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73aad61a78
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73aad61a78 | ||
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71a97fd10d |
238
Custom_TLZA_ADU.cs
Normal file
238
Custom_TLZA_ADU.cs
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@@ -0,0 +1,238 @@
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using System;
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using System.Collections.Generic;
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using Antmicro.Renode.Core;
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using Antmicro.Renode.Peripherals.Bus;
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using Antmicro.Renode.Logging;
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namespace Antmicro.Renode.Peripherals.ADUADC0
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{
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public class ADU0 : IDoubleWordPeripheral, IKnownSize
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{
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// 通道组内部偏移(来自表格,未左移)
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private const uint GROUP1_START = 0x122; // 通道 1-14
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private const uint GROUP2_START = 0x142; // 通道 15-28
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private const uint GROUP3_START = 0x162; // 通道 29-42
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private const uint GROUP4_START = 0x182; // 通道 43-56
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private const uint GROUP5_START = 0x1A2; // 通道 57-64
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// 寄存器存储
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private readonly Dictionary<long, ushort> registerMap;
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private readonly object lockObject = new object();
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private readonly uint baseAddress;
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public ADU0(IMachine machine)
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{
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// ADC0基地址
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baseAddress = 0x21800000;
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registerMap = new Dictionary<long, ushort>();
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InitializeRegisters();
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LogInitializationInfo();
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}
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private void InitializeRegisters()
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{
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lock (lockObject)
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{
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// ========== 第一组: 通道 1-14 (ADC0通道1-14) ==========
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// 通道 1-2
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registerMap[GROUP1_START << 2] = 1;
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registerMap[(GROUP1_START << 2) + 4] = 2;
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// 通道 3-4
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registerMap[(GROUP1_START + 4) << 2] = 3;
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registerMap[((GROUP1_START + 4) << 2) + 4] = 4;
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// 通道 5-6
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registerMap[(GROUP1_START + 8) << 2] = 5;
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registerMap[((GROUP1_START + 8) << 2) + 4] = 6;
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// 通道 7-8
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registerMap[(GROUP1_START + 12) << 2] = 7;
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registerMap[((GROUP1_START + 12) << 2) + 4] = 8;
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// 通道 9-10
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registerMap[(GROUP1_START + 16) << 2] = 9;
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registerMap[((GROUP1_START + 16) << 2) + 4] = 10;
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// 通道 11-12
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registerMap[(GROUP1_START + 20) << 2] = 11;
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registerMap[((GROUP1_START + 20) << 2) + 4] = 12;
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// 通道 13-14
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registerMap[(GROUP1_START + 24) << 2] = 13;
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registerMap[((GROUP1_START + 24) << 2) + 4] = 14;
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// ========== 第二组: 通道 15-28 (ADC0通道15-28) ==========
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// 通道 15-16
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registerMap[GROUP2_START << 2] = 15;
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registerMap[(GROUP2_START << 2) + 4] = 16;
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// 通道 17-18
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registerMap[(GROUP2_START + 4) << 2] = 17;
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registerMap[((GROUP2_START + 4) << 2) + 4] = 18;
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// 通道 19-20
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registerMap[(GROUP2_START + 8) << 2] = 19;
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registerMap[((GROUP2_START + 8) << 2) + 4] = 20;
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// 通道 21-22
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registerMap[(GROUP2_START + 12) << 2] = 21;
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registerMap[((GROUP2_START + 12) << 2) + 4] = 22;
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// 通道 23-24
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registerMap[(GROUP2_START + 16) << 2] = 23;
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registerMap[((GROUP2_START + 16) << 2) + 4] = 24;
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// 通道 25-26
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registerMap[(GROUP2_START + 20) << 2] = 25;
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registerMap[((GROUP2_START + 20) << 2) + 4] = 26;
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// 通道 27-28
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registerMap[(GROUP2_START + 24) << 2] = 27;
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registerMap[((GROUP2_START + 24) << 2) + 4] = 28;
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// ========== 第三组: 通道 29-42 (ADC0通道29-42) ==========
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// 通道 29-30
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registerMap[GROUP3_START << 2] = 29;
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registerMap[(GROUP3_START << 2) + 4] = 30;
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// 通道 31-32
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registerMap[(GROUP3_START + 4) << 2] = 31;
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registerMap[((GROUP3_START + 4) << 2) + 4] = 32;
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// 通道 33-34
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registerMap[(GROUP3_START + 8) << 2] = 33;
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registerMap[((GROUP3_START + 8) << 2) + 4] = 34;
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// 通道 35-36
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registerMap[(GROUP3_START + 12) << 2] = 35;
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registerMap[((GROUP3_START + 12) << 2) + 4] = 36;
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// 通道 37-38
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registerMap[(GROUP3_START + 16) << 2] = 37;
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registerMap[((GROUP3_START + 16) << 2) + 4] = 38;
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// 通道 39-40
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registerMap[(GROUP3_START + 20) << 2] = 39;
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registerMap[((GROUP3_START + 20) << 2) + 4] = 40;
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// 通道 41-42
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registerMap[(GROUP3_START + 24) << 2] = 41;
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registerMap[((GROUP3_START + 24) << 2) + 4] = 42;
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// ========== 第四组: 通道 43-56 (ADC0通道43-56) ==========
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// 通道 43-44
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registerMap[GROUP4_START << 2] = 43;
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registerMap[(GROUP4_START << 2) + 4] = 44;
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// 通道 45-46
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registerMap[(GROUP4_START + 4) << 2] = 45;
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registerMap[((GROUP4_START + 4) << 2) + 4] = 46;
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// 通道 47-48
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registerMap[(GROUP4_START + 8) << 2] = 47;
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registerMap[((GROUP4_START + 8) << 2) + 4] = 48;
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// 通道 49-50
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registerMap[(GROUP4_START + 12) << 2] = 49;
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registerMap[((GROUP4_START + 12) << 2) + 4] = 50;
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// 通道 51-52
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registerMap[(GROUP4_START + 16) << 2] = 51;
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registerMap[((GROUP4_START + 16) << 2) + 4] = 52;
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// 通道 53-54
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registerMap[(GROUP4_START + 20) << 2] = 53;
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registerMap[((GROUP4_START + 20) << 2) + 4] = 54;
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// 通道 55-56
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registerMap[(GROUP4_START + 24) << 2] = 55;
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registerMap[((GROUP4_START + 24) << 2) + 4] = 56;
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// ========== 第五组: 通道 57-64 (ADC0通道57-64) ==========
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// 通道 57-58
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registerMap[GROUP5_START << 2] = 57;
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registerMap[(GROUP5_START << 2) + 4] = 58;
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// 通道 59-60
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registerMap[(GROUP5_START + 4) << 2] = 59;
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registerMap[((GROUP5_START + 4) << 2) + 4] = 60;
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// 通道 61-62
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registerMap[(GROUP5_START + 8) << 2] = 61;
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registerMap[((GROUP5_START + 8) << 2) + 4] = 62;
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// 通道 63-64
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registerMap[(GROUP5_START + 12) << 2] = 63;
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registerMap[((GROUP5_START + 12) << 2) + 4] = 64;
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}
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}
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private void LogInitializationInfo()
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{
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this.Log(LogLevel.Info, "==========================================");
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this.Log(LogLevel.Info, "ADU0初始化完成");
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this.Log(LogLevel.Info, "ADC0基地址: 0x{0:X8}", baseAddress);
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this.Log(LogLevel.Info, "64个通道寄存器,低16位有效,初始值=通道号");
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this.Log(LogLevel.Info, "通道1-64 (ADC0内部通道1-64)");
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this.Log(LogLevel.Info, "");
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this.Log(LogLevel.Info, "重要地址映射:");
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this.Log(LogLevel.Info, " 通道1 地址: 0x{0:X8}", baseAddress + (GROUP1_START << 2));
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this.Log(LogLevel.Info, " 通道2 地址: 0x{0:X8}", baseAddress + (GROUP1_START << 2) + 4);
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this.Log(LogLevel.Info, " 通道64 地址: 0x{0:X8}", baseAddress + ((GROUP5_START + 12) << 2) + 4);
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this.Log(LogLevel.Info, "==========================================");
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}
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public uint ReadDoubleWord(long offset)
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{
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lock (lockObject)
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{
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uint fullAddress = baseAddress + (uint)offset;
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if (registerMap.TryGetValue(offset, out ushort value))
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{
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this.Log(LogLevel.Debug, "ADC0读取: 地址0x{0:X8} (偏移0x{1:X8}), 值0x{2:X4} (通道{3})",
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fullAddress, offset, value, value);
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return value;
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}
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this.Log(LogLevel.Warning, "ADC0读取未定义地址: 0x{0:X8} (偏移0x{1:X8})", fullAddress, offset);
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return 0;
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}
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}
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public void WriteDoubleWord(long offset, uint value)
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{
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lock (lockObject)
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{
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uint fullAddress = baseAddress + (uint)offset;
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if (registerMap.ContainsKey(offset))
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{
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ushort writeValue = (ushort)(value & 0xFFFF);
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registerMap[offset] = writeValue;
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this.Log(LogLevel.Info, "ADC0写入: 地址0x{0:X8} (偏移0x{1:X8}), 值0x{2:X4} (通道{3})",
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fullAddress, offset, writeValue, writeValue);
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}
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else
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{
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this.Log(LogLevel.Warning, "ADC0尝试写入未定义地址: 0x{0:X8} (偏移0x{1:X8}), 值0x{2:X8}",
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fullAddress, offset, value);
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}
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}
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}
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public void Reset()
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{
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lock (lockObject)
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{
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registerMap.Clear();
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InitializeRegisters();
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}
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this.Log(LogLevel.Info, "ADC0 (基地址0x{0:X8}) 已复位", baseAddress);
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}
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public long Size => 0x0700;
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}
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}
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169
Custom_TLZA_OC_HDC1.cs
Normal file
169
Custom_TLZA_OC_HDC1.cs
Normal file
@@ -0,0 +1,169 @@
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using System;
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using System.Collections.Generic;
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using Antmicro.Renode.Core;
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using Antmicro.Renode.Peripherals.Bus;
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using Antmicro.Renode.Logging;
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namespace Antmicro.Renode.Peripherals.ThermalOC
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{
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public class ThermalOC1 : IDoubleWordPeripheral, IKnownSize
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{
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private readonly Dictionary<long, byte> registerMap;
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private readonly object lockObject = new object();
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private readonly uint baseAddress;
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private const uint REG_HEAT_1_8 = 0x20; // 1-8路加热输出
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private const uint REG_HEAT_9_16 = 0x24; // 9-16路加热输出
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private const uint REG_HEAT_17_24 = 0x28; // 17-24路加热输出
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private const uint REG_HEAT_25_32 = 0x2C; // 25-32路加热输出
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private const uint REG_HEAT_33_40 = 0x30; // 33-40路加热输出
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private const uint REG_HEAT_41_48 = 0x34; // 41-48路加热输出
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private const uint REG_HEAT_49_56 = 0x38; // 49-56路加热输出
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private const uint REG_HEAT_57_64 = 0x3C; // 57-64路加热输出
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private readonly (uint offset, int start, int end)[] registers = new[]
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{
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(REG_HEAT_1_8, 1, 8),
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(REG_HEAT_9_16, 9, 16),
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(REG_HEAT_17_24, 17, 24),
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(REG_HEAT_25_32, 25, 32),
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(REG_HEAT_33_40, 33, 40),
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(REG_HEAT_41_48, 41, 48),
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(REG_HEAT_49_56, 49, 56),
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(REG_HEAT_57_64, 57, 64)
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};
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public ThermalOC1(IMachine machine)
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{
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baseAddress = 0x22000000;
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registerMap = new Dictionary<long, byte>();
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InitializeRegisters();
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LogInitializationInfo();
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}
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private void InitializeRegisters()
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{
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lock (lockObject)
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{
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foreach (var reg in registers)
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{
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registerMap[reg.offset] = 0x00;
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}
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}
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}
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private void LogInitializationInfo()
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{
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this.Log(LogLevel.Info, "==========================================");
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this.Log(LogLevel.Info, "热控OC1初始化完成");
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this.Log(LogLevel.Info, "基地址: 0x{0:X8}", baseAddress);
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this.Log(LogLevel.Info, "每个寄存器控制8路加热输出");
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this.Log(LogLevel.Info, "共64路加热输出通道 (通道1-64)");
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this.Log(LogLevel.Info, "寄存器定义: 低8位有效,1表示输出,0表示关闭");
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this.Log(LogLevel.Info, "位对应关系: D0=通道起始, D7=通道起始+7");
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this.Log(LogLevel.Info, "所有通道初始状态: 关闭");
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this.Log(LogLevel.Info, "");
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this.Log(LogLevel.Info, "寄存器地址映射:");
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foreach (var reg in registers)
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{
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uint fullAddress = baseAddress + reg.offset;
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this.Log(LogLevel.Info, " 地址0x{0:X8} (偏移0x{1:X2}), 控制通道{2}-{3}",
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fullAddress, reg.offset, reg.start, reg.end);
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}
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this.Log(LogLevel.Info, "==========================================");
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}
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private string GetBinaryString(byte value)
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{
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return Convert.ToString(value, 2).PadLeft(8, '0');
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}
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private string GetChannelStatus(byte value, int start)
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{
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List<string> active = new List<string>();
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for (int i = 0; i < 8; i++)
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{
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if ((value & (1 << i)) != 0)
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{
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active.Add($"通道{start + i}");
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}
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}
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return active.Count > 0 ? string.Join(", ", active) : "无";
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}
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public uint ReadDoubleWord(long offset)
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{
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lock (lockObject)
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{
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uint fullAddress = baseAddress + (uint)offset;
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foreach (var reg in registers)
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{
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if (offset == reg.offset)
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{
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if (registerMap.TryGetValue(offset, out byte value))
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{
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string binary = GetBinaryString(value);
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string channels = GetChannelStatus(value, reg.start);
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this.Log(LogLevel.Info, "热控OC1读取: 地址0x{0:X8} (偏移0x{1:X2})", fullAddress, offset);
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this.Log(LogLevel.Info, " 十六进制: 0x{0:X2}", value);
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this.Log(LogLevel.Info, " 二进制: {0} (D7-D0)", binary);
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this.Log(LogLevel.Info, " 开启通道: {0}", channels);
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return value;
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}
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break;
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}
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}
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this.Log(LogLevel.Warning, "热控OC1读取未定义地址: 0x{0:X8}", fullAddress);
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return 0;
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}
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}
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public void WriteDoubleWord(long offset, uint value)
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{
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lock (lockObject)
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{
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uint fullAddress = baseAddress + (uint)offset;
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byte writeValue = (byte)(value & 0xFF);
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foreach (var reg in registers)
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{
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if (offset == reg.offset)
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{
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byte oldValue = registerMap.ContainsKey(offset) ? registerMap[offset] : (byte)0;
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registerMap[offset] = writeValue;
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string oldBinary = GetBinaryString(oldValue);
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string newBinary = GetBinaryString(writeValue);
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string newChannels = GetChannelStatus(writeValue, reg.start);
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this.Log(LogLevel.Info, "热控OC1写入: 地址0x{0:X8} (偏移0x{1:X2})", fullAddress, offset);
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this.Log(LogLevel.Info, " 写入值: 0x{0:X2} (二进制: {1})", writeValue, newBinary);
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this.Log(LogLevel.Info, " 原值: 0x{0:X2} (二进制: {1})", oldValue, oldBinary);
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this.Log(LogLevel.Info, " 开启通道: {0}", newChannels);
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return;
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}
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}
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this.Log(LogLevel.Warning, "热控OC1尝试写入未定义地址: 0x{0:X8}, 值0x{1:X2}", fullAddress, writeValue);
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}
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}
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public void Reset()
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{
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lock (lockObject)
|
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{
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registerMap.Clear();
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InitializeRegisters();
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}
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this.Log(LogLevel.Info, "热控OC1 (基地址0x{0:X8}) 已复位", baseAddress);
|
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}
|
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|
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public long Size => 0x40;
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}
|
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}
|
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Reference in New Issue
Block a user