客服电话
APP下载
迪恩网络APP
随时随地掌握行业动态
官方微信
扫描二维码
关注迪恩网络微信公众号
procedure ExpandAESKeyForDecryption(var ExpandedKey: TAESExpandedKey256); overload;
procedure ExpandAESKeyForDecryption(const Key: TAESKey256;
var ExpandedKey: TAESExpandedKey256); overload;
procedure DecryptAES(const InBuf: TAESBuffer; const Key: TAESExpandedKey128;
var OutBuf: TAESBuffer); overload;
procedure DecryptAES(const InBuf: TAESBuffer; const Key: TAESExpandedKey192;
var OutBuf: TAESBuffer); overload;
procedure DecryptAES(const InBuf: TAESBuffer; const Key: TAESExpandedKey256;
var OutBuf: TAESBuffer); overload;
procedure DecryptAESStreamECB(Source: TStream; Count: cardinal;
const Key: TAESKey128; Dest: TStream); overload;
procedure DecryptAESStreamECB(Source: TStream; Count: cardinal;
const ExpandedKey: TAESExpandedKey128; Dest: TStream); overload;
procedure DecryptAESStreamECB(Source: TStream; Count: cardinal;
const Key: TAESKey192; Dest: TStream); overload;
procedure DecryptAESStreamECB(Source: TStream; Count: cardinal;
const ExpandedKey: TAESExpandedKey192; Dest: TStream); overload;
procedure DecryptAESStreamECB(Source: TStream; Count: cardinal;
const Key: TAESKey256; Dest: TStream); overload;
procedure DecryptAESStreamECB(Source: TStream; Count: cardinal;
const ExpandedKey: TAESExpandedKey256; Dest: TStream); overload;
procedure DecryptAESStreamCBC(Source: TStream; Count: cardinal;
const Key: TAESKey128; const InitVector: TAESBuffer; Dest: TStream); overload;
procedure DecryptAESStreamCBC(Source: TStream; Count: cardinal;
const ExpandedKey: TAESExpandedKey128; const InitVector: TAESBuffer;
Dest: TStream); overload;
procedure DecryptAESStreamCBC(Source: TStream; Count: cardinal;
const Key: TAESKey192; const InitVector: TAESBuffer; Dest: TStream); overload;
procedure DecryptAESStreamCBC(Source: TStream; Count: cardinal;
const ExpandedKey: TAESExpandedKey192; const InitVector: TAESBuffer;
Dest: TStream); overload;
procedure DecryptAESStreamCBC(Source: TStream; Count: cardinal;
const Key: TAESKey256; const InitVector: TAESBuffer; Dest: TStream); overload;
procedure DecryptAESStreamCBC(Source: TStream; Count: cardinal;
const ExpandedKey: TAESExpandedKey256; const InitVector: TAESBuffer;
Dest: TStream); overload;
resourcestring
SInvalidInBufSize = 'Invalid buffer size for decryption';
SReadError = 'Stream read error';
SWriteError = 'Stream write error'; //第一部分结束
var
Form1: TForm1;
implementation
{$R *.dfm}
type //第二部分开始
PLongWord = ^LongWord;
function Min(A, B: integer): integer;
begin
if A < B then
Result := A
else
Result := B;
end;
const
Rcon: array [1..30] of longword = (
$00000001, $00000002, $00000004, $00000008, $00000010, $00000020,
$00000040, $00000080, $0000001B, $00000036, $0000006C, $000000D8,
$000000AB, $0000004D, $0000009A, $0000002F, $0000005E, $000000BC,
$00000063, $000000C6, $00000097, $00000035, $0000006A, $000000D4,
$000000B3, $0000007D, $000000FA, $000000EF, $000000C5, $00000091
);
ForwardTable: array [0..255] of longword = (
$A56363C6, $847C7CF8, $997777EE, $8D7B7BF6, $0DF2F2FF, $BD6B6BD6, $B16F6FDE, $54C5C591,
$50303060, $03010102, $A96767CE, $7D2B2B56, $19FEFEE7, $62D7D7B5, $E6ABAB4D, $9A7676EC,
$45CACA8F, $9D82821F, $40C9C989, $877D7DFA, $15FAFAEF, $EB5959B2, $C947478E, $0BF0F0FB,
$ECADAD41, $67D4D4B3, $FDA2A25F, $EAAFAF45, $BF9C9C23, $F7A4A453, $967272E4, $5BC0C09B,
$C2B7B775, $1CFDFDE1, $AE93933D, $6A26264C, $5A36366C, $413F3F7E, $02F7F7F5, $4FCCCC83,
$5C343468, $F4A5A551, $34E5E5D1, $08F1F1F9, $937171E2, $73D8D8AB, $53313162, $3F15152A,
$0C040408, $52C7C795, $65232346, $5EC3C39D, $28181830, $A1969637, $0F05050A, $B59A9A2F,
$0907070E, $36121224, $9B80801B, $3DE2E2DF, $26EBEBCD, $6927274E, $CDB2B27F, $9F7575EA,
$1B090912, $9E83831D, $742C2C58, $2E1A1A34, $2D1B1B36, $B26E6EDC, $EE5A5AB4, $FBA0A05B,
$F65252A4, $4D3B3B76, $61D6D6B7, $CEB3B37D, $7B292952, $3EE3E3DD, $712F2F5E, $97848413,
$F55353A6, $68D1D1B9, $00000000, $2CEDEDC1, $60202040, $1FFCFCE3, $C8B1B179, $ED5B5BB6,
$BE6A6AD4, $46CBCB8D, $D9BEBE67, $4B393972, $DE4A4A94, $D44C4C98, $E85858B0, $4ACFCF85,
$6BD0D0BB, $2AEFEFC5, $E5AAAA4F, $16FBFBED, $C5434386, $D74D4D9A, $55333366, $94858511,
$CF45458A, $10F9F9E9, $06020204, $817F7FFE, $F05050A0, $443C3C78, $BA9F9F25, $E3A8A84B,
$F35151A2, $FEA3A35D, $C0404080, $8A8F8F05, $AD92923F, $BC9D9D21, $48383870, $04F5F5F1,
$DFBCBC63, $C1B6B677, $75DADAAF, $63212142, $30101020, $1AFFFFE5, $0EF3F3FD, $6DD2D2BF,
$4CCDCD81, $140C0C18, $35131326, $2FECECC3, $E15F5FBE, $A2979735, $CC444488, $3917172E,
$57C4C493, $F2A7A755, $827E7EFC, $473D3D7A, $AC6464C8, $E75D5DBA, $2B191932, $957373E6,
$A06060C0, $98818119, $D14F4F9E, $7FDCDCA3, $66222244, $7E2A2A54, $AB90903B, $8388880B,
$CA46468C, $29EEEEC7, $D3B8B86B, $3C141428, $79DEDEA7, $E25E5EBC, $1D0B0B16, $76DBDBAD,
$3BE0E0DB, $56323264, $4E3A3A74, $1E0A0A14, $DB494992, $0A06060C, $6C242448, $E45C5CB8,
$5DC2C29F, $6ED3D3BD, $EFACAC43, $A66262C4, $A8919139, $A4959531, $37E4E4D3, $8B7979F2,
$32E7E7D5, $43C8C88B, $5937376E, $B76D6DDA, $8C8D8D01, $64D5D5B1, $D24E4E9C, $E0A9A949,
$B46C6CD8, $FA5656AC, $07F4F4F3, $25EAEACF, $AF6565CA, $8E7A7AF4, $E9AEAE47, $18080810,
$D5BABA6F, $887878F0, $6F25254A, $722E2E5C, $241C1C38, $F1A6A657, $C7B4B473, $51C6C697,
$23E8E8CB, $7CDDDDA1, $9C7474E8, $211F1F3E, $DD4B4B96, $DCBDBD61, $868B8B0D, $858A8A0F,
$907070E0, $423E3E7C, $C4B5B571, $AA6666CC, $D8484890, $05030306, $01F6F6F7, $120E0E1C,
$A36161C2, $5F35356A, $F95757AE, $D0B9B969, $91868617, $58C1C199, $271D1D3A, $B99E9E27,
$38E1E1D9, $13F8F8EB, $B398982B, $33111122, $BB6969D2, $70D9D9A9, $898E8E07, $A7949433,
$B69B9B2D, $221E1E3C, $92878715, $20E9E9C9, $49CECE87, $FF5555AA, $78282850, $7ADFDFA5,
$8F8C8C03, $F8A1A159, $80898909, $170D0D1A, $DABFBF65, $31E6E6D7, $C6424284, $B86868D0,
$C3414182, $B0999929, $772D2D5A, $110F0F1E, $CBB0B07B, $FC5454A8, $D6BBBB6D, $3A16162C
);
LastForwardTable: array [0..255] of longword = (
$00000063, $0000007C, $00000077, $0000007B, $000000F2, $0000006B, $0000006F, $000000C5,
$00000030, $00000001, $00000067, $0000002B, $000000FE, $000000D7, $000000AB, $00000076,
$000000CA, $00000082, $000000C9, $0000007D, $000000FA, $00000059, $00000047, $000000F0,
$000000AD, $000000D4, $000000A2, $000000AF, $0000009C, $000000A4, $00000072, $000000C0,
$000000B7, $000000FD, $00000093, $00000026, $00000036, $0000003F, $000000F7, $000000CC,
$00000034, $000000A5, $000000E5, $000000F1, $00000071, $000000D8, $00000031, $00000015,
$00000004, $000000C7, $00000023, $000000C3, $00000018, $00000096, $00000005, $0000009A,
$00000007, $00000012, $00000080, $000000E2, $000000EB, $00000027, $000000B2, $00000075,
$00000009, $00000083, $0000002C, $0000001A, $0000001B, $0000006E, $0000005A, $000000A0,
$00000052, $0000003B, $000000D6, $000000B3, $00000029, $000000E3, $0000002F, $00000084,
$00000053, $000000D1, $00000000, $000000ED, $00000020, $000000FC, $000000B1, $0000005B,
$0000006A, $000000CB, $000000BE, $00000039, $0000004A, $0000004C, $00000058, $000000CF,
$000000D0, $000000EF, $000000AA, $000000FB, $00000043, $0000004D, $00000033, $00000085,
$00000045, $000000F9, $00000002, $0000007F, $00000050, $0000003C, $0000009F, $000000A8,
$00000051, $000000A3, $00000040, $0000008F, $00000092, $0000009D, $00000038, $000000F5,
$000000BC, $000000B6, $000000DA, $00000021, $00000010, $000000FF, $000000F3, $000000D2,
$000000CD, $0000000C, $00000013, $000000EC, $0000005F, $00000097, $00000044, $00000017,
$000000C4, $000000A7, $0000007E, $0000003D, $00000064, $0000005D, $00000019, $00000073,
$00000060, $00000081, $0000004F, $000000DC, $00000022, $0000002A, $00000090, $00000088,
$00000046, $000000EE, $000000B8, $00000014, $000000DE, $0000005E, $0000000B, $000000DB,
$000000E0, $00000032, $0000003A, $0000000A, $00000049, $00000006, $00000024, $0000005C,
$000000C2, $000000D3, $000000AC, $00000062, $00000091, $00000095, $000000E4, $00000079,
$000000E7, $000000C8, $00000037, $0000006D, $0000008D, $000000D5, $0000004E, $000000A9,
$0000006C, $00000056, $000000F4, $000000EA, $00000065, $0000007A, $000000AE, $00000008,
$000000BA, $00000078, $00000025, $0000002E, $0000001C, $000000A6, $000000B4, $000000C6,
$000000E8, $000000DD, $00000074, $0000001F, $0000004B, $000000BD, $0000008B, $0000008A,
$00000070, $0000003E, $000000B5, $00000066, $00000048, $00000003, $000000F6, $0000000E,
$00000061, $00000035, $00000057, $000000B9, $00000086, $000000C1, $0000001D, $0000009E,
$000000E1, $000000F8, $00000098, $00000011, $00000069, $000000D9, $0000008E, $00000094,
$0000009B, $0000001E, $00000087, $000000E9, $000000CE, $00000055, $00000028, $000000DF,
$0000008C, $000000A1, $00000089, $0000000D, $000000BF, $000000E6, $00000042, $00000068,
$00000041, $00000099, $0000002D, $0000000F, $000000B0, $00000054, $000000BB, $00000016
);
InverseTable: array [0..255] of longword = (
$50A7F451, $5365417E, $C3A4171A, $965E273A, $CB6BAB3B, $F1459D1F, $AB58FAAC, $9303E34B,
$55FA3020, $F66D76AD, $9176CC88, $254C02F5, $FCD7E54F, $D7CB2AC5, $80443526, $8FA362B5,
$495AB1DE, $671BBA25, $980EEA45, $E1C0FE5D, $02752FC3, $12F04C81, $A397468D, $C6F9D36B,
$E75F8F03, $959C9215, $EB7A6DBF, $DA595295, $2D83BED4, $D3217458, $2969E049, $44C8C98E,
$6A89C275, $78798EF4, $6B3E5899, $DD71B927, $B64FE1BE, $17AD88F0, $66AC20C9, $B43ACE7D,
$184ADF63, $82311AE5, $60335197, $457F5362, $E07764B1, $84AE6BBB, $1CA081FE, $942B08F9,
$58684870, $19FD458F, $876CDE94, $B7F87B52, $23D373AB, $E2024B72, $578F1FE3, $2AAB5566,
$0728EBB2, $03C2B52F, $9A7BC586, $A50837D3, $F2872830, $B2A5BF23, $BA6A0302, $5C8216ED,
$2B1CCF8A, $92B479A7, $F0F207F3, $A1E2694E, $CDF4DA65, $D5BE0506, $1F6234D1, $8AFEA6C4,
$9D532E34, $A055F3A2, $32E18A05, $75EBF6A4, $39EC830B, $AAEF6040, $069F715E, $51106EBD,
$F98A213E, $3D06DD96, $AE053EDD, $46BDE64D, $B58D5491, $055DC471, $6FD40604, $FF155060,
$24FB9819, $97E9BDD6, $CC434089, $779ED967, $BD42E8B0, $888B8907, $385B19E7, $DBEEC879,
$470A7CA1, $E90F427C, $C91E84F8, $00000000, $83868009, $48ED2B32, $AC70111E, $4E725A6C,
$FBFF0EFD, $5638850F, $1ED5AE3D, $27392D36, $64D90F0A, $21A65C68, $D1545B9B, $3A2E3624,
$B1670A0C, $0FE75793, $D296EEB4, $9E919B1B, $4FC5C080, $A220DC61, $694B775A, $161A121C,
$0ABA93E2, $E52AA0C0, $43E0223C, $1D171B12, $0B0D090E, $ADC78BF2, $B9A8B62D, $C8A91E14,
$8519F157, $4C0775AF, $BBDD99EE, $FD607FA3, $9F2601F7, $BCF5725C, $C53B6644, $347EFB5B,
$7629438B, $DCC623CB, $68FCEDB6, $63F1E4B8, $CADC31D7, $10856342, $40229713, $2011C684,
$7D244A85, $F83DBBD2, $1132F9AE, $6DA129C7, $4B2F9E1D, $F330B2DC, $EC52860D, $D0E3C177,
$6C16B32B, $99B970A9, $FA489411, $2264E947, $C48CFCA8, $1A3FF0A0, $D82C7D56, $EF903322,
$C74E4987, $C1D138D9, $FEA2CA8C, $360BD498, $CF81F5A6, $28DE7AA5, $268EB7DA, $A4BFAD3F,
$E49D3A2C, $0D927850, $9BCC5F6A, $62467E54, $C2138DF6, $E8B8D890, $5EF7392E, $F5AFC382,
$BE805D9F, $7C93D069, $A92DD56F, $B31225CF, $3B99ACC8, $A77D1810, $6E639CE8, $7BBB3BDB,
$097826CD, $F418596E, $01B79AEC, $A89A4F83, $656E95E6, $7EE6FFAA, $08CFBC21, $E6E815EF,
$D99BE7BA, $CE366F4A, $D4099FEA, $D67CB029, $AFB2A431, $31233F2A, $3094A5C6, $C066A235,
$37BC4E74, $A6CA82FC, $B0D090E0, $15D8A733, $4A9804F1, $F7DAEC41, $0E50CD7F, $2FF69117,
$8DD64D76, $4DB0EF43, $544DAACC, $DF0496E4, $E3B5D19E, $1B886A4C, $B81F2CC1, $7F516546,
$04EA5E9D, $5D358C01, $737487FA, $2E410BFB, $5A1D67B3, $52D2DB92, $335610E9, $1347D66D,
$8C61D79A, $7A0CA137, $8E14F859, $893C13EB, $EE27A9CE, $35C961B7, $EDE51CE1, $3CB1477A,
$59DFD29C, $3F73F255, $79CE1418, $BF37C773, $EACDF753, $5BAAFD5F, $146F3DDF, $86DB4478,
$81F3AFCA, $3EC468B9, $2C342438, $5F40A3C2, $72C31D16, $0C25E2BC, $8B493C28, $41950DFF,
$7101A839, $DEB30C08, $9CE4B4D8, $90C15664, $6184CB7B, $70B632D5, $745C6C48, $4257B8D0
);
LastInverseTable: array [0..255] of longword = (
$00000052, $00000009, $0000006A, $000000D5, $00000030, $00000036, $000000A5, $00000038,
$000000BF, $00000040, $000000A3, $0000009E, $00000081, $000000F3, $000000D7, $000000FB,
$0000007C, $000000E3, $00000039, $00000082, $0000009B, $0000002F, $000000FF, $00000087,
$00000034, $0000008E, $00000043, $00000044, $000000C4, $000000DE, $000000E9, $000000CB,
$00000054, $0000007B, $00000094, $00000032, $000000A6, $000000C2, $00000023, $0000003D,
$000000EE, $0000004C, $00000095, $0000000B, $00000042, $000000FA, $000000C3, $0000004E,
$00000008, $0000002E, $000000A1, $00000066, $00000028, $000000D9, $00000024, $000000B2,
$00000076, $0000005B, $000000A2, $00000049, $0000006D, $0000008B, $000000D1, $00000025,
$00000072, $000000F8, $000000F6, $00000064, $00000086, $00000068, $00000098, $00000016,
$000000D4, $000000A4, $0000005C, $000000CC, $0000005D, $00000065, $000000B6, $00000092,
$0000006C, $00000070, $00000048, $00000050, $000000FD, $000000ED, $000000B9, $000000DA,
$0000005E, $00000015, $00000046, $00000057, $000000A7, $0000008D, $0000009D, $00000084,
$00000090, $000000D8, $000000AB, $00000000, $0000008C, $000000BC, $000000D3, $0000000A,
$000000F7, $000000E4, $00000058, $00000005, $000000B8, $000000B3, $00000045, $00000006,
$000000D0, $0000002C, $0000001E, $0000008F, $000000CA, $0000003F, $0000000F, $00000002,
$000000C1, $000000AF, $000000BD, $00000003, $00000001, $00000013, $0000008A, $0000006B,
$0000003A, $00000091, $00000011, $00000041, $0000004F, $00000067, $000000DC, $000000EA,
$00000097, $000000F2, $000000CF, $000000CE, $000000F0, $000000B4, $000000E6, $00000073,
$00000096, $000000AC, $00000074, $00000022, $000000E7, $000000AD, $00000035, $00000085,
$000000E2, $000000F9, $00000037, $000000E8, $0000001C, $00000075, $000000DF, $0000006E,
$00000047, $000000F1, $0000001A, $00000071, $0000001D, $00000029, $000000C5, $00000089,
$0000006F, $000000B7, $00000062, $0000000E, $000000AA, $00000018, $000000BE, $0000001B,
$000000FC, $00000056, $0000003E, $0000004B, $000000C6, $000000D2, $00000079, $00000020,
$0000009A, $000000DB, $000000C0, $000000FE, $00000078, $000000CD, $0000005A, $000000F4,
$0000001F, $000000DD, $000000A8, $00000033, $00000088, $00000007, $000000C7, $00000031,
$000000B1, $00000012, $00000010, $00000059, $00000027, $00000080, $000000EC, $0000005F,
$00000060, $00000051, $0000007F, $000000A9, $00000019, $000000B5, $0000004A, $0000000D,
$0000002D, $000000E5, $0000007A, $0000009F, $00000093, $000000C9, $0000009C, $000000EF,
$000000A0, $000000E0, $0000003B, $0000004D, $000000AE, $0000002A, $000000F5, $000000B0,
$000000C8, $000000EB, $000000BB, $0000003C, $00000083, $00000053, $00000099, $00000061,
$00000017, $0000002B, $00000004, $0000007E, $000000BA, $00000077, $000000D6, $00000026,
$000000E1, $00000069, $00000014, $00000063, $00000055, $00000021, $0000000C, $0000007D
);
procedure ExpandAESKeyForEncryption(const Key: TAESKey128; var ExpandedKey: TAESExpandedKey128);
var
I, J: integer;
T: longword;
W0, W1, W2, W3: longword;
begin
ExpandedKey[0] := PLongWord(@Key[0])^;
ExpandedKey[1] := PLongWord(@Key[4])^;
ExpandedKey[2] := PLongWord(@Key[8])^;
ExpandedKey[3] := PLongWord(@Key[12])^;
I := 0; J := 1;
repeat
T := (ExpandedKey[I + 3] shl 24) or (ExpandedKey[I + 3] shr 8);
W0 := LastForwardTable[Byte(T)]; W1 := LastForwardTable[Byte(T shr 8)];
W2 := LastForwardTable[Byte(T shr 16)]; W3 := LastForwardTable[Byte(T shr 24)];
ExpandedKey[I + 4] := ExpandedKey[I] xor
(W0 xor ((W1 shl 8) or (W1 shr 24)) xor
((W2 shl 16) or (W2 shr 16)) xor ((W3 shl 24) or (W3 shr 8))) xor Rcon[J];
Inc(J);
ExpandedKey[I + 5] := ExpandedKey[I + 1] xor ExpandedKey[I + 4];
ExpandedKey[I + 6] := ExpandedKey[I + 2] xor ExpandedKey[I + 5];
ExpandedKey[I + 7] := ExpandedKey[I + 3] xor ExpandedKey[I + 6];
Inc(I, 4);
until I >= 40;
end;
procedure ExpandAESKeyForEncryption(const Key: TAESKey192; var ExpandedKey: TAESExpandedKey192); overload;
var
I, J: integer;
T: longword;
W0, W1, W2, W3: longword;
begin
ExpandedKey[0] := PLongWord(@Key[0])^;
ExpandedKey[1] := PLongWord(@Key[4])^;
ExpandedKey[2] := PLongWord(@Key[8])^;
ExpandedKey[3] := PLongWord(@Key[12])^;
ExpandedKey[4] := PLongWord(@Key[16])^;
ExpandedKey[5] := PLongWord(@Key[20])^;
I := 0; J := 1;
repeat
T := (ExpandedKey[I + 5] shl 24) or (ExpandedKey[I + 5] shr 8);
W0 := LastForwardTable[Byte(T)]; W1 := LastForwardTable[Byte(T shr 8)];
W2 := LastForwardTable[Byte(T shr 16)]; W3 := LastForwardTable[Byte(T shr 24)];
ExpandedKey[I + 6] := ExpandedKey[I] xor
(W0 xor ((W1 shl 8) or (W1 shr 24)) xor
((W2 shl 16) or (W2 shr 16)) xor ((W3 shl 24) or (W3 shr 8))) xor Rcon[J];
Inc(J);
ExpandedKey[I + 7] := ExpandedKey[I + 1] xor ExpandedKey[I + 6];
ExpandedKey[I + 8] := ExpandedKey[I + 2] xor ExpandedKey[I + 7];
ExpandedKey[I + 9] := ExpandedKey[I + 3] xor ExpandedKey[I + 8];
ExpandedKey[I + 10] := ExpandedKey[I + 4] xor ExpandedKey[I + 9];
ExpandedKey[I + 11] := ExpandedKey[I + 5] xor ExpandedKey[I + 10];
Inc(I, 6);
until I >= 46;
end;
procedure ExpandAESKeyForEncryption(const Key: TAESKey256; var ExpandedKey: TAESExpandedKey256); overload;
var
I, J: integer;
T: longword;
W0, W1, W2, W3: longword;
begin
ExpandedKey[0] := PLongWord(@Key[0])^;
ExpandedKey[1] := PLongWord(@Key[4])^;
ExpandedKey[2] := PLongWord(@Key[8])^;
ExpandedKey[3] := PLongWord(@Key[12])^;
ExpandedKey[4] := PLongWord(@Key[16])^;
ExpandedKey[5] := PLongWord(@Key[20])^;
ExpandedKey[6] := PLongWord(@Key[24])^;
ExpandedKey[7] := PLongWord(@Key[28])^;
I := 0; J := 1;
repeat
T := (ExpandedKey[I + 7] shl 24) or (ExpandedKey[I + 7] shr 8);
W0 := LastForwardTable[Byte(T)]; W1 := LastForwardTable[Byte(T shr 8)];
W2 := LastForwardTable[Byte(T shr 16)]; W3 := LastForwardTable[Byte(T shr 24)];
ExpandedKey[I + 8] := ExpandedKey[I] xor
(W0 xor ((W1 shl 8) or (W1 shr 24)) xor
((W2 shl 16) or (W2 shr 16)) xor ((W3 shl 24) or (W3 shr 8))) xor Rcon[J];
Inc(J);
ExpandedKey[I + 9] := ExpandedKey[I + 1] xor ExpandedKey[I + 8];
ExpandedKey[I + 10] := ExpandedKey[I + 2] xor ExpandedKey[I + 9];
ExpandedKey[I + 11] := ExpandedKey[I + 3] xor ExpandedKey[I + 10];
W0 := LastForwardTable[Byte(ExpandedKey[I + 11])];
W1 := LastForwardTable[Byte(ExpandedKey[I + 11] shr 8)];
W2 := LastForwardTable[Byte(ExpandedKey[I + 11] shr 16)];
W3 := LastForwardTable[Byte(ExpandedKey[I + 11] shr 24)];
ExpandedKey[I + 12] := ExpandedKey[I + 4] xor
(W0 xor ((W1 shl 8) or (W1 shr 24)) xor
((W2 shl 16) or (W2 shr 16)) xor ((W3 shl 24) or (W3 shr 8)));
ExpandedKey[I + 13] := ExpandedKey[I + 5] xor ExpandedKey[I + 12];
ExpandedKey[I + 14] := ExpandedKey[I + 6] xor ExpandedKey[I + 13];
ExpandedKey[I + 15] := ExpandedKey[I + 7] xor ExpandedKey[I + 14];
Inc(I, 8);
until I >= 52;
end;
procedure EncryptAES(const InBuf: TAESBuffer; const Key: TAESExpandedKey128;
var OutBuf: TAESBuffer);
var
T0, T1: array [0..3] of longword;
W0, W1, W2, W3: longword;
begin
// initializing
T0[0] := PLongWord(@InBuf[0])^ xor Key[0];
T0[1] := PLongWord(@InBuf[4])^ xor Key[1];
T0[2] := PLongWord(@InBuf[8])^ xor Key[2];
T0[3] := PLongWord(@InBuf[12])^ xor Key[3];
// performing transformation 9 times
// round 1
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[4];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[5];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[6];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[7];
// round 2
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[8];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[9];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[10];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[11];
// round 3
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[12];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[13];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[14];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[15];
// round 4
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[16];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[17];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[18];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[19];
// round 5
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[20];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[21];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[22];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[23];
// round 6
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[24];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[25];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[26];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[27];
// round 7
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[28];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[29];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[30];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[31];
// round 8
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[32];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[33];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[34];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[35];
// round 9
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[36];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[37];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[38];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[39];
// last round of transformations
W0 := LastForwardTable[Byte(T1[0])]; W1 := LastForwardTable[Byte(T1[1] shr 8)];
W2 := LastForwardTable[Byte(T1[2] shr 16)]; W3 := LastForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[40];
W0 := LastForwardTable[Byte(T1[1])]; W1 := LastForwardTable[Byte(T1[2] shr 8)];
W2 := LastForwardTable[Byte(T1[3] shr 16)]; W3 := LastForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[41];
W0 := LastForwardTable[Byte(T1[2])]; W1 := LastForwardTable[Byte(T1[3] shr 8)];
W2 := LastForwardTable[Byte(T1[0] shr 16)]; W3 := LastForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[42];
W0 := LastForwardTable[Byte(T1[3])]; W1 := LastForwardTable[Byte(T1[0] shr 8)];
W2 := LastForwardTable[Byte(T1[1] shr 16)]; W3 := LastForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[43];
// finalizing
PLongWord(@OutBuf[0])^ := T0[0]; PLongWord(@OutBuf[4])^ := T0[1];
PLongWord(@OutBuf[8])^ := T0[2]; PLongWord(@OutBuf[12])^ := T0[3];
end;
procedure EncryptAES(const InBuf: TAESBuffer; const Key: TAESExpandedKey192;
var OutBuf: TAESBuffer);
var
T0, T1: array [0..3] of longword;
W0, W1, W2, W3: longword;
begin
// initializing
T0[0] := PLongWord(@InBuf[0])^ xor Key[0];
T0[1] := PLongWord(@InBuf[4])^ xor Key[1];
T0[2] := PLongWord(@InBuf[8])^ xor Key[2];
T0[3] := PLongWord(@InBuf[12])^ xor Key[3];
// performing transformation 11 times
// round 1
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[4];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[5];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[6];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[7];
// round 2
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[8];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[9];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[10];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[11];
// round 3
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[12];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[13];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[14];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[15];
// round 4
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[16];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[17];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[18];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[19];
// round 5
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[20];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[21];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[22];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[23];
// round 6
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[24];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[25];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[26];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[27];
// round 7
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[28];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[29];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[30];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[31];
// round 8
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[32];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[33];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[34];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[35];
// round 9
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[36];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[37];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[38];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[39];
// round 10
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[40];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[41];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[42];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[43];
// round 11
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[44];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[45];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[46];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[47];
// last round of transformations
W0 := LastForwardTable[Byte(T1[0])]; W1 := LastForwardTable[Byte(T1[1] shr 8)];
W2 := LastForwardTable[Byte(T1[2] shr 16)]; W3 := LastForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[48];
W0 := LastForwardTable[Byte(T1[1])]; W1 := LastForwardTable[Byte(T1[2] shr 8)];
W2 := LastForwardTable[Byte(T1[3] shr 16)]; W3 := LastForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[49];
W0 := LastForwardTable[Byte(T1[2])]; W1 := LastForwardTable[Byte(T1[3] shr 8)];
W2 := LastForwardTable[Byte(T1[0] shr 16)]; W3 := LastForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[50];
W0 := LastForwardTable[Byte(T1[3])]; W1 := LastForwardTable[Byte(T1[0] shr 8)];
W2 := LastForwardTable[Byte(T1[1] shr 16)]; W3 := LastForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[51];
// finalizing
PLongWord(@OutBuf[0])^ := T0[0]; PLongWord(@OutBuf[4])^ := T0[1];
PLongWord(@OutBuf[8])^ := T0[2]; PLongWord(@OutBuf[12])^ := T0[3];
end;
procedure EncryptAES(const InBuf: TAESBuffer; const Key: TAESExpandedKey256;
var OutBuf: TAESBuffer);
var
T0, T1: array [0..3] of longword;
W0, W1, W2, W3: longword;
begin
// initializing
T0[0] := PLongWord(@InBuf[0])^ xor Key[0];
T0[1] := PLongWord(@InBuf[4])^ xor Key[1];
T0[2] := PLongWord(@InBuf[8])^ xor Key[2];
T0[3] := PLongWord(@InBuf[12])^ xor Key[3];
// performing transformation 13 times
// round 1
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[4];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[5];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[6];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[7];
// round 2
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[8];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[9];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[10];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[11];
// round 3
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[12];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[13];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[14];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[15];
// round 4
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[16];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[17];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[18];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[19];
// round 5
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[20];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[21];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[22];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[23];
// round 6
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[24];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[25];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[26];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[27];
// round 7
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[28];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[29];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[30];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[31];
// round 8
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[32];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[33];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[34];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[35];
// round 9
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[36];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[37];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[38];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[39];
// round 10
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[40];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[41];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[42];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[43];
// round 11
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[44];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[45];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[46];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[47];
// round 12
W0 := ForwardTable[Byte(T1[0])]; W1 := ForwardTable[Byte(T1[1] shr 8)];
W2 := ForwardTable[Byte(T1[2] shr 16)]; W3 := ForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[48];
W0 := ForwardTable[Byte(T1[1])]; W1 := ForwardTable[Byte(T1[2] shr 8)];
W2 := ForwardTable[Byte(T1[3] shr 16)]; W3 := ForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[49];
W0 := ForwardTable[Byte(T1[2])]; W1 := ForwardTable[Byte(T1[3] shr 8)];
W2 := ForwardTable[Byte(T1[0] shr 16)]; W3 := ForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[50];
W0 := ForwardTable[Byte(T1[3])]; W1 := ForwardTable[Byte(T1[0] shr 8)];
W2 := ForwardTable[Byte(T1[1] shr 16)]; W3 := ForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[51];
// round 13
W0 := ForwardTable[Byte(T0[0])]; W1 := ForwardTable[Byte(T0[1] shr 8)];
W2 := ForwardTable[Byte(T0[2] shr 16)]; W3 := ForwardTable[Byte(T0[3] shr 24)];
T1[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[52];
W0 := ForwardTable[Byte(T0[1])]; W1 := ForwardTable[Byte(T0[2] shr 8)];
W2 := ForwardTable[Byte(T0[3] shr 16)]; W3 := ForwardTable[Byte(T0[0] shr 24)];
T1[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[53];
W0 := ForwardTable[Byte(T0[2])]; W1 := ForwardTable[Byte(T0[3] shr 8)];
W2 := ForwardTable[Byte(T0[0] shr 16)]; W3 := ForwardTable[Byte(T0[1] shr 24)];
T1[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[54];
W0 := ForwardTable[Byte(T0[3])]; W1 := ForwardTable[Byte(T0[0] shr 8)];
W2 := ForwardTable[Byte(T0[1] shr 16)]; W3 := ForwardTable[Byte(T0[2] shr 24)];
T1[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[55];
// last round of transformations
W0 := LastForwardTable[Byte(T1[0])]; W1 := LastForwardTable[Byte(T1[1] shr 8)];
W2 := LastForwardTable[Byte(T1[2] shr 16)]; W3 := LastForwardTable[Byte(T1[3] shr 24)];
T0[0] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[56];
W0 := LastForwardTable[Byte(T1[1])]; W1 := LastForwardTable[Byte(T1[2] shr 8)];
W2 := LastForwardTable[Byte(T1[3] shr 16)]; W3 := LastForwardTable[Byte(T1[0] shr 24)];
T0[1] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[57];
W0 := LastForwardTable[Byte(T1[2])]; W1 := LastForwardTable[Byte(T1[3] shr 8)];
W2 := LastForwardTable[Byte(T1[0] shr 16)]; W3 := LastForwardTable[Byte(T1[1] shr 24)];
T0[2] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[58];
W0 := LastForwardTable[Byte(T1[3])]; W1 := LastForwardTable[Byte(T1[0] shr 8)];
W2 := LastForwardTable[Byte(T1[1] shr 16)]; W3 := LastForwardTable[Byte(T1[2] shr 24)];
T0[3] := (W0 xor ((W1 shl 8) or (W1 shr 24)) xor ((W2 shl 16) or (W2 shr 16))
xor ((W3 shl 24) or (W3 shr 8))) xor Key[59];
// finalizing
PLongWord(@OutBuf[0])^ := T0[0]; PLongWord(@OutBuf[4])^ := T0[1];
PLongWord(@OutBuf[8])^ := T0[2]; PLongWord(@OutBuf[12])^ := T0[3];
end;
procedure ExpandAESKeyForDecryption(var ExpandedKey: TAESExpandedKey128);
var
I: integer;
U, F2, F4, F8, F9: longword;
begin
for I := 1 to 9 do
begin
F9 := ExpandedKey[I * 4];
U := F9 and $80808080;
F2 := ((F9 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
U := F2 and $80808080;
F4 := ((F2 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
U := F4 and $80808080;
F8 := ((F4 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
F9 := F9 xor F8;
ExpandedKey[I * 4] := F2 xor F4 xor F8 xor
(((F2 xor F9) shl 24) or ((F2 xor F9) shr 8)) xor
(((F4 xor F9) shl 16) or ((F4 xor F9) shr 16)) xor ((F9 shl 8) or (F9 shr 24));
F9 := ExpandedKey[I * 4 + 1];
U := F9 and $80808080;
F2 := ((F9 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
U := F2 and $80808080;
F4 := ((F2 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
U := F4 and $80808080;
F8 := ((F4 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
F9 := F9 xor F8;
ExpandedKey[I * 4 + 1] := F2 xor F4 xor F8 xor
(((F2 xor F9) shl 24) or ((F2 xor F9) shr 8)) xor
(((F4 xor F9) shl 16) or ((F4 xor F9) shr 16)) xor ((F9 shl 8) or (F9 shr 24));
F9 := ExpandedKey[I * 4 + 2];
U := F9 and $80808080;
F2 := ((F9 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
U := F2 and $80808080;
F4 := ((F2 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
U := F4 and $80808080;
F8 := ((F4 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
F9 := F9 xor F8;
ExpandedKey[I * 4 + 2] := F2 xor F4 xor F8 xor
(((F2 xor F9) shl 24) or ((F2 xor F9) shr 8)) xor
(((F4 xor F9) shl 16) or ((F4 xor F9) shr 16)) xor ((F9 shl 8) or (F9 shr 24));
F9 := ExpandedKey[I * 4 + 3];
U := F9 and $80808080;
F2 := ((F9 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
U := F2 and $80808080;
F4 := ((F2 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
U := F4 and $80808080;
F8 := ((F4 and $7F7F7F7F) shl 1) xor ((U - (U shr 7)) and $1B1B1B1B);
F9 := F9 xor F8;
ExpandedKey[I * 4 + 3] := F2 xor F4 xor F8 xor
(((F2 xor F9) shl 24) or ((F2 xor F9) shr 8)) xor
(((F4 xor F9) shl 16) or ((F4 xor F9) shr 16)) xor ((F9 shl 8) or (F9 shr 24));
end;
end;
procedure ExpandAESKeyForDecryption(const Key: TAESKey128; var ExpandedKey: TAESExpandedKey128);
begin
ExpandAESKeyForEncryption(Key, ExpandedKey);
ExpandAESKeyForDecryption(ExpandedKey);
end;
procedure ExpandAE |
2023-10-27
2022-08-15
2022-08-17
2022-09-23
2022-08-13
六六分期app的软件客服如何联系?不知道吗?加qq群【895510560】即可!标题:六六分期
今天小编告诉大家如何处理win10系统火狐flash插件总是崩溃的问题,可能很多用户都不知
今天小编告诉大家如何对win10系统删除桌面回收站图标进行设置,可能很多用户都不知道
今天小编告诉大家如何对win10系统电脑设置节能降温的设置方法,想必大家都遇到过需要
我们在使用xp系统的过程中,经常需要对xp系统无线网络安装向导设置进行设置,可能很多
今天小编告诉大家如何处理win7系统玩cf老是与主机连接不稳定的问题,可能很多用户都不
电脑对日常生活的重要性小编就不多说了,可是一旦碰到win7系统设置cf烟雾头的问题,很
我们在日常使用电脑的时候,有的小伙伴们可能在打开应用的时候会遇见提示应用程序无法
今天小编告诉大家如何对win7系统打开vcf文件进行设置,可能很多用户都不知道怎么对win
今天小编告诉大家如何对win10系统s4开启USB调试模式进行设置,可能很多用户都不知道怎
请发表评论