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141 lines
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141 lines
5.0 KiB
Plaintext
Filename: 189-authorize-cell.txt
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Title: AUTHORIZE and AUTHORIZED cells
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Author: George Kadianakis
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Created: 04 Nov 2011
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Status: Obsolete
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1. Overview
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Proposal 187 introduced the concept of the AUTHORIZE cell, a cell
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whose purpose is to make Tor bridges resistant to scanning attacks.
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This is achieved by having the bridge and the client share a secret
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out-of-band and then use AUTHORIZE cells to validate that the
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client indeed knows that secret before proceeding with the Tor
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protocol.
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This proposal specifies the format of the AUTHORIZE cell and also
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introduces the AUTHORIZED cell, a way for bridges to announce to
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clients that the authorization process is complete and successful.
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2. Motivation
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AUTHORIZE cells should be able to perform a variety of
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authorization protocols based on a variety of shared secrets. This
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forces the AUTHORIZE cell to have a dynamic format based on the
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authorization method used.
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AUTHORIZED cells are used by bridges to signal the end of a
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successful bridge client authorization and the beginning of the
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actual link handshake. AUTHORIZED cells have no other use and for
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this reason their format is very simple.
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Both AUTHORIZE and AUTHORIZED cells are to be used under censorship
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conditions and they should look innocuous to any adversary capable
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of monitoring network traffic.
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As an attack example, an adversary could passively monitor the
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traffic of a bridge host, looking at the packets directly after the
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TLS handshake and trying to deduce from their packet size if they
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are AUTHORIZE and AUTHORIZED cells. For this reason, AUTHORIZE and
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AUTHORIZED cells are padded with a random amount of padding before
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sending.
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3. Design
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3.1. AUTHORIZE cell
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The AUTHORIZE cell is a variable-sized cell.
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The generic AUTHORIZE cell format is:
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AuthMethod [1 octet]
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MethodFields [...]
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PadLen [2 octets]
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Padding ['PadLen' octets]
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where:
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'AuthMethod', is the authorization method to be used.
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'MethodFields', is dependent on the authorization Method used. It's
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a meta-field hosting an arbitrary amount of fields.
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'PadLen', specifies the amount of padding in octets.
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Implementations SHOULD pick 'PadLen' to be a random integer from 1
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to 3141 inclusive.
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'Padding', is 'PadLen' octets of random content.
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3.2. AUTHORIZED cell format
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The AUTHORIZED cell is a variable-sized cell.
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The AUTHORIZED cell format is:
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'AuthMethod' [1 octet]
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'PadLen' [2 octets]
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'Padding' ['PadLen' octets]
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where all fields have the same meaning as in section 3.1.
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3.3. Cell parsing
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Implementations MUST ignore the contents of 'Padding'.
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Implementations MUST reject an AUTHORIZE or AUTHORIZED cell where
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the 'Padding' field is not 'PadLen' octets long.
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Implementations MUST reject an AUTHORIZE cell with an 'AuthMethod'
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they don't recognize.
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4. Discussion
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4.1. What's up with the [1,3141] padding bytes range?
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The upper limit is larger than the Ethernet MTU so that AUTHORIZE
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and AUTHORIZED cells are not always transmitted into a single
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packet. Other than that, it's indeed pretty much arbitrary.
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4.2. Why not let the pluggable transports do the padding, like they
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are supposed to do for the rest of the Tor protocol?
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The arguments of section "Alternative design: Just use pluggable
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transports" of proposal 187, apply here as well:
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All bridges who use client authorization will also need padded
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AUTHORIZE and AUTHORIZED cells.
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4.3. How should multiple round-trip authorization protocols be handled?
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Protocols that require multiple round trips between the client and
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the bridge should use AUTHORIZE cells for communication.
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The format of the AUTHORIZE cell is flexible enough to support
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messages from the client to the bridge and the reverse.
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At the end of a successful multiple-round-trip protocol, an
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AUTHORIZED cell must be issued from the bridge to the client.
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4.4. AUTHORIZED seems useless. Why not use VPADDING instead?
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As noted in proposal 187, the Tor protocol uses VPADDING cells for
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padding; any other use of VPADDING makes the Tor protocol kludgy.
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In the future, and in the example case of a v3 handshake, a client
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can optimistically send a VERSIONS cell along with the final
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AUTHORIZE cell of an authorization protocol. That allows the
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bridge, in the case of successful authorization, to also process
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the VERSIONS cell and begin the v3 handshake promptly.
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4.5. What should actually happen when a bridge rejects an AUTHORIZE
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cell?
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When a bridge detects a badly formed or malicious AUTHORIZE cell,
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it should assume that the other side is an adversary scanning for
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bridges. The bridge should then act accordingly to avoid detection.
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This proposal does not try to specify how a bridge can avoid
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detection by an adversary.
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