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0abef43647
svn:r23
133 lines
6.2 KiB
Plaintext
133 lines
6.2 KiB
Plaintext
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Obvious things I'd like to do that won't break anything:
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* Abstract out crypto calls, with the eventual goal of moving
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from openssl to something with a more flexible license.
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* Test suite. We need one.
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* Switch the "return -1" cases that really mean "you've got a bug"
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into calls to assert().
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* Since my OR can handle multiple circuits through a given OP,
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I think it's clear that the OP should pass new create cells through the
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same channel. Thus we can take advantage of the padding we're already
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getting. Does that mean the choose_onion functions should be changed
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to always pick a favorite OR first, so the OP can minimize the number
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of outgoing connections it must sustain?
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* Rewrite the OP to be non-blocking single-process.
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* Add autoconf support.
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Figure out what .h files we're actually using, and how portable
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those are.
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* Since we're using a stream cipher, an adversary's cell arriving with the
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same aci will forever trash our circuit. Since each side picks half
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the aci, for each cell the adversary has a 1/256 chance of trashing a
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circuit. This is really nasty. We want to make ACIs something reasonably
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hard to collide with, such as 20 bytes.
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While we're at it, I'd like more than 4 bits for Version. :)
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* Exit policies. Since we don't really know what protocol is being spoken,
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it really comes down to an IP range and port range that we
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allow/disallow. The 'application' connection can evaluate it and make
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a decision.
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* We currently block on gethostbyname in OR. This is poor. The complex
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solution is to have a separate process that we talk to. There are some
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free software versions we can use, but they'll still be tricky. The
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better answer is to realize that the OP can do the resolution and
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simply hand the OR an IP directly.
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A) This prevents us from doing sneaky things like having the name resolve
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differently at the OR than at the OP. I'm ok with that.
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B) It actually just shunts the "dns lookups block" problem back onto the
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OP. But that's ok too, because the OP doesn't have to be as robust.
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(Heck, can we have the application proxy resolve it, even?)
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* I'd like a cleaner interface for the configuration files, keys, etc.
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Perhaps the next step is a central repository where we download router
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lists? Something that takes the human more out of the loop.
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We should look into a 'topology communication protocol'; there's one
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mentioned in the spec that Paul has, but I haven't looked at it to
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know how complete it is or how well it would work. This would also
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allow us to add new ORs on the fly. Directory servers, a la the ones
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we're developing for Mixminion (see http://mixminion.net/), are also
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a very nice approach to consider.
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* Should ORs rotate their link keys periodically?
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* We probably want OAEP padding for RSA.
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* The parts of the code that say 'FIXME'
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* Clean up the number of places that get to look at prkey.
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* Circuits should expire sometime, say, when circuit->expire triggers?
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Non-obvious things I'd like to do:
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(Many of these topics are inter-related. It's clear that we need more
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analysis before we can guess which approaches are good.)
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* Padding between ORs, and correct padding between OPs. The ORs currently
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send no padding cells between each other. Currently the OP seems to
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send padding at a steady rate, but data cells can come more quickly
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than that. This doesn't provide much protection at all. I'd like to
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investigate a synchronous mixing approach, where cells are sent at fixed
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intervals. We need to investigate the effects of this on DoS resistance
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-- what do we do when we have too many packets? One approach is to
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do traffic shaping rather than traffic padding -- we gain a bit more
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resistance to DoS at the expense of some anonymity. Can we compare this
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analysis to that of the Cottrell Mix, and learn something new? We'll
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need to decide on exactly how the traffic shaping algorithm works.
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* Make the connection buf's grow dynamically as needed. This won't
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really solve the fundamental problem above, though, that a buffer
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can be given an adversary-controlled number of cells.
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* I'd like to add a scheduler of some sort. Currently we only need one
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for sending out padding cells, and if these events are periodic and
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synchronized, we don't yet need a scheduler per se, but rather we just
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need to have poll return every so often and avoid sending cells onto
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the sockets except at the appointed time. We're nearly ready to do
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that as it is, with the separation of write_to_buf() and flush_buf().
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Edge case: what do we do with circuits that receive a destroy
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cell before all data has been sent out? Currently there's only one
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(outgoing) buffer per connection, so since it's crypted, a circuit
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can't recognize its own packet once it's been queued. We could mark
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the circuits for destruction, and go through and cull them once the
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buffer is entirely flushed; but with the synchronous approach above,
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the buffer may never become empty. Perhaps I should implement a callback
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system, so a function can get called when a particular cell gets sent
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out. That sounds very flexible, but might also be overkill.
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* Currently when a connection goes down, it generates a destroy cell
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(either in both directions or just the appropriate one). When a
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destroy cell arrives to an OR (and it gets read after all previous
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cells have arrived), it delivers a destroy cell for the "other side"
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of the circuit: if the other side is an OP or APP, it closes the entire
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connection as well.
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But by "a connection going down", I mean "I read eof from it". Yet
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reading an eof simply means that it promises not to send any more
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data. It may still be perfectly fine receiving data (read "man 2
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shutdown"). In fact, some webservers work that way -- the client sends
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his entire request, and when the webserver reads an eof it begins
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its response. We currently don't support that sort of protocol; we
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may want to switch to some sort of a two-way-destry-ripple technique
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(where a destroy makes its way all the way to the end of the circuit
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before being echoed back, and data stops flowing only when a destroy
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has been received from both sides of the circuit); this extends the
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one-hop-ack approach that Matej used.
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* Reply onions. Hrm.
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