using System;
using System.Collections.Generic;
using System.Text;
using HDL_ON.Entity;
using HDL_ON.UI;
using Shared;
using Shared.Net;
namespace HDL_ON.DAL
{
public static class CommonPage
{
public static Action RefreshAir;
public static System.Net.IPEndPoint EndPoint
{
get
{
try
{
return new System.Net.IPEndPoint(System.Net.IPAddress.Parse(new NetWiFi().BroadcastIpAddress.ToString()), 6000);
}
catch
{
//防止异常导致程序退出
return new System.Net.IPEndPoint(System.Net.IPAddress.Parse("127.0.0.1"), 6000);
}
}
}
///保存设备备注才用gb2312,其他情况用utf8
public static Encoding MyEncodingUTF8 = Encoding.UTF8;//Get
public static Encoding MyEncodingGB2312
{
get
{
try
{
if (System.Globalization.CultureInfo.InstalledUICulture.EnglishName.ToUpper().StartsWith("CZECH"))
{
return Encoding.GetEncoding(1250);
}
else
{
return Encoding.GetEncoding("gb2312");
}
}
catch (Exception ex)
{
MainPage.Log("MyEncodingGB2312 Erorr : " + ex.Message);
return Encoding.GetEncoding("gb2312");
}
}
}
///
/// 初始化处理socket接收的数据
///
public static void InitReceiveEvent()
{
Packet.ReceiveEvent += Packet_ReceiveEvent;
}
public static float floatChange(byte b1, byte b2, byte b3, byte b4)
{
byte[] byteTemp = { b4, b3, b2, b1 };
return BitConverter.ToSingle(byteTemp, 0);
}
static void Packet_ReceiveEvent(byte subnetID, byte deviceID, Command command, byte[] receiveBytes, string revGatewayIP)
{
try
{
if(revGatewayIP == "172.16.2.237")
{
}
Control.controlLostCount = 0;
switch (command)
{
case Command.SetSingleLightACK:
var queryList = new List();
queryList.AddRange(DB_ResidenceData.functionList.electricals);
queryList.AddRange(DB_ResidenceData.functionList.lights);
foreach (var updataObj in queryList)
{
if (updataObj.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0])
{
if (updataObj.functionType != FunctionType.RGB)
{
var newState = receiveBytes[2] == 0 ? "off" : "on";
if (updataObj.trait_on_off.value.ToString() == newState)
{
//状态一样,不用再刷新页面
break;
}
if (updataObj.trait_on_off.value.ToString() == "on")
{
if (updataObj.functionType == FunctionType.Fan)
{
(updataObj as Fan).openLevel = receiveBytes[2];
updataObj.lastState = Language.StringByID(StringId.Level) + " : " + receiveBytes[2];
}
else
{
(updataObj as Light).brightness = receiveBytes[2];
updataObj.lastState = Language.StringByID(StringId.Brightness) + " : " + receiveBytes[2] + "%";
}
}
HomePage.UpdataFunctionStates(updataObj);
RoomPage.UpdataStates(updataObj);
FunctionPage.UpdataStates(updataObj);
ClassificationPage.UpdataInfo(updataObj);
switch (updataObj.functionType)
{
case FunctionType.Relay:
RelayPage.UpdataState(updataObj as Light);
break;
case FunctionType.Dimmer:
DimmerPage.UpdataStates(updataObj as Light);
break;
case FunctionType.Fan:
FanPage.UpdataState(updataObj as Fan);
break;
}
break;
}
}
}
break;
case Command.ReadLightAllLoopBrightnessACK:
for (int i = 0; i < receiveBytes[0]; i++)
{
var light = DB_ResidenceData.functionList.lights.Find((obj) => obj.bus_Data.SubnetID == subnetID && obj.bus_Data.DeviceID == deviceID && obj.bus_Data.LoopID == (i+1));
if (light != null)
{
if (light.functionType != FunctionType.RGB)
{
light.trait_on_off.value = receiveBytes[light.bus_Data.LoopID] == 0 ? "off" : "on";
if (light.trait_on_off.value.ToString() == "on")
{
light.brightness = receiveBytes[2];
light.lastState = Language.StringByID(StringId.Brightness) + " : " + receiveBytes[2] + "%";
}
HomePage.UpdataFunctionStates(light);
RoomPage.UpdataStates(light);
FunctionPage.UpdataStates(light);
ClassificationPage.UpdataInfo(light);
switch (light.functionType)
{
case FunctionType.Relay:
RelayPage.UpdataState(light);
break;
case FunctionType.Dimmer:
DimmerPage.UpdataStates(light);
break;
}
}
}
else
{
var e = DB_ResidenceData.functionList.electricals.Find((obj) => obj.bus_Data.SubnetID == subnetID && obj.bus_Data.DeviceID == deviceID && obj.bus_Data.LoopID == i);
if (e != null)
{
var fan = e as Fan;
fan.trait_on_off.value = receiveBytes[2] == 0 ? "off" : "on";
if (fan.trait_on_off.value.ToString() == "on")
{
fan.openLevel = receiveBytes[2];
fan.lastState = Language.StringByID(StringId.Level) + " : " + receiveBytes[2];
}
HomePage.UpdataFunctionStates(fan);
RoomPage.UpdataStates(fan);
FunctionPage.UpdataStates(fan);
ClassificationPage.UpdataInfo(fan);
switch (fan.functionType)
{
case FunctionType.Fan:
FanPage.UpdataState(fan);
break;
case FunctionType.Socket:
break;
}
}
}
}
break;
case Command.SetLogicLoopColorACK:
case Command.ReadLogicLoopColorACK:
foreach (var rgb in DB_ResidenceData.functionList.lights)
{
if (rgb.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0])
{
if (rgb.functionType == FunctionType.RGB)
{
rgb.trait_on_off.value = receiveBytes[1] > 0 ? "on" : "off";
if (receiveBytes[1] > 0)
{
rgb.brightness = receiveBytes[1];
rgb.lastState = Language.StringByID(StringId.Brightness) + " : " + receiveBytes[1] + "%";
}
rgb.redColor = receiveBytes[6];
rgb.greenColor = receiveBytes[7];
rgb.blueColor = receiveBytes[8];
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 DB_ResidenceData.functionList.curtains)
{
if (curtain.bus_Data.SubnetID == subnetID && curtain.bus_Data.DeviceID == deviceID)
{
if (receiveBytes[0] == 17)
{
if (receiveBytes[1] > 1)
{
curtain.trait_on_off.value = "on";
}
else
{
curtain.trait_on_off.value = "off";
}
curtain.percent = receiveBytes[1];
curtain.lastState = Language.StringByID(StringId.Open) + curtain.percent + "%";
}
else
{
if (curtain.bus_Data.LoopID != receiveBytes[0])
continue;
switch (receiveBytes[1])
{
case 0:
curtain.trait_on_off.value = "stop";
break;
case 1:
curtain.trait_on_off.value = "on";
curtain.lastState = Language.StringByID(StringId.Open);
break;
case 2:
curtain.trait_on_off.value = "off";
curtain.lastState = Language.StringByID(StringId.Close);
break;
}
}
RoomPage.UpdataStates(curtain);
FunctionPage.UpdataStates(curtain);
HomePage.UpdataFunctionStates(curtain);
ClassificationPage.UpdataInfo(curtain);
RollingShutterPage.UpdataState(curtain);
switch (curtain.functionType)
{
case FunctionType.Curtain:
CurtainModulePage.UpdataState(curtain);
break;
}
}
}
break;
case Command.SetACModeACK:
case Command.ReadACModeACK:
foreach (var ac in DB_ResidenceData.functionList.aCs)
{
if (ac.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0])
{
ac.curTempType = receiveBytes[1];
ac.indoorTemp = receiveBytes[2];
ac.trait_on_off.value = receiveBytes[8] == 1 ? "on" : "off";
ac.curModeIndex = receiveBytes[9];
ac.curFanIndex = receiveBytes[10];
ac.trait_temp.value = receiveBytes[11];
ac.lastState = "";
switch (ac.trait_mode.value.ToString())
{
case "cool":
ac.lastState = Language.StringByID(StringId.Cool);
break;
case "heat":
ac.lastState = Language.StringByID(StringId.Heat);
break;
case "dry":
ac.lastState = Language.StringByID(StringId.Dry);
break;
case "auto":
ac.lastState = Language.StringByID(StringId.Auto);
break;
case "fan":
ac.lastState = Language.StringByID(StringId.AirSupply);
break;
}
switch (ac.trait_fan.value.ToString())
{
case "high":
ac.lastState += " " + Language.StringByID(StringId.HighWindSpeed);
break;
case "medium":
ac.lastState += " " + Language.StringByID(StringId.MiddleWindSpeed);
break;
case "low":
ac.lastState += " " + Language.StringByID(StringId.LowWindSpeed);
break;
case "auto":
ac.lastState += " " + Language.StringByID(StringId.Auto);
break;
}
ac.lastState += " " + ac.trait_temp.value + ac.tempUnitString;
RoomPage.UpdataStates(ac);
FunctionPage.UpdataStates(ac);
HomePage.UpdataFunctionStates(ac);
ClassificationPage.UpdataInfo(ac);
ACPage.UpdataStates(ac);
}
}
break;
case Command.ReadFloorHeatACK:
case Command.SetFloorHeatACK:
foreach (var fh in DB_ResidenceData.functionList.floorHeatings)
{
if (fh.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0])
{
fh.curTempType = receiveBytes[2];
fh.trait_on_off.value = receiveBytes[1] % 2 == 0 ? "off" : "on";
fh.curModeIndex = receiveBytes[3];
if (fh.modeTemp.ContainsKey("normal"))
{
fh.modeTemp["normal"] = receiveBytes[4];
}
else
{
fh.modeTemp.Add("normal", receiveBytes[4]);
}
if (fh.modeTemp.ContainsKey("day"))
{
fh.modeTemp["day"] = receiveBytes[5];
}
else
{
fh.modeTemp.Add("day", receiveBytes[5]);
}
if (fh.modeTemp.ContainsKey("night"))
{
fh.modeTemp["night"] = receiveBytes[6];
}
else
{
fh.modeTemp.Add("night", receiveBytes[6]);
}
if (fh.modeTemp.ContainsKey("away"))
{
fh.modeTemp["away"] = receiveBytes[7];
}
else
{
fh.modeTemp.Add("away", receiveBytes[7]);
}
switch (fh.trait_mode.value)
{
case "normal":
fh.lastState = Language.StringByID(StringId.Normal);
fh.curTemp = receiveBytes[4];
break;
case "day":
fh.lastState = Language.StringByID(StringId.Day);
fh.curTemp = receiveBytes[5];
break;
case "night":
fh.lastState = Language.StringByID(StringId.Night);
fh.curTemp = receiveBytes[6];
break;
case "timer":
fh.lastState = Language.StringByID(StringId.Auto);
if (receiveBytes[8] == 0)
{
fh.timeFlag = 0;
fh.curTemp = receiveBytes[5];
}
else
{
fh.timeFlag = 1;
fh.curTemp = receiveBytes[6];
}
break;
case "away":
fh.curTemp = receiveBytes[7];
fh.lastState = Language.StringByID(StringId.Away);
break;
}
fh.lastState += " " + fh.curTemp + fh.tempUnitString;
RoomPage.UpdataStates(fh);
FunctionPage.UpdataStates(fh);
HomePage.UpdataFunctionStates(fh);
ClassificationPage.UpdataInfo(fh);
FloorHeatingPage.UpdataStates(fh);
}
}
break;
case Command.ReadDeviceLoopInfoACK:
FunctionType dt = (FunctionType)(11 * 256 + receiveBytes[1]);
string tag = receiveBytes[1] + "_" + subnetID + "_" + deviceID + "_" + receiveBytes[2];
foreach (var sensor in DB_ResidenceData.functionList.sensorsEnvironmentalScience)
{
if (sensor.bus_Data != null)
{
if ((int)sensor.functionType % 256 == receiveBytes[1] && sensor.bus_Data.SubnetID == subnetID &&
sensor.bus_Data.DeviceID == deviceID && sensor.bus_Data.LoopID == receiveBytes[2])
{
switch (dt)
{
case FunctionType.Temp:
byte[] tempBytes = new byte[] { receiveBytes[24], receiveBytes[25], receiveBytes[26], receiveBytes[27] };
sensor.values = Math.Round(BitConverter.ToSingle(tempBytes, 0), 1);
break;
case FunctionType.Humidity:
sensor.values = Convert.ToDouble(receiveBytes[24] * 256 + receiveBytes[25]) / 10;
break;
case FunctionType.TVOC:
sensor.values = Convert.ToDouble(receiveBytes[24] * 256 + receiveBytes[25]) / 100;
break;
case FunctionType.PM25:
sensor.values = Convert.ToInt32(receiveBytes[24] * 256 + receiveBytes[25]);
break;
case FunctionType.CO2:
sensor.values = Convert.ToInt32(receiveBytes[24] * 256 + receiveBytes[25]);
break;
}
EnvironmentalSciencePage.LoadEvent_UpdataStatus(sensor);
}
}
}
break;
case Command.New_Analog_Quantity_BROADCAST:
string tag1 = receiveBytes[1] + "_" + subnetID + "_" + deviceID + "_" + receiveBytes[2];
foreach (var sensor in DB_ResidenceData.functionList.sensorsEnvironmentalScience)
{
if (sensor.bus_Data != null)
{
if ((int)sensor.functionType % 256 == receiveBytes[1] && sensor.bus_Data.SubnetID == subnetID &&
sensor.bus_Data.DeviceID == deviceID && sensor.bus_Data.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.values = (receiveBytes[5] * 256 * 256 * 256) + (receiveBytes[6] * 256 * 256) + (receiveBytes[7] * 256) + receiveBytes[8];
break;
case 2:
sensor.values = -1 * ((receiveBytes[5] * 256 * 256 * 256) + (receiveBytes[6] * 256 * 256) + (receiveBytes[7] * 256) + receiveBytes[8]);
break;
case 3:
byte[] tempBytes = new byte[] { receiveBytes[5], receiveBytes[6], receiveBytes[7], receiveBytes[8] };
sensor.values = Math.Round(BitConverter.ToSingle(tempBytes, 0), 1);
break;
}
switch (receiveBytes[4])
{
case 2:
if (receiveBytes[1] == 5)//TVOC需求除以100000
sensor.values /= 100000;
break;
}
EnvironmentalSciencePage.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 ac in DB_ResidenceData.functionList.aCs)
{
if (ac.GetBusId() == subnetID + "_" + deviceID + "_" + reACPanel)
{
switch (receiveBytes[0])
{
case 3://
ac.trait_on_off.value = receiveBytes[1] == 1 ? "on" : "off";
break;
case 4:
case 7:
case 8:
case 19:
ac.trait_temp.value = receiveBytes[1];
break;
case 5:
ac.curFanIndex = receiveBytes[1];
break;
case 6:
ac.curModeIndex = receiveBytes[1];
break;
}
ac.lastState = "";
ac.lastState += " " + ac.trait_temp.value + ac.tempUnitString;
RoomPage.UpdataStates(ac);
FunctionPage.UpdataStates(ac);
HomePage.UpdataFunctionStates(ac);
ClassificationPage.UpdataInfo(ac);
ACPage.UpdataStates(ac);
}
}
break;
case Command.ReadPanleTempACK://1944
case Command.PanleBroadcastTemp:
foreach (var ac in DB_ResidenceData.functionList.aCs)
{
if (ac.GetBusId() == subnetID + "_" + deviceID + "_" + receiveBytes[0])
{
ac.indoorTemp = receiveBytes[1];
FunctionPage.UpdataStates(ac);
}
}
break;
}
}
catch (Exception ex)
{
MainPage.Log($"Bus Rev Erorr : {ex.Message}");
}
}
///
/// byte 变字符串
///
/// The to hex16.
/// The blue component.
public static string byteToHex16(byte b)
{
string s = Convert.ToString(b, 16).ToUpper();
if (s.Length <= 1)
{
return "0" + s;
}
return s;//
}
}
}