PowerBuilder
PowerBuilder
PBES1 Password-Based Encryption (PBE)
See more Encryption Examples
Demonstrates how to implement password-based encryption according to the PKCS #5 v2.0: Password-Based Cryptography Standard (published by RSA Laboratories). This example uses PBES1, which ise based on the PBKDF1 function and an underlying block cipher such as RC2, DES, etc.Chilkat PowerBuilder Downloads
integer li_rc
oleobject loo_Crypt
string ls_PlainText
string ls_EncryptedText
string ls_DecryptedText
// This example assumes the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
loo_Crypt = create oleobject
li_rc = loo_Crypt.ConnectToNewObject("Chilkat.Crypt2")
if li_rc < 0 then
destroy loo_Crypt
MessageBox("Error","Connecting to COM object failed")
return
end if
// Set properties for PBES1 encryption:
loo_Crypt.CryptAlgorithm = "pbes1"
loo_Crypt.PbesPassword = "mySecretPassword"
// Set the underlying PBE algorithm (and key length):
// For PBES1, the underlying algorithm must be either
// 56-bit DES or 64-bit RC2
// (this is according to the PKCS#5 specifications at
// http://www.rsa.com/rsalabs/node.asp?id=2127 )
loo_Crypt.PbesAlgorithm = "rc2"
loo_Crypt.KeyLength = 64
// The salt for PBKDF1 is always 8 bytes:
loo_Crypt.SetEncodedSalt("0102030405060708","hex")
// A higher iteration count makes the algorithm more
// computationally expensive and therefore exhaustive
// searches (for breaking the encryption) is more difficult:
loo_Crypt.IterationCount = 1024
// A hash algorithm needs to be set for PBES1:
loo_Crypt.HashAlgorithm = "sha1"
// Indicate that the encrypted bytes should be returned
// as a hex string:
loo_Crypt.EncodingMode = "hex"
ls_PlainText = "To be encrypted."
ls_EncryptedText = loo_Crypt.EncryptStringENC(ls_PlainText)
Write-Debug ls_EncryptedText
// Now decrypt:
ls_DecryptedText = loo_Crypt.DecryptStringENC(ls_EncryptedText)
Write-Debug ls_DecryptedText
destroy loo_Crypt