID
 func QueryDeviceRoutePath(sim *VerifySimulation, startUid, endUid, startPort string, pointTo bool) []string {
 	suid, euid, port, direction := startUid, endUid, startPort, pointTo
 	var paths []string
 	for {
 		device := sim.Repo.FindById(suid)
 		var nextRelation repository.DevicePort
 		switch device.Type() {
 		case proto2.DeviceType_DeviceType_PhysicalSection: // 区段
 			d := device.(*repository.PhysicalSection)
 			paths = append(paths, d.Id())
 			nextRelation = d.ARelation()
 			if direction {
 				nextRelation = d.BRelation()
 			}
 		case proto2.DeviceType_DeviceType_Turnout: // 道岔
 			d := device.(*repository.Turnout)
 			if d.GetPhysicalSection() == nil {
 				panic(sys_error.New(fmt.Sprintf("道岔%s没有绑定物理区段", device.Id())))
 			}
 			paths = append(paths, d.GetPhysicalSection().Id())
 			var nextPort proto2.Port
 			switch port {
 			case "A":
 				nextPort = proto2.Port_A
 			case "B":
 				nextPort = proto2.Port_B
 			case "C":
 				nextPort = proto2.Port_C
 			}
 			if pointTo { // -> 岔心
 				nextPort = getTurnoutNextPort(sim, d.Id(), port)
 			}
 			nextRelation = d.GindDevicePortByPort(nextPort)
 		default:
 			panic(sys_error.New(fmt.Sprintf("查找路径设备类型%s无处理处理", device.Type().String())))
 		}
 		if nextRelation == nil {
 			break
 		}
 		if suid == euid {
 			break
 		}
 		suid = nextRelation.Device().Id()     // 下一个设备ID
 		port = nextRelation.Port().String()   // 下一个道岔端
 		switch nextRelation.Device().Type() { // 查找方向
 		case proto2.DeviceType_DeviceType_PhysicalSection:
 			direction = nextRelation.Port() == proto2.Port_A
 		case proto2.DeviceType_DeviceType_Turnout:
 			direction = true
 		}
 	}
 	return paths
 }
--- a/ts/simulation/wayside/memory/wayside_simulation.go
+++ b/ts/simulation/wayside/memory/wayside_simulation.go
@ -147,6 +147,9 @@ func (s *VerifySimulation) GetComIdByUid(uid string) string {
 	}
 	return es[uid].CommonId
 }
 func (s *VerifySimulation) GetLineAllRsspAxleCfgs() []config.RsspAxleConfig {
 	return s.runConfig.RsspAxleCfgs
 }
 // CollectSectionStatus 收集仿真中计轴区段状态
 func (s *VerifySimulation) CollectSectionStatus(city string, lineId string, centralizedStation string) ([]*message.SectionStatusMsg, error) {
@ -282,9 +285,19 @@ func convert(info *message.DynamicsTrainInfo, sta *state.TrainState, simulation
 	delayTime := time.Now().UnixMilli() - sta.VobcState.UpdateTime
 	sta.ControlDelayTime = (int64(sta.VobcState.LifeSignal)-int64(info.VobcLifeSignal))*20 + delayTime
 	slog.Debug("收到动力学原始消息", "Number", info.Number, "Link", info.Link, "LinkOffset", info.LinkOffset)
-	_, id, port, _, offset, kilometer := CalcInitializeLink(simulation, strconv.Itoa(int(info.Link)), int64(info.LinkOffset), info.Up)
+	inLinkId, inLinkOffset := strconv.Itoa(int(info.Link)), int64(info.LinkOffset)
 	outLinkId, id, port, outLinkOffset, offset, kilometer := CalcInitializeLink(simulation, inLinkId, inLinkOffset, info.Up)
 	runDirection, pointTo := QueryDirectionAndABByDevice(simulation.Repo, id, port, info.Up)
 	slog.Debug("处理动力学转换后的消息", "number", info.Number, "车头位置", id, "偏移", offset, "是否上行", runDirection, "是否ab", pointTo)
 	// 车尾相对车头link的偏移量
 	var calctailOffset int64
 	if info.Up {
 		calctailOffset = outLinkOffset - sta.TrainLength
 	} else {
 		calctailOffset = outLinkOffset + sta.TrainLength
 	}
 	tailLinkId, tailDeviceId, tailDevicePort, tailLinkOffset, tailDeviceOffset, _ := CalcInitializeLink(simulation, outLinkId, calctailOffset, info.Up)
 	slog.Debug("车未位置", tailDeviceId, "偏移", tailDeviceOffset, "所在设备端", tailDevicePort)
 	sta.HeadDeviceId = simulation.GetComIdByUid(id)
 	sta.DevicePort = port
 	sta.HeadOffset = offset
@ -305,8 +318,10 @@ func convert(info *message.DynamicsTrainInfo, sta *state.TrainState, simulation
 	}
 	// 赋值动力学信息
 	sta.DynamicState.Heartbeat = int32(info.LifeSignal)
-	sta.DynamicState.HeadLinkId = strconv.Itoa(int(info.Link))
+	sta.DynamicState.HeadLinkId = outLinkId
-	sta.DynamicState.HeadLinkOffset = int64(info.LinkOffset)
+	sta.DynamicState.HeadLinkOffset = outLinkOffset
 	sta.DynamicState.TailLinkId = tailLinkId
 	sta.DynamicState.TailLinkOffset = tailLinkOffset
 	sta.DynamicState.Slope = int32(info.Slope)
 	sta.DynamicState.Upslope = info.UpSlope
 	sta.DynamicState.RunningUp = info.Up
--- a/ts/test_simulation_manage.go
+++ b/ts/test_simulation_manage.go
@ -2,6 +2,7 @@ package ts
 import (
 	"fmt"
 	"joylink.club/bj-rtsts-server/third_party/axle_device"
 	"log/slog"
 	"runtime"
 	"strconv"
@ -110,6 +111,8 @@ func runThirdParty(s *memory.VerifySimulation) error {
 	for _, c := range s.GetInterlockCodes() {
 		interlock.Default(c).Start(s)
 	}
 	// 计轴RSSP启动
 	axle_device.StartLineAllRsspAxleServices(s)
 	return nil
 }