QPasswordDigestor#
The QPasswordDigestor namespace contains functions which you can use to generate hashes or keys. More…
Synopsis#
Static functions#
def
deriveKeyPbkdf1(algorithm, password, salt, iterations, dkLen)def
deriveKeyPbkdf2(algorithm, password, salt, iterations, dkLen)
Note
This documentation may contain snippets that were automatically translated from C++ to Python. We always welcome contributions to the snippet translation. If you see an issue with the translation, you can also let us know by creating a ticket on https:/bugreports.qt.io/projects/PYSIDE
Detailed Description#
- static PySide6.QtNetwork.QPasswordDigestor.deriveKeyPbkdf1(algorithm, password, salt, iterations, dkLen)#
- Parameters:
algorithm –
Algorithmpassword –
PySide6.QtCore.QByteArraysalt –
PySide6.QtCore.QByteArrayiterations – int
dkLen – int
- Return type:
Returns a hash computed using the PBKDF1-algorithm as defined in RFC 8018, section 5.1 .
The function takes the data and salt, and then hashes it repeatedly for iterations iterations using the specified hash algorithm. If the resulting hash is longer than dkLen then it is truncated before it is returned.
This function only supports SHA-1 and MD5! The max output size is 160 bits (20 bytes) when using SHA-1, or 128 bits (16 bytes) when using MD5. Specifying a value for dkLen which is greater than this results in a warning and an empty QByteArray is returned. To programmatically check this limit you can use hashLength . Furthermore: the salt must always be 8 bytes long!
Note
This function is provided for use with legacy applications and all new applications are recommended to use PBKDF2 .
See also
deriveKeyPbkdf2 QCryptographicHash hashLength
- static PySide6.QtNetwork.QPasswordDigestor.deriveKeyPbkdf2(algorithm, password, salt, iterations, dkLen)#
- Parameters:
algorithm –
Algorithmpassword –
PySide6.QtCore.QByteArraysalt –
PySide6.QtCore.QByteArrayiterations – int
dkLen – int
- Return type:
Derive a key using the PBKDF2-algorithm as defined in RFC 8018, section 5.2 .
This function takes the data and salt, and then applies HMAC-X, where the X is algorithm, repeatedly. It internally concatenates intermediate results to the final output until at least dkLen amount of bytes have been computed and it will execute HMAC-X iterations times each time a concatenation is required. The total number of times it will execute HMAC-X depends on iterations, dkLen and algorithm and can be calculated as iterations * ceil(dkLen / QCryptographicHash::hashLength(algorithm)).
See also
deriveKeyPbkdf1QMessageAuthenticationCodeQCryptographicHash