using System;
using System.Collections.Generic;
using System.Text;
using HDL_ON.Entity;
using HDL_ON.UI;
using Shared;
namespace HDL_ON.DriverLayer
{
///
/// bus数据包
///
public class Packet
{
///
/// 缓冲区大小
///
public const int Size = 1024 + 200;
///
/// 接收到的数据
///
public byte[] Bytes;
///
/// 数据发送IP地址
///
public System.Net.EndPoint RemoteEndPoint;
public Packet()
{
this.Bytes = new byte[Size];
RemoteEndPoint = new System.Net.IPEndPoint(System.Net.IPAddress.Any, 0);
}
public Packet(byte[] data, System.Net.EndPoint remoteEndPoint)
{
this.Bytes = data;
this.RemoteEndPoint = remoteEndPoint;
}
///
/// 记录已经发送数据出去的时间
///
public DateTime FlagDateTime;
///
/// 已经发送了多少数
///
public int HaveSendCount;
///
/// 处理接收到的数据
///
public virtual void Manager()
{
try
{
//对于操作数据库的时间比较长的,可以创建另一个线程处理
if (!"HDLMIRACLE".Equals(Encoding.ASCII.GetString(Bytes, 4, 10)))
{
return;
}
byte subnetID = this.Bytes[17]; //源子网号
byte deviceID = this.Bytes[18]; //源设备号
//源设备类型
int deviceType = this.Bytes[19] * 256 + this.Bytes[20];
Command command = (Command)(Bytes[21] * 256 + Bytes[22]); //操作码控制命令
byte targetSubnetID = this.Bytes[23];
byte targetDeviceID = this.Bytes[24];
//不是要接收的指令就返回
if (!((targetSubnetID == 0 && targetDeviceID == 252) || (targetSubnetID == 0xff && targetDeviceID == 0xff)))
{
return;
}
byte[] usefulBytes = null;
if (this.Bytes[16] == 0xFF)
{
usefulBytes = new byte[Bytes.Length - 16 - 11];
Array.Copy(Bytes, 27, usefulBytes, 0, usefulBytes.Length);
}
else
{
//有用的附加数据
usefulBytes = new byte[this.Bytes[16] - 11];
Array.Copy(Bytes, 25, usefulBytes, 0, usefulBytes.Length);
}
//处理接收到的数据
UdpPacket_DataProcessing(subnetID, deviceID, command, usefulBytes);
#if DEBUG
string ddd = "";
foreach(var bb in usefulBytes)
{
ddd += bb + ",";
}
MainPage.Log($"bus命令:"+ ((int)command) + " : 数据:" + ddd);
#endif
//处理是否要重发数据
ManagerReceive(subnetID, deviceID, command, usefulBytes);
}
catch (Exception ex)
{
MainPage.Log($"packet {ex.Message} ");
}
}
///
/// 数据包处理
/// ps:由commonpage转移过来,还需要转移合适的位置管理
///
///
///
///
///
void UdpPacket_DataProcessing(byte subnetID, byte deviceID, Command command, byte[] receiveBytes)
{
try
{
switch (command)
{
case Command.SetSingleLightACK:
var queryList = new List();
queryList.AddRange(FunctionList.List.GetElectricals());
queryList.AddRange(FunctionList.List.GetLightList());
foreach (var updataObj in queryList)
{
if (updataObj.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0])
{
if (updataObj.spk != SPK.LightRGB)
{
updataObj.trait_on_off.curValue = receiveBytes[2] > 0 ? "on" : "off";
if (updataObj.trait_on_off.curValue.ToString() == "on")
{
switch (updataObj.spk)
{
case SPK.ElectricFan:
updataObj.SetAttrState(FunctionAttributeKey.OpenLevel, receiveBytes[2].ToString());
updataObj.lastState = Language.StringByID(StringId.Level) + " : " + receiveBytes[2];
break;
case SPK.LightDimming:
updataObj.SetAttrState(FunctionAttributeKey.Brightness, receiveBytes[2].ToString());
updataObj.lastState = Language.StringByID(StringId.Brightness) + " : " + receiveBytes[2] + "%";
break;
}
}
HomePage.UpdataFunctionStates(updataObj);
RoomPage.UpdataStates(updataObj);
FunctionPage.UpdataStates(updataObj);
ClassificationPage.UpdataInfo(updataObj);
switch (updataObj.spk)
{
case SPK.LightSwitch:
RelayPage.UpdataState(updataObj);
break;
case SPK.LightDimming:
DimmerPage.UpdataStates(updataObj);
break;
case SPK.ElectricFan:
FanPage.UpdataState(updataObj);
break;
}
break;
}
}
}
break;
case Command.ReadLightAllLoopBrightnessACK:
for (int i = 0; i < receiveBytes[0]; i++)
{
var light = FunctionList.List.GetLightList().Find((obj) => obj.bus.SubnetID == subnetID && obj.bus.DeviceID == deviceID && obj.bus.LoopId == (i + 1));
if (light != null)
{
if (light.spk != SPK.LightRGB)
{
light.trait_on_off.curValue = receiveBytes[light.bus.LoopId] == 0 ? "off" : "on";
if (light.trait_on_off.curValue.ToString() == "on")
{
light.SetAttrState(FunctionAttributeKey.Brightness, receiveBytes[2].ToString());
light.lastState = Language.StringByID(StringId.Brightness) + " : " + receiveBytes[2] + "%";
}
HomePage.UpdataFunctionStates(light);
RoomPage.UpdataStates(light);
FunctionPage.UpdataStates(light);
ClassificationPage.UpdataInfo(light);
switch (light.spk)
{
case SPK.LightSwitch:
RelayPage.UpdataState(light);
break;
case SPK.LightDimming:
DimmerPage.UpdataStates(light);
break;
}
}
}
else
{
var function = FunctionList.List.GetElectricals().Find((obj) => obj.bus.SubnetID == subnetID && obj.bus.DeviceID == deviceID && obj.bus.LoopId == i);
if (function != null)
{
function.SetAttrState(FunctionAttributeKey.OnOff, receiveBytes[2] == 0 ? "off" : "on");
if (function.trait_on_off.curValue.ToString() == "on")
{
function.SetAttrState(FunctionAttributeKey.OpenLevel, receiveBytes[2].ToString());
function.lastState = Language.StringByID(StringId.Level) + " : " + receiveBytes[2];
}
HomePage.UpdataFunctionStates(function);
RoomPage.UpdataStates(function);
FunctionPage.UpdataStates(function);
ClassificationPage.UpdataInfo(function);
switch (function.spk)
{
case SPK.ElectricFan:
FanPage.UpdataState(function);
break;
case SPK.ElectricSocket:
SocketPage.UpdataState(function);
break;
}
}
}
}
break;
case Command.SetLogicLoopColorACK:
case Command.ReadLogicLoopColorACK:
foreach (var rgb in FunctionList.List.GetLightList())
{
if (rgb.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0])
{
if (rgb.spk == SPK.LightRGB)
{
rgb.trait_on_off.curValue = receiveBytes[1] > 0 ? "on" : "off";
if (receiveBytes[1] > 0)
{
rgb.SetAttrState(FunctionAttributeKey.Brightness, receiveBytes[1].ToString());
rgb.lastState = Language.StringByID(StringId.Brightness) + " : " + receiveBytes[1] + "%";
}
new Light().SetRGBcolor(new byte[] { receiveBytes[6], receiveBytes[7], receiveBytes[8] }, rgb);
HomePage.UpdataFunctionStates(rgb);
RoomPage.UpdataStates(rgb);
FunctionPage.UpdataStates(rgb);
ClassificationPage.UpdataInfo(rgb);
RGBPage.UpdataStates(rgb);
}
}
}
break;
case Command.SetCurtainModelStutasACK:
case Command.ReadCurtainStutasACK:
foreach (var curtain in FunctionList.List.GetCurtainList())
{
if (curtain.bus.SubnetID == subnetID && curtain.bus.DeviceID == deviceID)
{
if (receiveBytes[0] == 17)
{
if (receiveBytes[1] > 1)
{
curtain.trait_on_off.curValue = "on";
}
else
{
curtain.trait_on_off.curValue = "off";
}
curtain.SetAttrState(FunctionAttributeKey.Percent, receiveBytes[1].ToString());
curtain.lastState = Language.StringByID(StringId.Open) + curtain.GetAttrState(FunctionAttributeKey.Percent) + "%";
}
else
{
if (curtain.bus.LoopId != receiveBytes[0])
continue;
switch (receiveBytes[1])
{
case 0:
curtain.trait_on_off.curValue = "stop";
break;
case 1:
curtain.trait_on_off.curValue = "on";
curtain.lastState = Language.StringByID(StringId.Open);
break;
case 2:
curtain.trait_on_off.curValue = "off";
curtain.lastState = Language.StringByID(StringId.Close);
break;
}
}
RoomPage.UpdataStates(curtain);
FunctionPage.UpdataStates(curtain);
HomePage.UpdataFunctionStates(curtain);
ClassificationPage.UpdataInfo(curtain);
switch (curtain.spk)
{
case SPK.CurtainSwitch:
CurtainModulePage.UpdataState(curtain);
break;
case SPK.CurtainTrietex:
MotorCurtainPage.UpdataState(curtain);
break;
case SPK.CurtainRoller:
RollingShutterPage.UpdataState(curtain);
break;
}
}
}
break;
case Command.SetACModeACK:
case Command.ReadACModeACK:
foreach (var function in FunctionList.List.GetAcList())
{
var acFunction = new AC();
if (function.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0])
{
function.SetAttrState(FunctionAttributeKey.TempType, receiveBytes[1].ToString());
function.SetAttrState(FunctionAttributeKey.RoomTemp, receiveBytes[2].ToString());
function.trait_on_off.curValue = receiveBytes[8] == 1 ? "on" : "off";
acFunction.SetMode(receiveBytes[9],function);
acFunction.SetFan(receiveBytes[10],function);
function.SetAttrState(FunctionAttributeKey.SetTemp, receiveBytes[11].ToString());
function.lastState = "";
switch (function.GetAttrState(FunctionAttributeKey.Mode))
{
case "cool":
function.lastState = Language.StringByID(StringId.Cool);
break;
case "heat":
function.lastState = Language.StringByID(StringId.Heat);
break;
case "dry":
function.lastState = Language.StringByID(StringId.Dry);
break;
case "auto":
function.lastState = Language.StringByID(StringId.Auto);
break;
case "fan":
function.lastState = Language.StringByID(StringId.AirSupply);
break;
}
switch (function.GetAttrState(FunctionAttributeKey.FanSpeed))
{
case "high":
function.lastState += " " + Language.StringByID(StringId.HighWindSpeed);
break;
case "medium":
function.lastState += " " + Language.StringByID(StringId.MiddleWindSpeed);
break;
case "low":
function.lastState += " " + Language.StringByID(StringId.LowWindSpeed);
break;
case "auto":
function.lastState += " " + Language.StringByID(StringId.Auto);
break;
}
function.lastState += " " + function.GetAttrState(FunctionAttributeKey.SetTemp) + acFunction.GetTempUnitString(function);
RoomPage.UpdataStates(function);
FunctionPage.UpdataStates(function);
HomePage.UpdataFunctionStates(function);
ClassificationPage.UpdataInfo(function);
ACPage.UpdataStates(function);
}
}
break;
case Command.ReadFloorHeatACK:
case Command.SetFloorHeatACK:
foreach (var function in FunctionList.List.GetFloorHeatingList())
{
if (function.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0])
{
function.SetAttrState(FunctionAttributeKey.TempType, receiveBytes[2]);
function.trait_on_off.curValue = receiveBytes[1] % 2 == 0 ? "off" : "on";
new FloorHeating().SetModeIndex(receiveBytes[3],function);
if (function.Fh_Mode_Temp.ContainsKey("normal"))
{
function.Fh_Mode_Temp["normal"] = receiveBytes[4];
}
else
{
function.Fh_Mode_Temp.Add("normal", receiveBytes[4]);
}
if (function.Fh_Mode_Temp.ContainsKey("day"))
{
function.Fh_Mode_Temp["day"] = receiveBytes[5];
}
else
{
function.Fh_Mode_Temp.Add("day", receiveBytes[5]);
}
if (function.Fh_Mode_Temp.ContainsKey("night"))
{
function.Fh_Mode_Temp["night"] = receiveBytes[6];
}
else
{
function.Fh_Mode_Temp.Add("night", receiveBytes[6]);
}
if (function.Fh_Mode_Temp.ContainsKey("away"))
{
function.Fh_Mode_Temp["away"] = receiveBytes[7];
}
else
{
function.Fh_Mode_Temp.Add("away", receiveBytes[7]);
}
if (function.GetAttribute(FunctionAttributeKey.Mode) == null)
{
function.SetAttrState(FunctionAttributeKey.SetTemp, receiveBytes[4].ToString());
}
else
{
switch (function.GetAttrState(FunctionAttributeKey.Mode))
{
case "normal":
function.lastState = Language.StringByID(StringId.Normal);
function.SetAttrState(FunctionAttributeKey.SetTemp, receiveBytes[4].ToString());
break;
case "day":
function.lastState = Language.StringByID(StringId.Day);
function.SetAttrState(FunctionAttributeKey.SetTemp, receiveBytes[5].ToString());
break;
case "night":
function.lastState = Language.StringByID(StringId.Night);
function.SetAttrState(FunctionAttributeKey.SetTemp, receiveBytes[6].ToString());
break;
case "timer":
function.lastState = Language.StringByID(StringId.Auto);
if (receiveBytes[8] == 0)
{
function.SetAttrState(FunctionAttributeKey.TimeFlag, 0);
function.SetAttrState(FunctionAttributeKey.SetTemp, receiveBytes[5].ToString());
}
else
{
function.SetAttrState(FunctionAttributeKey.TimeFlag, 1);
function.SetAttrState(FunctionAttributeKey.SetTemp, receiveBytes[6].ToString());
}
break;
case "away":
function.SetAttrState(FunctionAttributeKey.SetTemp, receiveBytes[7].ToString());
function.lastState = Language.StringByID(StringId.Away);
break;
}
}
var indoorTemp = 0;
if (receiveBytes[9] > 128)
{
indoorTemp = 1 - (receiveBytes[9] - 128);
}else
{
indoorTemp = receiveBytes[9];
}
function.SetAttrState(FunctionAttributeKey.RoomTemp, indoorTemp);
if (function.GetAttribute(FunctionAttributeKey.Mode) == null)
{
function.lastState = "";
}
else
{
function.lastState += " " + function.GetAttrState(FunctionAttributeKey.Mode) + new FloorHeating().GetTempUnitString(function);
}
RoomPage.UpdataStates(function);
FunctionPage.UpdataStates(function);
HomePage.UpdataFunctionStates(function);
ClassificationPage.UpdataInfo(function);
FloorHeatingPage.UpdataStates(function);
}
}
break;
case Command.ReadDeviceLoopInfoACK:
string tag = receiveBytes[1] + "_" + subnetID + "_" + deviceID + "_" + receiveBytes[2];
foreach (var sensor in FunctionList.List.GetEnvirSensorsList())
{
byte sensorType = 0;
switch (sensor.spk)
{
case SPK.SensorTemperature:
sensorType = 2;
break;
case SPK.SensorHumidity:
sensorType = 3;
break;
case SPK.SensorTVOC:
sensorType = 5;
break;
case SPK.SensorPm25:
sensorType = 6;
break;
case SPK.SensorCO2:
sensorType = 7;
break;
}
if (sensor.bus != null)
{
if (sensorType == receiveBytes[1] && sensor.bus.SubnetID == subnetID &&
sensor.bus.DeviceID == deviceID && sensor.bus.LoopId == receiveBytes[2])
{
switch (sensor.spk)
{
case SPK.SensorTemperature:
byte[] tempBytes = new byte[] { receiveBytes[24], receiveBytes[25], receiveBytes[26], receiveBytes[27] };
sensor.SetAttrState(FunctionAttributeKey.Value,Math.Round(BitConverter.ToSingle(tempBytes, 0), 1).ToString());
break;
case SPK.SensorHumidity:
sensor.SetAttrState(FunctionAttributeKey.Value, (Convert.ToDouble(receiveBytes[24] * 256 + receiveBytes[25]) / 10).ToString());
break;
case SPK.SensorTVOC:
sensor.SetAttrState(FunctionAttributeKey.Value, (Convert.ToDouble(receiveBytes[24] * 256 + receiveBytes[25]) / 100).ToString());
break;
case SPK.SensorPm25:
sensor.SetAttrState(FunctionAttributeKey.Value,Convert.ToInt32(receiveBytes[24] * 256 + receiveBytes[25]).ToString());
break;
case SPK.SensorCO2:
sensor.SetAttrState(FunctionAttributeKey.Value, Convert.ToInt32(receiveBytes[24] * 256 + receiveBytes[25]).ToString());
break;
}
EnvironmentalPage.LoadEvent_UpdataStatus(sensor);
}
}
}
break;
case Command.New_Analog_Quantity_BROADCAST:
string tag1 = receiveBytes[1] + "_" + subnetID + "_" + deviceID + "_" + receiveBytes[2];
foreach (var sensor in FunctionList.List.GetEnvirSensorsList())
{
byte sensorType = 0;
switch (sensor.spk)
{
case SPK.SensorTemperature:
sensorType = 2;
break;
case SPK.SensorHumidity:
sensorType = 3;
break;
case SPK.SensorTVOC:
sensorType = 5;
break;
case SPK.SensorPm25:
sensorType = 6;
break;
case SPK.SensorCO2:
sensorType = 7;
break;
}
if (sensor.bus != null)
{
if (sensorType == receiveBytes[1] && sensor.bus.SubnetID == subnetID &&
sensor.bus.DeviceID == deviceID && sensor.bus.LoopId == receiveBytes[2])
{
//0保留 1无符号4Byte整形 2有符号4Byte整形 3Float形(代±)
switch (receiveBytes[3])
{
case 1:
sensor.SetAttrState(FunctionAttributeKey.Value,( (receiveBytes[5] * 256 * 256 * 256) + (receiveBytes[6] * 256 * 256) + (receiveBytes[7] * 256) + receiveBytes[8]).ToString());
break;
case 2:
sensor.SetAttrState(FunctionAttributeKey.Value,( -1 * ((receiveBytes[5] * 256 * 256 * 256) + (receiveBytes[6] * 256 * 256) + (receiveBytes[7] * 256) + receiveBytes[8])).ToString());
break;
case 3:
byte[] tempBytes = new byte[] { receiveBytes[5], receiveBytes[6], receiveBytes[7], receiveBytes[8] };
sensor.SetAttrState(FunctionAttributeKey.Value,( Math.Round(BitConverter.ToSingle(tempBytes, 0), 1)).ToString());
break;
}
switch (receiveBytes[4])
{
case 2:
if (receiveBytes[1] == 5)//TVOC需求除以100000
{
var value = Convert.ToInt32(sensor.GetAttrState(FunctionAttributeKey.Value));
sensor.SetAttrState(FunctionAttributeKey.Value, (value /= 100000).ToString());
}
break;
}
EnvironmentalPage.LoadEvent_UpdataStatus(sensor);
}
}
}
break;
case Command.InstructionPanelKeyACK:
case Command.ReadInstructionPanelKeyACK:
byte reACPanel = 0;
if (receiveBytes.Length == 2)
{
reACPanel = 1;
}
else if (receiveBytes.Length == 3)
{
reACPanel = receiveBytes[2];
}
else
{
break;
}
foreach (var function in FunctionList.List.GetAcList())
{
var acFunction = new AC();
if (function.GetBusId() == subnetID + "_" + deviceID + "_" + reACPanel)
{
switch (receiveBytes[0])
{
case 3://
function.trait_on_off.curValue = receiveBytes[1] == 1 ? "on" : "off";
break;
case 4:
case 7:
case 8:
case 19:
function.SetAttrState(FunctionAttributeKey.SetTemp, receiveBytes[1].ToString());
break;
case 5:
acFunction.SetFan ( receiveBytes[1],function);
break;
case 6:
acFunction.SetMode ( receiveBytes[1],function);
break;
}
function.lastState = "";
function.lastState += " " + function.GetAttrState(FunctionAttributeKey.SetTemp) + acFunction.GetTempUnitString(function);
RoomPage.UpdataStates(function);
FunctionPage.UpdataStates(function);
HomePage.UpdataFunctionStates(function);
ClassificationPage.UpdataInfo(function);
ACPage.UpdataStates(function);
}
}
break;
case Command.ReadPanleTempACK://1944
case Command.PanleBroadcastTemp:
foreach (var ac in FunctionList.List.GetAcList())
{
if (ac.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0])
{
ac.SetAttrState(FunctionAttributeKey.RoomTemp, receiveBytes[1].ToString());
FunctionPage.UpdataStates(ac);
}
}
break;
case Command.ReadGatewayACK:
var mac = ByteToHex16(receiveBytes[5]) + ByteToHex16(receiveBytes[6]) + ByteToHex16(receiveBytes[7]) + ByteToHex16(receiveBytes[8]) + ByteToHex16(receiveBytes[9]) + ByteToHex16(receiveBytes[10]) + ByteToHex16(receiveBytes[11]) + ByteToHex16(receiveBytes[12]);
var Name = Encoding.GetEncoding("gb2312").GetString(receiveBytes, 13, 20).Trim('\0'); ;
MainPage.Log($"name : {Name} ; mac : {mac}");
if (DB_ResidenceData.Instance.residenceGatewayMAC == mac)
{
//本地搜索网关成功
Control.Ins.IsSearchLocalGatewaySuccessful = true;
Control.Ins.GatewayOnline_Local = true;
DAL.Mqtt.MqttClient.DisConnectRemote();//断开mqtt
}
break;
case Command.FreshAirControlACK_JinMao:
case Command.FreshAirReadACK_JinMao:
var airFresh = FunctionList.List.GetAirFreshList().Find((obj) => obj.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0]);
if (airFresh != null)
{
/// 3 开关 0-关机,1-开机
/// 4 运行模式 1-通风,2-加湿 humidification/fan
/// 5 节能舒适选择 1-舒适,2-节能 true/false
/// 6 风速档位 0-自动,1-1档,2-2档,3-3档 level_1/level_2/level_3/auto
/// 7 湿度设定 %
/// 8 室内温度值 ℃
/// 9 室内湿度值 ℃
/// 10 过滤网剩余 %
/// 11 过滤网使用超时 1 超时 0 无 true/false
airFresh.SetAttrState(FunctionAttributeKey.OnOff, receiveBytes[2] == 0 ? "off" : "on");
airFresh.SetAttrState(FunctionAttributeKey.Mode, receiveBytes[3] == 1 ? "fan" : "humidification");
airFresh.SetAttrState(FunctionAttributeKey.Energy, receiveBytes[4] == 1 ? "false" : "true");
switch (receiveBytes[5])
{
case 0:
airFresh.SetAttrState(FunctionAttributeKey.FanSpeed, "auto");
break;
case 1:
airFresh.SetAttrState(FunctionAttributeKey.FanSpeed, "level_1");
break;
case 2:
airFresh.SetAttrState(FunctionAttributeKey.FanSpeed, "level_2");
break;
case 3:
airFresh.SetAttrState(FunctionAttributeKey.FanSpeed, "level_3");
break;
}
airFresh.SetAttrState(FunctionAttributeKey.Humidity, receiveBytes[6].ToString());
airFresh.SetAttrState(FunctionAttributeKey.IndoorTemp, receiveBytes[7].ToString());
airFresh.SetAttrState(FunctionAttributeKey.IndoorHumidity, receiveBytes[8].ToString());
airFresh.SetAttrState(FunctionAttributeKey.FilterRemain, receiveBytes[9].ToString());
airFresh.SetAttrState(FunctionAttributeKey.FilterTimeout, receiveBytes[10] == 1 ? "true" : "false");
//设备状态推送
Stan.HdlFormLogic.Current.DeviceStatuPush(airFresh, true);
}
break;
}
}
catch (Exception ex)
{
MainPage.Log($"Bus Rev Erorr : {ex.Message}");
}
}
///
/// byte转16进制字符串
///
///
///
string ByteToHex16(byte b)
{
string s = Convert.ToString(b, 16).ToUpper();
if (s.Length <= 1)
{
return "0" + s;
}
return s;
}
///
/// 处理接收回来的数据
///
void ManagerReceive(byte subnetID, byte deviceID, Command command, byte[] usefulBytes)
{
try
{
string receiveFlag = string.Format("{0},{1},{2},", subnetID, deviceID, (int)command);
switch (command)
{
case Command.SetSingleLightACK:
case Command.FreshAirReadACK:
case Command.FreshAirControlACK:
case Command.FreshAirReadACK_JinMao:
case Command.FreshAirControlACK_JinMao:
receiveFlag += string.Format("{0}", usefulBytes[0]);
break;
case Command.SetLogicLoopColorACK:
receiveFlag += string.Format("{0},{1},{2}", usefulBytes[0], usefulBytes[1], usefulBytes[2]);
break;
case Command.ReadLogicLoopColorACK:
case Command.ReadACModeACK:
case Command.SetACModeACK:
case Command.ReadFloorHeatACK:
case Command.SetFloorHeatACK:
receiveFlag += string.Format("{0}", usefulBytes[0]);
break;
case Command.ReadLightAllLoopBrightnessACK:
receiveFlag += "";
break;
case Command.ReadGatewayACK:
receiveFlag = string.Format("{0},{1}", usefulBytes[0], usefulBytes[1]);
break;
case Command.ReadDeviceLoopInfoACK:
if (usefulBytes[0] == 1)
{
receiveFlag += string.Format("{0},{1}", usefulBytes[0], usefulBytes[2]); ;
}
else
receiveFlag += string.Format("{0},{1},{2}", usefulBytes[0], usefulBytes[1], usefulBytes[2]);
break;
case Command.InstructionPanelKeyACK:
case Command.ReadInstructionPanelKeyACK:
receiveFlag += string.Format("{0},{1}", usefulBytes[0], usefulBytes[1]);
break;
case Command.ReadRemark:
new Control_Udp().ReceiveReadRemark(usefulBytes);
break;
default:
break;
}
Control_Udp.ReceiveRepeatManager(receiveFlag,usefulBytes);
}
catch (Exception ex)
{
MainPage.Log("ManagerReceive抛出异常:" + ex.ToString());
}
}
}
}