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12 Commits

Author SHA1 Message Date
tiger_zhou
15bdc45892 列车折返rm模式调整
All checks were successful
local-test分支打包构建docker并发布运行 / Docker-Build (push) Successful in 2m58s
2024-09-11 21:19:42 +08:00
tiger_zhou
449162856b 折返速度调整 2024-09-11 13:28:56 +08:00
tiger_zhou
8b5ef2e597 列车换端计算,里程ato调整 2024-09-10 18:55:15 +08:00
tiger_zhou
903fd14a61 列车折返12号线激活调整 2024-09-10 18:05:04 +08:00
tiger_zhou
9809df4b27 折返 2024-09-10 18:00:44 +08:00
tiger_zhou
9a5e8be378 折返 2024-09-10 16:12:39 +08:00
tiger_zhou
f144f29386 折返 2024-09-10 15:51:59 +08:00
tiger_zhou
efe1ff69c9 Merge branch 'develop' of http://120.46.212.6:3000/joylink/rts-sim-testing-service into develop_t
# Conflicts:
#	rts-sim-module
2024-09-10 15:38:31 +08:00
tiger_zhou
f9ffa1cf10 折返 2024-09-10 15:37:40 +08:00
3d66efe8f4 [修改]11号线模式口采集和驱动逻辑调通 2024-09-05 15:14:39 +08:00
tiger_zhou
39b4ffb633 列车11号线btm调整 2024-09-05 09:22:19 +08:00
tiger_zhou
f485e7a639 列车11号线btm调整 2024-09-05 09:21:49 +08:00
31 changed files with 2748 additions and 2879 deletions

View File

@ -96,6 +96,7 @@ func createByProjectId(c *gin.Context) {
if len(mapInfos) == 0 {
panic(sys_error.New("测试启动失败,项目未关联发布图"))
}
var mapIds []int32
for _, mapInfo := range mapInfos {
if mapInfo.Type == data_proto.PictureType_value[data_proto.PictureType_TrainData.String()] {
@ -251,6 +252,7 @@ func addTrain(c *gin.Context) {
TrainMaxAcc: req.TrainMaxAcc,
TrainMaxBrake: req.TrainMaxBrake,
TrainEmergencyBrake: req.TrainEmergencyBrake,
ProjectCode: simulation.ProjectCode,
//HeadOffset: 93211,
DevicePort: req.DevicePort,
TrainRunUp: req.RunDirection,

View File

@ -152,8 +152,8 @@ func trainPcConnErr(err error) {
func main() {
initConfig()
//initBtmTest()
initTrainPc()
initBtmTest()
//initTrainPc()
//initAccTest()
//initSpeedTest()
@ -168,9 +168,9 @@ func sendPacket(lifeNum uint32, autoId byte) {
userMsg, _ := hex.DecodeString(testUserBtmMsg)
msg := &message.BtmVobcMessage{FontTtl: 2, BtmStatus: 0x00, DecodeTime: 10, BackTtl: 2, BtmMsg: userMsg, ResponseTime: 10,
VobcLifeNum: lifeNum, BaseBtmVobc: message.BaseBtmVobc{AutoIdFrame: autoId}, MsgSerial: message.GetAutoMessageId()}
VobcLifeNum: lifeNum, BaseBtmVobc: message.BaseBtmVobc{AutoIdFrame: autoId} /*MsgSerial: message.GetAutoMessageId()*/}
sendData := msg.Encode()
fmt.Println("发送btm vobc len:", len(sendData), "报文:", hex.EncodeToString(sendData), "报文序列号:", msg.MsgSerial)
//fmt.Println("发送btm vobc len:", len(sendData), "报文:", hex.EncodeToString(sendData), "报文序列号:", msg.MsgSerial)
time.Sleep(time.Millisecond * 100)
err := btmCli.Send(sendData)
if err != nil {
@ -194,9 +194,9 @@ func sendPacketFree(lifeNum uint32, autoId byte, msgs byte) {
}
msg2 := &message.BtmVobcMsgFree{BtmStatus: 0x00, WorkTemperature: 10, Fun1: uint16(0), Fun2: uint16(0), Fun3: uint16(0), Fun4: uint16(0),
//FreeMsg: freeMsg, RespTime: 20, VobcLifeNum: lifeNum, BaseBtmVobc: message.BaseBtmVobc{AutoIdFrame: autoId}, MsgSerial: newMsg}
FreeMsg: freeMsg, RespTime: 20, VobcLifeNum: lifeNum, BaseBtmVobc: message.BaseBtmVobc{AutoIdFrame: autoId}, MsgSerial: message.GetAutoMessageId()}
FreeMsg: freeMsg, RespTime: 20, VobcLifeNum: lifeNum, BaseBtmVobc: message.BaseBtmVobc{AutoIdFrame: autoId} /* MsgSerial: message.GetAutoMessageId()*/}
sendData2 := msg2.Encode()
fmt.Println("发送btm vobc 空报文:", hex.EncodeToString(sendData2), "len:", len(sendData2), "报文序列号:", msg2.MsgSerial, "atoId=", autoId, "报文序列号:", msg2.MsgSerial)
//fmt.Println("发送btm vobc 空报文:", hex.EncodeToString(sendData2), "len:", len(sendData2), "报文序列号:", msg2.MsgSerial, "atoId=", autoId, "报文序列号:", msg2.MsgSerial)
time.Sleep(time.Millisecond * 100)
err := btmCli.Send(sendData2)
if err != nil {
@ -207,15 +207,15 @@ func sendPacketFree(lifeNum uint32, autoId byte, msgs byte) {
func RequestFramePackets(req *message.BtmVobcReq, vobcLife uint32) {
//fmt.Println(fmt.Sprintf("接受 请求帧 frameStatus:%v,messageType:%v,lifeNum:%v,序列号:%v", req.FrameStatus, req.MessageType, req.VobcLifeNum, req.MessageSerial))
if req.FrameStatus == message.REQ_FRAME_STATUS_BOOT && req.MessageType == message.REQ_PACKETS_TYPE_BOOT {
fmt.Println("000000000000000000000000000")
//fmt.Println("000000000000000000000000000")
sendPacketFree(vobcLife, req.AutoIdFrame, req.MessageSerial)
} else if req.FrameStatus == message.REQ_FRAME_STATUS_OK {
//帧正确,删除之前发送的数据
fmt.Println("11111111111111111111")
//fmt.Println("11111111111111111111")
} else if req.FrameStatus == message.REQ_FRAME_STATUS_ERROR {
//帧不正确 重新发送2次如果2次后仍然不正确则删除之前发送的数据
fmt.Println("22222222222222222")
///**/fmt.Println("22222222222222222")
}
}
@ -224,7 +224,7 @@ var vobcNumLife uint32 = 0
func handleBtmVobcFrames(cfs []byte) {
fmt.Println(fmt.Sprintf("收到源数据:%v ,请求帧时间:%v ,vobcLife:%v", hex.EncodeToString(cfs), time.Now().UnixMilli()-btmReceiveTime, vobcNumLife))
fmt.Println(fmt.Sprintf("收到源数据:%v ,数据长度:%v", hex.EncodeToString(cfs), len(cfs)))
frameType, dataText, err := message.BtmVobcDecode(cfs)
if err != nil {
return
@ -241,11 +241,11 @@ func handleBtmVobcFrames(cfs []byte) {
if vobcNumLife <= 0 {
return
} else {
fmt.Println(fmt.Sprintf("准备发送vobcLife:%v", vobcNumLife))
//fmt.Println(fmt.Sprintf("准备发送vobcLife:%v", vobcNumLife))
}
req := &message.BtmVobcReq{}
req.Decode(dataText)
fmt.Println(fmt.Sprintf("接受 请求帧 frameStatus:%v,messageType:%v,lifeNum:%v,序列号:%v", req.FrameStatus, req.MessageType, req.VobcLifeNum, req.MessageSerial))
//fmt.Println(fmt.Sprintf("接受 请求帧 frameStatus:%v,messageType:%v,lifeNum:%v,序列号:%v", req.FrameStatus, req.MessageType, req.VobcLifeNum, req.MessageSerial))
if time.Now().UnixMilli()-btmReceiveTime > 20*1000 {
idCommand := &message.BtmVobcIdCommand{}
idCommand.Decode(dataText)

View File

@ -161,11 +161,15 @@ type VehiclePCSimConfig2 struct {
}
type VehiclePCSimConfig struct {
Open bool `json:"open" description:"是否开启"`
//TrainEnds bool `json:"trainEnds" description:"列车端点A?"`
ConfigName string `json:"configName" description:"连接名称"`
Open bool `json:"open" description:"是否开启"`
PcSimIp string `json:"pcSimIp" description:"pc仿真平台通信ip"`
PcSimPort uint32 `json:"pcSimPort" description:"pc仿真平台通信端口"`
OpenA bool `json:"openA" description:"是否开启A端"`
APcSimIp string `json:"apcSimIp" description:"pc仿真平台通信ip A端"`
APcSimPort uint32 `json:"apcSimPort" description:"pc仿真平台通信端口A端"`
OpenB bool `json:"openB" description:"是否开启B端"`
BPcSimIp string `json:"bpcSimIp" description:"pc仿真平台通信ip B端"`
BPcSimPort uint32 `json:"bpcSimPort" description:"pc仿真平台通信端口B端"`
//LocalTestingPort uint32 `json:"localTestingPort" description:"本地测试端口"`
}

File diff suppressed because it is too large Load Diff

View File

@ -528,7 +528,7 @@ func convertTrainState(v *state_proto.TrainState) *state_proto.TrainMapState {
TailDeviceId: v.TailDeviceId,
TailOffset: v.TailOffset,
TailDevicePort: v.TailDevicePort,
BtmState: v.BtmState,
//BtmState: v.BtmState,
ConnState: v.ConnState,
}
convertDynamicConfig(v.TrainDynamicConfig, t.TrainDynamicConfig)

@ -1 +1 @@
Subproject commit a94fdb12f720a5d9bbf57b1916e8ba5990130e6e
Subproject commit ef7ff5459cde3eced121d1908b192ee586a47c97

@ -1 +1 @@
Subproject commit 7629f290ea612d4ce368c40d4cf793dffc4b21ec
Subproject commit 76a91b6495fc3a6b725b4ff3ba003423e3efb38e

View File

@ -45,7 +45,7 @@ func checkRunConfig(jsonConfigStr string) *sys_error.BusinessError {
checkSameMap := make(map[string]bool)
for _, simConfig := range configMap.PcSimConfigs {
if simConfig.ConfigName == "" || len(strings.TrimSpace(simConfig.ConfigName)) == 0 {
return sys_error.New(fmt.Sprintf("车载运行配置名称不能为空 配置ip:%v,端口%v", simConfig.PcSimIp, simConfig.PcSimPort), err)
return sys_error.New(fmt.Sprintf("车载运行配置名称不能为空 "), err)
}
if checkSameMap[simConfig.ConfigName] {
return sys_error.New(fmt.Sprintf("车载运行配置重复的名称:%v", simConfig.ConfigName), err)

View File

@ -1,378 +0,0 @@
package btm_vobc
import (
"context"
"encoding/hex"
"encoding/json"
"fmt"
"github.com/google/uuid"
"github.com/snksoft/crc"
"joylink.club/bj-rtsts-server/config"
"joylink.club/bj-rtsts-server/const/balise_const"
"joylink.club/bj-rtsts-server/dto/state_proto"
"joylink.club/bj-rtsts-server/third_party/message"
"joylink.club/bj-rtsts-server/third_party/udp"
"log/slog"
"math"
"reflect"
"strconv"
"time"
"strings"
"sync"
)
type BtmVobcManage interface {
GetBtmVobcConfig() config.BtmVobcConfig
GetAllTrain() []*state_proto.TrainState
GetConnVobcTrain() *state_proto.TrainState
}
type BtmVobcService interface {
Start(btmVobcManage BtmVobcManage)
Stop()
SendData(data []byte)
AppendBaliseMsgForTrain(vobcBtm *state_proto.VobcBtmState, baliseId string, baliseSource []byte, arriveTime int64)
UpdateTrainLeave(vobcBtm *state_proto.VobcBtmState, baliseId string, leaveTime int64)
RemoveBaliseFirst(vobcBtm *state_proto.VobcBtmState)
}
type BtmVobcClient struct {
calFun context.CancelFunc
client udp.UdpClient
server udp.UdpServer
manage BtmVobcManage
}
var (
btmVobcLocker sync.Mutex
btmVobcClient *BtmVobcClient
btmVobcBaliseLocker sync.Mutex
//最新接受数据时间
reviceTimeStamp int64
)
func Default() BtmVobcService {
defer btmVobcLocker.Unlock()
btmVobcLocker.Lock()
if btmVobcClient == nil {
btmVobcClient = &BtmVobcClient{}
}
return btmVobcClient
}
// 缓存列车经过的应答器报文
func (b *BtmVobcClient) AppendBaliseMsgForTrain(vobcBtm *state_proto.VobcBtmState, baliseId string, baliseSource []byte, arriveTime int64) {
defer btmVobcBaliseLocker.Unlock()
btmVobcBaliseLocker.Lock()
baliseHex := hex.EncodeToString(baliseSource)
tel := &state_proto.VobcBtmState_TelegramState{Telegram: baliseHex, BaliseId: baliseId, ArriveTime: arriveTime}
if len(vobcBtm.TelegramState) == 0 {
vobcBtm.TelegramState = append(vobcBtm.TelegramState, tel)
} else {
bs := crc.CalculateCRC(crc.CRC32, baliseSource)
exists := false
for _, d := range vobcBtm.TelegramState {
sd, _ := hex.DecodeString(d.Telegram)
t := crc.CalculateCRC(crc.CRC32, sd)
if t == bs {
exists = true
}
}
if !exists {
if len(vobcBtm.TelegramState) >= 8 {
vobcBtm.TelegramState = append(vobcBtm.TelegramState[1:], tel)
} else {
vobcBtm.TelegramState = append(vobcBtm.TelegramState, tel)
}
}
}
}
func (b *BtmVobcClient) UpdateTrainLeave(vobcBtm *state_proto.VobcBtmState, baliseId string, leaveTime int64) {
defer btmVobcBaliseLocker.Unlock()
btmVobcBaliseLocker.Lock()
if vobcBtm.TelegramState == nil || len(vobcBtm.TelegramState) == 0 {
return
}
for _, bs := range vobcBtm.TelegramState {
if bs.BaliseId == baliseId {
bs.LeaveTime = leaveTime
}
}
}
func (b *BtmVobcClient) RemoveBaliseFirst(vobcBtm *state_proto.VobcBtmState) {
defer btmVobcBaliseLocker.Unlock()
btmVobcBaliseLocker.Lock()
if vobcBtm.TelegramState == nil || len(vobcBtm.TelegramState) == 0 {
return
}
vobcBtm.TelegramState = vobcBtm.TelegramState[1:]
}
func (b *BtmVobcClient) Start(btmVobcManage BtmVobcManage) {
cfg := btmVobcManage.GetBtmVobcConfig()
if !cfg.Open {
slog.Info("11号线 btm vobc配置未开启...")
return
}
udpServer := udp.NewServer(fmt.Sprintf("%v:%d", cfg.LocalUdpIp, cfg.LocalUdpPort), b.handleBtmVobcFrames)
err := udpServer.Listen()
if err != nil {
slog.Error("11号线 btm VOBC 服务启动失败...")
return
}
//
udpClient := udp.NewClient(fmt.Sprintf("%s:%d", cfg.RemoteIp, cfg.RemoteUdpPort))
b.manage = btmVobcManage
b.server = udpServer
b.client = udpClient
reviceTimeStamp = time.Now().UnixMilli()
ctx, calFun := context.WithCancel(context.Background())
b.calFun = calFun
go b.checkTrainTTLIsOver(ctx)
}
func (b *BtmVobcClient) checkTrainTTLIsOver(ctx context.Context) {
defer btmVobcBaliseLocker.Unlock()
btmVobcBaliseLocker.Lock()
for {
select {
case <-ctx.Done():
return
default:
}
if time.Now().UnixMilli()-reviceTimeStamp < 1000 {
return
}
trains := b.manage.GetAllTrain()
if len(trains) > 0 {
slog.Info("检测网络中断情况 前沿ttl 超时...")
newTel := make([]*state_proto.VobcBtmState_TelegramState, 0)
for _, train := range b.manage.GetAllTrain() {
for _, state := range train.VobcBtm.TelegramState {
if time.Now().UnixMilli()-state.ArriveTime < 1000 {
newTel = append(newTel, state)
}
}
}
}
time.Sleep(time.Second * 1)
}
}
func (b *BtmVobcClient) handleBtmVobcFrames(cfs []byte) {
reviceTimeStamp = time.Now().UnixMilli()
train := b.manage.GetConnVobcTrain()
if train == nil {
//slog.Error("vobc btm 未找到VOBC连接的列车...")
return
}
requestId := uuid.New().String()
slog.Info(fmt.Sprintf("获取到vobc btm原始数据:%v, requestId:%v", hex.EncodeToString(cfs), requestId))
frameType, dataText, err := message.BtmVobcDecode(cfs)
if err != nil {
slog.Error(fmt.Sprintf("%v,请求id:%v", err, requestId))
return
}
receiveDataTime := time.Now().UnixMicro()
decodePayMicoTime := (receiveDataTime - receiveDataTime) / 100
if frameType == message.COMMAND_TYPE {
idCommand := &message.BtmVobcIdCommand{}
idCommand.Decode(dataText)
slog.Info(fmt.Sprintf("成功接受btm vobc的id命令帧,requestId:%v,接受时间(微秒):%v", requestId, receiveDataTime))
b.packets(requestId, idCommand.VobcLifeNum, idCommand.AutoIdFrame, receiveDataTime, decodePayMicoTime, train.VobcBtm)
} else if frameType == message.REQUEST_TYPE {
slog.Info(fmt.Sprintf("成功接受btm vobc的请求帧,requestId:%v,接受时间(微秒):%v", requestId, receiveDataTime))
req := &message.BtmVobcReq{}
req.Decode(dataText)
b.RequestFramePackets(req.VobcLifeNum, req.AutoIdFrame, requestId, receiveDataTime, decodePayMicoTime, req, train.VobcBtm)
} else {
slog.Error(fmt.Sprintf("btm vobc 解析未知命令帧类型:0x%v,原始数据:%v,长度:%v,requestId:%v", strconv.FormatInt(int64(frameType), 16), hex.EncodeToString(cfs), len(cfs), requestId))
return
}
}
func createFreeBalisePacketString() string {
return strings.Repeat("00", balise_const.UserTelegramByteLen)
}
func createFreeBalisePackets() []byte {
str := createFreeBalisePacketString()
d, _ := hex.DecodeString(str)
return d
}
const MAX_SEND_COUNT = 3
// 请求帧
func (b *BtmVobcClient) RequestFramePackets(vobcLifeNum uint32, autoId byte, requestId string, receiveTime int64, decodePayMicoTime int64, req *message.BtmVobcReq, vobcbtm *state_proto.VobcBtmState) {
if req.FrameStatus == message.REQ_FRAME_STATUS_BOOT && req.MessageType == message.REQ_PACKETS_TYPE_BOOT {
slog.Info(fmt.Sprintf("接受请求帧,准备发送空闲帧数据 帧状态:0x%v,消息类型:0x%v ,requestId:%v", strconv.FormatInt(int64(req.FrameStatus), 16), strconv.FormatInt(int64(req.MessageType), 16), requestId))
vobcbtm.TelegramState = make([]*state_proto.VobcBtmState_TelegramState, 0)
vobcbtm.History = make(map[uint32]*state_proto.VobcBtmState_VobcBtmHistoryState)
b.packets(requestId, vobcLifeNum, autoId, receiveTime, decodePayMicoTime, vobcbtm)
} else if req.FrameStatus == message.REQ_FRAME_STATUS_OK {
//帧正确,删除之前发送的数据
slog.Info(fmt.Sprintf("接受请求帧帧正确删除之前发送的数据requestId:%v", requestId))
delete(vobcbtm.History, uint32(req.MessageSerial))
} else if req.FrameStatus == message.REQ_FRAME_STATUS_ERROR {
//帧不正确 重新发送2次如果2次后仍然不正确则删除之前发送的数据
dd := vobcbtm.History[uint32(req.MessageSerial)]
if dd.SendCount > MAX_SEND_COUNT {
slog.Info(fmt.Sprintf("接受请求帧帧不正确重发超过2次删除之前发送的数据,准备发送新数据 requestId:%v", requestId))
sendBalisePacket := dd.BalisePacket
delete(vobcbtm.History, uint32(req.MessageSerial))
if vobcbtm.TelegramState[0].Telegram == sendBalisePacket {
b.RemoveBaliseFirst(vobcbtm)
}
if len(vobcbtm.TelegramState) == 0 {
b.balisePacketsFree(requestId, time.Now().UnixMicro(), req.VobcLifeNum, req.AutoIdFrame, vobcbtm)
} else {
b.balisePackets(requestId, vobcbtm.TelegramState[0], receiveTime, decodePayMicoTime, req.VobcLifeNum, req.AutoIdFrame, vobcbtm)
}
} else {
dd.SendCount = dd.SendCount + 1
if dd.IsFreePacket {
freeMsg := &message.BtmVobcMsgFree{}
if b.unmarshalJson(dd.SendTelegram, freeMsg) == nil {
freeMsg.FreeMsg = createFreeBalisePackets()
repeatData := freeMsg.Encode()
logStr := fmt.Sprintf("重新发送空闲帧数据,发送次数:%v,帧系列id:%v,数据:%v,requestId:%v", dd.SendCount, freeMsg.MsgSerial, hex.EncodeToString(repeatData), requestId)
slog.Info(logStr)
err := b.client.Send(repeatData)
if err != nil {
slog.Error(logStr, err)
}
}
} else {
packetMsg := &message.BtmVobcMessage{}
if b.unmarshalJson(dd.SendTelegram, packetMsg) == nil {
balise, _ := hex.DecodeString(dd.BalisePacket)
packetMsg.BtmMsg = balise
baliseData := packetMsg.Encode()
logStr := fmt.Sprintf("重新发送空闲帧数据,发送次数:%v,帧系列id:%v 数据:%v ,requestId:%v", dd.SendCount, packetMsg.MsgSerial, hex.EncodeToString(baliseData), requestId)
slog.Info(logStr)
err := b.client.Send(baliseData)
if err != nil {
slog.Error(logStr, err)
}
}
}
}
}
}
func (b *BtmVobcClient) unmarshalJson(jsonStr string, obj any) error {
err := json.Unmarshal([]byte(jsonStr), obj)
if err != nil {
slog.Error(fmt.Sprintf("vobc btm 数据转换失败 source:%v,对象:%v", jsonStr, reflect.TypeOf(obj).Name()))
return err
}
return nil
}
// 有应答器报文
func (b *BtmVobcClient) balisePackets(requestId string, tel *state_proto.VobcBtmState_TelegramState, receiveTime int64, decodePayMicoTime int64, vobcLifeNum uint32, autoCommandId byte, vobcbtm *state_proto.VobcBtmState) {
data, e := hex.DecodeString(tel.Telegram)
if e != nil {
slog.Error(fmt.Sprintf("解析应答器报文失败应答器报文长度:%v", tel.Telegram), e)
return
}
if len(data) < balise_const.UserTelegramByteLen {
for i := 0; i < balise_const.UserTelegramByteLen-len(data); i++ {
data = append(data, 0)
}
}
//前沿时间
var fttl uint16 = 0
tmpFttl := int64(math.Abs(float64(time.Now().UnixMilli() - tel.ArriveTime)))
if tmpFttl >= 0xffff {
fttl = 0xffff
} else {
fttl = uint16(tmpFttl)
}
var bttl uint16 = 0
tmpBttl := int64(math.Abs(float64(time.Now().UnixMilli() - tel.ArriveTime)))
if tmpBttl >= 0xffff {
bttl = 0xffff
} else {
bttl = uint16(tmpBttl)
}
repTimeMicro := (receiveTime - time.Now().UnixMicro()) / 100
baliseMsg := &message.BtmVobcMessage{FontTtl: fttl, BtmStatus: message.BTM_STSTUS_NORMAL, DecodeTime: uint16(decodePayMicoTime),
BackTtl: bttl, ResponseTime: byte(repTimeMicro), MsgSerial: message.GetAutoMessageId(),
VobcLifeNum: vobcLifeNum, BaseBtmVobc: message.BaseBtmVobc{AutoIdFrame: autoCommandId}}
u32MsgId := uint32(baliseMsg.MsgSerial)
jsonArr, _ := json.Marshal(baliseMsg)
baliseMsg.BtmMsg = data
baliseData := baliseMsg.Encode()
baliseMsgHex := hex.EncodeToString(baliseData)
vobcbtm.History[u32MsgId] = &state_proto.VobcBtmState_VobcBtmHistoryState{SendCount: 1, PacketSendId: u32MsgId, VobcLifeNum: vobcLifeNum,
IsFreePacket: false, SendTelegram: string(jsonArr), BalisePacket: tel.Telegram}
logStr := fmt.Sprintf("发送btm vobc 报文数据 报文序列id:%v 报文内容:%v 长度:%v ,requestId:%v", u32MsgId, baliseMsgHex, len(baliseData), requestId)
slog.Info(logStr)
err := b.client.Send(baliseData)
if err != nil {
slog.Error(logStr, err)
return
}
return
}
// 无应答器报文
func (b *BtmVobcClient) balisePacketsFree(requestId string, receiveTime int64, vobcLifeNum uint32, autoCommandId byte, vobcbtm *state_proto.VobcBtmState) {
repTimeMicro := (receiveTime - time.Now().UnixMicro()) / 100
data := createFreeBalisePackets()
freeMsg := &message.BtmVobcMsgFree{BtmStatus: message.BTM_STSTUS_NORMAL, Fun1: 0xffff, Fun2: 0x00CF, Fun3: uint16(0), Fun4: uint16(0),
FreeMsg: data, RespTime: byte(repTimeMicro), MsgSerial: message.GetAutoMessageId(), VobcLifeNum: vobcLifeNum, BaseBtmVobc: message.BaseBtmVobc{AutoIdFrame: autoCommandId}}
u32MsgId := uint32(freeMsg.MsgSerial)
jsonArr, _ := json.Marshal(freeMsg)
vobcbtm.History[u32MsgId] = &state_proto.VobcBtmState_VobcBtmHistoryState{SendCount: 1, PacketSendId: u32MsgId, VobcLifeNum: vobcLifeNum, IsFreePacket: true, SendTelegram: string(jsonArr)}
freeData := freeMsg.Encode()
dataEncode := hex.EncodeToString(freeData)
logStr := fmt.Sprintf("发送btm vobc 报文序列id:%v 空闲帧报文:%v 长度:%v ,requestId:%v", u32MsgId, dataEncode, len(freeData), requestId)
slog.Info(logStr)
err := b.client.Send(freeData)
if err != nil {
slog.Error(logStr, err)
return
}
}
// 应答器报文或空报文
func (b *BtmVobcClient) packets(requestId string, vobcLifeNum uint32, autoIdFrame byte, receiveTime int64, decodePayMicoTime int64, vobcbtm *state_proto.VobcBtmState) {
if len(vobcbtm.TelegramState) == 0 {
b.balisePacketsFree(requestId, receiveTime, vobcLifeNum, autoIdFrame, vobcbtm)
} else {
b.balisePackets(requestId, vobcbtm.TelegramState[0], receiveTime, decodePayMicoTime, vobcLifeNum, autoIdFrame, vobcbtm)
}
}
func (b *BtmVobcClient) SendData(data []byte) {
if b.client != nil {
slog.Info(fmt.Sprintf("发送btm vobc 报文:%v 长度:%v", hex.EncodeToString(data), len(data)))
err := b.client.Send(data)
if err != nil {
slog.Error("发送btm vobc 报文失败:", err)
return
}
}
}
func (b *BtmVobcClient) Stop() {
if b.server != nil {
b.calFun()
b.server.Close()
}
if b.client != nil {
b.client.Close()
}
}

View File

@ -53,39 +53,6 @@ type btmCanetClient struct {
baliseDetector *BaliseDetector
}
func (s *btmCanetClient) FindBaliseResend(train *state_proto.TrainState) (*state_proto.BTMState, byte, byte, byte) {
s.baliseDetector.eqLock.Lock()
defer s.baliseDetector.eqLock.Unlock()
cache := train.BtmBaliseCache
for _, balise := range cache.BaliseList {
slog.Info(fmt.Sprintf("===========%v", len(cache.BaliseList)))
if balise != nil && balise.BaliseId == cache.ResendBaliseId && balise.ResendCount < 3 {
balise.ResendCount++
ndsn := BaliseCounterAdd(cache.Dsn)
cache.Dsn = uint32(ndsn)
return balise, ndsn, byte(cache.BaliseCount), byte(cache.MessageCounter)
}
}
return nil, 0, 0, 0
}
func (s *btmCanetClient) FindBaliseByNotSend(train *state_proto.TrainState) (*state_proto.BTMState, byte, byte, byte) {
s.baliseDetector.eqLock.Lock()
defer s.baliseDetector.eqLock.Unlock()
cache := train.BtmBaliseCache
for _, btmCache := range cache.BaliseList {
if btmCache != nil && !btmCache.IsSend {
ndsn := BaliseCounterAdd(cache.Dsn)
cache.Dsn = uint32(ndsn)
cache.ResendBaliseId = btmCache.BaliseId
return btmCache, ndsn, byte(cache.BaliseCount), byte(cache.MessageCounter)
}
}
return nil, 0, 0, 0
}
type BtmClock struct {
BtmTk uint32 //与ATP系统同步的时间ms
SysTk time.Time //本地系统时间
@ -100,11 +67,8 @@ type BtmCanetClient interface {
Start(bcm BtmCanetManager)
Stop()
//HandleTrainHeadPositionInfo 处理收到列车位置信息
HandleTrainHeadPositionInfo(w ecs.World, vobcBtm *state_proto.VobcBtmState, h *TrainHeadPositionInfo)
HandleTrainHeadPositionInfoForTrain(w ecs.World, train *state_proto.TrainBtmCache, h *TrainHeadPositionInfo)
FindBaliseByNotSend(train *state_proto.TrainState) (*state_proto.BTMState, byte, byte, byte)
FindBaliseResend(train *state_proto.TrainState) (*state_proto.BTMState, byte, byte, byte)
HandleTrainHeadPositionInfo(w ecs.World, h *TrainHeadPositionInfo)
HandleTrainHeadPositionInfoForTrain(w ecs.World, train *state_proto.TrainState, h *TrainHeadPositionInfo)
}
var (
@ -120,7 +84,7 @@ func Default() BtmCanetClient {
}
return btmClient
}
func (s *btmCanetClient) HandleTrainHeadPositionInfoForTrain(w ecs.World, btmCache *state_proto.TrainBtmCache, h *TrainHeadPositionInfo) {
func (s *btmCanetClient) HandleTrainHeadPositionInfoForTrain(w ecs.World, train *state_proto.TrainState, h *TrainHeadPositionInfo) {
wd := entity.GetWorldData(w)
repo := wd.Repo
h2 := &TrainHeadPositionInfo{
@ -130,16 +94,23 @@ func (s *btmCanetClient) HandleTrainHeadPositionInfoForTrain(w ecs.World, btmCac
LinkOffset: h.OldLinkOffset,
Speed: h.Speed,
Acceleration: h.Acceleration}
s.baliseDetector.newDetect(wd, repo, h, h2, btmCache)
//s.baliseDetector.detect2(wd, repo, h, h2, vobcBtm)
s.baliseDetector.newDetect(wd, repo, h, h2, train.BtmBaliseCacheA, h.IsLine12, false, "11")
h.Up = h.TailUp
h.Link = h.TailLink
h.LinkOffset = h.TailLinkOffset
h2.Up = h.TailUp
h2.Link = h.OldTailLink
h2.LinkOffset = h.OldTailLinkOffset
s.baliseDetector.newDetect(wd, repo, h, h2, train.BtmBaliseCacheB, h.IsLine12, false, "222")
}
// HandleTrainHeadPositionInfo 处理来自动力学的列车位置信息
func (s *btmCanetClient) HandleTrainHeadPositionInfo(w ecs.World, vobcBtm *state_proto.VobcBtmState, h *TrainHeadPositionInfo) {
func (s *btmCanetClient) HandleTrainHeadPositionInfo(w ecs.World, h *TrainHeadPositionInfo) {
//slog.Debug(h.String())
wd := entity.GetWorldData(w)
repo := wd.Repo
s.baliseDetector.detect(wd, repo, h, vobcBtm)
s.baliseDetector.detect(wd, repo, h)
}
func (s *btmCanetClient) Start(bcm BtmCanetManager) {
s.bcm = bcm

View File

@ -2,9 +2,7 @@ package can_btm
import (
"fmt"
"joylink.club/bj-rtsts-server/const/balise_const"
"joylink.club/bj-rtsts-server/dto/state_proto"
"joylink.club/bj-rtsts-server/third_party/btm_vobc"
"joylink.club/rtsssimulation/component"
"joylink.club/rtsssimulation/fi"
"joylink.club/rtsssimulation/repository"
@ -12,7 +10,6 @@ import (
"log/slog"
"math"
"sort"
"strings"
"sync"
"time"
)
@ -80,7 +77,7 @@ func (t *BaliseDetector) tryRebind(th *TrainHeadPositionInfo) {
//slog.Debug(fmt.Sprintf("列车[%s]与CAN-BTM绑定", t.trianId))
}
}
func (t *BaliseDetector) newDetect(wd *component.WorldData, repo *repository.Repository, th, th2 *TrainHeadPositionInfo, btmCache *state_proto.TrainBtmCache) {
func (t *BaliseDetector) newDetect(wd *component.WorldData, repo *repository.Repository, th, th2 *TrainHeadPositionInfo, btmCache *state_proto.TrainBtmCache, isLine12, show bool, id string) {
//BTM天线中心点运行信息
curAntennaRi := t.createBtmAntennaRunningInfo(wd, repo, th) //目前车头
curAntennaRi2 := t.createBtmAntennaRunningInfo(wd, repo, th2) //上次车头
@ -90,13 +87,8 @@ func (t *BaliseDetector) newDetect(wd *component.WorldData, repo *repository.Rep
} else {
startBalises = t.searchBalisesFromBetweenLinkPosition(repo, th.Up, curAntennaRi.LinkId, curAntennaRi2.LinkOffset, curAntennaRi.LinkOffset)
}
//startBalises = t.searchBalisesFromBetweenLinkPosition(repo, th.Up, curAntennaRi.LinkId, th2.LinkOffset, th.LinkOffset)
//startBalises = t.searchBalisesFromBetweenLinkPosition(repo, th.Up, curAntennaRi.LinkId, curAntennaRi2.LinkOffset, curAntennaRi.LinkOffset)
balises := make([]*repository.Transponder, 0)
for _, balise := range startBalises {
//slog.Info(fmt.Sprintf("id:%v , %v,linkeId:%v ,headoffset:%v,tailOffset:%v", balise.Id(), th.Up, curAntennaRi.LinkId, curAntennaRi.LinkOffset, curAntennaRi2.LinkOffset))
find := false
for _, transponder := range balises {
if transponder.Id() == balise.Id() {
@ -110,16 +102,21 @@ func (t *BaliseDetector) newDetect(wd *component.WorldData, repo *repository.Rep
}
if len(balises) > 0 {
balise := balises[0]
//slog.Info(fmt.Sprintf("-----------------id:%v ,offset:%v, up: %v,linkeId:%v ,headoffset:%v,tailOffset:%v", balise.Id(), balise.LinkPosition().Offset(), th.Up, curAntennaRi.LinkId, curAntennaRi.LinkOffset, curAntennaRi2.LinkOffset))
telegram, utel := t.rcvTelegram(wd, balise.Id())
if t.addNewExpectedBalise(balise, btmCache, telegram, utel) {
//slog.Info(fmt.Sprintf("+++++++++++++id:%v ,offset:%v, up: %v,linkeId:%v ,headoffset:%v,tailOffset:%v", balise.Id(), balise.LinkPosition().Offset(), th.Up, curAntennaRi.LinkId, curAntennaRi.LinkOffset, curAntennaRi2.LinkOffset))
/*if show {
slog.Info(fmt.Sprintf("%v --------------------id:%v ,offset:%v, up: %v,linkeId:%v ,headoffset:%v,tailOffset:%v", id, balise.Id(), balise.LinkPosition().Offset(), th.Up, curAntennaRi.LinkId, curAntennaRi.LinkOffset, curAntennaRi2.LinkOffset))
}*/
if AddNewExpectedBalise(balise, btmCache, telegram, utel, isLine12) {
if show {
slog.Info(fmt.Sprintf("%v +++++++++++++id:%v ,offset:%v, up: %v,linkeId:%v ,headoffset:%v,tailOffset:%v", id, balise.Id(), balise.LinkPosition().Offset(), th.Up, curAntennaRi.LinkId, curAntennaRi.LinkOffset, curAntennaRi2.LinkOffset))
}
}
}
}
func (t *BaliseDetector) detect(wd *component.WorldData, repo *repository.Repository, th *TrainHeadPositionInfo, vobcBtm *state_proto.VobcBtmState) {
func (t *BaliseDetector) detect(wd *component.WorldData, repo *repository.Repository, th *TrainHeadPositionInfo) {
t.tryRebind(th)
//if !t.powerAmplifierSwitch { //天线功率放大器未开启,不进行探测
// return
@ -131,14 +128,9 @@ func (t *BaliseDetector) detect(wd *component.WorldData, repo *repository.Reposi
curExpect := t.timeScanNearestBalise(curTime, wd, repo, curAntennaRi)
if curExpect != nil && curExpect.Time.UnixMilli()-curTime.UnixMilli() < 20 { //20ms
//if curExpect != nil && curExpect.Distance < 80 { //20ms
//slog.Debug("将要激活应答器", "BaliseId", curExpect.BaliseId, "ActiveTime", dt)
//slog.Info(fmt.Sprintf("baliseId:%v,Distance:%v,up:%v", curExpect.BaliseId, curExpect.Distance, curAntennaRi.Up))
telegram, utel := t.rcvTelegram(wd, curExpect.BaliseId)
if curExpect.Distance <= 50 {
btm_vobc.Default().AppendBaliseMsgForTrain(vobcBtm, curExpect.BaliseId, telegram, curTime.UnixMilli())
}
//记录即将经过的应答器
if t.addExpectedBalise(curExpect) {
t.baliseCounterAdd1() //应答器计数器
@ -154,16 +146,6 @@ func (t *BaliseDetector) detect(wd *component.WorldData, repo *repository.Reposi
t.aboveBalise = false
}
curAntennaRi2 := t.createBtmAntennaRunningInfo(wd, repo, &TrainHeadPositionInfo{TrainId: th.TrainId,
Up: !th.Up,
Link: th.Link,
LinkOffset: th.LinkOffset,
Speed: th.Speed,
Acceleration: th.Acceleration})
curExpect2 := t.timeScanNearestBalise(curTime, wd, repo, curAntennaRi2)
if curExpect2 != nil && curExpect2.Distance > 20 {
btm_vobc.Default().UpdateTrainLeave(vobcBtm, curExpect2.BaliseId, curTime.UnixMilli())
}
}
// 应答器计数器加1[0,255]
@ -182,12 +164,15 @@ func (t *BaliseDetector) baliseMessageCounterAdd1() {
}
}
func BaliseCounterAdd(counter uint32) byte {
func BaliseCounterAdd(counter uint32, isLine12 bool) byte {
c := byte(counter)
c++
if c > 255 {
c = 1
if isLine12 {
c = 0
}
}
return c
}
@ -202,7 +187,7 @@ func (t *BaliseDetector) rcvTelegram(wd *component.WorldData, baliseId string) (
if !workedState.Work {
return fixBalise.Telegram, fixBalise.UserTelegram
} else if baliseVar.UserTelegram == nil || len(baliseVar.UserTelegram) == 0 {
slog.Warn(fmt.Sprintf("BTM天线未接受到应答器可变报文即将使用对应的固定报文, baliseId: %v", baliseId))
//slog.Warn(fmt.Sprintf("BTM天线未接受到应答器可变报文即将使用对应的固定报文, baliseId: %v", baliseId))
return fixBalise.Telegram, fixBalise.UserTelegram
} else {
return baliseVar.Telegram, baliseVar.UserTelegram
@ -210,51 +195,13 @@ func (t *BaliseDetector) rcvTelegram(wd *component.WorldData, baliseId string) (
} else if workedState.Work {
return fixBalise.Telegram, fixBalise.UserTelegram
} else {
slog.Warn(fmt.Sprintf("BTM天线未接受到应答器报文应答器未工作 baliseId: %v", baliseId))
//slog.Warn(fmt.Sprintf("BTM天线未接受到应答器报文应答器未工作 baliseId: %v", baliseId))
}
} else {
slog.Warn(fmt.Sprintf("BTM天线接收应答器报文未找到 baliseId: %v", baliseId))
//slog.Warn(fmt.Sprintf("BTM天线接收应答器报文未找到 baliseId: %v", baliseId))
}
return nil, nil
}
func (t *BaliseDetector) addNewExpectedBalise(balise *repository.Transponder, btmCache *state_proto.TrainBtmCache, telegram, userTelegram []byte) bool {
t.eqLock.Lock()
defer t.eqLock.Unlock()
bl := btmCache.BaliseList
for _, tt := range bl {
if tt != nil && tt.BaliseId == balise.Id() {
return false
}
}
for i := 1; i < len(bl); i++ {
bl[i-1] = bl[i]
}
unpack := false
bc := BaliseCounterAdd(btmCache.BaliseCount)
mc := btmCache.MessageCounter
if userTelegram != nil && len(userTelegram) > 0 {
mc = uint32(BaliseCounterAdd(mc))
unpack = true
}
btmCache.BaliseCount = uint32(bc)
btmCache.MessageCounter = mc
btmS := &state_proto.BTMState{BaliseId: balise.Id(),
Telegram: fmt.Sprintf("%x", userTelegram),
Telegram128: fmt.Sprintf("%X", telegram),
Unpack: unpack,
BaliseType: int32(balise.BaliseType().Number()),
AboveBalise: true, HasData: true}
if userTelegram == nil || len(userTelegram) == 0 {
btmS.Telegram = strings.Repeat("00", balise_const.UserTelegramByteLen)
btmS.Telegram128 = strings.Repeat("00", balise_const.TelegramByteLen)
btmS.HasData = false
}
//存入队尾
bl[len(bl)-1] = btmS
return true
}
// true-新增false-更新
func (t *BaliseDetector) addExpectedBalise(curExpect *BtmAntennaScanningBaliseInfo) bool {

View File

@ -0,0 +1,121 @@
package can_btm
import (
"fmt"
"joylink.club/bj-rtsts-server/const/balise_const"
"joylink.club/bj-rtsts-server/dto/state_proto"
"joylink.club/rtsssimulation/repository"
"strings"
"sync"
)
var baliseLock = &sync.Mutex{}
func IsLine12(train *state_proto.TrainState) bool {
if strings.Contains(train.ProjectCode, "12") {
return true
}
return false
}
func AddNewExpectedBalise(balise *repository.Transponder, btmCache *state_proto.TrainBtmCache, telegram, userTelegram []byte, isLine12 bool) bool {
baliseLock.Lock()
defer baliseLock.Unlock()
bl := btmCache.BaliseList
for _, tt := range bl {
if tt != nil && tt.BaliseId == balise.Id() {
return false
}
}
for i := 1; i < len(bl); i++ {
bl[i-1] = bl[i]
}
unpack := false
bc := BaliseCounterAdd(btmCache.BaliseCount, isLine12)
mc := btmCache.MessageCounter
if userTelegram != nil && len(userTelegram) > 0 {
mc = uint32(BaliseCounterAdd(mc, isLine12))
unpack = true
}
btmCache.BaliseCount = uint32(bc)
btmCache.MessageCounter = mc
btmS := &state_proto.BTMState{BaliseId: balise.Id(),
Telegram: fmt.Sprintf("%x", userTelegram),
Telegram128: fmt.Sprintf("%X", telegram),
Unpack: unpack,
BaliseType: int32(balise.BaliseType().Number()),
AboveBalise: true, HasData: true}
if userTelegram == nil || len(userTelegram) == 0 {
btmS.Telegram = strings.Repeat("00", balise_const.UserTelegramByteLen)
btmS.Telegram128 = strings.Repeat("00", balise_const.TelegramByteLen)
btmS.HasData = false
}
//存入队尾
bl[len(bl)-1] = btmS
return true
}
// HandleTrainHeadPositionInfoForTrain 处理列车位置信息
// 参数1 参数2发送序列号参数3应答器计数每过一个应答器加一在同一个应答器内不变)参数4报文计数器 (每解出一个报文加一)0~255
func FindBaliseResend(cache *state_proto.TrainBtmCache, isLine12 bool) (*state_proto.BTMState, byte, byte, byte) {
baliseLock.Lock()
defer baliseLock.Unlock()
for _, balise := range cache.BaliseList {
if balise != nil && balise.BaliseId == cache.ResendBaliseId && balise.ResendCount < 3 {
balise.ResendCount++
ndsn := BaliseCounterAdd(cache.Dsn, isLine12)
cache.Dsn = uint32(ndsn)
return balise, ndsn, byte(cache.BaliseCount), byte(cache.MessageCounter)
}
}
ndsn := BaliseCounterAdd(cache.Dsn, isLine12)
return nil, ndsn, 0, 0
}
func FindBaliseByNotSend(cache *state_proto.TrainBtmCache, isLine12 bool) (*state_proto.BTMState, byte, byte, byte) {
baliseLock.Lock()
defer baliseLock.Unlock()
for _, btmCache := range cache.BaliseList {
if btmCache != nil && !btmCache.IsSend {
ndsn := BaliseCounterAdd(cache.Dsn, isLine12)
cache.Dsn = uint32(ndsn)
cache.ResendBaliseId = btmCache.BaliseId
return btmCache, ndsn, byte(cache.BaliseCount), byte(cache.MessageCounter)
}
}
ndsn := BaliseCounterAdd(cache.Dsn, isLine12)
return nil, ndsn, 0, 0
}
func ClearBalise(train *state_proto.TrainState) {
baliseLock.Lock()
defer baliseLock.Unlock()
train.BtmBaliseCacheA.BaliseList = make([]*state_proto.BTMState, 3)
train.BtmBaliseCacheB.BaliseList = make([]*state_proto.BTMState, 3)
}
// 11号线根据序列号查询
func FindBaliseByMessageSerial(cache *state_proto.TrainBtmCache, isLine12 bool, ms byte) (*state_proto.BTMState, byte, bool) {
baliseLock.Lock()
defer baliseLock.Unlock()
for _, btmCache := range cache.BaliseList {
if btmCache != nil {
if btmCache.BaliseId == cache.ResendBaliseId {
if byte(btmCache.PackageDataSN) == ms {
bt, dsn, _, _ := FindBaliseByNotSend(cache, isLine12)
return bt, dsn, true
} else {
ndsn := BaliseCounterAdd(cache.Dsn, isLine12)
cache.Dsn = uint32(ndsn)
return btmCache, ndsn, false
}
}
}
}
bt, dsn, _, _ := FindBaliseByNotSend(cache, isLine12)
return bt, dsn, true
}

View File

@ -2,6 +2,7 @@ package beijing11
import (
"encoding/binary"
"github.com/snksoft/crc"
)
const ( //不知道对不对,问也不回,先瞎写吧
@ -10,11 +11,12 @@ const ( //不知道对不对,问也不回,先瞎写吧
)
const (
SignalAspect_No = 0x01 //灭灯
SignalAspect_H = 0x02 //红灯
SignalAspect_L = 0x03 //绿灯
SignalAspect_U = 0x04 //黄灯
SignalAspect_HU = 0x05 //红黄
SignalAspect_No = 0x99 //灭灯,这个值目前未知,先用一个应该没被使用的值占位
SignalAspect_H = 0x01 //红灯
SignalAspect_L = 0x04 //绿灯
SignalAspect_U = 0x02 //黄灯
SignalAspect_HU = 0x03 //红黄
SignalAspect_B = 0x08 //白灯
)
func GetStateByte(state bool) byte {
@ -265,10 +267,12 @@ func (t *ToInterlockFrame) encode() []byte {
for _, state := range t.SPKSStates {
data = state.encode(data)
}
////车库门数量0
//data = binary.BigEndian.AppendUint16(data, 0)
//CRC32不校验随便填
data = append(data, 0xff, 0xff, 0xff, 0xff)
//填充字节
fillSlice := make([]byte, 19)
fillSlice[2] = 1
data = append(data, fillSlice...)
//CRC32
data = binary.BigEndian.AppendUint32(data, crc32(data[3:]))
//填充报文长度
binary.BigEndian.PutUint16(data[1:3], uint16(len(data)-7))
return data
@ -387,3 +391,9 @@ type XcjState struct {
BackConfirm byte //返回确认状态
BackMode byte //模式
}
var crcHash = crc.NewHash(&crc.Parameters{Width: 32, Polynomial: 0x4c11db7, Init: 0x0, ReflectIn: false, ReflectOut: false, FinalXor: 0x0})
func crc32(data []byte) uint32 {
return uint32(crcHash.CalculateCRC(data))
}

View File

@ -3,41 +3,25 @@ package beijing11
import (
"encoding/binary"
"encoding/hex"
"encoding/json"
"fmt"
"joylink.club/bj-rtsts-server/util/myreader"
"testing"
)
func TestFromInterlockFrame_Decode(t *testing.T) {
str := "82009a3c0163010006000100000200000300000600000700000800000200010000050000020001aaaa0005aaaa00000008000401000501000601000701001801001901001a01001b010010000480000580000680000780000800000900000a00001d00001e00001f000020000021000022000023000024000025000000000000040001aaaa0002aaaa0003aaaa0004aaaa00000000000000000000000040ace569"
str := "58bea4c65e0e583f5bdedc310800450000bd030c0000801100003d0b0a0d3d0b7814413c40d800a9fcf182009a3c016301000600010000020000030000060000070000080000020001000005aa00020001aaaa0005aaaa00000008000401000501000601000701001801001901001a01001b010010000400000500000600000700000800000900000a00001d00001e00001f000020000021000022000023000024000025000000000000040001aaaa0002aaaa0003aaaa0004aaaa0000000000000000000000004c428d88"
data, err := hex.DecodeString(str)
if err != nil {
t.Fatal(err)
}
frame := &FromInterlockFrame{}
err = frame.Decode(data)
if err != nil {
t.Fatal(err)
}
marshal, err := json.Marshal(frame)
if err != nil {
t.Fatal(err)
}
fmt.Println(string(marshal))
}
func TestToInterlockFrame_Decode(t *testing.T) {
str := "83009663013c0100060001010002010003010006010007010008010002000155ffaaaaaa000555ffaaaaaa00020001aaaa0005aaaa00000008000401000501000601000701001801001901001a01001b010010000440000540000640000740000840000940000a40001d40001e40001f40002040002140002240002340002440002540000000000004000155aa000255aa000355aa000455aaffffffff"
data, err := hex.DecodeString(str)
if err != nil {
t.Fatal(err)
if data[0] != 0x82 {
data = data[42:] //去掉wireshark抓包携带的额外字节
}
reader := myreader.NewReader(data)
fmt.Printf("%x【报文类型】\t\n", reader.ReadByte())
fmt.Printf("%x【报文长度】\t\n", reader.ReadBytes(2))
fmt.Printf("%x【轨旁编号】\t\n", reader.ReadBytes(2))
fmt.Printf("%x【联锁编号】\t\n", reader.ReadBytes(2))
fmt.Printf("%x\t【报文类型】\n", reader.ReadByte())
fmt.Printf("%x\t【报文长度】\n", reader.ReadBytes(2))
fmt.Printf("%x\t【联锁编号】\n", reader.ReadBytes(2))
fmt.Printf("%x\t【轨旁编号】\n", reader.ReadBytes(2))
{ //道岔
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
@ -50,7 +34,110 @@ func TestToInterlockFrame_Decode(t *testing.T) {
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
for i := 0; i < int(binary.BigEndian.Uint16(deviceNum)); i++ {
fmt.Printf("%x ", reader.ReadBytes(8))
fmt.Printf("%x ", reader.ReadBytes(3))
}
fmt.Println("【屏蔽门】")
}
{ //紧急停车按钮
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
for i := 0; i < int(binary.BigEndian.Uint16(deviceNum)); i++ {
fmt.Printf("%x ", reader.ReadBytes(4))
}
fmt.Println("【紧急停车按钮】")
}
{ //扣车按钮
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
fmt.Println("【扣车按钮】")
}
{ //信号机
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
for i := 0; i < int(binary.BigEndian.Uint16(deviceNum)); i++ {
fmt.Printf("%x ", reader.ReadBytes(3))
}
fmt.Println("【信号机】")
}
{ //计轴区段
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
for i := 0; i < int(binary.BigEndian.Uint16(deviceNum)); i++ {
fmt.Printf("%x ", reader.ReadBytes(3))
}
fmt.Println("【计轴区段】")
}
{ //无人折返
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
fmt.Println("【无人折返】")
}
{ //防淹门
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
fmt.Println("【防淹门】")
}
{ //SPKS
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
for i := 0; i < int(binary.BigEndian.Uint16(deviceNum)); i++ {
fmt.Printf("%x ", reader.ReadBytes(4))
}
fmt.Println("【SPKS】")
}
{ //车库门
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
fmt.Println("【车库门】")
}
{ //预留
deviceNum := reader.ReadBytes(10)
fmt.Printf("%x\t", deviceNum)
fmt.Println("【预留】")
}
//CRC32
fmt.Printf("%x【CRC32】\n", reader.ReadBytes(4))
//{ //json
// frame := &FromInterlockFrame{}
// err = frame.Decode(data)
// if err != nil {
// t.Fatal(err)
// }
// marshal, err := json.Marshal(frame)
// if err != nil {
// t.Fatal(err)
// }
// fmt.Println(string(marshal))
//}
}
func TestToInterlockFrame_Decode(t *testing.T) {
str := "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"
data, err := hex.DecodeString(str)
if err != nil {
t.Fatal(err)
}
if data[0] != 0x83 {
data = data[42:] //去掉wireshark抓包携带的额外字节
}
reader := myreader.NewReader(data)
fmt.Printf("%x\t【报文类型】\n", reader.ReadByte())
fmt.Printf("%x\t【报文长度】\n", reader.ReadBytes(2))
fmt.Printf("%x\t【轨旁编号】\n", reader.ReadBytes(2))
fmt.Printf("%x\t【联锁编号】\n", reader.ReadBytes(2))
{ //道岔
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
for i := 0; i < int(binary.BigEndian.Uint16(deviceNum)); i++ {
fmt.Printf("%x ", reader.ReadBytes(3))
}
fmt.Println("【道岔】")
}
{ //屏蔽门
deviceNum := reader.ReadBytes(2)
fmt.Printf("%x\t", deviceNum)
for i := 0; i < int(binary.BigEndian.Uint16(deviceNum)); i++ {
fmt.Printf("%x ", reader.ReadBytes(7))
}
fmt.Println("【屏蔽门】")
}
@ -102,5 +189,5 @@ func TestToInterlockFrame_Decode(t *testing.T) {
fmt.Println("【SPKS】")
}
//CRC32
fmt.Printf("%x【CRC32】", reader.ReadBytes(4))
fmt.Printf("%x【CRC32】\n", reader.ReadBytes(reader.Len()))
}

View File

@ -10,8 +10,10 @@ import (
"joylink.club/bj-rtsts-server/ts/simulation/wayside/memory"
"joylink.club/rtsssimulation/component"
"joylink.club/rtsssimulation/entity"
"joylink.club/rtsssimulation/fi"
"log/slog"
"math"
"net"
"runtime/debug"
"sort"
"sync"
@ -32,12 +34,11 @@ var (
type serviceContext struct {
cancelFunc context.CancelFunc //用来结束各个协程的函数
client udp.UdpClient //向联锁发送数据的客户端
server udp.UdpServer //接收联锁数据的服务端
ioAddr *net.UDPAddr //向联锁发送数据的客户端
server udp.UdpServer //接收联锁数据的服务端同时也是向联锁发送数据的udp客户端
sim *memory.VerifySimulation //启动服务所使用的仿真
iConfig config.InterlockConfig //启动服务使用的联锁配置
deviceTable *StationDeviceIndexTable //联锁站的设备ID表key-车站名
driveMsgSlice []*FromInterlockFrame //驱动消息切片
}
func Start(interlockConfig config.InterlockConfig, simulation *memory.VerifySimulation) {
@ -55,13 +56,16 @@ func Start(interlockConfig config.InterlockConfig, simulation *memory.VerifySimu
if serviceCtx != nil {
panic(fmt.Sprintf("%s重复启动联锁站[%s]通信服务", logTag, interlockConfig.Code))
}
//UDP客户端
client := udp.NewClient(fmt.Sprintf("%s:%d", interlockConfig.Ip, interlockConfig.RemotePort))
//仿真IO地址
ioAddr, err := net.ResolveUDPAddr("udp", fmt.Sprintf("%s:%d", interlockConfig.Ip, interlockConfig.RemotePort))
if err != nil {
panic(fmt.Sprintf("%s解析IP地址出错%s", logTag, err))
}
ctx, cancelFunc := context.WithCancel(context.Background())
serviceCtx = &serviceContext{
cancelFunc: cancelFunc,
client: client,
ioAddr: ioAddr,
sim: simulation,
iConfig: interlockConfig,
deviceTable: table,
@ -69,7 +73,7 @@ func Start(interlockConfig config.InterlockConfig, simulation *memory.VerifySimu
//UDP服务端
server := udp.NewServer(fmt.Sprintf(":%d", interlockConfig.LocalPort), serviceCtx.handleDriveMsg)
serviceCtx.server = server
err := server.Listen()
err = server.Listen()
if err != nil {
panic(fmt.Sprintf("%s启动UDP服务失败%s", logTag, err))
}
@ -86,201 +90,220 @@ func (s *serviceContext) handleDriveMsg(data []byte) {
logger().Error("解析数据出错", "error", err)
return
}
if len(s.driveMsgSlice) < 2 {
if frame.InterlockCode == 0x3c01 || frame.InterlockCode == 0x3c02 {
s.driveMsgSlice = append(s.driveMsgSlice, frame)
}
}
//wd := entity.GetWorldData(s.sim.World)
////for _, cmd := range frame.TurnoutData.CmdList {
//// uid := s.deviceTable.TurnoutMap[cmd.Id].uid
////}
//for _, cmd := range frame.PSDData.CmdList {
// row := s.deviceTable.PsdMap[cmd.Id]
// entry := wd.EntityMap[row.uid]
// circuit := component.PsdCircuitType.Get(entry)
// switch cmd.Cmd {
// case 0xAA: //短编组开门
// component.RelayDriveType.Get(wd.EntityMap[row.relateDeviceMap[S]]).Td = true
// component.RelayDriveType.Get(wd.EntityMap[row.relateDeviceMap[L]]).Td = false
// component.RelayDriveType.Get(circuit.GMJ).Td = false
// case 0xBB: //长编组开门
// component.RelayDriveType.Get(wd.EntityMap[row.relateDeviceMap[S]]).Td = false
// component.RelayDriveType.Get(wd.EntityMap[row.relateDeviceMap[L]]).Td = true
// component.RelayDriveType.Get(circuit.GMJ).Td = false
// case 0x55:
// component.RelayDriveType.Get(wd.EntityMap[row.relateDeviceMap[S]]).Td = false
// component.RelayDriveType.Get(wd.EntityMap[row.relateDeviceMap[L]]).Td = false
// component.RelayDriveType.Get(circuit.GMJ).Td = true
// }
//}
//for _, cmd := range frame.ESBData.CmdList {
// uid := s.deviceTable.EsbMap[cmd.Id].uid
// esb := s.sim.Repo.FindEsb(uid)
// if cmd.JjtcplCmd == ON {
// err := fi.DriveRelayUp(s.sim.World, esb.RelayId())
// if err != nil {
// logger().Error("驱动ESB出错", "error", err)
// }
// continue
// }
// if cmd.JjtcCmd == ON {
// err := fi.DriveRelayDown(s.sim.World, esb.RelayId())
// if err != nil {
// logger().Error("驱动ESB出错", "error", err)
// }
// } else {
// err := fi.DriveRelayUp(s.sim.World, esb.RelayId())
// if err != nil {
// logger().Error("驱动ESB出错", "error", err)
// }
// }
//}
//for _, cmd := range frame.SignalData.CmdList {
// uid := s.deviceTable.SignalMap[cmd.Id].uid
// entry := wd.EntityMap[uid]
// if entry.HasComponent(component.Signal2XH1ElectronicType) { // 2XH1信号机
// signal2XH1 := component.Signal2XH1ElectronicType.Get(entry)
// switch cmd.Cmd {
// case SignalAspect_No:
// component.RelayDriveType.Get(signal2XH1.Z2XH1_DDJ).Td = true
// component.RelayDriveType.Get(signal2XH1.Z2XH1_LXJ).Td = false
// case SignalAspect_H:
// component.RelayDriveType.Get(signal2XH1.Z2XH1_DDJ).Td = false
// component.RelayDriveType.Get(signal2XH1.Z2XH1_LXJ).Td = false
// case SignalAspect_L:
// component.RelayDriveType.Get(signal2XH1.Z2XH1_DDJ).Td = false
// component.RelayDriveType.Get(signal2XH1.Z2XH1_LXJ).Td = true
// default:
// logger().Error(fmt.Sprintf("信号机[%s]无法开放[%x]信号", uid, cmd.Cmd))
// }
// } else if entry.HasComponent(component.Signal3XH1ElectronicType) { // 3XH1信号机
// signal3XH1 := component.Signal3XH1ElectronicType.Get(entry)
// switch cmd.Cmd {
// case SignalAspect_No:
// component.RelayDriveType.Get(signal3XH1.Z3XH1_DDJ).Td = true
// component.RelayDriveType.Get(signal3XH1.Z3XH1_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_ZXJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_YXJ).Td = false
// case SignalAspect_H:
// component.RelayDriveType.Get(signal3XH1.Z3XH1_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_ZXJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_YXJ).Td = false
// case SignalAspect_L:
// component.RelayDriveType.Get(signal3XH1.Z3XH1_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_LXJ).Td = true
// component.RelayDriveType.Get(signal3XH1.Z3XH1_ZXJ).Td = true
// component.RelayDriveType.Get(signal3XH1.Z3XH1_YXJ).Td = false
// case SignalAspect_U:
// component.RelayDriveType.Get(signal3XH1.Z3XH1_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_LXJ).Td = true
// component.RelayDriveType.Get(signal3XH1.Z3XH1_ZXJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_YXJ).Td = false
// case SignalAspect_HU:
// component.RelayDriveType.Get(signal3XH1.Z3XH1_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_ZXJ).Td = false
// component.RelayDriveType.Get(signal3XH1.Z3XH1_YXJ).Td = true
// default:
// logger().Error(fmt.Sprintf("信号机[%s]无法开放[%x]信号", uid, cmd.Cmd))
// }
// } else if entry.HasComponent(component.Signal3XH2ElectronicType) { // 3XH2信号机
// signal3XH2 := component.Signal3XH2ElectronicType.Get(entry)
// switch cmd.Cmd {
// case SignalAspect_No:
// component.RelayDriveType.Get(signal3XH2.Z3XH2_DDJ).Td = true
// component.RelayDriveType.Get(signal3XH2.Z3XH2_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH2.Z3XH2_YXJ).Td = false
// case SignalAspect_H:
// component.RelayDriveType.Get(signal3XH2.Z3XH2_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH2.Z3XH2_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH2.Z3XH2_YXJ).Td = false
// case SignalAspect_L:
// component.RelayDriveType.Get(signal3XH2.Z3XH2_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH2.Z3XH2_LXJ).Td = true
// component.RelayDriveType.Get(signal3XH2.Z3XH2_YXJ).Td = false
// case SignalAspect_HU:
// component.RelayDriveType.Get(signal3XH2.Z3XH2_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH2.Z3XH2_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH2.Z3XH2_YXJ).Td = true
// default:
// logger().Error(fmt.Sprintf("信号机[%s]无法开放[%x]信号", uid, cmd.Cmd))
// }
// } else if entry.HasComponent(component.Signal3XH3ElectronicType) { // 3XH3信号机
// signal3XH3 := component.Signal3XH3ElectronicType.Get(entry)
// switch cmd.Cmd {
// case SignalAspect_No:
// component.RelayDriveType.Get(signal3XH3.Z3XH3_DDJ).Td = true
// component.RelayDriveType.Get(signal3XH3.Z3XH3_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH3.Z3XH3_YXJ).Td = false
// case SignalAspect_H:
// component.RelayDriveType.Get(signal3XH3.Z3XH3_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH3.Z3XH3_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH3.Z3XH3_YXJ).Td = false
// case SignalAspect_U:
// component.RelayDriveType.Get(signal3XH3.Z3XH3_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH3.Z3XH3_LXJ).Td = true
// component.RelayDriveType.Get(signal3XH3.Z3XH3_YXJ).Td = false
// case SignalAspect_HU:
// component.RelayDriveType.Get(signal3XH3.Z3XH3_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH3.Z3XH3_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH3.Z3XH3_YXJ).Td = true
// default:
// logger().Error(fmt.Sprintf("信号机[%s]无法开放[%x]信号", uid, cmd.Cmd))
// }
// } else if entry.HasComponent(component.Signal3XH4ElectronicType) { // 3XH4信号机
// signal3XH4 := component.Signal3XH4ElectronicType.Get(entry)
// switch cmd.Cmd {
// case SignalAspect_No:
// component.RelayDriveType.Get(signal3XH4.Z3XH4_DDJ).Td = true
// component.RelayDriveType.Get(signal3XH4.Z3XH4_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH4.Z3XH4_ZXJ).Td = false
// case SignalAspect_H:
// component.RelayDriveType.Get(signal3XH4.Z3XH4_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH4.Z3XH4_LXJ).Td = false
// component.RelayDriveType.Get(signal3XH4.Z3XH4_ZXJ).Td = false
// case SignalAspect_L:
// component.RelayDriveType.Get(signal3XH4.Z3XH4_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH4.Z3XH4_LXJ).Td = true
// component.RelayDriveType.Get(signal3XH4.Z3XH4_ZXJ).Td = true
// case SignalAspect_U:
// component.RelayDriveType.Get(signal3XH4.Z3XH4_DDJ).Td = false
// component.RelayDriveType.Get(signal3XH4.Z3XH4_LXJ).Td = true
// component.RelayDriveType.Get(signal3XH4.Z3XH4_ZXJ).Td = false
// default:
// logger().Error(fmt.Sprintf("信号机[%s]无法开放[%x]信号", uid, cmd.Cmd))
// }
// } else {
// logger().Error(fmt.Sprintf("信号机[%s]的型号未知", uid))
// }
//}
//for _, cmd := range frame.AxleSectionData.CmdList {
// if cmd.Cmd == 0x80 {
// uid := s.deviceTable.AxleSectionMap[cmd.Id].uid
// physicalSectionUid := s.sim.Repo.FindAxleCountingSection(uid).PhysicalSection().Id()
// _, err := fi.PhysicalSectionDrstDrive(s.sim.World, physicalSectionUid)
// if err != nil {
// logger().Error(fmt.Sprintf("计轴区段[%s]复位出错:%s", uid, err))
// }
// }
//}
////for _, cmd := range frame.SPKSData.CmdList {
//// uid := s.deviceTable.SpksMap[cmd.Id].uid
////}
wd := entity.GetWorldData(s.sim.World)
for _, cmd := range frame.TurnoutData.CmdList {
uid := s.deviceTable.TurnoutMap[cmd.Id].uid
if cmd.Cmd == 0x55 {
err = fi.DriveTurnoutDCOn(s.sim.World, uid)
} else if cmd.Cmd == 0xaa {
err = fi.DriveTurnoutFCOn(s.sim.World, uid)
} else {
err = fi.DriveTurnoutDCOff(s.sim.World, uid)
}
if err != nil {
logger().Error("驱动道岔出错", "error", err)
}
}
for _, cmd := range frame.PSDData.CmdList {
row := s.deviceTable.PsdMap[cmd.Id]
entry := wd.EntityMap[row.uid]
circuit := component.PsdCircuitType.Get(entry)
logger().Info(fmt.Sprintf("屏蔽门命令:%x", cmd.Cmd))
switch cmd.Cmd {
case 0xAA: //短编组开门
wd.SetQdBit(row.relateDeviceMap[S], true)
wd.SetQdBit(row.relateDeviceMap[L], false)
wd.SetQdBit(component.UidType.Get(circuit.GMJ).Id, false)
case 0xBB: //长编组开门
wd.SetQdBit(row.relateDeviceMap[S], false)
wd.SetQdBit(row.relateDeviceMap[L], true)
wd.SetQdBit(component.UidType.Get(circuit.GMJ).Id, false)
case 0x55: //关门
wd.SetQdBit(row.relateDeviceMap[S], false)
wd.SetQdBit(row.relateDeviceMap[L], false)
wd.SetQdBit(component.UidType.Get(circuit.GMJ).Id, true)
}
}
for _, cmd := range frame.ESBData.CmdList {
uid := s.deviceTable.EsbMap[cmd.Id].uid
esb := s.sim.Repo.FindEsb(uid)
if cmd.JjtcplCmd == 0x55 {
err = fi.PressDownButton(s.sim.World, esb.PlaId())
if err != nil {
logger().Error("驱动ESB出错", "error", err)
}
continue
} else {
err = fi.PressUpButton(s.sim.World, esb.PlaId())
if err != nil {
logger().Error("驱动ESB出错", "error", err)
}
}
if cmd.JjtcCmd == 0x55 {
err := fi.DriveRelayDown(s.sim.World, esb.RelayId())
if err != nil {
logger().Error("驱动ESB出错", "error", err)
}
} else {
err := fi.DriveRelayUp(s.sim.World, esb.RelayId())
if err != nil {
logger().Error("驱动ESB出错", "error", err)
}
}
}
for _, cmd := range frame.SignalData.CmdList {
uid := s.deviceTable.SignalMap[cmd.Id].uid
entry := wd.EntityMap[uid]
if entry.HasComponent(component.Signal2XH1ElectronicType) { // 2XH1信号机
signal2XH1 := component.Signal2XH1ElectronicType.Get(entry)
switch cmd.Cmd {
case SignalAspect_No:
wd.SetQdBit(component.UidType.Get(signal2XH1.Z2XH1_DDJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal2XH1.Z2XH1_LXJ).Id, false)
case SignalAspect_H:
wd.SetQdBit(component.UidType.Get(signal2XH1.Z2XH1_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal2XH1.Z2XH1_LXJ).Id, false)
case SignalAspect_L:
wd.SetQdBit(component.UidType.Get(signal2XH1.Z2XH1_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal2XH1.Z2XH1_LXJ).Id, true)
default:
logger().Error(fmt.Sprintf("信号机[%s]无法开放[%x]信号", uid, cmd.Cmd))
}
} else if entry.HasComponent(component.Signal3XH1ElectronicType) { // 3XH1信号机
signal3XH1 := component.Signal3XH1ElectronicType.Get(entry)
switch cmd.Cmd {
case SignalAspect_No:
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_DDJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_ZXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_YXJ).Id, false)
case SignalAspect_H:
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_ZXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_YXJ).Id, false)
case SignalAspect_L:
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_LXJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_ZXJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_YXJ).Id, false)
case SignalAspect_U:
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_LXJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_ZXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_YXJ).Id, false)
case SignalAspect_HU:
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_ZXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH1.Z3XH1_YXJ).Id, true)
default:
logger().Error(fmt.Sprintf("信号机[%s]无法开放[%x]信号", uid, cmd.Cmd))
}
} else if entry.HasComponent(component.Signal3XH2ElectronicType) { // 3XH2信号机
signal3XH2 := component.Signal3XH2ElectronicType.Get(entry)
switch cmd.Cmd {
case SignalAspect_No:
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_DDJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_YXJ).Id, false)
case SignalAspect_H:
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_YXJ).Id, false)
case SignalAspect_L:
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_LXJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_YXJ).Id, false)
case SignalAspect_HU:
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH2.Z3XH2_YXJ).Id, true)
default:
logger().Error(fmt.Sprintf("信号机[%s]无法开放[%x]信号", uid, cmd.Cmd))
}
} else if entry.HasComponent(component.Signal3XH3ElectronicType) { // 3XH3信号机
signal3XH3 := component.Signal3XH3ElectronicType.Get(entry)
switch cmd.Cmd {
case SignalAspect_No:
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_DDJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_YXJ).Id, false)
case SignalAspect_H:
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_YXJ).Id, false)
case SignalAspect_U:
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_LXJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_YXJ).Id, false)
case SignalAspect_HU:
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH3.Z3XH3_YXJ).Id, true)
default:
logger().Error(fmt.Sprintf("信号机[%s]无法开放[%x]信号", uid, cmd.Cmd))
}
} else if entry.HasComponent(component.Signal3XH4ElectronicType) { // 3XH4信号机
signal3XH4 := component.Signal3XH4ElectronicType.Get(entry)
switch cmd.Cmd {
case SignalAspect_No:
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_DDJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_ZXJ).Id, false)
case SignalAspect_H:
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_LXJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_ZXJ).Id, false)
case SignalAspect_L:
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_LXJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_ZXJ).Id, true)
case SignalAspect_U:
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_DDJ).Id, false)
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_LXJ).Id, true)
wd.SetQdBit(component.UidType.Get(signal3XH4.Z3XH4_ZXJ).Id, false)
default:
logger().Error(fmt.Sprintf("信号机[%s]无法开放[%x]信号", uid, cmd.Cmd))
}
} else {
logger().Error(fmt.Sprintf("信号机[%s]的型号未知", uid))
}
}
for _, cmd := range frame.AxleSectionData.CmdList {
if cmd.Cmd == 0x80 {
uid := s.deviceTable.AxleSectionMap[cmd.Id].uid
physicalSectionUid := s.sim.Repo.FindAxleCountingSection(uid).PhysicalSection().Id()
_, err := fi.PhysicalSectionDrstDrive(s.sim.World, physicalSectionUid)
if err != nil {
logger().Error(fmt.Sprintf("计轴区段[%s]复位出错:%s", uid, err))
}
}
}
for _, cmd := range frame.SPKSData.CmdList {
uid := s.deviceTable.SpksMap[cmd.Id].uid
spks := s.sim.Repo.FindSpks(uid)
if cmd.SPKSPLCmd == 0x55 {
err = fi.PressDownButton(s.sim.World, spks.PlaId())
} else {
err = fi.PressUpButton(s.sim.World, spks.PlaId())
}
if cmd.SPKSCmd == 0x55 {
err = fi.DriveRelayDown(s.sim.World, spks.Relay())
} else {
err = fi.DriveRelayUp(s.sim.World, spks.Relay())
}
}
}
func Stop(stationCode string) {
mu.Lock()
defer mu.Unlock()
context := serviceContextMap[stationCode]
if context != nil {
if context.client != nil {
context.client.Close()
}
if context.server != nil {
context.server.Close()
serviceContext := serviceContextMap[stationCode]
if serviceContext != nil {
if serviceContext.server != nil {
serviceContext.server.Close()
}
delete(serviceContextMap, stationCode)
}
@ -459,41 +482,32 @@ func (s *serviceContext) runCollectTask(ctx context.Context) {
case <-ctx.Done():
return
default:
for _, driveMsg := range s.driveMsgSlice {
frame := s.collectDeviceState(driveMsg)
frame := s.collectDeviceState()
data := frame.encode()
err := s.client.Send(data)
_, err := s.server.WriteToUdp(data, s.ioAddr)
if err != nil {
logger().Error("向联锁发送数据失败", "error", err)
} else {
logger().Info(fmt.Sprintf("向联锁发送数据:%x", data))
}
}
//frame := s.collectDeviceState()
//data := frame.encode()
//err := s.client.Send(data)
//if err != nil {
// logger().Error("向联锁发送数据失败", "error", err)
//} else {
// logger().Info(fmt.Sprintf("向联锁发送数据:%x", data))
//}
}
}
}()
}
func (s *serviceContext) collectDeviceState(msg *FromInterlockFrame) *ToInterlockFrame {
func (s *serviceContext) collectDeviceState() *ToInterlockFrame {
wd := entity.GetWorldData(s.sim.World)
frame := &ToInterlockFrame{}
frame.WaysideCode = waysideCode
frame.InterlockCode = msg.InterlockCode
frame.InterlockCode = s.deviceTable.InterlockCode
//道岔
for _, cmd := range msg.TurnoutData.CmdList {
row := s.deviceTable.TurnoutMap[cmd.Id]
for _, row := range s.deviceTable.TurnoutMap {
entry := wd.EntityMap[row.uid]
tp := component.TurnoutPositionType.Get(entry)
var stateByte byte
if entry.HasComponent(component.TurnoutFaultCiqdType) {
stateByte = 0xff
} else {
if tp.Dw {
stateByte = 0x01
} else if tp.Fw {
@ -501,6 +515,7 @@ func (s *serviceContext) collectDeviceState(msg *FromInterlockFrame) *ToInterloc
} else {
stateByte = 0x08
}
}
frame.TurnoutStates = append(frame.TurnoutStates, &TurnoutState{
Id: row.index,
State: stateByte,
@ -510,8 +525,7 @@ func (s *serviceContext) collectDeviceState(msg *FromInterlockFrame) *ToInterloc
return frame.TurnoutStates[i].Id < frame.TurnoutStates[j].Id
})
//屏蔽门
for _, cmd := range msg.PSDData.CmdList {
row := s.deviceTable.PsdMap[cmd.Id]
for _, row := range s.deviceTable.PsdMap {
entry := wd.EntityMap[row.uid]
psdState := component.PsdStateType.Get(entry)
mkxBytes := make([]byte, 0, 3)
@ -521,10 +535,22 @@ func (s *serviceContext) collectDeviceState(msg *FromInterlockFrame) *ToInterloc
}
mkxBytes = append(mkxBytes, GetStateByte(component.BitStateType.Get(wd.EntityMap[mkxRelayUid]).Val))
}
var state byte
if psdState.Close {
state = 0x02
} else {
state = 0x01
}
var hsjc byte
if psdState.InterlockRelease {
hsjc = 0xff
} else {
hsjc = 0xee
}
frame.PsdStates = append(frame.PsdStates, &PSDState{
Id: row.index,
State: GetStateByte(psdState.Close),
Hsjc: 0xff,
State: state,
Hsjc: hsjc,
PCB: mkxBytes[0],
POB: mkxBytes[1],
DPB: mkxBytes[2],
@ -534,8 +560,7 @@ func (s *serviceContext) collectDeviceState(msg *FromInterlockFrame) *ToInterloc
return frame.PsdStates[i].Id < frame.PsdStates[j].Id
})
//紧急停车
for _, cmd := range msg.ESBData.CmdList {
row := s.deviceTable.EsbMap[cmd.Id]
for _, row := range s.deviceTable.EsbMap {
esb := s.sim.Repo.FindEsb(row.uid)
relay := wd.EntityMap[esb.RelayId()]
pla := wd.EntityMap[esb.PlaId()]
@ -543,14 +568,14 @@ func (s *serviceContext) collectDeviceState(msg *FromInterlockFrame) *ToInterloc
Id: row.index,
State: GetStateByte(!component.BitStateType.Get(relay).Val),
PlState: GetStateByte(component.BitStateType.Get(pla).Val),
//PlState: 0x00,
})
}
sort.Slice(frame.ESBStates, func(i, j int) bool {
return frame.ESBStates[i].Id < frame.ESBStates[j].Id
})
//信号机
for _, cmd := range msg.SignalData.CmdList {
row := s.deviceTable.SignalMap[cmd.Id]
for _, row := range s.deviceTable.SignalMap {
entry := wd.EntityMap[row.uid]
lights := component.SignalLightsType.Get(entry)
isL := false
@ -598,11 +623,10 @@ func (s *serviceContext) collectDeviceState(msg *FromInterlockFrame) *ToInterloc
return frame.SignalStates[i].Id < frame.SignalStates[j].Id
})
//计轴区段
for _, cmd := range msg.AxleSectionData.CmdList {
row := s.deviceTable.AxleSectionMap[cmd.Id]
for _, row := range s.deviceTable.AxleSectionMap {
entry := wd.EntityMap[row.uid]
sectionState := component.AxleCountingSectionStateType.Get(entry)
var stateByte byte = 0x40
var stateByte byte = 0x00
if sectionState.Occupied {
stateByte = 0x40
}
@ -615,15 +639,15 @@ func (s *serviceContext) collectDeviceState(msg *FromInterlockFrame) *ToInterloc
return frame.AxleSectionStates[i].Id < frame.AxleSectionStates[j].Id
})
//SPKS
for _, cmd := range msg.SPKSData.CmdList {
row := s.deviceTable.SpksMap[cmd.Id]
for _, row := range s.deviceTable.SpksMap {
spks := s.sim.Repo.FindSpks(row.uid)
relay := wd.EntityMap[spks.Relay()]
pla := wd.EntityMap[spks.PlaId()]
frame.SPKSStates = append(frame.SPKSStates, &SPKSState{
Id: row.index,
State: GetStateByte(component.BitStateType.Get(relay).Val),
State: GetStateByte(!component.BitStateType.Get(relay).Val),
PlState: GetStateByte(component.BitStateType.Get(pla).Val),
//PlState: 0xff,
})
}
sort.Slice(frame.SPKSStates, func(i, j int) bool {
@ -632,149 +656,6 @@ func (s *serviceContext) collectDeviceState(msg *FromInterlockFrame) *ToInterloc
return frame
}
//func (s *serviceContext) collectDeviceState() *ToInterlockFrame {
// wd := entity.GetWorldData(s.sim.World)
// frame := &ToInterlockFrame{}
// frame.WaysideCode = waysideCode
// frame.InterlockCode = s.deviceTable.InterlockCode
// //道岔
// for _, row := range s.deviceTable.TurnoutMap {
// entry := wd.EntityMap[row.uid]
// tp := component.TurnoutPositionType.Get(entry)
// var stateByte byte
// if tp.Dw {
// stateByte = 0x01
// } else if tp.Fw {
// stateByte = 0x02
// } else {
// stateByte = 0x08
// }
// frame.TurnoutStates = append(frame.TurnoutStates, &TurnoutState{
// Id: row.index,
// State: stateByte,
// })
// }
// sort.Slice(frame.TurnoutStates, func(i, j int) bool {
// return frame.TurnoutStates[i].Id < frame.TurnoutStates[j].Id
// })
// //屏蔽门
// for _, row := range s.deviceTable.PsdMap {
// entry := wd.EntityMap[row.uid]
// psdState := component.PsdStateType.Get(entry)
// mkxBytes := make([]byte, 0, 3)
// for _, mkxRelayUid := range []string{row.relateDeviceMap[POB], row.relateDeviceMap[PCB], row.relateDeviceMap[DPB]} {
// if mkxRelayUid == "" {
// continue
// }
// mkxBytes = append(mkxBytes, GetStateByte(component.BitStateType.Get(wd.EntityMap[mkxRelayUid]).Val))
// }
// frame.PsdStates = append(frame.PsdStates, &PSDState{
// Id: row.index,
// State: GetStateByte(psdState.Close),
// Hsjc: 0xff,
// PCB: mkxBytes[0],
// POB: mkxBytes[1],
// DPB: mkxBytes[2],
// })
// }
// sort.Slice(frame.PsdStates, func(i, j int) bool {
// return frame.PsdStates[i].Id < frame.PsdStates[j].Id
// })
// //紧急停车
// for _, row := range s.deviceTable.EsbMap {
// esb := s.sim.Repo.FindEsb(row.uid)
// relay := wd.EntityMap[esb.RelayId()]
// pla := wd.EntityMap[esb.PlaId()]
// frame.ESBStates = append(frame.ESBStates, &ESBState{
// Id: row.index,
// State: GetStateByte(!component.BitStateType.Get(relay).Val),
// PlState: GetStateByte(component.BitStateType.Get(pla).Val),
// })
// }
// sort.Slice(frame.ESBStates, func(i, j int) bool {
// return frame.ESBStates[i].Id < frame.ESBStates[j].Id
// })
// //信号机
// for _, row := range s.deviceTable.SignalMap {
// entry := wd.EntityMap[row.uid]
// lights := component.SignalLightsType.Get(entry)
// isL := false
// isH := false
// isU := false
// isA := false
// isB := false
// for _, light := range lights.Lights {
// switch {
// case light.HasComponent(component.LdTag):
// isL = component.BitStateType.Get(light).Val
// case light.HasComponent(component.HdTag):
// isH = component.BitStateType.Get(light).Val
// case light.HasComponent(component.UdTag):
// isU = component.BitStateType.Get(light).Val
// case light.HasComponent(component.BdTag):
// isB = component.BitStateType.Get(light).Val
// case light.HasComponent(component.AdTag):
// isA = component.BitStateType.Get(light).Val
// }
// }
// var stateByte byte
// if isH && isU {
// stateByte = 0x03
// } else {
// switch {
// case isL:
// stateByte = 0x04
// case isH:
// stateByte = 0x01
// case isU:
// stateByte = 0x02
// case isB:
// stateByte = 0x08
// case isA:
// stateByte = 0x09
// }
// }
// frame.SignalStates = append(frame.SignalStates, &SignalState{
// Id: row.index,
// State: stateByte,
// })
// }
// sort.Slice(frame.SignalStates, func(i, j int) bool {
// return frame.SignalStates[i].Id < frame.SignalStates[j].Id
// })
// //计轴区段
// for _, row := range s.deviceTable.AxleSectionMap {
// entry := wd.EntityMap[row.uid]
// sectionState := component.AxleCountingSectionStateType.Get(entry)
// var stateByte byte = 0x40
// if sectionState.Occupied {
// stateByte = 0x40
// }
// frame.AxleSectionStates = append(frame.AxleSectionStates, &AxleSectionState{
// Id: row.index,
// State: stateByte,
// })
// }
// sort.Slice(frame.AxleSectionStates, func(i, j int) bool {
// return frame.AxleSectionStates[i].Id < frame.AxleSectionStates[j].Id
// })
// //SPKS
// for _, row := range s.deviceTable.SpksMap {
// spks := s.sim.Repo.FindSpks(row.uid)
// relay := wd.EntityMap[spks.Relay()]
// pla := wd.EntityMap[spks.PlaId()]
// frame.SPKSStates = append(frame.SPKSStates, &SPKSState{
// Id: row.index,
// State: GetStateByte(component.BitStateType.Get(relay).Val),
// PlState: GetStateByte(component.BitStateType.Get(pla).Val),
// })
// }
// sort.Slice(frame.SPKSStates, func(i, j int) bool {
// return frame.SPKSStates[i].Id < frame.SPKSStates[j].Id
// })
// return frame
//}
func logger() *slog.Logger {
loggerInit.Do(func() {
privateLogger = slog.Default().With("tag", logTag)

View File

@ -75,355 +75,47 @@ const (
COM_WAIT_STOP_FD = 0x03
)
func aa(src []byte, dest []byte) uint16 {
var (
SrcPos, TgtPos, Pos1, Pos2, iii, Gap uint16
Got1stFF uint8
)
srouceLen := uint16(len(src))
for SrcPos = 0; SrcPos < srouceLen; SrcPos++ {
if Got1stFF == 1 {
if src[SrcPos] == 0xff {
//Got2ndFF = 1
Pos2 = SrcPos
dest[TgtPos] = byte(Pos2 - Pos1)
TgtPos++
/*
func SourceDataDecode(packData []byte) []BaseBtmVobc {
data, _ := TranslateFromFFFE(packData)
buf := bytes.NewBuffer(data)
for iii = Pos1 + 1; iii < Pos2; iii++ {
dest[TgtPos] = src[iii]
TgtPos++
}
Got1stFF = 0
//Got2ndFF = 0
Pos1 = 0
Pos2 = 0
Gap = 0
} else {
/*已遇到前一个FF且当前遇到非FF*/
Gap++
if 252 == Gap {
Got1stFF = 0
Gap = 0
dest[TgtPos] = 0
TgtPos++
for iii = Pos1 + 1; iii <= SrcPos; iii++ {
dest[TgtPos] = src[iii]
TgtPos++
}
}
func parseData(buf *bytes.Buffer) {
h1, _ := buf.ReadByte()
h2, _ := buf.ReadByte()
if bytes.Equal(PACKAGE_HEAD, []byte{h1, h2}) {
t, _ := buf.ReadByte()
var ft byte = 0
if t == ID_COMMAND_TYPE || t == REQT_TYPE {
ft, _ = buf.ReadByte()
if t == ID_COMMAND_TYPE {
return parseIdFrame(ft, buf.Bytes())
} else if t == REQT_TYPE {
}
} else {
/*尚未遇到前一个FF*/
dest[TgtPos] = src[SrcPos]
TgtPos++
if 0xFF == src[SrcPos] {
/*遇到前一个FF*/
Got1stFF = 1
Pos1 = SrcPos
Gap = 0
}
}
}
if 1 == Got1stFF {
dest[TgtPos] = 0
TgtPos++
for iii = Pos1 + 1; iii < srouceLen; iii++ {
dest[TgtPos] = src[iii]
TgtPos++
}
}
return TgtPos
}
func TranslateFromFFFE(pSrc []byte) ([]byte, uint16) {
var (
srcPos, tgtPos, nonFFCount, nextFFPos uint16
char uint8
state int
)
if len(pSrc) == 0 {
return nil, 0 // 入参错误
}
pTgt := make([]byte, len(pSrc)) // 预分配与输入等长的缓冲区
tgtPos = 0
state = WAIT_FF_C1
nonFFCount = 0
for srcPos = 0; srcPos < uint16(len(pSrc)); srcPos++ {
char = pSrc[srcPos]
switch state {
case WAIT_FF_C1:
if char == 0xFF {
pTgt[tgtPos] = char
tgtPos++
state = WAIT_FF_C2
} else {
pTgt[tgtPos] = char
tgtPos++
}
case WAIT_FF_C2:
if char == 0xFD || char == 0xFE || char == 0xFF {
state = ABNORMAL_STATE
} else {
if char == 0 {
state = WAIT_NO_FF
} else if char == 1 {
pTgt[tgtPos] = 0xFF
tgtPos++
state = WAIT_FF_C1
} else {
nextFFPos = srcPos + uint16(char) - 1
state = WAIT_FF_POS
}
}
case WAIT_NO_FF:
nonFFCount++
if char == 0xFF && nonFFCount < 252 {
state = ABNORMAL_STATE
} else {
pTgt[tgtPos] = char
tgtPos++
if nonFFCount == 252 {
nonFFCount = 0
state = WAIT_FF_C1
}
}
case WAIT_FF_POS:
if char == 0xFF {
state = ABNORMAL_STATE
} else {
pTgt[tgtPos] = char
tgtPos++
if srcPos == nextFFPos {
pTgt[tgtPos] = 0xFF
tgtPos++
state = WAIT_FF_C1
}
}
default:
state = ABNORMAL_STATE
}
if state == ABNORMAL_STATE {
tgtPos = 0
break
}
}
// 退出时的状态判断
if state == WAIT_FF_C2 || state == WAIT_FF_POS {
tgtPos = 0
}
return pTgt[:tgtPos], tgtPos
}
// TranslateToFFFE 对给定的字节切片进行FFFE转义处理
func TranslateToFFFE(src []byte) ([]byte, error) {
if src == nil {
return nil, fmt.Errorf("source data is nil")
}
var tgt []byte
var pos1, pos2 int
var gap int
var got1stFF bool
for i, b := range src {
if got1stFF {
if b == 0xFF {
// 已遇到前一个FF且当前又遇到FF
got1stFF = false
pos2 = i
if gap > 252 {
// 间隙过大,特殊处理
tgt = append(tgt, 0)
tgt = append(tgt, src[pos1+1:pos2]...)
} else {
// 写入间隙长度
tgt = append(tgt, byte(gap))
// 写入间隙中的字节
tgt = append(tgt, src[pos1+1:pos2]...)
}
} else {
// 已遇到前一个FF且当前遇到非FF增加gap计数
gap++
}
} else {
// 尚未遇到前一个FF
tgt = append(tgt, b)
if b == 0xFF {
// 遇到前一个FF
got1stFF = true
pos1 = i
gap = 0
}
}
}
// 如果在数据末尾遇到了FF且没有第二个FF
if got1stFF {
if gap > 252 {
tgt = append(tgt, 0)
tgt = append(tgt, src[pos1+1:]...)
} else {
tgt = append(tgt, 0)
tgt = append(tgt, src[pos1+1:len(src)]...)
}
}
return tgt, nil
}
// TranslateToFFFE 将数据进行FFFE转义处理不加头FFFE及尾FFFD
/*func TranslateToFFFE2(pSrc []byte) []byte {
var (
srcPos, tgtPos, pos1, pos2, iii uint16
gap uint16
got1stFF bool
)
if pSrc == nil {
return nil // 入口参数错误
}
pTgt := make([]byte, 0, len(pSrc)*2) // 预分配空间以应对最坏情况
for srcPos = 0; srcPos < uint16(len(pSrc)); srcPos++ {
if got1stFF {
if pSrc[srcPos] == 0xFF {
// 已遇到前一个FF且当前又遇到FF
pos2 = srcPos
pTgt = append(pTgt, byte(pos2-pos1))
tgtPos++
for iii = pos1 + 1; iii < pos2; iii++ {
pTgt = append(pTgt, pSrc[iii])
tgtPos++
}
got1stFF = false
pos1, pos2, gap = 0, 0, 0
} else {
// 已遇到前一个FF且当前遇到非FF
gap++
if gap == 252 {
got1stFF, gap = false, 0
pTgt = append(pTgt, 0)
tgtPos++
for iii = pos1 + 1; iii <= srcPos; iii++ {
pTgt = append(pTgt, pSrc[iii])
tgtPos++
}
}
}
} else {
// 尚未遇到前一个FF
pTgt = append(pTgt, pSrc[srcPos])
tgtPos++
if pSrc[srcPos] == 0xFF {
// 遇到前一个FF
got1stFF = true
pos1 = srcPos
gap = 0
}
}
}
// 已经遇到了前一个FF, 且源数据已到了末尾仍未遇到后一个FF
if got1stFF {
pTgt = append(pTgt, 0)
tgtPos++
for iii = pos1 + 1; iii < uint16(len(pSrc)); iii++ {
pTgt = append(pTgt, pSrc[iii])
tgtPos++
}
}
// 截取实际使用的部分返回
return pTgt[:tgtPos]
}
*/
func TranslateToFFFE3(pSrc []uint8, SrcLen uint16) ([]byte, uint16) {
var (
SrcPos, TgtPos, Pos1, Pos2, iii uint16
Gap uint16
Got1stFF uint8
pTgt []uint8
)
if pSrc == nil {
fmt.Println("入口参数错误")
return nil, 0
}
pTgt = make([]uint8, 0, SrcLen*2) // 预分配足够的空间以避免频繁扩容
TgtPos = 0
for SrcPos = 0; SrcPos < SrcLen; SrcPos++ {
if Got1stFF == 1 {
if pSrc[SrcPos] == 0xFF {
// 已遇到前一个FF且当前又遇到FF
//Got2ndFF = 1
Pos2 = SrcPos
pTgt = append(pTgt, uint8(Pos2-Pos1-1))
TgtPos++
for iii = Pos1 + 1; iii < Pos2; iii++ {
pTgt = append(pTgt, pSrc[iii])
TgtPos++
}
Got1stFF = 0
//Got2ndFF = 0
Pos1 = 0
Pos2 = 0
Gap = 0
} else {
// 已遇到前一个FF且当前遇到非FF
Gap++
if Gap == 252 {
Got1stFF = 0
Gap = 0
pTgt = append(pTgt, 0)
TgtPos++
for iii = Pos1 + 1; iii <= SrcPos; iii++ {
pTgt = append(pTgt, pSrc[iii])
TgtPos++
}
}
}
} else {
// 尚未遇到前一个FF
pTgt = append(pTgt, pSrc[SrcPos])
TgtPos++
if pSrc[SrcPos] == 0xFF {
// 遇到前一个FF
Got1stFF = 1
Pos1 = SrcPos
Gap = 0
}
}
}
// 已经遇到了前一个FF, 且源数据已到了末尾仍未遇到后一个FF
if Got1stFF == 1 {
pTgt = append(pTgt, 0)
TgtPos++
for iii = Pos1 + 1; iii < SrcLen; iii++ {
pTgt = append(pTgt, pSrc[iii])
TgtPos++
}
}
return pTgt, TgtPos
func parseIdFrame(frame byte, data []byte) BtmVobcIdCommand {
buf := bytes.NewBuffer(data)
dataLen, _ := buf.ReadByte()
dsn, _ := buf.ReadByte()
var btmId uint16
var vobcId uint16
var vobcLifeId uint32
var yuliu [5]byte
var crc32 uint32
binary.Read(buf, binary.BigEndian, &btmId)
binary.Read(buf, binary.BigEndian, &vobcId)
binary.Read(buf, binary.BigEndian, &vobcLifeId)
binary.Read(buf, binary.BigEndian, &yuliu)
binary.Read(buf, binary.BigEndian, &crc32)
return BtmVobcIdCommand{BaseBtmVobc: BaseBtmVobc{Frame: frame, FrameLen: dataLen, AutoIdFrame: dsn, Crc32: crc32}}
}
type BaseBtmVobc struct {
@ -457,67 +149,6 @@ func baseEncode(source []byte) []byte {
return data
}
/*func TranslateToFFFE4(pSrc []byte, pTgt []byte) (int, error) {
if pSrc == nil || pTgt == nil {
return 0, fmt.Errorf("pSrc or pTgt is nil")
}
srcLen := len(pSrc)
tgtLen := 0
pos1 := -1 // 前一个FF的位置
gap := 0 // 两个FF之间的字节数
for i, b := range pSrc {
if pos1 != -1 {
if b == 0xFF {
// 遇到了第二个FF
pTgt[tgtLen] = byte(i - pos1 - 1) // 减1是因为不包括第一个FF
tgtLen++
// 复制pos1和当前位置之间的数据
copy(pTgt[tgtLen:tgtLen+gap], pSrc[pos1+1:i])
tgtLen += gap
// 重置状态
pos1 = -1
gap = 0
} else {
// 计数两个FF之间的字节数
gap++
if gap == 252 {
// 如果gap超过252则写入一个0并复制数据
pTgt[tgtLen] = 0
tgtLen++
copy(pTgt[tgtLen:tgtLen+gap], pSrc[pos1+1:i])
tgtLen += gap
// 重置状态
pos1 = -1
gap = 0
}
}
} else {
// 尚未遇到前一个FF
pTgt[tgtLen] = b
tgtLen++
if b == 0xFF {
// 遇到了第一个FF
pos1 = i
}
}
}
// 如果数据以FF结尾但没有第二个FF
if pos1 != -1 {
pTgt[tgtLen] = 0
tgtLen++
// 复制pos1之后的数据
copy(pTgt[tgtLen:tgtLen+srcLen-pos1-1], pSrc[pos1+1:])
tgtLen += srcLen - pos1 - 1
}
return tgtLen, nil
}
*/
// ID 命令帧的正文
type BtmVobcIdCommand struct {
BaseBtmVobc
@ -546,6 +177,7 @@ const (
REQ_FRAME_STATUS_OK = 0x06
REQ_FRAME_STATUS_ERROR = 0x15
REQ_FRAME_STATUS_BOOT = 0x00
REQ_PACKETS_TYPE_FREE = 0x05
REQ_PACKETS_TYPE_MSG = 0x0A
REQ_PACKETS_TYPE_BOOT = 0x00
@ -564,11 +196,6 @@ type BtmVobcReq struct {
VobcLifeWalkDistance uint16 //VOBC 周期走行距离 单位cm
}
const (
a = 0x06
b = 0x15
)
func (b *BtmVobcReq) Decode(data []byte) {
base, buf := baseDecode(data)
@ -594,34 +221,8 @@ func (b *BtmVobcReq) Decode(data []byte) {
b.VobcLifeWalkDistance = walkDis
}
var MESSAGE_AUTO_ID byte = 1
var MESSAGE_SERIAL byte = 1
var lock sync.Mutex
func getAutoId() byte {
defer lock.Unlock()
lock.Lock()
if MESSAGE_AUTO_ID <= 0 {
MESSAGE_AUTO_ID = 1
} else if MESSAGE_AUTO_ID > 255 {
MESSAGE_AUTO_ID = 1
}
MESSAGE_AUTO_ID += 1
return MESSAGE_AUTO_ID
}
func GetAutoMessageId() byte {
defer lock.Unlock()
lock.Lock()
if MESSAGE_SERIAL <= 0 {
MESSAGE_SERIAL = 1
} else if MESSAGE_SERIAL > 255 {
MESSAGE_SERIAL = 1
}
MESSAGE_SERIAL += 1
return MESSAGE_SERIAL
}
const (
btm_status_ok = 0x00
btm_status_warn = 0x04
@ -658,8 +259,9 @@ func (b *BtmVobcMessage) Encode() []byte {
binary.Write(buf, binary.BigEndian, byte(MESSAGE_TYPE))
binary.Write(buf, binary.BigEndian, byte(0x87))
//binary.Write(buf, binary.BigEndian, b.AutoIdFrame)
binary.Write(buf, binary.BigEndian, getAutoId())
binary.Write(buf, binary.BigEndian, b.AutoIdFrame)
binary.Write(buf, binary.BigEndian, b.FontTtl)
binary.Write(buf, binary.BigEndian, b.MsgSerial)
binary.Write(buf, binary.BigEndian, b.BtmStatus)
@ -724,8 +326,8 @@ func (b *BtmVobcMsgFree) Encode() []byte {
binary.Write(buf, binary.BigEndian, byte(FREE_MESSAGE_TYPE))
binary.Write(buf, binary.BigEndian, byte(0x87))
binary.Write(buf, binary.BigEndian, getAutoId())
//binary.Write(buf, binary.BigEndian, b.AutoIdFrame)
binary.Write(buf, binary.BigEndian, b.AutoIdFrame)
binary.Write(buf, binary.BigEndian, byte(0)) //保留
binary.Write(buf, binary.BigEndian, byte(0)) //保留
binary.Write(buf, binary.BigEndian, b.MsgSerial)

View File

@ -0,0 +1,283 @@
package message
import (
"fmt"
)
func aa(src []byte, dest []byte) uint16 {
var (
SrcPos, TgtPos, Pos1, Pos2, iii, Gap uint16
Got1stFF uint8
)
srouceLen := uint16(len(src))
for SrcPos = 0; SrcPos < srouceLen; SrcPos++ {
if Got1stFF == 1 {
if src[SrcPos] == 0xff {
//Got2ndFF = 1
Pos2 = SrcPos
dest[TgtPos] = byte(Pos2 - Pos1)
TgtPos++
for iii = Pos1 + 1; iii < Pos2; iii++ {
dest[TgtPos] = src[iii]
TgtPos++
}
Got1stFF = 0
//Got2ndFF = 0
Pos1 = 0
Pos2 = 0
Gap = 0
} else {
/*已遇到前一个FF且当前遇到非FF*/
Gap++
if 252 == Gap {
Got1stFF = 0
Gap = 0
dest[TgtPos] = 0
TgtPos++
for iii = Pos1 + 1; iii <= SrcPos; iii++ {
dest[TgtPos] = src[iii]
TgtPos++
}
}
}
} else {
/*尚未遇到前一个FF*/
dest[TgtPos] = src[SrcPos]
TgtPos++
if 0xFF == src[SrcPos] {
/*遇到前一个FF*/
Got1stFF = 1
Pos1 = SrcPos
Gap = 0
}
}
}
if 1 == Got1stFF {
dest[TgtPos] = 0
TgtPos++
for iii = Pos1 + 1; iii < srouceLen; iii++ {
dest[TgtPos] = src[iii]
TgtPos++
}
}
return TgtPos
}
func TranslateFromFFFE(pSrc []byte) ([]byte, uint16) {
var (
srcPos, tgtPos, nonFFCount, nextFFPos uint16
char uint8
state int
)
if len(pSrc) == 0 {
return nil, 0 // 入参错误
}
pTgt := make([]byte, len(pSrc)) // 预分配与输入等长的缓冲区
tgtPos = 0
state = WAIT_FF_C1
nonFFCount = 0
for srcPos = 0; srcPos < uint16(len(pSrc)); srcPos++ {
char = pSrc[srcPos]
switch state {
case WAIT_FF_C1:
if char == 0xFF {
pTgt[tgtPos] = char
tgtPos++
state = WAIT_FF_C2
} else {
pTgt[tgtPos] = char
tgtPos++
}
case WAIT_FF_C2:
if char == 0xFD || char == 0xFE || char == 0xFF {
state = ABNORMAL_STATE
} else {
if char == 0 {
state = WAIT_NO_FF
} else if char == 1 {
pTgt[tgtPos] = 0xFF
tgtPos++
state = WAIT_FF_C1
} else {
nextFFPos = srcPos + uint16(char) - 1
state = WAIT_FF_POS
}
}
case WAIT_NO_FF:
nonFFCount++
if char == 0xFF && nonFFCount < 252 {
state = ABNORMAL_STATE
} else {
pTgt[tgtPos] = char
tgtPos++
if nonFFCount == 252 {
nonFFCount = 0
state = WAIT_FF_C1
}
}
case WAIT_FF_POS:
if char == 0xFF {
state = ABNORMAL_STATE
} else {
pTgt[tgtPos] = char
tgtPos++
if srcPos == nextFFPos {
pTgt[tgtPos] = 0xFF
tgtPos++
state = WAIT_FF_C1
}
}
default:
state = ABNORMAL_STATE
}
if state == ABNORMAL_STATE {
tgtPos = 0
break
}
}
// 退出时的状态判断
if state == WAIT_FF_C2 || state == WAIT_FF_POS {
tgtPos = 0
}
return pTgt[:tgtPos], tgtPos
}
// TranslateToFFFE 对给定的字节切片进行FFFE转义处理
func TranslateToFFFE(src []byte) ([]byte, error) {
if src == nil {
return nil, fmt.Errorf("source data is nil")
}
var tgt []byte
var pos1, pos2 int
var gap int
var got1stFF bool
for i, b := range src {
if got1stFF {
if b == 0xFF {
// 已遇到前一个FF且当前又遇到FF
got1stFF = false
pos2 = i
if gap > 252 {
// 间隙过大,特殊处理
tgt = append(tgt, 0)
tgt = append(tgt, src[pos1+1:pos2]...)
} else {
// 写入间隙长度
tgt = append(tgt, byte(gap))
// 写入间隙中的字节
tgt = append(tgt, src[pos1+1:pos2]...)
}
} else {
// 已遇到前一个FF且当前遇到非FF增加gap计数
gap++
}
} else {
// 尚未遇到前一个FF
tgt = append(tgt, b)
if b == 0xFF {
// 遇到前一个FF
got1stFF = true
pos1 = i
gap = 0
}
}
}
// 如果在数据末尾遇到了FF且没有第二个FF
if got1stFF {
if gap > 252 {
tgt = append(tgt, 0)
tgt = append(tgt, src[pos1+1:]...)
} else {
tgt = append(tgt, 0)
tgt = append(tgt, src[pos1+1:len(src)]...)
}
}
return tgt, nil
}
func TranslateToFFFE3(pSrc []uint8, SrcLen uint16) ([]byte, uint16) {
var (
SrcPos, TgtPos, Pos1, Pos2, iii uint16
Gap uint16
Got1stFF uint8
pTgt []uint8
)
if pSrc == nil {
fmt.Println("入口参数错误")
return nil, 0
}
pTgt = make([]uint8, 0, SrcLen*2) // 预分配足够的空间以避免频繁扩容
TgtPos = 0
for SrcPos = 0; SrcPos < SrcLen; SrcPos++ {
if Got1stFF == 1 {
if pSrc[SrcPos] == 0xFF {
// 已遇到前一个FF且当前又遇到FF
//Got2ndFF = 1
Pos2 = SrcPos
pTgt = append(pTgt, uint8(Pos2-Pos1-1))
TgtPos++
for iii = Pos1 + 1; iii < Pos2; iii++ {
pTgt = append(pTgt, pSrc[iii])
TgtPos++
}
Got1stFF = 0
//Got2ndFF = 0
Pos1 = 0
Pos2 = 0
Gap = 0
} else {
// 已遇到前一个FF且当前遇到非FF
Gap++
if Gap == 252 {
Got1stFF = 0
Gap = 0
pTgt = append(pTgt, 0)
TgtPos++
for iii = Pos1 + 1; iii <= SrcPos; iii++ {
pTgt = append(pTgt, pSrc[iii])
TgtPos++
}
}
}
} else {
// 尚未遇到前一个FF
pTgt = append(pTgt, pSrc[SrcPos])
TgtPos++
if pSrc[SrcPos] == 0xFF {
// 遇到前一个FF
Got1stFF = 1
Pos1 = SrcPos
Gap = 0
}
}
}
// 已经遇到了前一个FF, 且源数据已到了末尾仍未遇到后一个FF
if Got1stFF == 1 {
pTgt = append(pTgt, 0)
TgtPos++
for iii = Pos1 + 1; iii < SrcLen; iii++ {
pTgt = append(pTgt, pSrc[iii])
TgtPos++
}
}
return pTgt, TgtPos
}

View File

@ -122,7 +122,7 @@ func AtpLowPowerByte(d byte) bool {
// 列车速度位置报告
type TrainSpeedPlaceReportMsg struct {
PulseCount1 float32
PulseCount2 float32
//PulseCount2 float32
}
func (tp *TrainSpeedPlaceReportMsg) Encode(runDir uint16, s1, runRange uint32) []byte {
@ -255,4 +255,7 @@ const (
DOOR_MODE_MM
_
NOT_BREAK
//aa = 0x2e
//bb = 0x2f
cc = 0x2d
)

View File

@ -0,0 +1,270 @@
package semi_physical_train
import (
"context"
"encoding/hex"
"fmt"
"github.com/google/uuid"
"joylink.club/bj-rtsts-server/config"
"joylink.club/bj-rtsts-server/const/balise_const"
"joylink.club/bj-rtsts-server/dto/state_proto"
"joylink.club/bj-rtsts-server/third_party/can_btm"
"joylink.club/bj-rtsts-server/third_party/message"
"joylink.club/bj-rtsts-server/third_party/udp"
"log/slog"
"math"
"time"
"strings"
"sync"
)
type BtmVobcManage interface {
GetBtmVobcConfig() config.BtmVobcConfig
GetAllTrain() []*state_proto.TrainState
GetConnVobcTrain() *state_proto.TrainState
}
type BtmVobcService interface {
Start(btmVobcManage BtmVobcManage)
Stop()
SendData(data []byte)
}
type BtmVobcClient struct {
calFun context.CancelFunc
client udp.UdpClient
server udp.UdpServer
manage BtmVobcManage
}
var (
btmVobcLocker sync.Mutex
btmVobcClient *BtmVobcClient
btmVobcBaliseLocker sync.Mutex
//最新接受数据时间
reviceTimeStamp int64
)
func BtmDefault() BtmVobcService {
defer btmVobcLocker.Unlock()
btmVobcLocker.Lock()
if btmVobcClient == nil {
btmVobcClient = &BtmVobcClient{}
}
return btmVobcClient
}
func (b *BtmVobcClient) Start(btmVobcManage BtmVobcManage) {
cfg := btmVobcManage.GetBtmVobcConfig()
if !cfg.Open {
slog.Info("11号线 btm vobc配置未开启...")
return
}
udpServer := udp.NewServer(fmt.Sprintf("%v:%d", cfg.LocalUdpIp, cfg.LocalUdpPort), b.handleBtmVobcFrames)
err := udpServer.Listen()
if err != nil {
slog.Error("11号线 btm VOBC 服务启动失败...")
return
}
//
udpClient := udp.NewClient(fmt.Sprintf("%s:%d", cfg.RemoteIp, cfg.RemoteUdpPort))
b.manage = btmVobcManage
b.server = udpServer
b.client = udpClient
reviceTimeStamp = time.Now().UnixMilli()
_, calFun := context.WithCancel(context.Background())
b.calFun = calFun
}
func (b *BtmVobcClient) vobcBtmQueryHandle(data []byte) {
train := b.manage.GetConnVobcTrain()
if train == nil {
slog.Error("vobc btm 未找到VOBC连接的列车...")
return
}
requestId := uuid.New().String()
frameType, dataText, err := message.BtmVobcDecode(data)
if err != nil {
slog.Error(fmt.Sprintf("%v,请求id:%v", err, requestId))
return
}
receiveDataTime := time.Now().UnixMilli()
if frameType == message.COMMAND_TYPE {
idCommand := &message.BtmVobcIdCommand{}
idCommand.Decode(dataText)
slog.Info(fmt.Sprintf("成功接受btm vobc的id命令帧,requestId:%v,接受时间:%v", requestId, receiveDataTime))
if train.VobcState.VobcBtmInfo == nil {
train.VobcState.VobcBtmInfo = &state_proto.TrainVobcState_VobcBtmInfo{BtmId: uint32(idCommand.BtmId), VobcId: uint32(idCommand.VobcId), VobcLifeId: idCommand.VobcLifeNum}
}
} else if train.VobcState.VobcBtmInfo != nil && frameType == message.REQUEST_TYPE {
slog.Info(fmt.Sprintf("成功接受btm vobc的请求帧,requestId:%v,接受时间(微秒):%v", requestId, receiveDataTime))
req := &message.BtmVobcReq{}
req.Decode(dataText)
b.requestFramePackets(requestId, req, train, receiveDataTime)
} else {
//slog.Error(fmt.Sprintf("btm vobc 解析未知命令帧类型:0x%v,原始数据:%v,长度:%v,requestId:%v", strconv.FormatInt(int64(frameType), 16), hex.EncodeToString(cfs), len(cfs), requestId))
return
}
}
func (b *BtmVobcClient) handleBtmVobcFrames(cfs []byte) {
/* reviceTimeStamp = time.Now().UnixMilli()
train := b.manage.GetConnVobcTrain()
if train == nil {
//slog.Error("vobc btm 未找到VOBC连接的列车...")
return
}
requestId := uuid.New().String()
slog.Info(fmt.Sprintf("获取到vobc btm原始数据:%v, requestId:%v", hex.EncodeToString(cfs), requestId))
frameType, dataText, err := message.BtmVobcDecode(cfs)
if err != nil {
slog.Error(fmt.Sprintf("%v,请求id:%v", err, requestId))
return
}
receiveDataTime := time.Now().UnixMicro()
decodePayMicoTime := (receiveDataTime - receiveDataTime) / 100
if frameType == message.COMMAND_TYPE {
idCommand := &message.BtmVobcIdCommand{}
idCommand.Decode(dataText)
slog.Info(fmt.Sprintf("成功接受btm vobc的id命令帧,requestId:%v,接受时间(微秒):%v", requestId, receiveDataTime))
b.packets(requestId, idCommand.VobcLifeNum, idCommand.AutoIdFrame, receiveDataTime, decodePayMicoTime, train.VobcBtm)
} else if frameType == message.REQUEST_TYPE {
slog.Info(fmt.Sprintf("成功接受btm vobc的请求帧,requestId:%v,接受时间(微秒):%v", requestId, receiveDataTime))
req := &message.BtmVobcReq{}
req.Decode(dataText)
b.RequestFramePackets(req.VobcLifeNum, req.AutoIdFrame, requestId, receiveDataTime, decodePayMicoTime, req, train.VobcBtm)
} else {
slog.Error(fmt.Sprintf("btm vobc 解析未知命令帧类型:0x%v,原始数据:%v,长度:%v,requestId:%v", strconv.FormatInt(int64(frameType), 16), hex.EncodeToString(cfs), len(cfs), requestId))
return
}*/
}
func createFreeBalisePacketString() string {
return strings.Repeat("00", balise_const.UserTelegramByteLen)
}
func createFreeBalisePackets() []byte {
str := createFreeBalisePacketString()
d, _ := hex.DecodeString(str)
return d
}
// 请求帧
func (b *BtmVobcClient) requestFramePackets(requestId string, req *message.BtmVobcReq, train *state_proto.TrainState, receiveTime int64) {
if req.FrameStatus == message.REQ_FRAME_STATUS_BOOT && req.MessageType == message.REQ_PACKETS_TYPE_BOOT {
//vobc 上电,清空应答器
can_btm.ClearBalise(train)
} else {
var (
btmState *state_proto.BTMState
dsn byte
matcher bool
)
ms := req.MessageSerial
if req.FrameStatus == message.REQ_FRAME_STATUS_ERROR {
//抢答器错误,重新发送
btmState, dsn, _, _ = can_btm.FindBaliseResend(train.BtmBaliseCacheA, false)
} else {
//判断 报文序列号与之前发送的 是否一致,不一致
//如果一致返回新的应答器,如果不一致返回之前发送的应答器,如果不一致并且没有找到之前发送的应答器,则返回新应答器
btmState, dsn, matcher = can_btm.FindBaliseByMessageSerial(train.BtmBaliseCacheA, false, req.MessageSerial)
if matcher {
if btmState != nil {
//正常应答
btmState.IsSend = true
ms = req.MessageSerial + 1
if ms > 255 {
ms = 1
}
}
} else {
//vobc 未收到应答器,重新发送
}
}
b.packets(requestId, btmState, ms, dsn, req.VobcLifeNum, receiveTime)
}
}
// 有应答器报文
func (b *BtmVobcClient) balisePackets(telegram, requestId string, messageSerial, dsn byte, vobcLifeNum uint32, receiveTime int64) {
data, e := hex.DecodeString(telegram)
if e != nil {
slog.Error(fmt.Sprintf("解析应答器报文失败应答器报文长度:%v", telegram), e)
return
}
//前沿时间
var fttl uint16 = 0
tmpFttl := int64(math.Abs(float64(time.Now().UnixMilli() - receiveTime)))
if tmpFttl >= 0xffff {
fttl = 0xffff
} else {
fttl = uint16(tmpFttl)
}
var bttl uint16 = 0
tmpBttl := int64(math.Abs(float64(time.Now().UnixMilli() - receiveTime)))
if tmpBttl >= 0xffff {
bttl = 0xffff
} else {
bttl = uint16(tmpBttl)
}
repTimeMicro := (time.Now().UnixMilli() - receiveTime) / 10
baliseMsg := &message.BtmVobcMessage{FontTtl: fttl, BtmStatus: message.BTM_STSTUS_NORMAL, DecodeTime: uint16(repTimeMicro),
BackTtl: bttl, ResponseTime: byte(repTimeMicro), MsgSerial: messageSerial, BtmMsg: data,
VobcLifeNum: vobcLifeNum, BaseBtmVobc: message.BaseBtmVobc{AutoIdFrame: dsn}}
baliseData := baliseMsg.Encode()
slog.Info(fmt.Sprintf("发送btm vobc 报文数据 报文序列id:%v 报文内容:%X 长度:%v ,requestId:%v", messageSerial, baliseData, len(baliseData), requestId))
err := b.client.Send(baliseData)
if err != nil {
slog.Error(fmt.Sprintf("发送btm vobc 报文数据 报文序列id:%v 报文内容:%X 长度:%v ,requestId:%v", messageSerial, baliseData, len(baliseData), requestId), err)
return
}
return
}
// 无应答器报文
func (b *BtmVobcClient) balisePacketsFree(requestId string, receiveTime int64, vobcLifeNum uint32, autoCommandId, messageSerial byte) {
repTimeMicro := (time.Now().UnixMicro() - receiveTime) / 10
freeMsg := &message.BtmVobcMsgFree{BtmStatus: message.BTM_STSTUS_NORMAL, Fun1: 0xffff, Fun2: 0x00CF, Fun3: uint16(0), Fun4: uint16(0),
FreeMsg: createFreeBalisePackets(), RespTime: byte(repTimeMicro), MsgSerial: messageSerial, VobcLifeNum: vobcLifeNum, BaseBtmVobc: message.BaseBtmVobc{AutoIdFrame: autoCommandId}}
freeData := freeMsg.Encode()
logStr := fmt.Sprintf("发送btm vobc 报文序列id:%v 空闲帧报文:%X 长度:%v ,requestId:%v", messageSerial, freeData, len(freeData), requestId)
slog.Info(logStr)
err := b.client.Send(freeData)
if err != nil {
slog.Error(logStr, err)
return
}
}
// 应答器报文或空报文
func (b *BtmVobcClient) packets(requestId string, btmState *state_proto.BTMState, messageSerial, dsn byte, vobcLifeNum uint32, receiveTime int64) {
if btmState == nil {
b.balisePacketsFree(requestId, receiveTime, vobcLifeNum, dsn, messageSerial)
} else {
b.balisePackets(btmState.Telegram, requestId, messageSerial, dsn, vobcLifeNum, receiveTime)
}
}
func (b *BtmVobcClient) SendData(data []byte) {
if b.client != nil {
slog.Info(fmt.Sprintf("发送btm vobc 报文:%v 长度:%v", hex.EncodeToString(data), len(data)))
err := b.client.Send(data)
if err != nil {
slog.Error("发送btm vobc 报文失败:", err)
return
}
}
}
func (b *BtmVobcClient) Stop() {
if b.server != nil {
b.calFun()
b.server.Close()
}
if b.client != nil {
b.client.Close()
}
}

View File

@ -1,4 +1,4 @@
package btm_vobc
package semi_physical_train
import (
"encoding/hex"
@ -163,7 +163,7 @@ func TestDecode232(t *testing.T) {
func TestDocode(t *testing.T) {
fmt.Println(time.Microsecond * 200)
ss := "fffe9287d300056f006464000a000000000000000000000490007f8181b60b10183280003fff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff01ff000a00221eedf0be28e9fffd"
ss := "fffee601804f004d0032d8e1002a006aff0020fc60316e299122ea0000000000000000000000000000e1d83000000000000000000000768888cc4961fffd"
cfs, _ := hex.DecodeString(ss)
frameType, dataText, err := message.BtmVobcDecode(cfs)
fmt.Println(frameType)

View File

@ -1,4 +1,4 @@
package btm_vobc
package semi_physical_train
import (
"bytes"

View File

@ -88,3 +88,7 @@ func (c *TcpClient) Send(data []byte) error {
}
return nil
}
func (c *TcpClient) RemoteInfo() net.Addr {
return c.conn.RemoteAddr()
}

View File

@ -46,9 +46,11 @@ func GetRunningServiceStates() *state_proto.SimulationThirdPartyApiService {
trueServices := tpas.FindAppendApiService()
if trueServices != nil && len(trueServices) > 0 {
for _, trueService := range trueServices {
if trueService != nil {
collectServiceState(ss, trueService)
}
}
}
}

View File

@ -1,6 +1,7 @@
package train_pc_sim
import (
"fmt"
"joylink.club/bj-rtsts-server/dto/state_proto"
"joylink.club/bj-rtsts-server/third_party/message"
"joylink.club/bj-rtsts-server/third_party/tcp"
@ -13,10 +14,24 @@ type TrainPcReciverData struct {
clientKey string
tcpClient *tcp.TcpClient
pcSimManage TrainPcSimManage
//trainInit bool
state tpapi.ThirdPartyApiServiceState
speedPlace *message.TrainSpeedPlaceReportMsg
train *state_proto.TrainState
success bool
//aPort bool //列车钥匙激活端口 true = 1端 false = 2端
RealTrainPort state_proto.TrainState_TrainPort
LineInitTimeStamp int64
TrainConnInitComplate bool
ConnErr bool
}
func (rd *TrainPcReciverData) ConnError() bool {
connState := tpapi.ThirdPartyState_Normal
if rd.ConnErr {
connState = tpapi.ThirdPartyState_Broken
}
rd.updateState(connState)
return rd.ConnErr
}
func (rd *TrainPcReciverData) Name() string {
@ -35,17 +50,22 @@ func (d *TrainPcReciverData) readError(err error) {
slog.Error("连接车载pc仿真tcp服务断开", err)
d.updateState(tpapi.ThirdPartyState_Broken)
d.tcpClient = nil
}
func (d *TrainPcReciverData) ServiceDesc() string {
return d.clientKey
if d.RealTrainPort == state_proto.TrainState_PORT_A {
return fmt.Sprintf("%v-A端", d.clientKey)
} else if d.RealTrainPort == state_proto.TrainState_PORT_B {
return fmt.Sprintf("%v-B端", d.clientKey)
} else {
return fmt.Sprintf("%v-位置服务端口", d.clientKey)
}
}
func (rd *TrainPcReciverData) receiverDataHandle(n int, data []byte) {
receiveData := data[:n]
trainPcMsgs := message.TrainPcSimDecode(receiveData)
train := rd.train
//vs := train.VobcState
if train == nil {
slog.Error("车载输出数字量未找到连接车载pc仿真的列车")
return
@ -54,22 +74,25 @@ func (rd *TrainPcReciverData) receiverDataHandle(n int, data []byte) {
slog.Error("车载输出数字量,,列车未连接车载pc仿真")
return
}
//hexSourceData := hex.EncodeToString(receiveData)
//slog.Info(fmt.Sprintf("接受列车激活端:%v pc仿真接收数据%v", rd.clientKey, hexSourceData))
//a := rd.tcpClient.RemoteInfo()
//slog.Info(fmt.Sprintf("nw:%v ,add:%v", a.Network(), a.String()), rd.aPort)
//slog.Info(fmt.Sprintf("接受atp信息 列车:%v 列车端口:%v ,钥匙1:%v,钥匙2:%v", train.Id, rd.aPort, train.VobcState.Tc1Active, train.VobcState.Tc2Active))
receiveData := data[:n]
trainPcMsgs := message.TrainPcSimDecode(receiveData)
for _, baseMsg := range trainPcMsgs {
//slog.Info(fmt.Sprintf("pc仿真接收数据%v,类型:%X", hexSourceData, baseMsg.Type))
switch baseMsg.Type {
//case RECIVE_TRAIN_CREATE_REMOVE:
// pc.trainPcSimManage.TrainPcSimConnOrRemoveHandle(baseMsg.Data[0])
case message.RECIVE_TRAIN_INTERFACE_CABINET_OUTR:
rd.pcSimManage.TrainPcSimDigitalOutInfoHandle(train, baseMsg.Data)
rd.pcSimManage.TrainPcSimDigitalOutInfoHandle(rd, train, baseMsg.Data)
case message.RECIVE_TRAIN_INTERFACE_CABINET_OUTR_BACK:
rd.pcSimManage.TrainPcSimDigitalReportHandle(train, baseMsg.Data)
case message.RECIVE_TRAIN_QUERY_STATUS:
rd.pcSimManage.TrainBtmQuery2(train, baseMsg.Data)
case message.RECIVE_TRAIN_MOCK_DATA:
rd.pcSimManage.TrainPcSimMockInfo(train, baseMsg.Data)
rd.pcSimManage.TrainBtmQuery2(train, baseMsg.Data, rd.RealTrainPort)
//case message.RECIVE_TRAIN_MOCK_DATA:
// rd.pcSimManage.TrainPcSimMockInfo(train, baseMsg.Data)
//case RECIVE_TRAIN_DOOR_MODE:
// pc.trainPcSimManage.TrainDoorModeHandle(baseMsg.Data[0])

View File

@ -16,10 +16,10 @@ import (
"time"
)
type TrainControlEvent struct {
Type byte
Data []byte
}
//type TrainControlEvent struct {
// Type byte
// Data []byte
//}
//var FireTrainControlEventType = ecs.NewEventType[TrainControlEvent]()
@ -29,19 +29,20 @@ type TrainPcSim interface {
Stop()
// SendDriverActive Deprecated 发送驾驶端激活
SendDriverActive(train *state_proto.TrainState)
//SendDriverActive(train *state_proto.TrainState)
// SendHandleSwitch 发送牵引制动手柄
SendHandleSwitch(oldTraction, oldBrakeForce int64, tractionState bool, train *state_proto.TrainState)
// SendTrainDirection 列车运行方向
//因文档说明不清楚,在调用的时候目前是注释状态,现场调试可能会用到
SendTrainDirection(train *state_proto.TrainState, trainForward, trainBackward bool)
//发送应答器信息数据
SendBaliseData(train *state_proto.TrainState, msgType byte, data []byte)
SendBaliseData2(train *state_proto.TrainState, trainClientPort state_proto.TrainState_TrainPort, msgType byte, data []byte)
//发布列车控制的相关事件
//PublishTrainControlEvent(train *state_proto.TrainState, events []TrainControlEvent)
SendTrainControlMsg(train *state_proto.TrainState, baseMessage []message.TrainPcSimBaseMessage)
SendTrainControlMsg2(train *state_proto.TrainState, baseMessage []message.TrainPcSimBaseMessage, trainClientPort state_proto.TrainState_TrainPort)
// CreateOrRemoveSpeedPLace 创建或删除速度位置信息
//CreateOrRemoveSpeedPLace(train *state_proto.TrainState)
// CreateOrRemoveTrain 创建或删除列车
@ -57,7 +58,7 @@ type TrainPcSimManage interface {
//获取列车模拟量数据
ObtainTrainDigitalMockData(train *state_proto.TrainState) []message.TrainPcSimBaseMessage
// TrainPcSimDigitalOutInfoHandle 4.4.1. 车载输出数字量信息报文内容
TrainPcSimDigitalOutInfoHandle(train *state_proto.TrainState, data []byte)
TrainPcSimDigitalOutInfoHandle(pc *TrainPcReciverData, train *state_proto.TrainState, data []byte) bool
// TrainPcSimDigitalReportHandle 4.4.2. 车载输出数字反馈量信息报文内容
TrainPcSimDigitalReportHandle(train *state_proto.TrainState, data []byte)
FindConnTrain(ct state_proto.TrainConnState_TrainConnType) *state_proto.TrainState
@ -67,11 +68,14 @@ type TrainPcSimManage interface {
TrainPcSimMockInfo(train *state_proto.TrainState, data []byte)
// TrainBtmQuery 处理列车btm查询
TrainBtmQuery2(train *state_proto.TrainState, data []byte)
TrainBtmQuery2(train *state_proto.TrainState, data []byte, trainClientPort state_proto.TrainState_TrainPort)
}
type trainPcSimService struct {
state tpapi.ThirdPartyApiServiceState
newPcSimclientMap map[string]*TrainPcReciverData
//newPcSimclientMap map[string]*TrainPcReciverData
newPcSimclientMap3 map[string][]*TrainPcReciverData
cancleContextFun context.CancelFunc
context context.Context
trainPcSimManage TrainPcSimManage
@ -113,17 +117,41 @@ func (d *trainPcSimService) ServiceDesc() string {
func FindTrainPcSimClientKey2(t *state_proto.TrainState) string {
return t.ConnState.TypeName
}
func (d *trainPcSimService) findTrainConn(sta *state_proto.TrainState) (*TrainPcReciverData, error) {
trainPcReciver := d.newPcSimclientMap[sta.ConnState.TypeName]
if trainPcReciver == nil {
func (d *trainPcSimService) findTrainConnForPort2(sta *state_proto.TrainState, trainClientPort state_proto.TrainState_TrainPort) (*TrainPcReciverData, error) {
rds := d.newPcSimclientMap3[sta.ConnState.TypeName]
if rds == nil {
return nil, fmt.Errorf("")
}
return trainPcReciver, nil
for _, rd := range rds {
if rd.RealTrainPort == trainClientPort {
return rd, nil
}
}
return nil, fmt.Errorf("")
}
func (d *trainPcSimService) findTrainConn(sta *state_proto.TrainState) (*TrainPcReciverData, error) {
rds := d.newPcSimclientMap3[sta.ConnState.TypeName]
if rds == nil {
return nil, fmt.Errorf("")
}
if sta.VobcState.Tc1Active {
return rds[0], nil
} else {
return rds[1], nil
}
}
func (d *trainPcSimService) findTrainAllConn(sta *state_proto.TrainState) []*TrainPcReciverData {
rds := d.newPcSimclientMap3[sta.ConnState.TypeName]
return rds
}
func (d *trainPcSimService) findAllThirdPartState() []tpapi.ThirdPartyApiService {
services := make([]tpapi.ThirdPartyApiService, 0)
for _, data := range d.newPcSimclientMap {
services = append(services, data)
for _, data := range d.newPcSimclientMap3 {
for _, rd := range data {
services = append(services, rd)
}
}
return services
}
@ -136,22 +164,23 @@ func pluseCountSpeed(wheelDiameter int32, speedMeter float32) uint32 {
return uint32(pluseCountData)
}
func (d *trainPcSimService) pluseSpeed(sta *state_proto.TrainState) (uint32, float32) {
func (d *trainPcSimService) pluseSpeed(pc *state_proto.SensorSpeedPulseCount, wheelDiameter int32) (uint32, float32) {
defer initLock.Unlock()
initLock.Lock()
var sum float32 = 0
pcLen := len(sta.PluseCount.PulseCount3)
pcLen := len(pc.PulseCount3)
if pcLen == 0 {
return 0, 0
}
for _, f := range sta.PluseCount.PulseCount3 {
for _, f := range pc.PulseCount3 {
sum += f
}
d.TrainPluseCountReset(sta)
d.trainPluseCountReset(pc)
speed := sum / float32(pcLen)
return pluseCountSpeed(sta.WheelDiameter, speed*1000), speed
return pluseCountSpeed(wheelDiameter, speed*1000), speed
}
func (d *trainPcSimService) TrainPluseCount(sta *state_proto.TrainState, h1, h2, t1, t2 float32) {
defer initLock.Unlock()
initLock.Lock()
@ -161,37 +190,32 @@ func (d *trainPcSimService) TrainPluseCount(sta *state_proto.TrainState, h1, h2,
return
default:
}
if sd, err := d.findTrainConn(sta); err == nil {
for _, sd := range d.findTrainAllConn(sta) {
if sd.speedPlace != nil {
sd.speedPlace.PulseCount1 += sta.DynamicState.Displacement
//sd.speedPlace.PulseCount1 += float32(uint32(h1 * 10))
sd.speedPlace.PulseCount2 = sd.speedPlace.PulseCount1
}
}
for _, pc := range sta.PulseCountMap {
if sta.TrainRunUp {
if sta.TrainEndsA.SpeedSensorEnableA {
sta.PluseCount.PulseCount1 = pluseCountSpeed(sta.WheelDiameter, h1)
sta.PluseCount.PulseCount3 = append(sta.PluseCount.PulseCount3, h1)
}
if sta.TrainEndsA.SpeedSensorEnableB {
sta.PluseCount.PulseCount2 = pluseCountSpeed(sta.WheelDiameter, h2)
sta.PluseCount.PulseCount4 = append(sta.PluseCount.PulseCount3, h2)
if sta.TrainEndsA.SpeedSensorEnableA || sta.TrainEndsA.SpeedSensorEnableB {
pc.PulseCount1 = pluseCountSpeed(sta.WheelDiameter, h1)
pc.PulseCount3 = append(pc.PulseCount3, h1)
}
} else {
if sta.TrainEndsB.SpeedSensorEnableA {
sta.PluseCount.PulseCount1 = pluseCountSpeed(sta.WheelDiameter, t1)
sta.PluseCount.PulseCount3 = append(sta.PluseCount.PulseCount3, t1)
}
if sta.TrainEndsB.SpeedSensorEnableB {
sta.PluseCount.PulseCount2 = pluseCountSpeed(sta.WheelDiameter, t2)
sta.PluseCount.PulseCount4 = append(sta.PluseCount.PulseCount3, t2)
if sta.TrainEndsB.SpeedSensorEnableA || sta.TrainEndsB.SpeedSensorEnableB {
pc.PulseCount1 = pluseCountSpeed(sta.WheelDiameter, t1)
pc.PulseCount3 = append(pc.PulseCount3, t1)
}
}
}
func (d *trainPcSimService) TrainPluseCountReset(sta *state_proto.TrainState) {
sta.PluseCount.PulseCount1 = 0
sta.PluseCount.PulseCount2 = 0
sta.PluseCount.PulseCount3 = make([]float32, 0)
sta.PluseCount.PulseCount4 = make([]float32, 0)
}
func (d *trainPcSimService) trainPluseCountReset(pc *state_proto.SensorSpeedPulseCount) {
pc.PulseCount1 = 0
pc.PulseCount3 = make([]float32, 0)
}
func (d *trainPcSimService) newCloseAllConn() {
@ -202,17 +226,18 @@ func (d *trainPcSimService) newCloseAllConn() {
}
func (d *trainPcSimService) newCloseConn(clientKey string) {
rd := d.newPcSimclientMap[clientKey]
if rd != nil {
rds := d.newPcSimclientMap3[clientKey]
if rds != nil {
for _, rd := range rds {
rd.tcpClient.Close()
rd.tcpClient = nil
rd.train = nil
rd.speedPlace = nil
//rd.trainInit = false
//d.cancleContextFun()
}
}
}
func (d *trainPcSimService) findConfig(configName string) (*config.VehiclePCSimConfig, error) {
for _, cfg := range d.configs {
@ -223,30 +248,55 @@ func (d *trainPcSimService) findConfig(configName string) (*config.VehiclePCSimC
return nil, fmt.Errorf("未找到对应的车载pc连接配置")
}
func (d *trainPcSimService) initConn(clientKey string) error {
func (d *trainPcSimService) initConn2(clientKey string) error {
rd := d.newPcSimclientMap[clientKey]
rds := d.newPcSimclientMap3[clientKey]
rd1 := rds[0]
rd2 := rds[1]
cfg, cfgErr := d.findConfig(clientKey)
if cfgErr != nil {
return sys_error.New(fmt.Sprintf("没找到对应的配置信息 key:%v", clientKey), cfgErr)
}
if !cfg.OpenB && !cfg.OpenA {
return sys_error.New(fmt.Sprintf("配置:%v AB端配置均为打开", clientKey))
}
e1 := d.connServer(cfg.OpenA, cfg.APcSimIp, cfg.APcSimPort, rd1)
if e1 != nil {
rd1.updateState(tpapi.ThirdPartyState_Broken)
return sys_error.New(fmt.Sprintf("配置:%v 端口A连接失败", clientKey))
}
e2 := d.connServer(cfg.OpenB, cfg.BPcSimIp, cfg.BPcSimPort, rd2)
if e2 != nil {
rd1.updateState(tpapi.ThirdPartyState_Broken)
return sys_error.New(fmt.Sprintf("配置:%v 端口B连接失败", clientKey))
}
if rd1.success {
//rd1.aPort = true
rd1.RealTrainPort = state_proto.TrainState_PORT_A
}
if rd2.success {
rd2.RealTrainPort = state_proto.TrainState_PORT_B
}
return nil
}
func (d *trainPcSimService) connServer(open bool, ip string, port uint32, rd *TrainPcReciverData) *sys_error.BusinessError {
if rd != nil && rd.tcpClient != nil && rd.tcpClient.IsConning() {
return nil
} else {
//rd.trainInit = false
rd.tcpClient = nil
}
cfg, cfgErr := d.findConfig(clientKey)
if cfgErr != nil {
errMsg := fmt.Sprintf("没找到对应的配置信息 key:%v", clientKey)
//slog.Error(errMsg, cfgErr.Error())
rd.updateState(tpapi.ThirdPartyState_Broken)
return sys_error.New(errMsg, cfgErr)
if !open {
rd.success = false
return nil
}
addr := fmt.Sprintf("%v:%v", cfg.PcSimIp, cfg.PcSimPort)
addr := fmt.Sprintf("%v:%v", ip, port)
//slog.Info(addr, "连接.,...")
client2, err := tcp.StartTcpClient(addr, rd.receiverDataHandle, rd.readError)
if err != nil {
connErrMsg := fmt.Sprintf("车载pc连接失败 clientKey:%v", clientKey)
//slog.Error(connErrMsg, err.Error())
rd.updateState(tpapi.ThirdPartyState_Broken)
return sys_error.New(connErrMsg, err)
return sys_error.New(fmt.Sprintf("车载atp连接失败,add:%v ,message:%v", addr, err))
} else {
rd.success = true
rd.tcpClient = client2
}
return nil
@ -255,7 +305,8 @@ func (d *trainPcSimService) initConn(clientKey string) error {
func (d *trainPcSimService) Start(pcSimManage TrainPcSimManage) {
configs := pcSimManage.GetTrainPcSimConfig()
d.newPcSimclientMap = make(map[string]*TrainPcReciverData)
//d.newPcSimclientMap = make(map[string]*TrainPcReciverData)
d.newPcSimclientMap3 = make(map[string][]*TrainPcReciverData)
if len(configs) <= 0 {
slog.Info("车载pc仿真配置未开启")
return
@ -266,9 +317,16 @@ func (d *trainPcSimService) Start(pcSimManage TrainPcSimManage) {
closedCount++
} else {
ck := c.ConfigName
pcReciver := &TrainPcReciverData{clientKey: ck, pcSimManage: pcSimManage}
pcReceivers := make([]*TrainPcReciverData, 2)
for i := 0; i < 2; i++ {
ss := fmt.Sprintf("%v%v", c.ConfigName, i)
pcReciver := &TrainPcReciverData{clientKey: ss, pcSimManage: pcSimManage}
pcReciver.updateState(tpapi.ThirdPartyState_Closed)
d.newPcSimclientMap[ck] = pcReciver
pcReceivers[i] = pcReciver
}
d.newPcSimclientMap3[ck] = pcReceivers
//d.newPcSimclientMap[ck] = pcReciver
}
}
if closedCount == len(configs) {
@ -285,8 +343,11 @@ func (d *trainPcSimService) Start(pcSimManage TrainPcSimManage) {
}
func (d *trainPcSimService) Stop() {
for _, data := range d.newPcSimclientMap {
data.updateState(tpapi.ThirdPartyState_Closed)
for _, rds := range d.newPcSimclientMap3 {
for _, rd := range rds {
rd.updateState(tpapi.ThirdPartyState_Closed)
}
}
if d.cancleContextFun != nil {
d.cancleContextFun()
@ -297,18 +358,22 @@ func (d *trainPcSimService) Stop() {
func (d *trainPcSimService) CreateOrRemoveTrain(train *state_proto.TrainState, isCreate bool) error {
clientKey := FindTrainPcSimClientKey2(train)
err := d.initConn(clientKey)
data := []byte{message.FLAG_CAMMAND_REMOVE_TRAIN}
if isCreate {
err := d.initConn2(clientKey)
if err != nil {
d.newCloseConn(clientKey)
return err
}
data := []byte{message.FLAG_CAMMAND_REMOVE_TRAIN}
if isCreate {
data[0] = message.FLAG_CAMMAND_CREATE_TRAIN
}
msg := &message.TrainPcSimBaseMessage{Data: data, Type: message.RECIVE_TRAIN_CREATE_REMOVE}
rd := d.newPcSimclientMap[clientKey]
if rd != nil {
rds := d.newPcSimclientMap3[clientKey]
if rds != nil {
for index, rd := range rds {
if rd != nil && rd.success {
slog.Info(fmt.Sprintf("index%v---rd client%v clientnil :%v", index, rd.tcpClient, rd.tcpClient == nil))
initTrainErr := d.initTrain(rd, train, isCreate, msg)
if !isCreate {
d.newCloseConn(clientKey)
@ -317,26 +382,33 @@ func (d *trainPcSimService) CreateOrRemoveTrain(train *state_proto.TrainState, i
return initTrainErr
}
}
}
}
return nil
}
func (d *trainPcSimService) initTrain(rd *TrainPcReciverData, train *state_proto.TrainState, isCreate bool, trains *message.TrainPcSimBaseMessage) error {
msgs := make([]message.TrainPcSimBaseMessage, 0)
sendMsg := make([]byte, 0)
rd.speedPlace = &message.TrainSpeedPlaceReportMsg{}
train.PluseCount = &state_proto.SensorSpeedPulseCount{}
train.PulseCountMap = make(map[int32]*state_proto.SensorSpeedPulseCount)
train.PulseCountMap[int32(state_proto.TrainState_PORT_A.Number())] = &state_proto.SensorSpeedPulseCount{}
train.PulseCountMap[int32(state_proto.TrainState_PORT_B.Number())] = &state_proto.SensorSpeedPulseCount{}
rd.train = train
tcc := train.Tcc
tcc.LineInitTimeStamp12 = 0
tcc.Line12ConnErr = false
rd.TrainConnInitComplate = false
rd.LineInitTimeStamp = 0
if isCreate {
tmpMsgs := d.trainPcSimManage.ObtainTrainDigitalMockData(train)
msgs = append(msgs, tmpMsgs...)
msgs = append(msgs, message.TrainPcSimBaseMessage{Data: []byte{0x00}, Type: message.RECIVE_TRAIN_DOOR_MODE}) //门模式
msgs = append(msgs, message.TrainPcSimBaseMessage{Data: []byte{}, Type: message.RECIVE_TRAIN_BTN_CLEAR_ALL_PRE_DATA}) //清空应答器
msgs = append(msgs, message.TrainPcSimBaseMessage{Data: []byte{}, Type: message.SENDER_TRAIN_TC_ACTIVE}) //清空应答器
} else {
train.VobcState.Tc1Active = false
train.VobcState.Tc2Active = false
for _, key := range tcc.DriverKey {
key.Val = false
}
@ -357,91 +429,67 @@ func (d *trainPcSimService) initTrain(rd *TrainPcReciverData, train *state_proto
// 依据文档80ms发送列车速度位置
func (d *trainPcSimService) sendTrainLocationAndSpeedTask(ctx context.Context) {
for {
for range time.Tick(time.Millisecond * 80) {
select {
case <-ctx.Done():
return
default:
}
trains := d.trainPcSimManage.GetConnTrain2()
for _, train := range trains {
if train.ConnState.Conn && train.PluseCount != nil {
trainClient, trainDataErr := d.findTrainConn(train)
if trainDataErr != nil {
slog.Error(fmt.Sprintf("pc仿真速度位置未找到对应的列车 id:%v", train.Id))
continue
}
if trainClient.speedPlace == nil {
if train.ConnState.Conn {
for numKey, pc := range train.PulseCountMap {
trainPort := state_proto.TrainState_TrainPort(numKey)
trainClient, _ := d.findTrainConnForPort2(train, trainPort)
if trainClient.success {
if trainClient.speedPlace == nil || trainClient.tcpClient == nil {
slog.Error(fmt.Sprintf("pc仿真速度位置脉冲对象为空 列车id:%v", train.Id))
continue
}
connState := tpapi.ThirdPartyState_Normal
if train.Tcc.Line12ConnErr {
connState = tpapi.ThirdPartyState_Broken
}
trainClient.updateState(connState)
s1, speed := d.pluseSpeed(train)
runDir := uint16(2)
if train.VobcState.DirectionForward {
runDir = 1
if trainClient.ConnError() {
continue
}
s1, speed := d.pluseSpeed(pc, train.WheelDiameter)
runDir := d.trainDirection(speed, train, trainClient.RealTrainPort)
disPluse := pluseCountSpeed(train.WheelDiameter, trainClient.speedPlace.PulseCount1)
data := trainClient.speedPlace.Encode(runDir, s1, disPluse)
bm := &message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_LOCATION_INFO, Data: data}
dataCode := bm.Encode()
slog.Info(fmt.Sprintf("发送列车速度位置,列车:%v,列车速度:%v,计数脉冲: %v,累计里程: %v ,发送数据:%v", train.Id, speed, s1, trainClient.speedPlace.PulseCount1, hex.EncodeToString(dataCode)))
slog.Info(fmt.Sprintf("发送列车速度位置,列车:%v,列车服务端:%v,列车速度:%v,计数脉冲: %v,累计里程: %v ,发送数据:%X", train.Id, trainClient.RealTrainPort.String(), speed, s1, trainClient.speedPlace.PulseCount1, dataCode))
err := trainClient.tcpClient.Send(dataCode)
if err != nil {
slog.Error(fmt.Sprintf("发送列车速度位置失败,列车:%v,发送数据:%v", train.Id, hex.EncodeToString(dataCode)))
}
}
}
time.Sleep(time.Millisecond * 80)
}
}
}
}
// SendDriverActive Deprecated 发送驾驶激活
func (d *trainPcSimService) SendDriverActive(train *state_proto.TrainState) {
trainClient, trainDataErr := d.findTrainConn(train)
if trainDataErr != nil {
slog.Error(fmt.Sprintf("发送驾驶激活未找到对应的列车连接列车id%v", train.Id))
return
}
func (d *trainPcSimService) trainDirection(speed float32, train *state_proto.TrainState, clientPort state_proto.TrainState_TrainPort) uint16 {
runDir := uint16(2)
vobc := train.VobcState
if speed == 0 || train.TrainPort == state_proto.TrainState_PORT_NONE || (vobc.DirectionForward == false && vobc.DirectionBackward == false) {
return runDir
}
if vobc.DirectionForward {
runDir = 1
} else if vobc.DirectionBackward {
runDir = 0
}
if train.TrainPort != clientPort {
if vobc.DirectionForward {
runDir = 0
} else if vobc.DirectionBackward {
runDir = 1
}
}
msg := &message.TrainPcSimBaseMessage{}
if train.TrainRunUp {
if vobc.Tc1Active {
msg.Type = message.SENDER_TRAIN_TC_ACTIVE
} else if vobc.Tc1Active == false {
msg.Type = message.SENDER_TRAIN_TC_NOT_ACTIVE
return runDir
}
} else if !train.TrainRunUp {
if vobc.Tc2Active {
msg.Type = message.SENDER_TRAIN_TC_ACTIVE
} else if vobc.Tc2Active == false {
msg.Type = message.SENDER_TRAIN_TC_NOT_ACTIVE
}
}
msgs := make([]byte, 0)
if msg.Type == message.SENDER_TRAIN_TC_ACTIVE {
dd3 := message.TrainPcSimBaseMessage{Data: []byte{message.KEY_STATE, 1}, Type: message.SENDER_TRAIN_OUTR_INFO}
msgs = append(msgs, dd3.Encode()...)
} else {
dd3 := message.TrainPcSimBaseMessage{Data: []byte{message.KEY_STATE, 0}, Type: message.SENDER_TRAIN_OUTR_INFO}
msgs = append(msgs, dd3.Encode()...)
}
msgs = append(msgs, msg.Encode()...)
hexData := hex.EncodeToString(msgs)
//slog.Info(fmt.Sprintf("发送驾驶激活列车id:%v,数据:%v", train.Id, hexData))
err := trainClient.tcpClient.Send(msgs)
if err != nil {
slog.Error(fmt.Sprintf("发送驾驶激活失败列车id:%v,数据:%v,err:%v", train.Id, hexData, err.Error()))
}
}
func (d *trainPcSimService) SendHandleSwitch(oldTraction, oldBrakeForce int64, tractionState bool, train *state_proto.TrainState) {
trainClient, trainDataErr := d.findTrainConn(train)
if trainDataErr != nil {
@ -511,8 +559,9 @@ func (d *trainPcSimService) SendTrainDirection(train *state_proto.TrainState, tr
}
}
func (d *trainPcSimService) SendBaliseData(train *state_proto.TrainState, msgType byte, data []byte) {
trainClient, trainDataErr := d.findTrainConn(train)
func (d *trainPcSimService) SendBaliseData2(train *state_proto.TrainState, trainClientPort state_proto.TrainState_TrainPort, msgType byte, data []byte) {
trainClient, trainDataErr := d.findTrainConnForPort2(train, trainClientPort)
if trainDataErr != nil {
slog.Error(fmt.Sprintf("发送列车PC仿真应答器信息失败未找到列车连接trainId%v", train.Id))
return
@ -529,11 +578,12 @@ func (d *trainPcSimService) SendBaliseData(train *state_proto.TrainState, msgTyp
}
}
func (d *trainPcSimService) SendTrainControlMsg(train *state_proto.TrainState, baseMessage []message.TrainPcSimBaseMessage) {
func (d *trainPcSimService) SendTrainControlMsg2(train *state_proto.TrainState, baseMessage []message.TrainPcSimBaseMessage, trainClientPort state_proto.TrainState_TrainPort) {
if len(baseMessage) <= 0 {
return
}
trainClient, trainDataErr := d.findTrainConn(train)
//trainClient, trainDataErr := d.findTrainConn(train)
trainClient, trainDataErr := d.findTrainConnForPort2(train, trainClientPort)
if trainDataErr != nil {
slog.Error(fmt.Sprintf("发送列车控制信息失败,无连接,列车Id:%v", train.Id))
return
@ -541,10 +591,11 @@ func (d *trainPcSimService) SendTrainControlMsg(train *state_proto.TrainState, b
for _, msg := range baseMessage {
dd := msg.Encode()
//slog.Info(fmt.Sprintf("发送列车控制信息:%x", dd))
//slog.Info(fmt.Sprintf("发送操控列车控制信息:%x", dd), aport)
d.sendData(trainClient.tcpClient, dd)
}
}
func (d *trainPcSimService) sendData(client *tcp.TcpClient, data []byte) {
err := client.Send(data)
if err != nil {

View File

@ -10,6 +10,7 @@ import (
type UdpServer interface {
Listen() error
Close()
WriteToUdp(data []byte, addr *net.UDPAddr) (int, error)
}
type UdpMsgHandler func(b []byte)
@ -53,6 +54,10 @@ func (s *server) Close() {
<-s.done
}
func (s *server) WriteToUdp(data []byte, addr *net.UDPAddr) (int, error) {
return s.conn.WriteToUDP(data, addr)
}
func (s *server) listenAndHandle(ctx context.Context) {
defer close(s.done)
defer s.conn.Close()

View File

@ -77,6 +77,7 @@ func AddTrainStateNew(vs *VerifySimulation, status *state_proto.TrainState, conf
calctailOffset := calcTrailTailOffset(loffset, status.TrainLength, up)
// 车尾位置
tailLink, tailDeviceId, tailDevicePort, tailLOffset, tailDeviceOffset, _, e1 := CalcInitializeLink(vs, linkId, calctailOffset, up)
if e1 != nil {
panic(sys_error.New("添加列车失败,列车车尾占用位置计算出错", e1))
}
@ -95,7 +96,9 @@ func AddTrainStateNew(vs *VerifySimulation, status *state_proto.TrainState, conf
status.TailDeviceId = vs.GetComIdByUid(tailDeviceId)
status.TailOffset = tailDeviceOffset
status.TailDevicePort = tailDevicePort
status.BtmBaliseCache = &state_proto.TrainBtmCache{BaliseList: make([]*state_proto.BTMState, 3)}
status.BtmBaliseCacheA = &state_proto.TrainBtmCache{BaliseList: make([]*state_proto.BTMState, 3)}
status.BtmBaliseCacheB = &state_proto.TrainBtmCache{BaliseList: make([]*state_proto.BTMState, 3)}
//初始化列车参数状态
createOrUpdateStateDynamicConfig(status, configTrainData, trainEndsA, trainEndsB)
tl := status.TrainLoad * 100
@ -107,7 +110,7 @@ func AddTrainStateNew(vs *VerifySimulation, status *state_proto.TrainState, conf
status.VobcState = vobc
status.Tcc = initTrainTcc(vs)
status.VobcBtm = &state_proto.VobcBtmState{TelegramState: make([]*state_proto.VobcBtmState_TelegramState, 3), History: make(map[uint32]*state_proto.VobcBtmState_VobcBtmHistoryState)}
//status.VobcBtm = &state_proto.VobcBtmState{TelegramState: make([]*state_proto.VobcBtmState_TelegramState, 3), History: make(map[uint32]*state_proto.VobcBtmState_VobcBtmHistoryState)}
linkIdInt, _ := strconv.Atoi(linkId)
err := dynamics.Default().RequestAddTrain(&message.InitTrainInfo{
TrainIndex: uint16(trainIndex),
@ -167,7 +170,10 @@ func TrainConnTypeUpdate(vs *VerifySimulation, ct *dto.TrainConnThirdDto) {
train.ConnState.ConnType = ct.ConnType
train.ConnState.TypeName = ct.TypeName
if ct.ConnType == state_proto.TrainConnState_PC_SIM {
train.Tcc.LineInitTimeStamp12 = 0
//train.Tcc.LineInitTimeStamp12 = 0
//train.Tcc.LineInitTimeStamp12PortA = 0
//train.Tcc.LineInitTimeStamp12PortB = 0
err := TrainPcSimConnOrRemoveHandle(train, true)
if err != nil {
train.ConnState.Conn = false
@ -323,6 +329,8 @@ func UpdateTrainStateByDynamics(vs *VerifySimulation, trainId string, info *mess
//calctailOffset := calcTrailTailOffset(outLinkOffset, int64(info.Len), info.Up)
calctailOffset := calcTrailTailOffset(outLinkOffset, int64(info.Len), trainHeadActUp)
tailLinkId, tailDeviceId, tailDevicePort, tailLinkOffset, tailOffset, _, e2 := CalcInitializeLink(vs, outLinkId, calctailOffset, !info.Up)
tailUp, _ := QueryUpAndABByDevice(vs.Repo, tailDeviceId, tailDevicePort, sta.TrainRunUp)
if e2 != nil {
panic(sys_error.New("动力学传输数据:列车车尾位置计算出错", e2))
}
@ -335,8 +343,12 @@ func UpdateTrainStateByDynamics(vs *VerifySimulation, trainId string, info *mess
sta.OldLinkOffset = outLinkOffset
sta.OldLink = outLinkId
}
if sta.OldTailLinkOffset == 0 {
sta.OldTailLinkOffset = tailLinkOffset
sta.OldTailLink = tailLinkId
}
updateTrainBtmPosition(vs, info, sta, outLinkId, outLinkOffset)
updateTrainBtmPosition(vs, info, sta, outLinkId, outLinkOffset, tailUp, tailLinkId, tailLinkOffset)
//slog.Info(fmt.Sprintf("动力学,当前速度(米/秒):%v,加速度:%v,位移距离:%v", info.Speed, info.Acceleration, info.Displacement))
if sta.OldLink != outLinkId {
sta.OldLink = outLinkId
@ -344,6 +356,13 @@ func UpdateTrainStateByDynamics(vs *VerifySimulation, trainId string, info *mess
if sta.OldLinkOffset != outLinkOffset {
sta.OldLinkOffset = outLinkOffset
}
if sta.OldTailLink != tailLinkId {
sta.OldTailLink = tailLinkId
}
if sta.OldTailLinkOffset != tailLinkOffset {
sta.OldTailLinkOffset = tailLinkOffset
}
sta.HeadDeviceId = vs.GetComIdByUid(id)
sta.DevicePort = port
sta.HeadOffset = offset
@ -398,10 +417,10 @@ func updateTrainActiveDirFromDynamic(vs *VerifySimulation, info *message.Dynamic
}
// 根据列车位置修改列车应答器
func updateTrainBtmPosition(vs *VerifySimulation, info *message.DynamicsTrainInfo, sta *state_proto.TrainState, outLinkId string, outLinkOffset int64) {
func updateTrainBtmPosition(vs *VerifySimulation, info *message.DynamicsTrainInfo, sta *state_proto.TrainState, outLinkId string, outLinkOffset int64, tailUp bool, tailLinkId string, tailLinkOffset int64) {
// 更新BTM中列车位置信息
//isup := sta.TrainActiveDirection == 1
can_btm.Default().HandleTrainHeadPositionInfoForTrain(vs.World, sta.BtmBaliseCache, &fi.TrainHeadPositionInfo{
can_btm.Default().HandleTrainHeadPositionInfoForTrain(vs.World, sta, &fi.TrainHeadPositionInfo{
TrainId: sta.Id,
Up: info.Up,
Link: outLinkId,
@ -410,21 +429,13 @@ func updateTrainBtmPosition(vs *VerifySimulation, info *message.DynamicsTrainInf
Acceleration: info.Acceleration,
OldLinkOffset: sta.OldLinkOffset,
OldLink: sta.OldLink,
TailUp: tailUp,
TailLink: tailLinkId,
TailLinkOffset: tailLinkOffset,
OldTailLink: sta.OldTailLink,
OldTailLinkOffset: sta.OldTailLinkOffset,
IsLine12: can_btm.IsLine12(sta),
})
/*can_btm.Default().HandleTrainHeadPositionInfo(vs.World, sta.VobcBtm, &fi.TrainHeadPositionInfo{
TrainId: sta.Id,
Up: info.Up,
Link: outLinkId,
LinkOffset: outLinkOffset,
Speed: info.Speed,
Acceleration: info.Acceleration,
OldLinkOffset: sta.OldLinkOffset,
OldLink: sta.OldLink,
})*/
/* state := can_btm.Default().GetState()
if sta.BtmState == nil || sta.BtmState.BaliseId != state.BaliseId {
sta.BtmState = &state
}*/
}
@ -442,7 +453,7 @@ func handleTrainPositionFromDynamic(vs *VerifySimulation, info *message.Dynamics
}
func pluseCount(sta *state_proto.TrainState, h1, h2, t1, t2 float32) {
if sta.PluseCount == nil {
if sta.PulseCountMap == nil {
return
}
train_pc_sim.Default().TrainPluseCount(sta, h1, h2, t1, t2)
@ -494,7 +505,8 @@ func RemoveTrainState(vs *VerifySimulation, id string) {
if ok {
t := d.(*state_proto.TrainState)
err := removeTrain(vs, id, t)
clearTrainVobcBtmState(vs, id)
t.VobcState.VobcBtmInfo = nil
//clearTrainVobcBtmState(vs, id)
if err != nil {
panic(dto.ErrorDto{Code: dto.DynamicsError, Message: err.Error()})
}
@ -514,12 +526,12 @@ func calcTrailTailOffset(headerOffset, length int64, up bool) (calctailOffset in
}
func clearTrainVobcBtmState(vs *VerifySimulation, id string) {
allTrainMap := &vs.Memory.Status.TrainStateMap
d, ok := allTrainMap.Load(id)
if !ok {
slog.Error(fmt.Sprintf("vobc btm 清空操作 列车【%s】不存在", id))
return
}
t := d.(*state_proto.TrainState)
t.VobcBtm.History = nil
//allTrainMap := &vs.Memory.Status.TrainStateMap
//d, ok := allTrainMap.Load(id)
//if !ok {
// slog.Error(fmt.Sprintf("vobc btm 清空操作 列车【%s】不存在", id))
// return
//}
//t := d.(*state_proto.TrainState)
//t.VobcBtm.History = nil
}

View File

@ -47,6 +47,8 @@ type VerifySimulation struct {
UidMap map[string]*DeviceRelationship
// 运行环境配置
runConfig *config.ThirdPartyConfig
//运行线路code
ProjectCode string
}
// 轨旁仿真内存模型
@ -263,7 +265,18 @@ func (s *VerifySimulation) HandleDynamicsTrainInfo(info *message.DynamicsTrainIn
// 更新列车状态
trainState := UpdateTrainStateByDynamics(s, trainId, info)
vs := train.VobcState
if train.ConnState.Conn && train.ConnState.ConnType == state_proto.TrainConnState_VOBC {
semi_physical_train.Default().SendTrainControlMessage(info)
electrical_machinery.Default().SendElectricMachineryMessage2(info, trainState)
radar.Default().TrainSpeedSender(info, trainState)
acc.Default().TrainAccSender(info, trainState)
}
if vs.Ato {
if train.TrainPort == state_proto.TrainState_PORT_NONE {
slog.Info("")
return
}
trainAtoControlTractionAndBrake(train)
var msgs []message.TrainPcSimBaseMessage
if vs.AtoOpenRightDoor || vs.AtoOpenLeftDoor {
@ -279,19 +292,12 @@ func (s *VerifySimulation) HandleDynamicsTrainInfo(info *message.DynamicsTrainIn
}
msgs = controlDoorCloseBtn(train.VobcState, true, btn, vs.AtoOpenLeftDoor, false)
}
train_pc_sim.Default().SendTrainControlMsg(train, msgs)
train_pc_sim.Default().SendTrainControlMsg2(train, msgs, train.TrainPort)
} else if vs.TractionStatus {
f := trainTractionPower(train.TrainLoad, train.Tcc.PushHandler.Val, trainState.DynamicState.Speed, train.TrainMaxAcc, train.TrainMaxSpeed)
vs.TractionForce = f / 1000 * 100
}
if train.ConnState.Conn && train.ConnState.ConnType == state_proto.TrainConnState_VOBC {
semi_physical_train.Default().SendTrainControlMessage(info)
electrical_machinery.Default().SendElectricMachineryMessage2(info, trainState)
radar.Default().TrainSpeedSender(info, trainState)
acc.Default().TrainAccSender(info, trainState)
}
}
// 获取动力学配置信息

View File

@ -12,6 +12,7 @@ import (
"joylink.club/bj-rtsts-server/third_party/can_btm"
"joylink.club/bj-rtsts-server/third_party/electrical_machinery"
"joylink.club/bj-rtsts-server/third_party/message"
"joylink.club/bj-rtsts-server/third_party/tcp"
train_pc_sim "joylink.club/bj-rtsts-server/third_party/train_pc_sim"
"log/slog"
"math"
@ -37,13 +38,16 @@ func ControlTrainUpdate(s *VerifySimulation, ct *request_proto.TrainControl) {
sta := data.(*state_proto.TrainState)
vobc := sta.VobcState
tcc := sta.Tcc
if ct.ControlType != request_proto.TrainControl_DRIVER_KEY_SWITCH && vobc.Tc1Active == false && vobc.Tc2Active == false {
panic(sys_error.New("请先上驾驶端钥匙"))
}
var baseMsg []message.TrainPcSimBaseMessage = nil
if ct.ControlType == request_proto.TrainControl_EMERGENT_BUTTON {
baseMsg = trainControlButton(sta, ct.DeviceId, ct.ControlButton.Active, tccGraphicData)
} else if ct.ControlType == request_proto.TrainControl_DRIVER_KEY_SWITCH {
baseMsg = trainControlDriverKey(sta, ct.DriverKey, ct.DeviceId, tccGraphicData)
train_pc_sim.Default().SendDriverActive(sta)
//train_pc_sim.Default().SendDriverActive(sta)
} else if ct.ControlType == request_proto.TrainControl_DIRECTION_KEY_SWITCH {
baseMsg = trainControlDirKey(sta.DynamicState.Speed, vobc, tcc, ct.SwitchKey, ct.DeviceId, tccGraphicData)
//此处先注释,根据现场调试情况 2024-4-16
@ -76,7 +80,10 @@ func ControlTrainUpdate(s *VerifySimulation, ct *request_proto.TrainControl) {
vobc.TractionForce = 0
}
if sta.ConnState.Conn && (sta.ConnState.ConnType == state_proto.TrainConnState_PC_SIM) && baseMsg != nil {
train_pc_sim.Default().SendTrainControlMsg(sta, baseMsg)
train_pc_sim.Default().SendTrainControlMsg2(sta, baseMsg, sta.TrainPort)
if vobc.Tc1Active == false && vobc.Tc2Active == false {
sta.TrainPort = state_proto.TrainState_PORT_NONE
}
}
}
@ -96,10 +103,8 @@ func trainControlButton(train *state_proto.TrainState, deviceId uint32, active b
return controlAtpBtn(vobc, active, btn)
case KZM, KYM: //开左门按钮
return controlDoorOpenBtn(vobc, active, btn, graphicBtn.Code == KZM, true)
case GZM, GYM: //关左门按钮
return controlDoorCloseBtn(vobc, active, btn, graphicBtn.Code == GZM, true)
case ZF: //折返按钮
return controlReverseBtn(vobc, active, btn)
case QZMYX: //强制门允许
@ -387,9 +392,14 @@ func trainControlDriverKey(train *state_proto.TrainState, request *request_proto
tcc := train.Tcc
if obj.Code == SKQYS1 {
vobc.Tc1Active = request.Val
train.TrainPort = state_proto.TrainState_PORT_A
train.BtmBaliseCacheA = &state_proto.TrainBtmCache{BaliseList: make([]*state_proto.BTMState, 3)}
} else if obj.Code == SKQYS2 {
vobc.Tc2Active = request.Val
train.TrainPort = state_proto.TrainState_PORT_B
train.BtmBaliseCacheB = &state_proto.TrainBtmCache{BaliseList: make([]*state_proto.BTMState, 3)}
}
if vobc.Tc1Active && vobc.Tc2Active {
if obj.Code == SKQYS1 {
vobc.Tc1Active = false
@ -398,19 +408,28 @@ func trainControlDriverKey(train *state_proto.TrainState, request *request_proto
}
panic(sys_error.New("驾驶端不能同时激活"))
}
var addNew = true
for _, k := range tcc.DriverKey {
if k.Id == deviceId {
k.Id = deviceId
k.Val = request.Val
addNew = false
break
}
}
if addNew {
tcc.DriverKey = append(tcc.DriverKey, &state_proto.TrainControlState_DriverKeySwitch{Id: deviceId, Val: request.Val})
tce := make([]message.TrainPcSimBaseMessage, 0)
tce = append(tce, message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_OUTR_INFO, Data: []byte{message.KEY_STATE, message.IsTrue(request.Val)}})
train.OldLink = ""
train.OldLinkOffset = 0
train.OldTailLink = ""
train.OldTailLinkOffset = 0
if request.Val {
tce = append(tce, message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_TC_ACTIVE})
} else {
tce = append(tce, message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_TC_NOT_ACTIVE})
}
return []message.TrainPcSimBaseMessage{{Type: message.SENDER_TRAIN_OUTR_INFO, Data: []byte{message.KEY_STATE, message.IsTrue(request.Val)}}}
return tce
}
func trainDoorModeChangeHandle(vobc *state_proto.TrainVobcState, tcc *state_proto.TrainControlState, request *request_proto.TrainControl_SwitchKeyChange, deviceId uint32, tccGraphic *data_proto.TccGraphicStorage) []message.TrainPcSimBaseMessage {
@ -512,7 +531,7 @@ func trainAtoControlTractionAndBrake(train *state_proto.TrainState) {
{Type: message.SENDER_TRAIN_OUTR_INFO, Data: []byte{message.NOT_BREAK, notBreak}},
}
slog.Info(fmt.Sprintf("列车 id:%v,ato:%v,AtoLevle:%v,牵引:%v,制动:%v,牵引力:%v,制动力%v", train.Id, vs.Ato, vs.AtoStepLevel, vs.AtoTractionCommandOut, vs.AtoBrakeCommand, vs.TractionForce, vs.BrakeForce))
train_pc_sim.Default().SendTrainControlMsg(train, msg)
train_pc_sim.Default().SendTrainControlMsg2(train, msg, train.TrainPort)
}
// 列车牵引控制
@ -607,18 +626,29 @@ func (s *VerifySimulation) FindConnTrain(ct state_proto.TrainConnState_TrainConn
}
// 反馈atp输出数字量数据
func (s *VerifySimulation) reportTrainMockInitMsg(train *state_proto.TrainState, data1, data3 byte) {
vobc := train.VobcState
func (s *VerifySimulation) reportTrainMockInitMsg2(driverActive, initConn bool, initTimeStamp int64, trainClientPort state_proto.TrainState_TrainPort, train *state_proto.TrainState, data1, data3 byte) (int64, bool, bool, []message.TrainPcSimBaseMessage) {
tcc := train.Tcc
tce := make([]message.TrainPcSimBaseMessage, 0)
tcc.Line12ConnErr = false
//initResult := trainInit
if vobc.Tc1Active || vobc.Tc2Active {
connErr := false
state := message.GetBit(data1, 3)
//if trainInit {
if vobc.TrainConnInitComplate {
//slog.Info(fmt.Sprintf("act:%v ,t1:%v ,a1 :%v,t2:%v,a2:%v,init:%v,ts:%v", act, train.VobcState.Tc1Active, tcc.ActiveTrainA, train.VobcState.Tc2Active, tcc.ActiveTrainB, initConn, initTimeStamp), aport)
if message.GetBit(data3, 3) == 0 {
actt := byte(0)
if driverActive {
actt = 1
}
tce = append(tce, message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_OUTR_INFO, Data: []byte{message.DRIVER_ACTIVE_REPORT, actt}})
}
tce = append(tce, message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_OUTR_INFO, Data: []byte{message.TRAIN_INTEGRITY, 1}})
if driverActive == false {
return initTimeStamp, initConn, false, tce
}
if initConn {
if data1 == 0 {
tcc.Line12ConnErr = true
connErr = true
}
if state == 0 {
jjzdBtn := tcc.Buttons[JJZD]
@ -631,35 +661,31 @@ func (s *VerifySimulation) reportTrainMockInitMsg(train *state_proto.TrainState,
tce = append(tce, message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_OUTR_INFO, Data: []byte{message.OUTER_EMERGENCY_BRAKE, state}})
tce = append(tce, message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_OUTR_INFO, Data: []byte{message.TRAIN_TRACTION_CUTED, 1}})
}
} else {
//initResult = false
vobc.TrainConnInitComplate = true
if tcc.LineInitTimeStamp12 <= 0 {
tcc.LineInitTimeStamp12 = time.Now().Add(time.Second * 6).Unix()
initConn = true
if initTimeStamp <= 0 {
initTimeStamp = time.Now().Add(time.Second * 6).Unix()
}
if tcc.LineInitTimeStamp12 > time.Now().Unix() {
if initTimeStamp > time.Now().Unix() {
tce = append(tce, message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_OUTR_INFO, Data: []byte{message.OUTER_EMERGENCY_BRAKE, state}})
initData := s.ObtainTrainDigitalMockDataForStatus(train)
tce = append(tce, initData...)
//initResult = false
vobc.TrainConnInitComplate = false
/* if trainClientPort == state_proto.TrainState_PORT_A {
tcc.ActiveTrainA = true
} else if trainClientPort == state_proto.TrainState_PORT_A {
tcc.ActiveTrainB = true
}*/
initConn = false
}
}
//驾驶室激活反馈
if message.GetBit(data3, 3) == 0 {
tce = append(tce, message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_OUTR_INFO, Data: []byte{message.DRIVER_ACTIVE_REPORT, 1}})
}
tce = append(tce, message.TrainPcSimBaseMessage{Type: message.SENDER_TRAIN_OUTR_INFO, Data: []byte{message.TRAIN_INTEGRITY, 1}})
}
train_pc_sim.Default().SendTrainControlMsg(train, tce)
//return initResult
return initTimeStamp, initConn, connErr, tce
}
func trainAtoLevel(at3, at2, at1 bool) state_proto.TrainVobcState_AtoStepLevel {
switch {
case at3 == false && at2 == false && at1 == true:
return state_proto.TrainVobcState_ATO_STEP_LEVEL_1
case at3 == false && at2 == true && at1 == true:
return state_proto.TrainVobcState_ATO_STEP_LEVEL_2
case at3 == false && at2 == true && at1 == false:
@ -676,22 +702,43 @@ func trainAtoLevel(at3, at2, at1 bool) state_proto.TrainVobcState_AtoStepLevel {
return state_proto.TrainVobcState_ATO_STEP_LEVEL_NONE
}
}
func (s *VerifySimulation) shuziliang(client *tcp.TcpClient, baseMessage []message.TrainPcSimBaseMessage) {
for _, msg := range baseMessage {
dd := msg.Encode()
//slog.Info(fmt.Sprintf("发送列车控制信息:%x", dd), aport)
client.Send(dd)
}
}
// 4.4.1. 车载输出数字量信息报文内容
func (s *VerifySimulation) TrainPcSimDigitalOutInfoHandle(train *state_proto.TrainState, data []byte) {
/* slog.Info("开始接受atp输出模拟量==============")
for i, d := range data {
func (s *VerifySimulation) TrainPcSimDigitalOutInfoHandle(pc *train_pc_sim.TrainPcReciverData, train *state_proto.TrainState, data []byte) bool {
//slog.Info("开始接受atp输出模拟量==============%v", aport)
/* for i, d := range data {
dd := &strings.Builder{}
for j := 0; j < 8; j++ {
dd.WriteString(fmt.Sprintf(" bit%v val:%v , ", j, message.GetBit(d, uint(j))))
}
slog.Info(fmt.Sprintf("接受atp模拟量id:%v,data:%b,bits:%v", i, d, dd.String()))
}*/
}
slog.Info("结束接受atp输出模拟量eeeeeeeeeeeeeeeeee")*/
s.reportTrainMockInitMsg(train, data[4], data[1])
//slog.Info(fmt.Sprintf("%v", dd.String()), aport)
//slog.Info("结束接受atp输出模拟量eeeeeeeeeeeeeeeeee", aport)
//s.reportTrainMockInitMsg(aport, client, train, data[4], data[1])
vobc := train.VobcState
act := vobc.Tc1Active
if pc.RealTrainPort == state_proto.TrainState_PORT_B {
act = vobc.Tc2Active
}
ts, initConn, connErr, tce := s.reportTrainMockInitMsg2(act, pc.TrainConnInitComplate, pc.LineInitTimeStamp, pc.RealTrainPort, train, data[4], data[1])
pc.TrainConnInitComplate = initConn
pc.LineInitTimeStamp = ts
pc.ConnErr = connErr
train_pc_sim.Default().SendTrainControlMsg2(train, tce, pc.RealTrainPort)
if act {
trainPcSimDigitalOutInfoHandleCode7_0(data[4], vobc)
trainPcSimDigitalOutInfoHandleCode15_8(data[3], vobc)
trainPcSimDigitalOutInfoHandleCode23_16(data[2], vobc)
@ -700,7 +747,46 @@ func (s *VerifySimulation) TrainPcSimDigitalOutInfoHandle(train *state_proto.Tra
if vobc.Ato {
vobc.AtoStepLevel = trainAtoLevel(vobc.AtoTractionCommand3, vobc.AtoTractionCommand2, vobc.AtoTractionCommand1)
}
//return initResult
}
/*
if pc.RealTrainPort == state_proto.TrainState_PORT_A {
ts, initConn, connErr, tce := s.reportTrainMockInitMsg2(vobc.Tc1Active, pc.TrainConnInitComplate, pc.LineInitTimeStamp, pc.RealTrainPort, train, data[4], data[1])
pc.TrainConnInitComplate = initConn
pc.LineInitTimeStamp = ts
pc.ConnErr = connErr
train_pc_sim.Default().SendTrainControlMsg2(train, tce, pc.RealTrainPort)
if train.VobcState.Tc1Active {
trainPcSimDigitalOutInfoHandleCode7_0(data[4], vobc)
trainPcSimDigitalOutInfoHandleCode15_8(data[3], vobc)
trainPcSimDigitalOutInfoHandleCode23_16(data[2], vobc)
trainPcSimDigitalOutInfoHandleCode31_24(data[1], vobc)
trainPcSimDigitalOutInfoHandleCode39_32(data[0], vobc)
if vobc.Ato {
vobc.AtoStepLevel = trainAtoLevel(vobc.AtoTractionCommand3, vobc.AtoTractionCommand2, vobc.AtoTractionCommand1)
}
}
} else if pc.RealTrainPort == state_proto.TrainState_PORT_B {
ts, initConn, connErr, tce := s.reportTrainMockInitMsg2(vobc.Tc2Active, pc.TrainConnInitComplate, pc.LineInitTimeStamp, pc.RealTrainPort, train, data[4], data[1])
pc.TrainConnInitComplate = initConn
pc.LineInitTimeStamp = ts
pc.ConnErr = connErr
train_pc_sim.Default().SendTrainControlMsg2(train, tce, pc.RealTrainPort)
if train.VobcState.Tc2Active {
trainPcSimDigitalOutInfoHandleCode7_0(data[4], vobc)
trainPcSimDigitalOutInfoHandleCode15_8(data[3], vobc)
trainPcSimDigitalOutInfoHandleCode23_16(data[2], vobc)
trainPcSimDigitalOutInfoHandleCode31_24(data[1], vobc)
trainPcSimDigitalOutInfoHandleCode39_32(data[0], vobc)
if vobc.Ato {
vobc.AtoStepLevel = trainAtoLevel(vobc.AtoTractionCommand3, vobc.AtoTractionCommand2, vobc.AtoTractionCommand1)
}
}
}*/
return true
}
func trainPcSimDigitalOutInfoHandleCode39_32(d byte, vobc *state_proto.TrainVobcState) {
@ -840,7 +926,7 @@ func (s *VerifySimulation) TrainPcSimMockInfo(train *state_proto.TrainState, dat
}
// 4.4.4. 车载输出BTM查询同步帧报文内容0x04
func (s *VerifySimulation) TrainBtmQuery2(train *state_proto.TrainState, data []byte) {
func (s *VerifySimulation) TrainBtmQuery2(train *state_proto.TrainState, data []byte, trainClientPort state_proto.TrainState_TrainPort) {
ts := time.Now().UnixMilli()
if len(data) < 12 {
@ -856,35 +942,39 @@ func (s *VerifySimulation) TrainBtmQuery2(train *state_proto.TrainState, data []
}
var balise *state_proto.BTMState
var dsn, bc, mc byte
if atpReq.IsResend() {
balise, dsn, bc, mc = can_btm.Default().FindBaliseResend(train)
} else {
balise, dsn, bc, mc = can_btm.Default().FindBaliseByNotSend(train)
btmCache := train.BtmBaliseCacheA
if train.TrainPort != trainClientPort {
btmCache = train.BtmBaliseCacheB
}
if atpReq.IsResend() {
balise, dsn, bc, mc = can_btm.FindBaliseResend(btmCache, true)
} else {
balise, dsn, bc, mc = can_btm.FindBaliseByNotSend(btmCache, true)
}
balise, dsn, bc, mc = can_btm.Default().FindBaliseByNotSend(train)
cl := clock(atpReq)
btmRepFrame := createBtmStatus(trainAtm.CanId.ID4, balise, atpReq, cl, dsn, bc, mc)
timeSyncF := message.NewBtmTimeSyncCheckFrame(trainAtm.CanId.ID4)
timeSyncF.T2 = cl.BtmTk
timeSyncF.T3 = cl.TkNow()
if balise == nil {
queryData := make([]byte, 0)
queryData = append(queryData, btmRepFrame.EncodeBtmAtp().Encode()...)
queryData = append(queryData, timeSyncF.EncodeBtmAtp().Encode()...)
train_pc_sim.Default().SendBaliseData(train, message.RECIVE_TRAIN_BTM_NOT_DATA, queryData)
queryData := createLine12EmptyBaliseData(btmRepFrame, timeSyncF)
sendLine12EmptyBaliseData(train, trainClientPort, queryData)
//slog.Info(fmt.Sprintf("接受应答器查询:%x发送无应答器数据,id:%v,数据:%X", data, trainAtm.CanId.ID4, queryData))
} else {
logstr := ""
if atpReq.IsResend() {
logstr = fmt.Sprintf("准备重新发送应答id:%v,接受时间:%v,发送时间:%v , 数据:%v 经过:%v,解报文:%v,接受应答器报文:%X", balise.BaliseId, ts, time.Now().UnixMilli(), balise.Telegram, bc, mc, data)
logstr = fmt.Sprintf("准备重新发送应答id:%v,接受时间:%v,发送时间:%v , 数据:%v 经过:%v,解报文:%v,接受应答器报文:%X clientPoret:%v trainPort:%v", balise.BaliseId, ts, time.Now().UnixMilli(), balise.Telegram, bc, mc, data, trainClientPort.String(), train.TrainPort.String())
} else if !balise.IsSend {
balise.IsSend = true
logstr = fmt.Sprintf("准备发送应答id:%v,接受时间:%v,发送时间:%v , 数据:%v 经过:%v,解报文:%v,接受应答器报文:%X", balise.BaliseId, ts, time.Now().UnixMilli(), balise.Telegram, bc, mc, data)
} else {
logstr = fmt.Sprintf("准备发送应答id:%v,接受时间:%v,发送时间:%v , 数据:%v 经过:%v,解报文:%v,接受应答器报文:%X clientPoret:%v trainPort:%v", balise.BaliseId, ts, time.Now().UnixMilli(), balise.Telegram, bc, mc, data, trainClientPort.String(), train.TrainPort.String())
} /*else {
queryData := createLine12EmptyBaliseData(btmRepFrame, timeSyncF)
sendLine12EmptyBaliseData(train, trainClientPort, queryData)
return
}
slog.Info(logstr)
}*/
slog.Info(logstr, trainClientPort.String())
aliseData, _ := hex.DecodeString(balise.Telegram)
stateRepFrame := btmRepFrame.EncodeBtmAtp()
statusDataCf, statusDataCfOk := message.CreateBtmAtpDataRspFramesData(stateRepFrame, aliseData, false, balise.HasData, cl.BtmTk, cl.BtmTk, cl.BtmTk)
@ -896,13 +986,24 @@ func (s *VerifySimulation) TrainBtmQuery2(train *state_proto.TrainState, data []
queryData = append(queryData, timeSyncF.EncodeBtmAtp().Encode()...)
queryData = append(queryData, statusDataCf...) //数据帧包含结束帧
balise.BaliseTelegramForPcSimResend = fmt.Sprintf("%X", statusDataCf)
train_pc_sim.Default().SendBaliseData(train, message.RECIVE_TRAIN_BTM_HAS_DATA, queryData)
train_pc_sim.Default().SendBaliseData2(train, trainClientPort, message.RECIVE_TRAIN_BTM_HAS_DATA, queryData)
} else {
slog.Error("列车pc仿真 BtmCanetClient应答帧、数据帧编码失败")
}
}
}
func sendLine12EmptyBaliseData(train *state_proto.TrainState, trainClientPort state_proto.TrainState_TrainPort, emptyBaliseData []byte) {
train_pc_sim.Default().SendBaliseData2(train, trainClientPort, message.RECIVE_TRAIN_BTM_NOT_DATA, emptyBaliseData)
}
func createLine12EmptyBaliseData(btmRepFrame *message.BtmStatusRspFrame, timeSyncFrame *message.BtmTimeSyncCheckFrame) []byte {
queryData := make([]byte, 0)
queryData = append(queryData, btmRepFrame.EncodeBtmAtp().Encode()...)
queryData = append(queryData, timeSyncFrame.EncodeBtmAtp().Encode()...)
return queryData
}
func createBtmStatus(canIdSn byte, btmState *state_proto.BTMState, atpReq *message.AtpRequestFrame, cl can_btm.BtmClock, dsn, baliseCount, messageCount byte) *message.BtmStatusRspFrame {
statusF := message.NewBtmStatusRspFrame(canIdSn)
statusF.PowerAmplifierOn = true
@ -917,8 +1018,6 @@ func createBtmStatus(canIdSn byte, btmState *state_proto.BTMState, atpReq *messa
if btmState != nil && btmState.AboveBalise {
statusF.DetailedCode = 0x07
}
//btmState.DataSerialNumber = uint32(dsn)
statusF.Dsn = dsn
return statusF
}
@ -933,10 +1032,10 @@ func (s *VerifySimulation) ObtainTrainDigitalMockDataForStatus(train *state_prot
if vs.Tc1Active || vs.Tc2Active {
msgArr = append(msgArr, message.TrainPcSimBaseMessage{Data: []byte{message.KEY_STATE, 1}, Type: message.SENDER_TRAIN_OUTR_INFO}) //钥匙激活
msgArr = append(msgArr, message.TrainPcSimBaseMessage{Data: []byte{message.DRIVER_ACTIVE_REPORT, 1}, Type: message.SENDER_TRAIN_OUTR_INFO}) //列车完整性
} else {
//msgArr = append(msgArr, message.TrainPcSimBaseMessage{Data: []byte{message.DRIVER_ACTIVE_REPORT, 1}, Type: message.SENDER_TRAIN_OUTR_INFO}) //列车完整性
} /* else {
msgArr = append(msgArr, message.TrainPcSimBaseMessage{Data: []byte{message.DRIVER_ACTIVE_REPORT, 0}, Type: message.SENDER_TRAIN_OUTR_INFO}) //列车完整性
}
}*/
if vs.BrakeForce == 0 {
msgArr = append(msgArr, message.TrainPcSimBaseMessage{Data: []byte{message.HANDLE_TO_ZERO, 1}, Type: message.SENDER_TRAIN_OUTR_INFO}) //列车制动状态
}
@ -1016,6 +1115,6 @@ func (s *VerifySimulation) ObtainTrainDigitalMockData(train *state_proto.TrainSt
msgArr = append(msgArr, message.TrainPcSimBaseMessage{Data: []byte{message.DOOR_MODE_AA, modeAA}, Type: message.SENDER_TRAIN_OUTR_INFO})
msgArr = append(msgArr, message.TrainPcSimBaseMessage{Data: []byte{message.DOOR_MODE_AM, modeAM}, Type: message.SENDER_TRAIN_OUTR_INFO})
msgArr = append(msgArr, message.TrainPcSimBaseMessage{Data: []byte{message.DOOR_MODE_MM, modeMM}, Type: message.SENDER_TRAIN_OUTR_INFO})
train.BtmState = nil
return msgArr
}

View File

@ -2,9 +2,9 @@ package ts
import (
"fmt"
"joylink.club/bj-rtsts-server/service"
"joylink.club/bj-rtsts-server/third_party/acc"
axleBeijing12 "joylink.club/bj-rtsts-server/third_party/axle_device/beijing12"
"joylink.club/bj-rtsts-server/third_party/btm_vobc"
"joylink.club/bj-rtsts-server/third_party/interlock/beijing11"
"joylink.club/bj-rtsts-server/third_party/interlock/beijing12"
"joylink.club/bj-rtsts-server/third_party/radar"
@ -51,6 +51,7 @@ func CreateSimulation(projectId int32, mapIds []int32, runConfig *dto.ProjectRun
return "", sys_error.New("一套环境同时只能运行一个仿真")
}
if !e {
project := service.QueryProject(projectId)
verifySimulation, err := memory.CreateSimulation(projectId, mapIds, runConfig)
if err != nil {
@ -68,6 +69,7 @@ func CreateSimulation(projectId int32, mapIds []int32, runConfig *dto.ProjectRun
verifySimulation.World.Close()
return "", err
}
verifySimulation.ProjectCode = project.Code
simulationMap.Store(simulationId, verifySimulation)
// verifySimulation.Start()
// 全部成功,启动仿真
@ -148,7 +150,7 @@ func runThirdParty(s *memory.VerifySimulation) error {
acc.Default().Start(s)
train_pc_sim.Default().Start(s)
//btm vobc
btm_vobc.Default().Start(s)
semi_physical_train.BtmDefault().Start(s)
return nil
}
@ -167,7 +169,7 @@ func stopThirdParty(s *memory.VerifySimulation) {
//列车PC仿真停止
train_pc_sim.Default().Stop()
btm_vobc.Default().Stop()
semi_physical_train.BtmDefault().Stop()
// 停止动力学接口功能
dynamics.Default().Stop()
// 联锁启动

View File

@ -36,3 +36,7 @@ func (r *Reader) ReadBytes(n int) []byte {
r.Read(b)
return b
}
func (r *Reader) Len() int {
return r.r.Len()
}