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Semi working profiles and longer macros

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This commit is contained in:
Julian Appel 2026-04-13 21:41:57 +02:00
parent 851e548166
commit e01666ab59
5 changed files with 260 additions and 134 deletions
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62
src/ActionDialog.cs
View File

@ -35,6 +35,10 @@ public class ActionDialog : Form
private readonly Panel _cmdPanel;
private readonly TextBox _cmdBox;
// Profil wechseln
private readonly Panel _profilePanel;
private readonly ComboBox _profileCombo;
// LED-Farbe
private readonly Panel _colorPanel;
private readonly Button _colorBtn;
@ -50,11 +54,11 @@ public class ActionDialog : Form
private readonly MacroTable _macros;
private readonly int _macroSlot;
// Je Step: [CaptureBtn, CheckCtrl, CheckShift, CheckAlt]
private readonly Button[] _stepBtns = new Button[4];
private readonly CheckBox[] _stepCtrl = new CheckBox[4];
private readonly CheckBox[] _stepShift = new CheckBox[4];
private readonly CheckBox[] _stepAlt = new CheckBox[4];
private readonly byte[] _stepKeycodes = new byte[4];
private readonly Button[] _stepBtns = new Button[8];
private readonly CheckBox[] _stepCtrl = new CheckBox[8];
private readonly CheckBox[] _stepShift = new CheckBox[8];
private readonly CheckBox[] _stepAlt = new CheckBox[8];
private readonly byte[] _stepKeycodes = new byte[8];
private int _captureStep = -1; // -1 = nicht im Capture-Modus
// Capture-Zustand
@ -220,7 +224,7 @@ public class ActionDialog : Form
_showColor = showColor;
// Bestehende Makro-Steps aus der Tabelle laden
for (int i = 0; i < 4; i++)
for (int i = 0; i < 8; i++)
_stepKeycodes[i] = _macros.Steps[_macroSlot, i].Keycode;
// Formular-Grundeinstellungen
@ -240,7 +244,7 @@ public class ActionDialog : Form
DropDownStyle = ComboBoxStyle.DropDownList,
};
_typeCombo.Items.AddRange(new object[]
{ "Keine Aktion", "HID Tastatur", "HID Consumer", "Host Command", "Makro" });
{ "Keine Aktion", "HID Tastatur", "HID Consumer", "Host Command", "Makro", "Profil wechseln" });
_typeCombo.SelectedIndex = (int)action.Type;
_typeCombo.SelectedIndexChanged += OnTypeChanged;
@ -320,6 +324,22 @@ public class ActionDialog : Form
};
_cmdPanel.Controls.AddRange(new Control[] { cmdLabel, _cmdBox });
// ── Profil-Panel ──────────────────────────────────────────────────────
_profilePanel = new Panel { Location = new Point(12, 48), Size = new Size(396, 30) };
var profileLabel = new Label { Text = "Ziel-Profil:", Location = new Point(0, 8), AutoSize = true };
_profileCombo = new ComboBox
{
Location = new Point(90, 4),
Width = 200,
DropDownStyle = ComboBoxStyle.DropDownList,
};
_profileCombo.Items.AddRange(new object[]
{ "Nächstes Profil (Zyklus)", "Profil 1", "Profil 2", "Profil 3" });
_profileCombo.SelectedIndex = action.Type == ActionType.ProfileSwitch
? (action.Data == 0xFFFF ? 0 : Math.Clamp((int)action.Data + 1, 1, 3))
: 0;
_profilePanel.Controls.AddRange(new Control[] { profileLabel, _profileCombo });
// ── Farb-Panel ────────────────────────────────────────────────────────
_colorPanel = new Panel
{
@ -378,8 +398,8 @@ public class ActionDialog : Form
_animPanel.Controls.AddRange(new Control[]
{ animLabel, _animCombo, periodLabel, _periodCombo });
// ── Makro-Panel (4 Steps) ─────────────────────────────────────────────
_macroPanel = new Panel { Location = new Point(12, 48), Size = new Size(396, 4 * 30 + 22) };
// ── Makro-Panel (8 Steps) ─────────────────────────────────────────────
_macroPanel = new Panel { Location = new Point(12, 48), Size = new Size(396, 8 * 30 + 22) };
var macroHint = new Label
{
@ -391,7 +411,7 @@ public class ActionDialog : Form
};
_macroPanel.Controls.Add(macroHint);
for (int step = 0; step < 4; step++)
for (int step = 0; step < 8; step++)
{
int s = step;
int y2 = 30 + step * 30;
@ -454,7 +474,7 @@ public class ActionDialog : Form
Controls.AddRange(new Control[]
{
typeLabel, _typeCombo,
_hidKeyPanel, _consumerPanel, _cmdPanel, _macroPanel,
_hidKeyPanel, _consumerPanel, _cmdPanel, _profilePanel, _macroPanel,
_colorPanel, _animPanel,
_okBtn, _cancelBtn,
});
@ -481,6 +501,7 @@ public class ActionDialog : Form
_hidKeyPanel.Visible = t == ActionType.HidKey;
_consumerPanel.Visible = t == ActionType.HidConsumer;
_cmdPanel.Visible = t == ActionType.HostCommand;
_profilePanel.Visible = t == ActionType.ProfileSwitch;
_macroPanel.Visible = t == ActionType.Macro;
_colorPanel.Visible = _showColor;
_animPanel.Visible = _showColor;
@ -496,11 +517,12 @@ public class ActionDialog : Form
int contentH = t switch
{
ActionType.HidKey => 110,
ActionType.HidConsumer => 30,
ActionType.HostCommand => 30,
ActionType.Macro => 4 * 30 + 22,
_ => 0,
ActionType.HidKey => 110,
ActionType.HidConsumer => 30,
ActionType.HostCommand => 30,
ActionType.ProfileSwitch => 30,
ActionType.Macro => 8 * 30 + 22,
_ => 0,
};
int ledY = 48 + contentH + 10;
@ -710,12 +732,18 @@ public class ActionDialog : Form
return;
}
break;
case ActionType.ProfileSwitch:
data = _profileCombo.SelectedIndex == 0
? (ushort)0xFFFF // Zyklus: Firmware rechnet (current+1)%3
: (ushort)(_profileCombo.SelectedIndex - 1); // Profil 0/1/2
break;
}
if (type == ActionType.Macro)
{
// Steps in die Makro-Tabelle schreiben
for (int i = 0; i < 4; i++)
for (int i = 0; i < 8; i++)
{
byte mod = 0;
if (_stepCtrl[i].Checked) mod |= 0x01;

41
src/ConfigForm.cs
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@ -26,6 +26,7 @@ public class ConfigForm : Form
private readonly Button[] _btnGrid = new Button[20];
private readonly Button[,] _encBtns = new Button[4, 3];
private Button _saveBtn = null!;
private ComboBox _profileCombo = null!;
public ConfigForm(DeviceConfig config, MacroTable macros, SerialManager serial)
{
@ -40,6 +41,7 @@ public class ConfigForm : Form
ClientSize = new Size(520, 480);
int y = 12;
y = BuildProfileBar(y);
y = BuildButtonGrid(y);
y = BuildEncoderPanel(y);
BuildFooter(y);
@ -50,6 +52,35 @@ public class ConfigForm : Form
_saveBtn.Enabled = _serial.IsConnected;
}
// ── Profil-Leiste ─────────────────────────────────────────────────────────
private int BuildProfileBar(int startY)
{
var label = new Label
{
Text = "Profil:",
Location = new Point(12, startY + 4),
AutoSize = true,
};
_profileCombo = new ComboBox
{
Location = new Point(60, startY),
Width = 160,
DropDownStyle = ComboBoxStyle.DropDownList,
};
_profileCombo.Items.AddRange(new object[] { "Profil 1", "Profil 2", "Profil 3" });
_profileCombo.SelectedIndex = _config.ActiveProfileIndex;
_profileCombo.SelectedIndexChanged += (_, _) =>
{
_config.ActiveProfileIndex = (byte)_profileCombo.SelectedIndex;
RefreshAll();
};
Controls.AddRange(new Control[] { label, _profileCombo });
return startY + 34;
}
// ── Tasten-Grid (4 Spalten × 5 Zeilen) ───────────────────────────────────
private int BuildButtonGrid(int startY)
@ -390,9 +421,11 @@ internal static class Extensions
public static string TypeDescription(this DeviceAction a) => a.Type switch
{
ActionType.HidKey => "HID Tastatur-Keycode",
ActionType.HidConsumer => "HID Consumer Control (Media/Volume)",
ActionType.HostCommand => "Host Command App führt aus",
_ => "Keine Aktion",
ActionType.HidKey => "HID Tastatur-Keycode",
ActionType.HidConsumer => "HID Consumer Control (Media/Volume)",
ActionType.HostCommand => "Host Command App führt aus",
ActionType.Macro => "Makro-Sequenz",
ActionType.ProfileSwitch => "Profil wechseln",
_ => "Keine Aktion",
};
}

45
src/ConfigJson.cs
View File

@ -1,12 +1,14 @@
// ConfigJson.cs
// JSON-Import/Export für DeviceConfig.
//
// Format (menschenlesbar, kommentiert mit Feldnamen):
// Format (menschenlesbar):
// {
// "version": 2,
// "version": 3,
// "profile": 0,
// "buttons": [
// { "index": 0, "action": { "type": "HidKey", "data": 260 },
// "led": { "r": 80, "g": 40, "b": 0, "anim": "ColorCycle", "period_ms": 4000 } },
// "led": { "r": 80, "g": 40, "b": 0, "brightness": 255,
// "anim": "ColorCycle", "period_ms": 4000 } },
// ...
// ],
// "encoders": [
@ -17,6 +19,8 @@
// ...
// ]
// }
//
// Import/Export bezieht sich immer auf das aktive Profil.
using System.Text.Json;
using System.Text.Json.Serialization;
@ -37,6 +41,7 @@ internal static class ConfigJson
var doc = new ConfigJsonDoc
{
Version = DeviceConfig.Version,
Profile = cfg.ActiveProfileIndex,
Buttons = new ButtonEntry[20],
Encoders = new EncoderEntry[4],
};
@ -49,11 +54,12 @@ internal static class ConfigJson
Action = ActionToJson(cfg.MxActions[i]),
Led = new LedEntry
{
R = cfg.LedBase[i].R,
G = cfg.LedBase[i].G,
B = cfg.LedBase[i].B,
Anim = cfg.LedAnim[i],
PeriodMs = cfg.LedPeriod[i],
R = cfg.LedBase[i].R,
G = cfg.LedBase[i].G,
B = cfg.LedBase[i].B,
Brightness = cfg.LedBrightness[i],
Anim = cfg.LedAnim[i],
PeriodMs = cfg.LedPeriod[i],
},
};
}
@ -89,9 +95,10 @@ internal static class ConfigJson
ActionFromJson(b.Action, cfg.MxActions[b.Index]);
if (b.Led != null)
{
cfg.LedBase[b.Index] = Color.FromArgb(b.Led.R, b.Led.G, b.Led.B);
cfg.LedAnim[b.Index] = b.Led.Anim;
cfg.LedPeriod[b.Index] = b.Led.PeriodMs;
cfg.LedBase[b.Index] = Color.FromArgb(b.Led.R, b.Led.G, b.Led.B);
cfg.LedBrightness[b.Index] = b.Led.Brightness;
cfg.LedAnim[b.Index] = b.Led.Anim;
cfg.LedPeriod[b.Index] = b.Led.PeriodMs;
}
}
}
@ -124,8 +131,9 @@ internal static class ConfigJson
private class ConfigJsonDoc
{
[JsonPropertyName("version")] public byte Version { get; set; }
[JsonPropertyName("buttons")] public ButtonEntry[]? Buttons { get; set; }
[JsonPropertyName("version")] public byte Version { get; set; }
[JsonPropertyName("profile")] public byte Profile { get; set; }
[JsonPropertyName("buttons")] public ButtonEntry[]? Buttons { get; set; }
[JsonPropertyName("encoders")] public EncoderEntry[]? Encoders { get; set; }
}
@ -152,10 +160,11 @@ internal static class ConfigJson
private class LedEntry
{
[JsonPropertyName("r")] public byte R { get; set; }
[JsonPropertyName("g")] public byte G { get; set; }
[JsonPropertyName("b")] public byte B { get; set; }
[JsonPropertyName("anim")] public LedAnimType Anim { get; set; }
[JsonPropertyName("period_ms")] public ushort PeriodMs { get; set; }
[JsonPropertyName("r")] public byte R { get; set; }
[JsonPropertyName("g")] public byte G { get; set; }
[JsonPropertyName("b")] public byte B { get; set; }
[JsonPropertyName("brightness")] public byte Brightness { get; set; } = 255;
[JsonPropertyName("anim")] public LedAnimType Anim { get; set; }
[JsonPropertyName("period_ms")] public ushort PeriodMs { get; set; }
}
}

242
src/DeviceConfig.cs
View File

@ -1,17 +1,32 @@
// DeviceConfig.cs
// C#-Spiegel der SDeviceConfig-Struktur aus der Firmware (nvm_config.h).
// C#-Spiegel der Firmware-Structs. Muss byte-kompatibel mit SDeviceConfig (nvm_config.h)
// und SMacroTable (macro_config.h) sein.
//
// Serialisiertes Layout (packed, 223 Bytes):
// Offset 0 4B Magic 0x56503202
// Offset 4 1B Version 2
// Offset 5 2B CRC16 (CCITT über Bytes 7222)
// Offset 7 60B mx_actions[20] je 3B: type(1) + data_lo(1) + data_hi(1)
// Offset 67 36B enc_actions[4][3] je 3B
// Offset103 20B led_r[20]
// Offset123 20B led_g[20]
// Offset143 20B led_b[20]
// Offset163 20B led_anim[20] je 1B (LedAnimType)
// Offset183 40B led_period_ms[20] je 2B (uint16, little-endian)
// Serialisiertes Config-Layout (740 B, packed):
// ── Globaler Header (32B) ──────────────────────────────────────────────────
// Offset 0 4B Magic 0x56503203
// Offset 4 1B Version = 3
// Offset 5 2B CRC16-CCITT über Bytes 7739
// Offset 7 1B ActiveProfile (02)
// Offset 8 1B GlobalBrightness (0255)
// Offset 9 4B EncSensitivity[4]
// Offset 13 19B Reserve
// ── Profil 0 (236B, ab Offset 32) ─────────────────────────────────────────
// ── Profil 1 (236B, ab Offset 268) ────────────────────────────────────────
// ── Profil 2 (236B, ab Offset 504) ────────────────────────────────────────
//
// Pro Profil (236B):
// Offset 0 60B MxActions[20] je 3B: type(1) + data_lo(1) + data_hi(1)
// Offset 60 36B EncActions[4][3] je 3B
// Offset 96 20B LedBase[i].R
// Offset116 20B LedBase[i].G
// Offset136 20B LedBase[i].B
// Offset156 20B LedBrightness[i] per-LED 0255
// Offset176 20B LedAnim[i]
// Offset196 40B LedPeriod[i] uint16 little-endian
//
// MacroTable-Layout (512 B):
// 32 Slots × 8 Steps × 2B = 512B
using System.Drawing;
@ -19,11 +34,12 @@ namespace VersaGUI;
public enum ActionType : byte
{
None = 0,
HidKey = 1, // data = Keycode (Low-Byte) + Modifier (High-Byte)
HidConsumer = 2, // data = HID Consumer Usage ID
HostCommand = 3, // data = Command-ID → App führt aus
Macro = 4, // data = Makro-Slot-Index (031)
None = 0,
HidKey = 1, // data = Keycode (Low-Byte) + Modifier (High-Byte)
HidConsumer = 2, // data = HID Consumer Usage ID
HostCommand = 3, // data = Command-ID → App führt aus
Macro = 4, // data = Makro-Slot-Index (031)
ProfileSwitch = 5, // data = Profil-Index (02)
}
// Ein Step in einem Makro (keycode=0 → leerer/letzter Step)
@ -36,11 +52,11 @@ public class MacroStep
public MacroStep Clone() => new() { Keycode = Keycode, Modifier = Modifier };
}
// Makro-Tabelle: 32 Slots × 4 Steps (spiegelt SMacroTable aus macro_config.h)
// Makro-Tabelle: 32 Slots × 8 Steps (spiegelt SMacroTable aus macro_config.h)
public class MacroTable
{
public const int Slots = 32;
public const int MaxSteps = 4;
public const int MaxSteps = 8;
// [slot][step]
public MacroStep[,] Steps { get; } = new MacroStep[Slots, MaxSteps];
@ -53,13 +69,13 @@ public class MacroTable
}
// Slot-Index für MX-Buttons und Encoder-Aktionen
public static int SlotForMx(int mxIdx) => mxIdx; // 019
public static int SlotForEncoder(int enc, int actIdx) => 20 + enc * 3 + actIdx; // 2031
public static int SlotForMx(int mxIdx) => mxIdx;
public static int SlotForEncoder(int enc, int actIdx) => 20 + enc * 3 + actIdx;
// Serialisierung: 32 × 4 × 2 = 256 Bytes
// Serialisierung: 32 × 8 × 2 = 512 Bytes
public byte[] ToBytes()
{
var buf = new byte[256];
var buf = new byte[512];
int pos = 0;
for (int s = 0; s < Slots; s++)
for (int i = 0; i < MaxSteps; i++)
@ -72,7 +88,7 @@ public class MacroTable
public void FromBytes(byte[] buf)
{
if (buf.Length < 256) return;
if (buf.Length < 512) return;
int pos = 0;
for (int s = 0; s < Slots; s++)
for (int i = 0; i < MaxSteps; i++)
@ -83,13 +99,13 @@ public class MacroTable
}
}
// Spiegelt LEDAnim aus CButton.h nur die in der GUI konfigurierbaren Werte
// Spiegelt LEDAnim aus CButton.h
public enum LedAnimType : byte
{
Static = 0,
Blink = 1,
Pulse = 2,
ColorCycle = 5, // Regenbogen (entspricht LEDAnim::COLOR_CYCLE in Firmware)
ColorCycle = 5,
}
public class DeviceAction
@ -130,6 +146,8 @@ public class DeviceAction
}
if (Type == ActionType.Macro)
return $"Makro {Data}";
if (Type == ActionType.ProfileSwitch)
return Data == 0xFFFF ? "→ Nächstes Profil" : $"→ Profil {Data + 1}";
return $"CMD {Data}";
}
}
@ -152,31 +170,19 @@ public class DeviceAction
public DeviceAction Clone() => new() { Type = Type, Data = Data };
}
public class DeviceConfig
// ── Pro-Profil-Daten (spiegelt SDeviceProfile) ────────────────────────────────
public class DeviceProfile
{
public const uint Magic = 0x56503202;
public const byte Version = 2;
public const int EncSw = 0;
public const int EncCw = 1;
public const int EncCcw = 2;
public DeviceAction[] MxActions { get; } =
Enumerable.Range(0, 20).Select(_ => new DeviceAction()).ToArray();
public DeviceAction[,] EncActions { get; } = InitEncActions();
// Base-LED-Farben (Default: warm-weiß wie Firmware)
public Color[] LedBase { get; } =
Enumerable.Repeat(Color.FromArgb(80, 40, 0), 20).ToArray();
// LED-Animationen (Default: Regenbogen)
public LedAnimType[] LedAnim { get; } =
Enumerable.Repeat(LedAnimType.ColorCycle, 20).ToArray();
// Animationsperiode in ms (Default: 4000ms)
public ushort[] LedPeriod { get; } =
Enumerable.Repeat((ushort)4000, 20).ToArray();
public Color[] LedBase { get; } = Enumerable.Repeat(Color.FromArgb(80, 40, 0), 20).ToArray();
public byte[] LedBrightness { get; } = Enumerable.Repeat((byte)255, 20).ToArray();
public LedAnimType[] LedAnim { get; } = Enumerable.Repeat(LedAnimType.ColorCycle, 20).ToArray();
public ushort[] LedPeriod { get; } = Enumerable.Repeat((ushort)4000, 20).ToArray();
private static DeviceAction[,] InitEncActions()
{
@ -187,79 +193,43 @@ public class DeviceConfig
return a;
}
// ── Serialisierung ────────────────────────────────────────────────────────
public byte[] ToBytes()
// Serialisiert ein Profil in 236 Bytes
public void ToBytes(byte[] buf, int offset)
{
const int size = 223;
var buf = new byte[size];
int pos = 0;
WriteU32(buf, ref pos, Magic);
buf[pos++] = Version;
int crcOffset = pos;
pos += 2;
foreach (var a in MxActions)
WriteAction(buf, ref pos, a);
int pos = offset;
foreach (var a in MxActions) WriteAction(buf, ref pos, a);
for (int e = 0; e < 4; e++)
for (int i = 0; i < 3; i++)
WriteAction(buf, ref pos, EncActions[e, i]);
for (int i = 0; i < 3; i++) WriteAction(buf, ref pos, EncActions[e, i]);
for (int i = 0; i < 20; i++) buf[pos++] = LedBase[i].R;
for (int i = 0; i < 20; i++) buf[pos++] = LedBase[i].G;
for (int i = 0; i < 20; i++) buf[pos++] = LedBase[i].B;
for (int i = 0; i < 20; i++) buf[pos++] = LedBrightness[i];
for (int i = 0; i < 20; i++) buf[pos++] = (byte)LedAnim[i];
for (int i = 0; i < 20; i++)
{
buf[pos++] = (byte)(LedPeriod[i] & 0xFF);
buf[pos++] = (byte)(LedPeriod[i] >> 8);
}
ushort crc = Crc16(buf, 7, size - 7);
buf[crcOffset] = (byte)(crc & 0xFF);
buf[crcOffset + 1] = (byte)(crc >> 8);
return buf;
}
public bool FromBytes(byte[] buf)
// Deserialisiert ein Profil aus 236 Bytes
public void FromBytes(byte[] buf, int offset)
{
if (buf.Length < 223) return false;
uint magic = ReadU32(buf, 0);
if (magic != Magic) return false;
if (buf[4] != Version) return false;
ushort storedCrc = (ushort)(buf[5] | (buf[6] << 8));
ushort computedCrc = Crc16(buf, 7, 223 - 7);
if (storedCrc != computedCrc) return false;
int pos = 7;
for (int i = 0; i < 20; i++) ReadAction(buf, ref pos, MxActions[i]);
int pos = offset;
for (int i = 0; i < 20; i++) ReadAction(buf, ref pos, MxActions[i]);
for (int e = 0; e < 4; e++)
for (int i = 0; i < 3; i++)
ReadAction(buf, ref pos, EncActions[e, i]);
for (int i = 0; i < 3; i++) ReadAction(buf, ref pos, EncActions[e, i]);
for (int i = 0; i < 20; i++) LedBase[i] = Color.FromArgb(buf[pos + i], buf[pos + 20 + i], buf[pos + 40 + i]);
pos += 60;
for (int i = 0; i < 20; i++) LedBrightness[i] = buf[pos++];
for (int i = 0; i < 20; i++) LedAnim[i] = (LedAnimType)buf[pos++];
for (int i = 0; i < 20; i++)
{
LedPeriod[i] = (ushort)(buf[pos] | (buf[pos + 1] << 8));
pos += 2;
}
return true;
}
// ── Hilfsmethoden ─────────────────────────────────────────────────────────
private static void WriteAction(byte[] buf, ref int pos, DeviceAction a)
{
buf[pos++] = (byte)a.Type;
@ -273,6 +243,92 @@ public class DeviceConfig
a.Data = (ushort)(buf[pos] | (buf[pos + 1] << 8));
pos += 2;
}
}
// ── Gesamt-Config (spiegelt SDeviceConfig) ────────────────────────────────────
public class DeviceConfig
{
public const uint Magic = 0x56503203;
public const byte Version = 3;
public const int EncSw = 0;
public const int EncCw = 1;
public const int EncCcw = 2;
// Globale Felder
public byte ActiveProfileIndex { get; set; } = 0;
public byte GlobalBrightness { get; set; } = 255;
public byte[] EncSensitivity { get; } = new byte[] { 1, 1, 1, 1 };
// 3 Profile
public DeviceProfile[] Profiles { get; } =
Enumerable.Range(0, 3).Select(_ => new DeviceProfile()).ToArray();
// ── Shortcuts auf aktives Profil (ConfigForm braucht keine Änderung) ──────
public DeviceAction[] MxActions => Profiles[ActiveProfileIndex].MxActions;
public DeviceAction[,] EncActions => Profiles[ActiveProfileIndex].EncActions;
public Color[] LedBase => Profiles[ActiveProfileIndex].LedBase;
public byte[] LedBrightness => Profiles[ActiveProfileIndex].LedBrightness;
public LedAnimType[] LedAnim => Profiles[ActiveProfileIndex].LedAnim;
public ushort[] LedPeriod => Profiles[ActiveProfileIndex].LedPeriod;
// ── Serialisierung ────────────────────────────────────────────────────────
public byte[] ToBytes()
{
const int size = 740;
var buf = new byte[size];
int pos = 0;
WriteU32(buf, ref pos, Magic);
buf[pos++] = Version;
int crcOffset = pos;
pos += 2; // CRC-Platzhalter
buf[pos++] = ActiveProfileIndex;
buf[pos++] = GlobalBrightness;
for (int i = 0; i < 4; i++) buf[pos++] = EncSensitivity[i];
pos += 19; // Reserve (bleibt 0)
// 3 Profile à 236B
for (int p = 0; p < 3; p++)
Profiles[p].ToBytes(buf, pos + p * 236);
pos += 3 * 236;
ushort crc = Crc16(buf, 7, size - 7);
buf[crcOffset] = (byte)(crc & 0xFF);
buf[crcOffset + 1] = (byte)(crc >> 8);
return buf;
}
public bool FromBytes(byte[] buf)
{
if (buf.Length < 740) return false;
uint magic = ReadU32(buf, 0);
if (magic != Magic) return false;
if (buf[4] != Version) return false;
ushort storedCrc = (ushort)(buf[5] | (buf[6] << 8));
ushort computedCrc = Crc16(buf, 7, 740 - 7);
if (storedCrc != computedCrc) return false;
int pos = 7;
ActiveProfileIndex = Math.Min(buf[pos++], (byte)2);
GlobalBrightness = buf[pos++];
for (int i = 0; i < 4; i++) EncSensitivity[i] = buf[pos++];
pos += 19; // Reserve überspringen
for (int p = 0; p < 3; p++)
Profiles[p].FromBytes(buf, pos + p * 236);
return true;
}
// ── Hilfsmethoden ─────────────────────────────────────────────────────────
private static void WriteU32(byte[] buf, ref int pos, uint v)
{

4
src/TrayApp.cs
View File

@ -139,7 +139,7 @@ public class TrayApp : ApplicationContext
// ── Config-Dump vom Board ─────────────────────────────────────────
case Protocol.EvtConfigBegin:
_rxConfigBuf = new byte[223]; // sizeof(SDeviceConfig) = 223 (Version 2)
_rxConfigBuf = new byte[740]; // sizeof(SDeviceConfig) = 740 (Version 3)
break;
case Protocol.EvtConfigData:
@ -168,7 +168,7 @@ public class TrayApp : ApplicationContext
break;
case Protocol.EvtMacroBegin:
_rxMacroBuf = new byte[256];
_rxMacroBuf = new byte[512]; // sizeof(SMacroTable) = 512 (8 Steps)
break;
case Protocol.EvtMacroData: