Pascal (Lazarus/Delphi)
Pascal (Lazarus/Delphi)
TOTP Algorithm: Time-Based One-Time Password Algorithm
See more Encryption Examples
Demonstrates how to generate an time-based one-time password (TOTP) as specified in RFC 6238. This is the algorithm used by Google Authenticator.Note: This example requires Chilkat v9.5.0.77 or greater.
Chilkat Pascal (Lazarus/Delphi) Downloads
program ChilkatDemo;
// Demonstrates using the Chilkat Pascal wrapper via the C bridge DLL.
// Builds as a console application under Lazarus (FPC) or Delphi.
{$IFDEF FPC}
{$MODE DELPHI}
{$ENDIF}
{$APPTYPE CONSOLE}
uses
{$IFDEF UNIX}
cthreads,
{$ENDIF}
SysUtils,
CkDllLoader,
Chilkat.Crypt2;
// ---------------------------------------------------------------------------
procedure RunDemo;
var
crypt: TCrypt2;
seed: string;
seed32: string;
seed64: string;
begin
// This example requires the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
crypt := TCrypt2.Create;
// Duplicate the following results from RFC 6238
// TOTP Algorithm: Test Values
//
// +-------------+--------------+------------------+----------+--------+
// | Time (sec) | UTC Time | Value of T (hex) | TOTP | Mode |
// +-------------+--------------+------------------+----------+--------+
// | 59 | 1970-01-01 | 0000000000000001 | 94287082 | SHA1 |
// | | 00:00:59 | | | |
// | 59 | 1970-01-01 | 0000000000000001 | 46119246 | SHA256 |
// | | 00:00:59 | | | |
// | 59 | 1970-01-01 | 0000000000000001 | 90693936 | SHA512 |
// | | 00:00:59 | | | |
// | 1111111109 | 2005-03-18 | 00000000023523EC | 07081804 | SHA1 |
// | | 01:58:29 | | | |
// | 1111111109 | 2005-03-18 | 00000000023523EC | 68084774 | SHA256 |
// | | 01:58:29 | | | |
// | 1111111109 | 2005-03-18 | 00000000023523EC | 25091201 | SHA512 |
// | | 01:58:29 | | | |
// | 1111111111 | 2005-03-18 | 00000000023523ED | 14050471 | SHA1 |
// | | 01:58:31 | | | |
// | 1111111111 | 2005-03-18 | 00000000023523ED | 67062674 | SHA256 |
// | | 01:58:31 | | | |
// | 1111111111 | 2005-03-18 | 00000000023523ED | 99943326 | SHA512 |
// | | 01:58:31 | | | |
// | 1234567890 | 2009-02-13 | 000000000273EF07 | 89005924 | SHA1 |
// | | 23:31:30 | | | |
// | 1234567890 | 2009-02-13 | 000000000273EF07 | 91819424 | SHA256 |
// | | 23:31:30 | | | |
// | 1234567890 | 2009-02-13 | 000000000273EF07 | 93441116 | SHA512 |
// | | 23:31:30 | | | |
// | 2000000000 | 2033-05-18 | 0000000003F940AA | 69279037 | SHA1 |
// | | 03:33:20 | | | |
// | 2000000000 | 2033-05-18 | 0000000003F940AA | 90698825 | SHA256 |
// | | 03:33:20 | | | |
// | 2000000000 | 2033-05-18 | 0000000003F940AA | 38618901 | SHA512 |
// | | 03:33:20 | | | |
// | 20000000000 | 2603-10-11 | 0000000027BC86AA | 65353130 | SHA1 |
// | | 11:33:20 | | | |
// | 20000000000 | 2603-10-11 | 0000000027BC86AA | 77737706 | SHA256 |
// | | 11:33:20 | | | |
// | 20000000000 | 2603-10-11 | 0000000027BC86AA | 47863826 | SHA512 |
// | | 11:33:20 | | | |
// +-------------+--------------+------------------+----------+--------+
// Seed for HMAC-SHA1
seed := '3132333435363738393031323334353637383930';
// Seed for HMAC-SHA256 - 32 bytes
seed32 := '3132333435363738393031323334353637383930313233343536373839303132';
// Seed for HMAC-SHA512 - 64 bytes
seed64 := '31323334353637383930313233343536373839303132333435363738393031323334353637383930313233343536373839303132333435363738393031323334';
// See the online reference documentation for an explanation of arguments.
WriteLn('TOTP(59,sha1) ' + crypt.Totp(seed,'hex','0','59',30,8,-1,'sha1'));
WriteLn('TOTP(59,sha256) ' + crypt.Totp(seed32,'hex','0','59',30,8,-1,'sha256'));
WriteLn('TOTP(59,sha512) ' + crypt.Totp(seed64,'hex','0','59',30,8,-1,'sha512'));
WriteLn('TOTP(1111111109,sha1) ' + crypt.Totp(seed,'hex','0','1111111109',30,8,-1,'sha1'));
WriteLn('TOTP(1111111109,sha256) ' + crypt.Totp(seed32,'hex','0','1111111109',30,8,-1,'sha256'));
WriteLn('TOTP(1111111109,sha512) ' + crypt.Totp(seed64,'hex','0','1111111109',30,8,-1,'sha512'));
WriteLn('TOTP(1111111111,sha1) ' + crypt.Totp(seed,'hex','0','1111111111',30,8,-1,'sha1'));
WriteLn('TOTP(1111111111,sha256) ' + crypt.Totp(seed32,'hex','0','1111111111',30,8,-1,'sha256'));
WriteLn('TOTP(1111111111,sha512) ' + crypt.Totp(seed64,'hex','0','1111111111',30,8,-1,'sha512'));
WriteLn('TOTP(1234567890,sha1) ' + crypt.Totp(seed,'hex','0','1234567890',30,8,-1,'sha1'));
WriteLn('TOTP(1234567890,sha256) ' + crypt.Totp(seed32,'hex','0','1234567890',30,8,-1,'sha256'));
WriteLn('TOTP(1234567890,sha512) ' + crypt.Totp(seed64,'hex','0','1234567890',30,8,-1,'sha512'));
WriteLn('TOTP(2000000000,sha1) ' + crypt.Totp(seed,'hex','0','2000000000',30,8,-1,'sha1'));
WriteLn('TOTP(2000000000,sha256) ' + crypt.Totp(seed32,'hex','0','2000000000',30,8,-1,'sha256'));
WriteLn('TOTP(2000000000,sha512) ' + crypt.Totp(seed64,'hex','0','2000000000',30,8,-1,'sha512'));
WriteLn('TOTP(20000000000,sha1) ' + crypt.Totp(seed,'hex','0','20000000000',30,8,-1,'sha1'));
WriteLn('TOTP(20000000000,sha256) ' + crypt.Totp(seed32,'hex','0','20000000000',30,8,-1,'sha256'));
WriteLn('TOTP(20000000000,sha512) ' + crypt.Totp(seed64,'hex','0','20000000000',30,8,-1,'sha512'));
// Note: To compute the TOTP using the current system date/time, pass an empty string instead of an explicit time.
// For example:
WriteLn('TOTP(CurrentSystemTime,sha1) ' + crypt.Totp(seed,'hex','0','',30,8,-1,'sha1'));
WriteLn('TOTP(CurrentSystemTime,sha256) ' + crypt.Totp(seed32,'hex','0','',30,8,-1,'sha256'));
WriteLn('TOTP(CurrentSystemTime,sha512) ' + crypt.Totp(seed64,'hex','0','',30,8,-1,'sha512'));
crypt.Free;
end;
// ---------------------------------------------------------------------------
begin
try
RunDemo;
except
on E: Exception do
WriteLn('Unhandled exception: ', E.ClassName, ': ', E.Message);
end;
WriteLn;
{$IFDEF MSWINDOWS}
WriteLn('Press Enter to exit...');
ReadLn;
{$ENDIF}
end.