QDtlsClientVerifier#
This class implements server-side DTLS cookie generation and verification. More…
Synopsis#
Functions#
def
dtlsError
()def
dtlsErrorString
()def
verifiedHello
()def
verifyClient
(socket, dgram, address, port)
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#
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
The QDtlsClientVerifier
class implements server-side DTLS cookie generation and verification. Datagram security protocols are highly susceptible to a variety of Denial-of-Service attacks. According to RFC 6347, section 4.2.1 , these are two of the more common types of attack:
An attacker transmits a series of handshake initiation requests, causing a server to allocate excessive resources and potentially perform expensive cryptographic operations.
An attacker transmits a series of handshake initiation requests with a forged source of the victim, making the server act as an amplifier. Normally, the server would reply to the victim machine with a Certificate message, which can be quite large, thus flooding the victim machine with datagrams.
As a countermeasure to these attacks, RFC 6347, section 4.2.1 proposes a stateless cookie technique that a server may deploy:
In response to the initial ClientHello message, the server sends a HelloVerifyRequest, which contains a cookie. This cookie is a cryptographic hash and is generated using the client’s address, port number, and the server’s secret (which is a cryptographically strong pseudo-random sequence of bytes).
A reachable DTLS client is expected to reply with a new ClientHello message containing this cookie.
When the server receives the ClientHello message with a cookie, it generates a new cookie as described above. This new cookie is compared to the one found in the ClientHello message.
In the cookies are equal, the client is considered to be real, and the server can continue with a TLS handshake procedure.
Note
A DTLS server is not required to use DTLS cookies.
QDtlsClientVerifier
is designed to work in pair with QUdpSocket
, as shown in the following code-excerpt:
class DtlsServer(QObject): # public listen = bool(QHostAddress address, quint16 port) # ... # private def readyRead(): # ... serverSocket = QUdpSocket() verifier = QDtlsClientVerifier() # ... def listen(self, QHostAddress serverAddress, quint16 serverPort): if serverSocket.bind(serverAddress, serverPort): serverSocket.readyRead.connect(self.readyRead) return serverSocket.state() == QAbstractSocket.BoundState def readyRead(self): dgram = QByteArray(serverSocket.pendingDatagramSize(), Qt.Uninitialized) address = QHostAddress() port = {} serverSocket.readDatagram(dgram.data(), dgram.size(), address, port) if (verifiedClients.contains({address, port) { # This client was verified previously, we either continue the # handshake or decrypt the incoming message. elif verifier.verifyClient(serverSocket, dgram, address, port): # Apparently we have a real DTLS client who wants to send us # encrypted datagrams. Remember this client as verified # and proceed with a handshake. else: # No matching cookie was found in the incoming datagram, # verifyClient() has sent a ClientVerify message. # We'll hear from the client again soon, if they're real.
QDtlsClientVerifier
does not impose any restrictions on how the application uses QUdpSocket
. For example, it is possible to have a server with a single QUdpSocket
in state BoundState
, handling multiple DTLS clients simultaneously:
This implies that QDtlsClientVerifier
does not read directly from a socket, instead it expects the application to read an incoming datagram, extract the sender’s address, and port, and then pass this data to verifyClient()
. To send a HelloVerifyRequest message, verifyClient()
can write to the QUdpSocket
.
Note
QDtlsClientVerifier
does not take ownership of the QUdpSocket
object.
By default QDtlsClientVerifier
obtains its secret from a cryptographically strong pseudorandom number generator.
Note
The default secret is shared by all objects of the classes QDtlsClientVerifier
and QDtls
. Since this can impose security risks, RFC 6347 recommends to change the server’s secret frequently. Please see RFC 6347, section 4.2.1 for hints about possible server implementations. Cookie generator parameters can be set using the class GeneratorParameters
and setCookieGeneratorParameters()
:
def updateServerSecret(self):
newSecret = QByteArray(generateCryptoStrongSecret())
if newSecret.size():
usedCookies.append(newSecret)
verifier.setCookieGeneratorParameters({QCryptographicHash.Sha1, newSecret})
The DTLS server example illustrates how to use QDtlsClientVerifier
in a server application.
See also
QUdpSocket
BoundState
QDtls
verifyClient()
GeneratorParameters
setCookieGeneratorParameters()
cookieGeneratorParameters()
setCookieGeneratorParameters()
cookieGeneratorParameters()
Algorithm
QDtlsError
dtlsError()
dtlsErrorString()
- class PySide6.QtNetwork.QDtlsClientVerifier([parent=None])#
- Parameters:
parent –
PySide6.QtCore.QObject
Constructs a QDtlsClientVerifier
object, parent
is passed to QObject
‘s constructor.
- PySide6.QtNetwork.QDtlsClientVerifier.dtlsError()#
- Return type:
QDtlsError
Returns the last error that occurred or NoError
.
See also
QDtlsError
dtlsErrorString()
- PySide6.QtNetwork.QDtlsClientVerifier.dtlsErrorString()#
- Return type:
str
Returns a textual description of the last error, or an empty string.
See also
- PySide6.QtNetwork.QDtlsClientVerifier.verifiedHello()#
- Return type:
Convenience function. Returns the last ClientHello message that was successfully verified, or an empty QByteArray
if no verification has completed.
See also
- PySide6.QtNetwork.QDtlsClientVerifier.verifyClient(socket, dgram, address, port)#
- Parameters:
socket –
PySide6.QtNetwork.QUdpSocket
dgram –
PySide6.QtCore.QByteArray
address –
PySide6.QtNetwork.QHostAddress
port –
quint16
- Return type:
bool
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
socket
must be a valid pointer, dgram
must be a non-empty datagram, address
cannot be null, broadcast, or multicast. port
is the remote peer’s port. This function returns true
if dgram
contains a ClientHello message with a valid cookie. If no matching cookie is found, verifyClient() will send a HelloVerifyRequest message using socket
and return false
.
The following snippet shows how a server application may check for errors:
if not verifier.verifyClient(socket, message, address, port): switch (verifyClient.dtlsError()) { elif ret == QDtlsError.NoError: # Not verified yet, but no errors found and we have to wait for the next # message from this client. return elif ret == QDtlsError.TlsInitializationError: # This error is fatal, nothing we can do about it. # Probably, quit the server after reporting the error. return elif ret == QDtlsError.UnderlyingSocketError: # There is some problem in QUdpSocket, handle it (see QUdpSocket::error()) return elif ret == QDtlsError.InvalidInputParameters: else: Q_UNREACHABLE()See also
isNull()
isBroadcast()
isMulticast()
setCookieGeneratorParameters()
cookieGeneratorParameters()