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405 lines
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405 lines
18 KiB
Plaintext
Filename: 169-eliminating-renegotiation.txt
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Title: Eliminate TLS renegotiation for the Tor connection handshake
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Author: Nick Mathewson
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Created: 27-Jan-2010
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Status: Draft
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Target: 0.2.2
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1. Overview
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I propose a backward-compatible change to the Tor connection
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establishment protocol to avoid the use of TLS renegotiation.
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Rather than doing a TLS renegotiation to exchange certificates
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and authenticate the original handshake, this proposal takes an
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approach similar to Steven Murdoch's proposal 124, and uses Tor
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cells to finish authenticating the parties' identities once the
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initial TLS handshake is finished.
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Terminological note: I use "client" below to mean the Tor
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instance (a client or a relay) that initiates a TLS connection,
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and "server" to mean the Tor instance (a relay) that accepts it.
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2. Motivation and history
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In the original Tor TLS connection handshake protocol ("V1", or
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"two-cert"), parties that wanted to authenticate provided a
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two-cert chain of X.509 certificates during the handshake setup
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phase. Every party that wanted to authenticate sent these
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certificates.
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In the current Tor TLS connection handshake protocol ("V2", or
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"renegotiating"), the parties begin with a single certificate
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sent from the server (responder) to the client (initiator), and
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then renegotiate to a two-certs-from-each-authenticating party.
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We made this change to make Tor's handshake look like a browser
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speaking SSL to a webserver. (See proposal 130, and
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tor-spec.txt.) To tell whether to use the V1 or V2 handshake,
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servers look at the list of ciphers sent by the client. (This is
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ugly, but there's not much else in the ClientHello that they can
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look at.) If the list contains any cipher not used by the V1
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protocol, the server sends back a single cert and expects a
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renegotiation. If the client gets back a single cert, then it
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withholds its own certificates until the TLS renegotiation phase.
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In other words, initiator behavior now looks like this:
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- Begin TLS negotiation with V2 cipher list; wait for
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certificate(s).
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- If we get a certificate chain:
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- Then we are using the V1 handshake. Send our own
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certificate chain as part of this initial TLS handshake
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if we want to authenticate; otherwise, send no
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certificates. When the handshake completes, check
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certificates. We are now mutually authenticated.
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Otherwise, if we get just a single certificate:
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- Then we are using the V2 handshake. Do not send any
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certificates during this handshake.
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- When the handshake is done, immediately start a TLS
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renegotiation. During the renegotiation, expect
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a certificate chain from the server; send a certificate
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chain of our own if we want to authenticate ourselves.
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- After the renegotiation, check the certificates. Then
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send (and expect) a VERSIONS cell from the other side to
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establish the link protocol version.
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And V2 responder behavior now looks like this:
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- When we get a TLS ClientHello request, look at the cipher
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list.
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- If the cipher list contains only the V1 ciphersuites:
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- Then we're doing a V1 handshake. Send a certificate
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chain. Expect a possible client certificate chain in
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response.
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Otherwise, if we get other ciphersuites:
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- We're using the V2 handshake. Send back a single
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certificate and let the handshake complete.
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- Do not accept any data until the client has renegotiated.
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- When the client is renegotiating, send a certificate
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chain, and expect (possibly multiple) certificates in
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reply.
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- Check the certificates when the renegotiation is done.
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Then exchange VERSIONS cells.
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Late in 2009, researchers found a flaw in most applications' use
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of TLS renegotiation: Although TLS renegotiation does not
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reauthenticate any information exchanged before the renegotiation
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takes place, many applications were treating it as though it did,
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and assuming that data sent _before_ the renegotiation was
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authenticated with the credentials negotiated _during_ the
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renegotiation. This problem was exacerbated by the fact that
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most TLS libraries don't actually give you an obvious good way to
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tell where the renegotiation occurred relative to the datastream.
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Tor wasn't directly affected by this vulnerability, but its
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aftermath hurts us in a few ways:
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1) OpenSSL has disabled renegotiation by default, and created
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a "yes we know what we're doing" option we need to set to
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turn it back on. (Two options, actually: one for openssl
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0.9.8l and one for 0.9.8m and later.)
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2) Some vendors have removed all renegotiation support from
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their versions of OpenSSL entirely, forcing us to tell
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users to either replace their versions of OpenSSL or to
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link Tor against a hand-built one.
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3) Because of 1 and 2, I'd expect TLS renegotiation to become
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rarer and rarer in the wild, making our own use stand out
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more.
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3. Design
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3.1. The view in the large
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Taking a cue from Steven Murdoch's proposal 124, I propose that
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we move the work currently done by the TLS renegotiation step
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(that is, authenticating the parties to one another) and do it
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with Tor cells instead of with TLS.
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Using _yet another_ variant response from the responder (server),
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we allow the client to learn that it doesn't need to rehandshake
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and can instead use a cell-based authentication system. Once the
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TLS handshake is done, the client and server exchange VERSIONS
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cells to determine link protocol version (including
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handshake version). If they're using the handshake version
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specified here, the client and server arrive at link protocol
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version 3 (or higher), and use cells to exchange further
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authentication information.
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3.2. New TLS handshake variant
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We already used the list of ciphers from the clienthello to
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indicate whether the client can speak the V2 ("renegotiating")
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handshake or later, so we can't encode more information there.
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We can, however, change the DN in the certificate passed by the
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server back to the client. Currently, all V2 certificates are
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generated with CN values ending with ".net". I propose that we
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have the ".net" commonName ending reserved to indicate the V2
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protocol, and use commonName values ending with ".com" to
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indicate the V3 ("minimal") handshake described herein.
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Now, once the initial TLS handshake is done, the client can look
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at the server's certificate(s). If there is a certificate chain,
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the handshake is V1. If there is a single certificate whose
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subject commonName ends in ".net", the handshake is V2 and the
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client should try to renegotiate as it would currently.
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Otherwise, the client should assume that the handshake is V3+.
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[Servers should _only_ send ".com" addesses, to allow room for
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more signaling in the future.]
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3.3. Authenticating inside Tor
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Once the TLS handshake is finished, if the client renegotiates,
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then the server should go on as it does currently.
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If the client implements this proposal, however, and the server
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has shown it can understand the V3+ handshake protocol, the
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client immediately sends a VERSIONS cell to the server
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and waits to receive a VERSIONS cell in return. We negotiate
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the Tor link protocol version _before_ we proceed with the
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negotiation, in case we need to change the authentication
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protocol in the future.
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Once either party has seen the VERSIONS cell from the other, it
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knows which version they will pick (that is, the highest version
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shared by both parties' VERSIONS cells). All Tor instances using
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the handshake protocol described in 3.2 MUST support at least
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link protocol version 3 as described here.
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On learning the link protocol, the server then sends the client a
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CERT cell and a NETINFO cell. If the client wants to
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authenticate to the server, it sends a CERT cell, an AUTHENTICATE
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cell, and a NETINFO cell, or it may simply send a NETINFO cell if
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it does not want to authenticate.
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The CERT cell describes the keys that a Tor instance is claiming
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to have. It is a variable-length cell. Its payload format is:
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N: Number of certs in cell [1 octet]
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N times:
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CLEN [2 octets]
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Certificate [CLEN octets]
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Any extra octets at the end of a CERT cell MUST be ignored.
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Each certificate has the form:
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CertType [1 octet]
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CertPurpose [1 octet]
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PublicKeyLen [2 octets]
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PublicKey [PublicKeyLen octets]
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NotBefore [4 octets]
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NotAfter [4 octets]
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SignerID [HASH256_LEN octets]
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SignatureLen [2 octets]
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Signature [SignatureLen octets]
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where CertType is 1 (meaning "RSA/SHA256")
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CertPurpose is 1 (meaning "link certificate")
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PublicKey is the DER encoding of the ASN.1 representation
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of the RSA key of the subject of this certificate,
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NotBefore is a time in HOURS since January 1, 1970, 00:00
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UTC before which this certificate should not be
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considered valid.
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NotAfter is a time in HOURS since January 1, 1970, 00:00
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UTC after which this certificate should not be
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considered valid.
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SignerID is the SHA-256 digest of the public key signing
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this certificate
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and Signature is the signature of the all other fields in
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this certificate, using SHA256 as described in proposal
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158.
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While authenticating, a server need send only a self-signed
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certificate for its identity key. (Its TLS certificate already
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contains its link key signed by its identity key.) A client that
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wants to authenticate MUST send two certificates: one containing
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a public link key signed by its identity key, and one self-signed
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cert for its identity.
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Tor instances MUST ignore any certificate with an unrecognized
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CertType or CertPurpose, and MUST ignore extra bytes in the cert.
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The AUTHENTICATE cell proves to the server that the client with
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whom it completed the initial TLS handshake is the one possessing
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the link public key in its certificate. It is a variable-length
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cell. Its contents are:
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SignatureType [2 octets]
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SignatureLen [2 octets]
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Signature [SignatureLen octets]
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where SignatureType is 1 (meaning "RSA-SHA256") and Signature is
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an RSA-SHA256 signature of the HMAC-SHA256, using the TLS master
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secret key as its key, of the following elements:
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- The SignatureType field (0x00 0x01)
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- The NUL terminated ASCII string: "Tor certificate verification"
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- client_random, as sent in the Client Hello
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- server_random, as sent in the Server Hello
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Once the above handshake is complete, the client knows (from the
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initial TLS handshake) that it has a secure connection to an
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entity that controls a given link public key, and knows (from the
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CERT cell) that the link public key is a valid public key for a
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given Tor identity.
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If the client authenticates, the server learns from the CERT cell
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that a given Tor identity has a given current public link key.
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From the AUTHENTICATE cell, it knows that an entity with that
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link key knows the master secret for the TLS connection, and
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hence must be the party with whom it's talking, if TLS works.
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3.4. Security checks
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If the TLS handshake indicates a V2 or V3+ connection, the server
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MUST reject any connection from the client that does not begin
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with either a renegotiation attempt or a VERSIONS cell containing
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at least link protocol version "3". If the TLS handshake
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indicates a V3+ connection, the client MUST reject any connection
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where the server sends anything before the client has sent a
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VERSIONS cell, and any connection where the VERSIONS cell does
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not contain at least link protocol version "3".
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If link protocol version 3 is chosen:
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Clients and servers MUST check that all digests and signatures
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on the certificates in CERT cells they are given are as
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described above.
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After the VERSIONS cell, clients and servers MUST close the
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connection if anything besides a CERT or AUTH cell is sent
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before the
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CERT or AUTHENTICATE cells anywhere after the first NETINFO
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cell must be rejected.
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... [write more here. What else?] ...
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3.5. Summary
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We now revisit the protocol outlines from section 2 to incorporate
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our changes. New or modified steps are marked with a *.
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The new initiator behavior now looks like this:
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- Begin TLS negotiation with V2 cipher list; wait for
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certificate(s).
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- If we get a certificate chain:
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- Then we are using the V1 handshake. Send our own
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certificate chain as part of this initial TLS handshake
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if we want to authenticate; otherwise, send no
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certificates. When the handshake completes, check
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certificates. We are now mutually authenticated.
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Otherwise, if we get just a single certificate:
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- Then we are using the V2 or the V3+ handshake. Do not
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send any certificates during this handshake.
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* When the handshake is done, look at the server's
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certificate's subject commonName.
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* If it ends with ".net", we're doing a V2 handshake:
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- Immediately start a TLS renegotiation. During the
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renegotiation, expect a certificate chain from the
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server; send a certificate chain of our own if we
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want to authenticate ourselves.
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- After the renegotiation, check the certificates. Then
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send (and expect) a VERSIONS cell from the other side
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to establish the link protocol version.
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* If it ends with anything else, assume a V3 or later
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handshake:
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* Send a VERSIONS cell, and wait for a VERSIONS cell
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from the server.
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* If we are authenticating, send CERT and AUTHENTICATE
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cells.
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* Send a NETINFO cell. Wait for a CERT and a NETINFO
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cell from the server.
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* If the CERT cell contains a valid self-identity cert,
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and the identity key in the cert can be used to check
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the signature on the x.509 certificate we got during
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the TLS handshake, then we know we connected to the
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server with that identity. If any of these checks
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fail, or the identity key was not what we expected,
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then we close the connection.
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* Once the NETINFO cell arrives, continue as before.
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And V3+ responder behavior now looks like this:
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- When we get a TLS ClientHello request, look at the cipher
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list.
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- If the cipher list contains only the V1 ciphersuites:
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- Then we're doing a V1 handshake. Send a certificate
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chain. Expect a possible client certificate chain in
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response.
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Otherwise, if we get other ciphersuites:
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- We're using the V2 handshake. Send back a single
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certificate whose subject commonName ends with ".com",
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and let the handshake complete.
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* If the client does anything besides renegotiate or send a
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VERSIONS cell, drop the connection.
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- If the client renegotiates immediately, it's a V2
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connection:
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- When the client is renegotiating, send a certificate
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chain, and expect (possibly multiple certificates in
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reply).
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- Check the certificates when the renegotiation is done.
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Then exchange VERSIONS cells.
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* Otherwise we got a VERSIONS cell and it's a V3 handshake.
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* Send a VERSIONS cell, a CERT cell, an AUTHENTICATE
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cell, and a NETINFO cell.
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* Wait for the client to send cells in reply. If the
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client sends a CERT and an AUTHENTICATE and a NETINFO,
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use them to authenticate the client. If the client
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sends a NETINFO, it is unauthenticated. If it sends
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anything else before its NETINFO, it's rejected.
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4. Numbers to assign
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We need a version number for this link protocol. I've been
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calling it "3".
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We need to reserve command numbers for CERT and AUTH cells. I
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suggest that in link protocol 3 and higher, we reserve command
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numbers 128..240 for variable-length cells. (241-256 we can hold
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for future extensions.
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5. Efficiency
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This protocol add a round-trip step when the client sends a
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VERSIONS cell to the server, and waits for the {VERSIONS, CERT,
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NETINFO} response in turn. (The server then waits for the
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client's {NETINFO} or {CERT, AUTHENTICATE, NETINFO} reply,
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but it would have already been waiting for the client's NETINFO,
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so that's not an additional wait.)
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This is actually fewer round-trip steps than required before for
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TLS renegotiation, so that's a win.
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6. Open questions:
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- Should we use X.509 certificates instead of the certificate-ish
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things we describe here? They are more standard, but more ugly.
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- May we cache which certificates we've already verified? It
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might leak in timing whether we've connected with a given server
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before, and how recently.
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- Is there a better secret than the master secret to use in the
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AUTHENTICATE cell? Say, a portable one? Can we get at it for
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other libraries besides OpenSSL?
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- Does using the client_random and server_random data in the
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AUTHENTICATE message actually help us? How hard is it to pull
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them out of the OpenSSL data structure?
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- Can we give some way for clients to signal "I want to use the
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V3 protocol if possible, but I can't renegotiate, so don't give
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me the V2"? Clients currently have a fair idea of server
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versions, so they could potentially do the V3+ handshake with
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servers that support it, and fall back to V1 otherwise.
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- What should servers that don't have TLS renegotiation do? For
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now, I think they should just get it. Eventually we can
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deprecate the V2 handshake as we did with the V1 handshake.
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