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@node How to use TLS in application protocols
@section How to use @acronym{TLS} in application protocols
This chapter is intended to provide some hints on how to use the
@acronym{TLS} over simple custom made application protocols. The
discussion below mainly refers to the @acronym{TCP/IP} transport layer
but may be extended to other ones too.
@menu
* Separate ports::
* Upward negotiation::
@end menu
@node Separate ports
@subsection Separate ports
Traditionally @acronym{SSL} was used in application protocols by
assigning a new port number for the secure services. That way two
separate ports were assigned, one for the non secure sessions, and one
for the secured ones. This has the benefit that if a user requests a
secure session then the client will try to connect to the secure port
and fail otherwise. The only possible attack with this method is a
denial of service one. The most famous example of this method is the
famous ``HTTP over TLS'' or @acronym{HTTPS} protocol @xcite{RFC2818}.
Despite its wide use, this method is not as good as it seems. This
approach starts the @acronym{TLS} Handshake procedure just after the
client connects on the ---so called--- secure port. That way the
@acronym{TLS} protocol does not know anything about the client, and
popular methods like the host advertising in HTTP do not
work@footnote{See also the Server Name Indication extension on
@ref{serverind}.}. There is no way for the client to say ``I
connected to YYY server'' before the Handshake starts, so the server
cannot possibly know which certificate to use.
Other than that it requires two separate ports to run a single
service, which is unnecessary complication. Due to the fact that there
is a limitation on the available privileged ports, this approach was
soon obsoleted.
@node Upward negotiation
@subsection Upward negotiation
Other application protocols@footnote{See LDAP, IMAP etc.} use a
different approach to enable the secure layer. They use something
often called as the ``TLS upgrade'' method. This method is quite tricky but it
is more flexible. The idea is to extend the application protocol to
have a ``STARTTLS'' request, whose purpose it to start the TLS
protocols just after the client requests it. This approach
does not require any extra port to be reserved.
There is even an extension to HTTP protocol to support
that method @xcite{RFC2817}.
The tricky part, in this method, is that the ``STARTTLS'' request is
sent in the clear, thus is vulnerable to modifications. A typical
attack is to modify the messages in a way that the client is fooled
and thinks that the server does not have the ``STARTTLS'' capability.
See a typical conversation of a hypothetical protocol:
@quotation
(client connects to the server)
CLIENT: HELLO I'M MR. XXX
SERVER: NICE TO MEET YOU XXX
CLIENT: PLEASE START TLS
SERVER: OK
*** TLS STARTS
CLIENT: HERE ARE SOME CONFIDENTIAL DATA
@end quotation
And see an example of a conversation where someone is acting
in between:
@quotation
(client connects to the server)
CLIENT: HELLO I'M MR. XXX
SERVER: NICE TO MEET YOU XXX
CLIENT: PLEASE START TLS
(here someone inserts this message)
SERVER: SORRY I DON'T HAVE THIS CAPABILITY
CLIENT: HERE ARE SOME CONFIDENTIAL DATA
@end quotation
As you can see above the client was fooled, and was dummy enough to
send the confidential data in the clear.
How to avoid the above attack? As you may have already noticed this
one is easy to avoid. The client has to ask the user before it
connects whether the user requests @acronym{TLS} or not. If the user
answered that he certainly wants the secure layer the last
conversation should be:
@quotation
(client connects to the server)
CLIENT: HELLO I'M MR. XXX
SERVER: NICE TO MEET YOU XXX
CLIENT: PLEASE START TLS
(here someone inserts this message)
SERVER: SORRY I DON'T HAVE THIS CAPABILITY
CLIENT: BYE
(the client notifies the user that the secure connection was not possible)
@end quotation
This method, if implemented properly, is far better than the
traditional method, and the security properties remain the same, since
only denial of service is possible. The benefit is that the server may
request additional data before the @acronym{TLS} Handshake protocol
starts, in order to send the correct certificate, use the correct
password file, or anything else!
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