Activator/10.2.3.3231/Keygen/Sha1.pas

{
	
***************************************************
* A binary compatible SHA1 implementation								 *
* written by Dave Barton (davebarton@bigfoot.com) *
***************************************************
* 160bit hash size																															 *
***************************************************
	
}
unit SHA1;
	
interface
uses
		Windows,SysUtils;
	
type
		TSHA1Digest = array[0..19] of byte;
		TSHA1Context = record
				Hash: array[0..4] of DWord;
				Hi, Lo: integer;
				Buffer: array[0..63] of byte;
				Index: integer;
		end;

procedure SHA1Init(var Context: TSHA1Context);
procedure SHA1Update(var Context: TSHA1Context; Buffer: pointer; Len: integer);
procedure SHA1Final(var Context: TSHA1Context; var Digest: TSHA1Digest);


function SHA1String(M: AnsiString): TSHA1Digest;
function SHA1File(N: string): TSHA1Digest;
function SHA1Print(Digest: TSHA1Digest): AnsiString;
	
//******************************************************************************
implementation
{
$R-
}

function LRot16(X: Word; c: longint): Word;
begin
  LRot16 := (X shl c) or (X shr (16 - c));
end;


function RRot16(X: Word; c: longint): Word;
begin
  RRot16 := (X shr c) or (X shl (16 - c));
end;


function LRot32(X: DWord; c: longint): DWord;
begin
  LRot32 := (X shl c) or (X shr (32 - c));
end;


function RRot32(X: DWord; c: longint): DWord;
begin
  RRot32 := (X shr c) or (X shl (32 - c));
end;


	
//******************************************************************************
	
function F1(x, y, z: DWord): DWord;
begin
		Result := z xor (x and (y xor z));
end;
	
function F2(x, y, z: DWord): DWord;
begin
		Result := x xor y xor z;
end;
	
function F3(x, y, z: DWord): DWord;
begin
		Result := (x and y) or (z and (x or y));
end;
	
//******************************************************************************
	
function RB(A: DWord): DWord;
begin
		Result := (A shr 24) or ((A shr 8) and $FF00) or ((A shl 8) and $FF0000) or (A shl 24);
end;
	
procedure SHA1Compress(var Data: TSHA1Context);
var
		A, B, C, D, E, T: DWord;
		W: array[0..79] of DWord;
		i: integer;
begin
		Move(Data.Buffer, W, Sizeof(Data.Buffer));
		for i := 0 to 15 do
				W[i] := RB(W[i]);
		for i := 16 to 79 do
				W[i] := LRot32(W[i - 3] xor W[i - 8] xor W[i - 14] xor W[i - 16], 1);
		A := Data.Hash[0]; B := Data.Hash[1]; C := Data.Hash[2]; D := Data.Hash[3]; E := Data.Hash[4];
		for i := 0 to 19 do
		begin
				T := LRot32(A, 5) + F1(B, C, D) + E + W[i] + $5A827999;
				E := D; D := C; C := LRot32(B, 30); B := A; A := T;
		end;
		for i := 20 to 39 do
		begin
				T := LRot32(A, 5) + F2(B, C, D) + E + W[i] + $6ED9EBA1;
				E := D; D := C; C := LRot32(B, 30); B := A; A := T;
		end;
		for i := 40 to 59 do
		begin
				T := LRot32(A, 5) + F3(B, C, D) + E + W[i] + $8F1BBCDC;
				E := D; D := C; C := LRot32(B, 30); B := A; A := T;
		end;
		for i := 60 to 79 do
		begin
				T := LRot32(A, 5) + F2(B, C, D) + E + W[i] + $CA62C1D6;
				E := D; D := C; C := LRot32(B, 30); B := A; A := T;
		end;
		Data.Hash[0] := Data.Hash[0] + A;
		Data.Hash[1] := Data.Hash[1] + B;
		Data.Hash[2] := Data.Hash[2] + C;
		Data.Hash[3] := Data.Hash[3] + D;
		Data.Hash[4] := Data.Hash[4] + E;
		FillChar(W, Sizeof(W), 0);
		FillChar(Data.Buffer, Sizeof(Data.Buffer), 0);
end;
	
//******************************************************************************
	
procedure SHA1Init(var Context: TSHA1Context);
begin
		Context.Hi := 0; Context.Lo := 0;
		Context.Index := 0;
		FillChar(Context.Buffer, Sizeof(Context.Buffer), 0);
		Context.Hash[0] := $67452301;
		Context.Hash[1] := $EFCDAB89;
		Context.Hash[2] := $98BADCFE;
		Context.Hash[3] := $10325476;
		Context.Hash[4] := $C3D2E1F0;
end;
	
//******************************************************************************
	
procedure SHA1UpdateLen(var Context: TSHA1Context; Len: integer);
var
		i, k: integer;
begin
		for k := 0 to 7 do
		begin
				i := Context.Lo;
				Inc(Context.Lo, Len);
				if Context.Lo < i then
						Inc(Context.Hi);
		end;
end;
	
//******************************************************************************
	
procedure SHA1Update(var Context: TSHA1Context; Buffer: pointer; Len: integer);
type
		PByte = ^Byte;
begin
		SHA1UpdateLen(Context, Len);
		while Len > 0 do
		begin
				Context.Buffer[Context.Index] := PByte(Buffer)^;
				Inc(PByte(Buffer));
				Inc(Context.Index);
				Dec(Len);
				if Context.Index = 64 then
				begin
						Context.Index := 0;
						SHA1Compress(Context);
				end;
		end;
end;
	
//******************************************************************************
	
procedure SHA1Final(var Context: TSHA1Context; var Digest: TSHA1Digest);
type
		PDWord = ^DWord;
begin
		Context.Buffer[Context.Index] := $80;
		if Context.Index >= 56 then
				SHA1Compress(Context);
		PDWord(@Context.Buffer[56])^ := RB(Context.Hi);
		PDWord(@Context.Buffer[60])^ := RB(Context.Lo);
		SHA1Compress(Context);
		Context.Hash[0] := RB(Context.Hash[0]);
		Context.Hash[1] := RB(Context.Hash[1]);
		Context.Hash[2] := RB(Context.Hash[2]);
		Context.Hash[3] := RB(Context.Hash[3]);
		Context.Hash[4] := RB(Context.Hash[4]);
		Move(Context.Hash, Digest, Sizeof(Digest));
		FillChar(Context, Sizeof(Context), 0);
end;


function SHA1String(M: AnsiString): TSHA1Digest;
var
  Context: TSHA1Context;
begin
  SHA1Init(Context);
  SHA1Update(Context, PAnsiChar(M), length(M));
  SHA1Final(Context, Result);
end;

function SHA1File(N: string): TSHA1Digest;
var
  FileHandle: THandle;
  MapHandle: THandle;
  ViewPointer: pointer;
  Context: TSHA1Context;
begin
  SHA1Init(Context);
  FileHandle := CreateFile(pChar(N), GENERIC_READ, FILE_SHARE_READ or FILE_SHARE_WRITE,
    nil, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL or FILE_FLAG_SEQUENTIAL_SCAN, 0);
  if FileHandle <> INVALID_HANDLE_VALUE then try
    MapHandle := CreateFileMapping(FileHandle, nil, PAGE_READONLY, 0, 0, nil);
    if MapHandle <> 0 then try
      ViewPointer := MapViewOfFile(MapHandle, FILE_MAP_READ, 0, 0, 0);
      if ViewPointer <> nil then try
        SHA1Update(Context, ViewPointer, GetFileSize(FileHandle, nil));
      finally
        UnmapViewOfFile(ViewPointer);
      end;
    finally
      CloseHandle(MapHandle);
    end;
  finally
    CloseHandle(FileHandle);
  end;
  SHA1Final(Context, Result);
end;

function SHA1Print(Digest: TSHA1Digest): AnsiString;
var
  I: byte;
const
  Digits: array[0..15] of AnsiChar =
  ('0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f');
begin
  Result := '';
  for I := 0 to 19 do Result := Result + Digits[(Digest[I] shr 4) and $0F] + Digits[Digest[I] and $0F];
end;
	
end.