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116 lines
4.1 KiB
Plaintext
116 lines
4.1 KiB
Plaintext
Filename: 163-detecting-clients.txt
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Title: Detecting whether a connection comes from a client
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Author: Nick Mathewson
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Created: 22-May-2009
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Target: 0.2.2
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Status: Open
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Overview:
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Some aspects of Tor's design require relays to distinguish
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connections from clients from connections that come from relays.
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The existing means for doing this is easy to spoof. We propose
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a better approach.
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Motivation:
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There are at least two reasons for which Tor servers want to tell
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which connections come from clients and which come from other
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servers:
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1) Some exits, proposal 152 notwithstanding, want to disallow
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their use as single-hop proxies.
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2) Some performance-related proposals involve prioritizing
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traffic from relays, or limiting traffic per client (but not
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per relay).
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Right now, we detect client vs server status based on how the
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client opens circuits. (Check out the code that implements the
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AllowSingleHopExits option if you want all the details.) This
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method is depressingly easy to fake, though. This document
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proposes better means.
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Goals:
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To make grabbing relay privileges at least as difficult as just
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running a relay.
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In the analysis below, "using server privileges" means taking any
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action that only servers are supposed to do, like delivering a
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BEGIN cell to an exit node that doesn't allow single hop exits,
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or claiming server-like amounts of bandwidth.
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Passive detection:
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A connection is definitely a client connection if it takes one of
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the TLS methods during setup that does not establish an identity
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key.
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A circuit is definitely a client circuit if it is initiated with
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a CREATE_FAST cell, though the node could be a client or a server.
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A node that's listed in a recent consensus is probably a server.
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A node to which we have successfully extended circuits from
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multiple origins is probably a server.
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Active detection:
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If a node doesn't try to use server privileges at all, we never
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need to care whether it's a server.
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When a node or circuit tries to use server privileges, if it is
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"definitely a client" as per above, we can refuse it immediately.
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If it's "probably a server" as per above, we can accept it.
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Otherwise, we have either a client, or a server that is neither
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listed in any consensus or used by any other clients -- in other
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words, a new or private server.
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For these servers, we should attempt to build one or more test
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circuits through them. If enough of the circuits succeed, the
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node is a real relay. If not, it is probably a client.
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While we are waiting for the test circuits to succeed, we should
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allow a short grace period in which server privileges are
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permitted. When a test is done, we should remember its outcome
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for a while, so we don't need to do it again.
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Why it's hard to do good testing:
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Doing a test circuit starting with an unlisted router requires
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only that we have an open connection for it. Doing a test
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circuit starting elsewhere _through_ an unlisted router--though
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more reliable-- would require that we have a known address, port,
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identity key, and onion key for the router. Only the address and
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identity key are easily available via the current Tor protocol in
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all cases.
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We could fix this part by requiring that all servers support
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BEGIN_DIR and support downloading at least a current descriptor
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for themselves.
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Open questions:
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What are the thresholds for the needed numbers of circuits
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for us to decide that a node is a relay?
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[Suggested answer: two circuits from two distinct hosts.]
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How do we pick grace periods? How long do we remember the
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outcome of a test?
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[Suggested answer: 10 minute grace period; 48 hour memory of
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test outcomes.]
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If we can build circuits starting at a suspect node, but we don't
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have enough information to try extending circuits elsewhere
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through the node, should we conclude that the node is
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"server-like" or not?
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[Suggested answer: for now, just try making circuits through
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the node. Extend this to extending circuits as needed.]
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