restemplate/indy/Protocols/IdHMAC.pas

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{
$Project$
$Workfile$
$Revision$
$DateUTC$
$Id$
This file is part of the Indy (Internet Direct) project, and is offered
under the dual-licensing agreement described on the Indy website.
(http://www.indyproject.org/)
Copyright:
(c) 1993-2005, Chad Z. Hower and the Indy Pit Crew. All rights reserved.
}
{
$Log$
}
{
HMAC specification on the NIST website
http://csrc.nist.gov/publications/fips/fips198/fips-198a.pdf
}
unit IdHMAC;
interface
{$i IdCompilerDefines.inc}
uses
Classes,
IdFIPS,
IdGlobal, IdHash;
type
TIdHMACKeyBuilder = class(TObject)
public
class function Key(const ASize: Integer) : TIdBytes;
class function IV(const ASize: Integer) : TIdBytes;
end;
TIdHMAC = class
protected
FHashSize: Integer; // n bytes
FBlockSize: Integer; // n bytes
FKey: TIdBytes;
FHash: TIdHash;
FHashName: string;
procedure InitHash; virtual; abstract;
procedure InitKey;
procedure SetHashVars; virtual; abstract;
function HashValueNative(const ABuffer: TIdBytes; const ATruncateTo: Integer = -1) : TIdBytes; // for now, supply in bytes
function HashValueIntF(const ABuffer: TIdBytes; const ATruncateTo: Integer = -1) : TIdBytes; // for now, supply in bytes
function IsIntFAvail : Boolean; virtual;
function InitIntFInst(const AKey : TIdBytes) : TIdHMACIntCtx; virtual; abstract;
public
constructor Create; virtual;
destructor Destroy; override;
function HashValue(const ABuffer: TIdBytes; const ATruncateTo: Integer = -1) : TIdBytes; // for now, supply in bytes
property HashSize: Integer read FHashSize;
property BlockSize: Integer read FBlockSize;
property HashName: string read FHashName;
property Key: TIdBytes read FKey write FKey;
end;
implementation
uses
SysUtils;
{ TIdHMACKeyBuilder }
class function TIdHMACKeyBuilder.Key(const ASize: Integer): TIdBytes;
var
I: Integer;
begin
SetLength(Result, ASize);
for I := Low(Result) to High(Result) do begin
Result[I] := Byte(Random(255));
end;
end;
class function TIdHMACKeyBuilder.IV(const ASize: Integer): TIdBytes;
var
I: Integer;
begin
SetLength(Result, ASize);
for I := Low(Result) to High(Result) do begin
Result[I] := Byte(Random(255));
end;
end;
{ TIdHMAC }
constructor TIdHMAC.Create;
begin
inherited Create;
SetLength(FKey, 0);
SetHashVars;
if IsHMACAvail then begin
FHash := nil;
end else begin
InitHash;
end;
end;
destructor TIdHMAC.Destroy;
begin
FreeAndNil(FHash);
inherited Destroy;
end;
function TIdHMAC.HashValueNative(const ABuffer: TIdBytes; const ATruncateTo: Integer = -1) : TIdBytes; // for now, supply in bytes
const
CInnerPad : Byte = $36;
COuterPad : Byte = $5C;
var
TempBuffer1: TIdBytes;
TempBuffer2: TIdBytes;
LKey: TIdBytes;
I: Integer;
begin
InitKey;
LKey := Copy(FKey, 0, MaxInt);
SetLength(LKey, FBlockSize);
SetLength(TempBuffer1, FBlockSize + Length(ABuffer));
for I := Low(LKey) to High(LKey) do begin
TempBuffer1[I] := LKey[I] xor CInnerPad;
end;
CopyTIdBytes(ABuffer, 0, TempBuffer1, Length(LKey), Length(ABuffer));
TempBuffer2 := FHash.HashBytes(TempBuffer1);
SetLength(TempBuffer1, 0);
SetLength(TempBuffer1, FBlockSize + FHashSize);
for I := Low(LKey) to High(LKey) do begin
TempBuffer1[I] := LKey[I] xor COuterPad;
end;
CopyTIdBytes(TempBuffer2, 0, TempBuffer1, Length(LKey), Length(TempBuffer2));
Result := FHash.HashBytes(TempBuffer1);
SetLength(TempBuffer1, 0);
SetLength(TempBuffer2, 0);
SetLength(LKey, 0);
if ATruncateTo > -1 then begin
SetLength(Result, ATruncateTo);
end;
end;
function TIdHMAC.HashValueIntF(const ABuffer: TIdBytes; const ATruncateTo: Integer = -1) : TIdBytes; // for now, supply in bytes
var
LCtx : TIdHMACIntCtx;
begin
if FKey = nil then begin
FKey := TIdHMACKeyBuilder.Key(FHashSize);
end;
LCtx := InitIntFInst(FKey);
try
UpdateHMACInst(LCtx,ABuffer);
finally
Result := FinalHMACInst(LCtx);
end;
if (ATruncateTo >-1) and (ATruncateTo < Length(Result)) then begin
SetLength(Result, ATruncateTo);
end;
end;
function TIdHMAC.HashValue(const ABuffer: TIdBytes; const ATruncateTo: Integer = -1): TIdBytes; // for now, supply in bytes
begin
if IsIntFAvail then begin
Result := HashValueIntF(ABuffer,ATruncateTo);
end else begin
Result := HashValueNative(ABuffer,ATruncateTo);
end;
end;
procedure TIdHMAC.InitKey;
begin
if FKey = nil then begin
FKey := TIdHMACKeyBuilder.Key(FHashSize);
end
else if Length(FKey) > FBlockSize then begin
FKey := FHash.HashBytes(FKey);
end;
end;
function TIdHMAC.IsIntFAvail: Boolean;
begin
Result := IsHMACAvail;
end;
initialization
Randomize;
end.