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64 lines
5.9 KiB
Markdown
64 lines
5.9 KiB
Markdown
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---
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layout: post
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title: Logs for the MRL Meeting Held on 2019-10-28
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tags: [dev diaries, crypto, research]
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author: asymptotically / Sarang
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---
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# Logs
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**\<sarang\>** GREETINGS
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**\<sgp\_\>** hello!
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**\<sarang\>** I'll give a few moments for others who wish to join
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**\<sarang\>** OK then
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**\<sarang\>** Since suraeNoether is unavailable for this meeting due to an appointment, I'll share my recent work
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**\<sarang\>** I've been working on algorithms and proofs for Triptych, a new transaction protocol
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**\<sarang\>** The goal is to use a single proof to represent multiple inputs at the same time, including balance proving and linking tags
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**\<sarang\>** Everything works great with completeness, zero knowledge, and soundness except for one proof component (the linking tags)
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**\<sarang\>** There's a less efficient version that operates on single inputs, but can be combined for general transactions
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**\<sarang\>** For this single-input version, modified proofs of security seem to work just fine
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**\<sarang\>** For this reason, I'll finalize work on the single-input proving system while considering alternate approaches to finalizing the soundness proof for the multi-input version
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**\<sarang\>** Separately from this, I have a small pull request (PR 6049) for a minor speedup and simplification to the Bulletproofs prover
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**\<sarang\>** Also separately from this, Derek at OSTIF informs me that an audit group is willing to complete the CLSAG review
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**\<sarang\>** JP Aumasson has offered to complete a review of the math and proofs for $7200 (USD), and his new company Teserakt has offered to then complete a code review for as little as $4800
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**\<sarang\>** He says that including dependencies would increase the time (and therefore the cost), possibly significantly
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**\<sarang\>** But the timeline could be before the end of this year, if there are no changes required to the algorithms after the math review
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**\<moneromooo\>** Dependencies, like the src/crypto code ?
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**\<sarang\>** Presumably. I do not have specific details on what his scope is (but will get this information)
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**\<sarang\>** One approach might be to review all the changes \_from MLSAG_, to show that CLSAG is no less secure as a whole than MLSAG
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**\<sarang\>** These changes are fairly minor in the grand scope of the codebase
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**\<sarang\>** I see there being efficiency advantages to having JP (and colleagues) doing both types of review, but this also reduces the total number of eyes on the combined math+code
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**\<sarang\>** That being said, JP knows his stuff
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**\<sarang\>** (he was formerly with Kudelski)
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**\<moneromooo\>** Adding eyes by having Alice do the math and Bob do the code does not provide anything of value over Alice doing both IMHO.
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**\<moneromooo\>** Assuming Alice and Bob have similar eyes and brains and proficiency in the relevant fields etc etc etc.
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**\<sarang\>** So that's my report
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**\<moneromooo\>** Is any of the new protocols being considered still compatible with multisig ?
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**\<sarang\>** Aside from CLSAG, you mean?
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**\<sarang\>** None of them specifically consider it in either algorithms or security model
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**\<sarang\>** but it's on my list for analysis on RCT3 and (eventually) Triptych, since there are some modifications to RCT3 that I wish to consider (more on this later)
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**\<moneromooo\>** I mean tryptich, rct3 and... and.......... the other the name of which escapes me.
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**\<moneromooo\>** lelantus
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**\<sarang\>** Omniring?
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**\<moneromooo\>** Also :)
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**\<sarang\>** Omniring and Lelantus both suffer from some drawbacks at present... Omniring does not support batching, and Lelantus still has a tracing issue unless you remove stealth addressing
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**\<sarang\>** Looking into batch-compatible Omniring-style constructions with other proving systems is a topic for more investigation down the road that is nontrivial
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**\<sarang\>** Is there other research that anyone wishes to present, or other questions?
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**\<moneromooo\>** Also, rather selfishly, would any of them avoid the public-a issue we had for multi user txes ?
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**\<moneromooo\>** (if known offhand)
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**\<sarang\>** public-a?
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**\<moneromooo\>** The problem where users would have to make their a values known to other signers.
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**\<sarang\>** Ah, that's very unclear to me
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**\<sarang\>** FWIW: RCT3, Omniring, and Triptych are agnostic to how output keys are generated (though their security models address particular constructions)
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**\<sarang\>** So my ACTION ITEMS for this week are a bit in flux, mainly because I'll be at World Crypto Conference giving a talk on transaction protocols
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**\<sarang\>** But aside from that, I want to finish the proof modifications (completeness, SHVZK, special soundness) for the single-input version of Triptych (which can be used in a larger protocol to support multi-input transactions), as well as a more efficient linking tag construction that matches what RCT3 and Omniring propose
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**\<sarang\>** I also want to backport some of the ideas from the latest RCT3 update to their older version to compare efficiency
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**\<sarang\>** It's unclear if this could easily be proven secure, or what the efficiency gains would be
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**\<sarang\>** Their update did essentially two things: fix an exploitable flaw due to a particular discrete log relation, and allow for aggregated proofs of multiple inputs
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**\<sarang\>** Unfortunately, the latter means potentially large padding requirements that would also incur computational cost to the verifier
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**\<sarang\>** I want to see how easily the exploit fix could be included in the non-aggregated version... which would avoid this potential verification bloat at the cost of proof size
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**\<sarang\>** I probably won't have time to do so this week, but it's on my list
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**\<sarang\>** Anything else of note to cover before we formally adjourn?
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**\<sarang\>** All right! Thanks to everyone for attending
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**\<sarang\>** Logs will be posted shortly to the GitHub agenda issue
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