tor/doc/spec/proposals/106-less-tls-constraint.txt

113 lines
4.1 KiB
Plaintext
Raw Normal View History

Filename: 106-less-tls-constraint.txt
Title: Checking fewer things during TLS handshakes
Version: $Revision: 12105 $
Last-Modified: $Date: 2007-01-30T07:50:01.643717Z $
Author: Nick Mathewson
Created:
Status: Closed
Overview:
This document proposes that we relax our requirements on the context of
X.509 certificates during initial TLS handshakes.
Motivation:
Later, we want to try harder to avoid protocol fingerprinting attacks.
This means that we'll need to make our connection handshake look closer
to a regular HTTPS connection: one certificate on the server side and
zero certificates on the client side. For now, about the best we
can do is to stop requiring things during handshake that we don't
actually use.
What we check now, and where we check it:
tor_tls_check_lifetime:
peer has certificate
notBefore <= now <= notAfter
tor_tls_verify:
peer has at least one certificate
There is at least one certificate in the chain
At least one of the certificates in the chain is not the one used to
negotiate the connection. (The "identity cert".)
The certificate _not_ used to negotiate the connection has signed the
link cert
tor_tls_get_peer_cert_nickname:
peer has a certificate.
certificate has a subjectName.
subjectName has a commonName.
commonName consists only of characters in LEGAL_NICKNAME_CHARACTERS. [2]
tor_tls_peer_has_cert:
peer has a certificate.
connection_or_check_valid_handshake:
tor_tls_peer_has_cert [1]
tor_tls_get_peer_cert_nickname [1]
tor_tls_verify [1]
If nickname in cert is a known, named router, then its identity digest
must be as expected.
If we initiated the connection, then we got the identity digest we
expected.
USEFUL THINGS WE COULD DO:
[1] We could just not force clients to have any certificate at all, let alone
an identity certificate. Internally to the code, we could assign the
identity_digest field of these or_connections to a random number, or even
not add them to the identity_digest->or_conn map.
[so if somebody connects with no certs, we let them. and mark them as
a client and don't treat them as a server. great. -rd]
[2] Instead of using a restricted nickname character set that makes our
commonName structure look unlike typical SSL certificates, we could treat
the nickname as extending from the start of the commonName up to but not
including the first non-nickname character.
Alternatively, we could stop checking commonNames entirely. We don't
actually _do_ anything based on the nickname in the certificate, so
there's really no harm in letting every router have any commonName it
wants.
[this is the better choice -rd]
[agreed. -nm]
REMAINING WAYS TO RECOGNIZE CLIENT->SERVER CONNECTIONS:
Assuming that we removed the above requirements, we could then (in a later
release) have clients not send certificates, and sometimes and started
making our DNs a little less formulaic, client->server OR connections would
still be recognizable by:
having a two-certificate chain sent by the server
using a particular set of ciphersuites
traffic patterns
probing the server later
OTHER IMPLICATIONS:
If we stop verifying the above requirements:
It will be slightly (but only slightly) more common to connect to a non-Tor
server running TLS, and believe that you're talking to a Tor server (until
you send the first cell).
It will be far easier for non-Tor SSL clients to accidentally connect to
Tor servers and speak HTTPS or whatever to them.
If, in a later release, we have clients not send certificates, and we make
DNs less recognizable:
If clients don't send certs, servers don't need to verify them: win!
If we remove these restrictions, it will be easier for people to write
clients to fuzz our protocol: sorta win!
If clients don't send certs, they look slightly less like servers.
OTHER SPEC CHANGES:
When a client doesn't give us an identity, we should never extend any
circuits to it (duh), and we should allow it to set circuit ID however it
wants.