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I'm trying to protect a local database that contains sensitive info (similar to this question, only for delphi 2010)

I'm using DISQLite component, which does support AES encryption, but I still need to protect this password I use to decrypt & read the database.

My initial idea was to generate a random password, store it using something like DPAPI (CryptProtectData and CryptUnprotectData functions found in Crypt32.dll), but I couldn't find any example on that for Delphi

My question is: how can I safely store a randomly generated password? Or, assuming the DPAPI road is secure, how can I implement this DPAPI in Delphi?

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2  
As usually, JEDI library has wrappers for the Windows Cryptography API interface, in JwaWinCrypt.pas unit. –  TLama Oct 30 '12 at 18:17
2  
How will encrypting the password protect anything? Surely an attacker can just read the decrypted password from memory? –  David Heffernan Oct 30 '12 at 18:42
1  
@DavidHeffernan So there's no sense to decrypt anything from the application? :-( –  JustMe Oct 30 '12 at 18:46
1  
@TheDude Yea, make those stupid script kiddies life harder! :-D –  JustMe Oct 30 '12 at 18:48
1  
@Glenn1234: Unfortunately, I have to have the real password in order to open the database! A hash won't cut it :( –  TheDude Oct 30 '12 at 19:03
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2 Answers

up vote 10 down vote accepted

It's better to use Windows' DPAPI. It's much more secure than using other methods:

  • CryptProtectData / CryptProtectMemory
  • CryptUnprotectData / CryptUnprotectMemory

CryptProtectMemory / CryptUnprotectMemory offer more flexibility:

  • CRYPTPROTECTMEMORY_SAME_PROCESS: only your process can decrypt your data
  • CRYPTPROTECTMEMORY_CROSS_PROCESS: any process can dectypt your data
  • CRYPTPROTECTMEMORY_SAME_LOGON: only processes running with the same user and in the same session can decrypt data

Pros:

  1. No need to have a key - Windows do it for you
  2. Granular control: per process / per session / per login / per machine
  3. CryptProtectData exists in Windows 2000 and newer
  4. DPAPI Windows is more secure than using "security" related code written from you, me and the people that believe Random() returns absolutely random number :) In fact Microsoft has decades of experience in the security field, having the most attacked OS ever :o)

Cons:

  1. In the case of CRYPTPROTECTMEMORY_SAME_PROCESS One* can just inject a new thread in your process and this thread can decrypt your data
  2. If someone reset user's password (not change) you will be unable to decrypt your data
  3. In the case of CRYPTPROTECTMEMORY_SAME_LOGON: if the user* run hacked process it can decrypt your data
  4. If you use CRYPTPROTECT_LOCAL_MACHINE - every user* on that machine can decrypt the data. This is why it's not recommended to save passwords in .RDP files
  5. Known issues

Note: "every user" is a user who has tools or skills to use DPAPI

Anyway - you have a choice.

Note that @David-Heffernan is right - anything stored on the computer can be decrypted - reading it from memory, injecting threads in your process etc.

On the other hand ... why don't we make cracker's life harder? :)

Rule of thumb: clear all buffers that contain sensitive data after using them. This doesn't make things super safe, but decreases the possibility your memory to contain sensitive data. Of course this doesn't solve the other major problem: how other Delphi components handle the sensitive data you pass to them :)

Security Library by JEDI has object oriented approach to DPAPI. Also JEDI project contains translated windows headers for DPAPI (JWA IIRC)

UPDATE: Here's sample code that uses DPAPI (using JEDI API):

Uses SysUtils, jwaWinCrypt, jwaWinBase, jwaWinType;

function dpApiProtectData(var fpDataIn: tBytes): tBytes;
var
  dataIn,               // Input buffer (clear-text/data)
  dataOut: DATA_BLOB;   // Output buffer (encrypted)
begin
  // Initializing variables
  dataOut.cbData := 0;
  dataOut.pbData := nil;

  dataIn.cbData := length(fpDataIn); // How much data (in bytes) we want to encrypt
  dataIn.pbData := @fpDataIn[0];     // Pointer to the data itself - the address of the first element of the input byte array

  if not CryptProtectData(@dataIn, nil, nil, nil, nil, 0, @dataOut) then
    RaiseLastOSError; // Bad things happen sometimes

  // Copy the encrypted bytes to RESULT variable
  setLength(result, dataOut.cbData);
  move(dataOut.pbData^, result[0], dataOut.cbData);
  LocalFree(HLOCAL(dataOut.pbData));                  // http://msdn.microsoft.com/en-us/library/windows/desktop/aa380261(v=vs.85).aspx
//  fillChar(fpDataIn[0], length(fpDataIn), #0);  // Eventually erase input buffer i.e. not to leave sensitive data in memory
end;

function dpApiUnprotectData(fpDataIn: tBytes): tBytes;
var
  dataIn,               // Input buffer (clear-text/data)
  dataOut: DATA_BLOB;   // Output buffer (encrypted)
begin
  dataOut.cbData := 0;
  dataOut.pbData := nil;

  dataIn.cbData := length(fpDataIn);
  dataIn.pbData := @fpDataIn[0];

  if not CryptUnprotectData(
    @dataIn,  
    nil, 
    nil, 
    nil, 
    nil, 
    0,         // Possible flags: http://msdn.microsoft.com/en-us/library/windows/desktop/aa380261%28v=vs.85%29.aspx 
               // 0 (zero) means only the user that encrypted the data will be able to decrypt it
    @dataOut
  ) then
    RaiseLastOSError;

  setLength(result, dataOut.cbData);                  // Copy decrypted bytes in the RESULT variable
  move(dataOut.pbData^, result[0], dataOut.cbData);   
  LocalFree(HLOCAL(dataOut.pbData));                  // http://msdn.microsoft.com/en-us/library/windows/desktop/aa380882%28v=vs.85%29.aspx
end;

procedure testDpApi;
var
  bytesClearTextIn,       // Holds input bytes
  bytesClearTextOut,      // Holds output bytes
  bytesEncrypted: tBytes; // Holds the resulting encrypted bytes
  strIn, strOut: string;  // Input / Output strings
begin

  // *** ENCRYPT STRING TO BYTE ARRAY
  strIn := 'Some Secret Data Here';

  // Copy string contents to bytesClearTextIn
  // NB: this works for STRING type only!!! (AnsiString / UnicodeString)
  setLength(bytesClearTextIn, length(strIn) * sizeOf(char));
  move(strIn[1], bytesClearTextIn[0], length(strIn) * sizeOf(char));

  bytesEncrypted := dpApiProtectData(bytesClearTextIn);     // Encrypt data

  // *** DECRYPT BYTE ARRAY TO STRING
  bytesClearTextOut := dpApiUnprotectData(bytesEncrypted);  // Decrypt data

  // Copy decrypted bytes (bytesClearTextOut) to the output string variable
  // NB: this works for STRING type only!!! (AnsiString / UnicodeString)    
  setLength(strOut, length(bytesClearTextOut) div sizeOf(char));
  move(bytesClearTextOut[0], strOut[1], length(bytesClearTextOut));

  assert(strOut = strIn, 'Boom!');  // Boom should never booom :)

end;

Notes:

  • The example is lightweight version of using CryptProtectData / CryptUnprotectData;
  • Encryption is byte oriented so it's easier to use tBytes (tBytes = array of byte);
  • If input and output string are UTF8String, then remove "* sizeOf(char)", because UTF8String's char is 1 byte only
  • The use of CryptProtectMemory / CryptUnProtectMemory is similar
share|improve this answer
    
Thanks iPath, do you have any example? (beside the large JEDI library!) As I said in my question, I couldn't find code example for Delphi –  TheDude Oct 30 '12 at 20:02
1  
@TheDude: it's cooking... –  iPath ツ Oct 30 '12 at 20:26
1  
@TheDude: I've updated the answer with sample code –  iPath ツ Oct 30 '12 at 23:40
    
Thank you very much iPath for the effort! I'm looking into it (got swamped with other tasks), I'll get back to you asap with feedback! –  TheDude Nov 5 '12 at 13:57
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Ok, here's an example using TurboPower Lockbox (version 2)

  uses LbCipher, LbString;

  TaAES = class
  private
    Key: TKey256;
    FPassword: string;
  public
    constructor Create;

    function Code(AString: String): String;
    function Decode(AString: String): String;

    property Password: string read FPassword write FPassword;
  end;

function TaAES.Code(AString: String): String;
begin
  try
    RESULT := RDLEncryptStringCBCEx(AString, Key, SizeOf(Key), False);
  except
    RESULT := '';
  end;
end;

constructor TaAES.Create;
begin
  GenerateLMDKey(Key, SizeOf(Key), Password);
end;

function TaAES.Decode(AString: String): String;
begin
  RESULT := RDLEncryptStringCBCEx(AString, Key, SizeOf(Key), True);
end;

You can save your password as variable in your application. Without save to file example but you can use TFileStream to save encrypted(code) password and then decode it to read it :-)

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Thanks JustMe, but then I have to hide the key used in encryption, so I'm kind of going back to square one :( –  TheDude Oct 30 '12 at 19:04
    
No, you don't. Key is just length of the key encryption - in this example it's 256 bit AES. And have in mind what @DavidHeffernan points earlier –  JustMe Oct 30 '12 at 19:06
    
Thanks JustMe, I'll take a look at LockBox (I'm not sure how they can do it without keys thought...I'll have to study that) –  TheDude Oct 30 '12 at 20:05
    
You encrypt string with a password. Password will be your constant in the program. –  JustMe Oct 30 '12 at 20:38
1  
@TheDude: LockBox generates the key. See the code in TaAES.Create in JustMe's answer above - the line says GenerateLMDKey ;-) –  Ken White Oct 30 '12 at 20:45
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