[bitcoin-dev] On a new community process to specify covenants

Antoine Riard antoine.riard at gmail.com
Sat Sep 10 00:10:55 UTC 2022


Hi all,

Following up on my July's mail proposing to setup a new community process
dedicated to covenant R&D, after aggregating all the feedbacks received
online/offline, I've started a repository to collect the use-cases and
known design constraints:

https://github.com/ariard/bitcoin-contracting-primitives-wg

One notable change, the proposed process has been renamed to "Bitcoin
Contracting Primitives WG", as covenants sound for few folks to be
inaccurate in terms of scope to designate the whole range of techniques to
enable/empower contracting applications.

So far, I've documented the extension of the vault and payment pools
use-cases. Use-case analysis is following somehow inspired by the reasoning
framework as laid out by RFC 3426 [0]. This is a first shot and all current
descriptions should only be taken as a "best-effort" for now. More
use-cases descriptions coming soon. Hopefully we'll have a set of
"champions" by use-case emerging with time.

There is another ongoing effort to document the primitives themselves:

https://github.com/bitcoinops/bitcoinops.github.io/pull/806

About the starting point for regular meetings, I think the good timing is
somewhere in November, after the upcoming cycle of Bitcoin conferences, as
I guess a good chunk of folks will attend them.

Defining a communication channel is still an open question: IRC, Slack,
Discord, Discourse, ...

As discussed before, softfork activation discussions will be considered as
off-topic and discouraged. This is first and foremost a long-term R&D
effort.

Contributors, reviewers and co-maintainers to the repository are welcome.
All content is licensed under Creative Commons 4.0, though can be
relicensed to another thing if it suits more (like all Bitcoin devs I'm
only part-time lawyer).

Still open to more feedbacks on what the ideal Bitcoin
covenants/contracting primitives community process would looks like.

Cheers,
Antoine

[0] https://www.rfc-editor.org/rfc/rfc3426.html

Le mer. 20 juil. 2022 à 16:42, Antoine Riard <antoine.riard at gmail.com> a
écrit :

> Hi,
>
> Discussions on covenants have been prolific and intense on this mailing
> list and within the wider Bitcoin technical circles, I believe however
> without succeeding to reach consensus on any new set of contracting
> primitives satisfying the requirements of known covenant-enabled use-cases.
> I think that's a fact to deplore as covenants would not only offer vast
> extensions of the capabilities of Bitcoin as a system, i.e enabling new
> types of multi-party contract protocols. But also empowering Bitcoin on its
> fundamental value propositions of store of value (e.g by making vaults more
> flexible) and payment system (e.g by making realistic channel
> factories/payment pools).
>
> If we retain as a covenant definition, a spending constraint restricting
> the transaction to which the spent UTXO can be spent, and enabling to
> program contracts/protocols at the transaction-level instead of the
> script-level, the list of Script primitives proposed during the last years
> has grown large : ANYPREVOUT [0], CHECKSIGFROMSTACK [1],
> CHECK_TEMPLATE_VERIFY [2], TAPROOT_LEAF_UPDATE_VERIFY [3], TXHASH [4],
> PUSHTXDATA [5], CAT [6], EVICT [7], Grafroot delegation [8], SIGHASH_GROUP
> [9], MERKLEBRANCHVERIFY [10] and more than I can't remember. Of course, all
> the listed primitives are at different states of formalization, some
> already fully fleshed-out in BIPs, other still ideas on whiteboard, yet
> they all extend the range of workable multi-party contract protocols.
>
> Indeed this range has grown wild. Without aiming to be exhaustive (I'm
> certainly missing some interesting proposals lost in the abyss of
> bitcointalk.org), we can mention the following use-cases: multi-party
> stateful contracts [11], congestion trees [12], payment pools [13], "eltoo"
> layered commitments [14], programmable vaults [15], multi-events contracts
> [16], blockchain-as-oracle bets [17], spacechains [18], trustless
> collateral lending [19], ...
>
> Minding all those facts, I would say the task of technical evaluation of
> any covenant proposal sounds at least two fold. There is first reasoning
> about the enabled protocols on a range of criterias such as scalability,
> efficiency, simplicity, extensibility, robustness, data confidentiality,
> etc. Asking questions like what are the interactions between layers, if any
> ? Or how robust is the protocol, not just interactivity failure between
>  participant nodes but in the face of mempools spikes or internet
> disruption ? Or if the performance is still acceptable on shared resources
> like blockspace or routing tables if everyone is using this protocol ? Or
> if the protocol minimizes regulatory attack surface or centralization
> vectors ?
>
> Though once this step is achieved, there is still more reasoning work to
> evaluate how good a fit is a proposed Script primitive, the
> efficiency/simplicity/ease to use trade-offs, but also if there are no
> functionality overlap or hard constraints on the use-cases design
> themselves or evolvability w.rt future Script extensions or generalization
> of the opcode operations.
>
> Moreover, if you would like your evaluation of a covenant proposal to be
> complete, I don't believe you can squeeze the implications with the mempool
> rules and combination with any consistent fee-bumping strategy. To say
> things politely, those areas have been a quagmire of vulnerabilities,
> attacks and defects for second-layers Bitcoin protocols during the last
> years [20].
>
> Considering the abundant problem-space offered by covenants, I believe
> there is a reasonable groundwork to pursue in building the use-cases
> understanding (e.g prototype, pseudo-specification, documentation, ...) and
> building consensus on the framework of criterias on which to evaluate them
> [21]. It might raise a really high bar for any covenant proposal compared
> to previous softforks, however I think it would adequately reflect the
> growth in Bitcoin complexity and funds at stakes during the last years.
>
> Moving towards this outcome, I would like to propose a new covenant open
> specification process, in the same spirit as we have with the BOLTs or
> dlcspecs. We would have regular meetings (biweekly/monthly ?), an open
> agenda where topics of discussion can be pinned in advance and
> documentation artifacts would be built with time driven by consensus (e.g
> 1st phase could be to collect, pseudo-specify and find champion(s) for
> known use-cases ?) and no timeframe. Starting date could be September /
> October / November (later, 2023 ?), giving time for anyone interested in
> such a covenant process to allocate development and contribution bandwidth
> in function of their involvement interest.
>
> Learning from the good but specially from the bad with setting up the L2
> onchain support meetings last year, I think it would be better to keep the
> agenda open, loose and free as much we can in a "burn-the-roadmap" spirit,
> avoiding to create a sense of commitment or perceived signaling in the
> process participants towards any covenant solution. I would guess things to
> be experimental and evolutionary and folks to spend the first meetings
> actually to express what they would like the covenant process to be about
> (and yes that means if you're a domain expert and you find the pace of
> things too slow sometimes, you have to learn to handle your own
> frustration...).
>
> In a "decentralize-everything" fashion, I believe it would be good to have
> rotating meeting chairs and multiple covenant documentation archivists. I'm
> super happy to spend the time and energy bootstrapping well such covenant
> process effort, though as it's Bitcoin learn to decentralize yourself.
>
> I'm really curious what the outcome of such a covenant process would look
> like. We might end up concluding that complex covenants are too unsafe by
> enabling sophisticated MEV-attacks against LN [22]. Or even if there is an
> emergent technical consensus, it doesn't mean there is a real market
> interest for such covenant solutions. That said, I'm not sure if it's
> really a subject of concern when you're reasoning as a scientist/engineer
> and you value technical statements in terms of accuracy, systematic
> relevance and intrinsic interest.
>
> Overall, my motivation to kick-start such a process stays in the fact that
> covenants are required building blocks to enable scalable payments pools
> design like CoinPool. I believe payments pools are a) cool and b) a good
> shot at scaling Bitcoin as a payment system once we have reached
> scalability limits of Lightning, still under the same security model for
> users. However, as a community we might sense it's not the good timing for
> a covenant process. I'm really fine with that outcome as there are still
> holes to patch in LN to keep me busy enough for the coming years.
>
> Zooming out, I believe with any discussion about covenants or other soft
> forks, the hard part isn't about coming up with the best technical solution
> to a set of problems but in the iterative process where all voices are
> listened to reach (or not) consensus on what is actually meant by "best"
> and if the problems are accurate. The real physics of Bitcoin is the
> physics of people. It's a work of patience.
>
> Anyways, eager to collect feedbacks on what the ideal covenant
> specification process looks like. As usual, all opinions and mistakes are
> my own.
>
> Cheers,
> Antoine
>
> [0] https://github.com/bitcoin/bips/blob/master/bip-0118.mediawiki
> [1] https://bitcoinops.org/en/topics/op_checksigfromstack/
> [2] https://github.com/bitcoin/bips/blob/master/bip-0119.mediawiki
> [3]
> https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2021-September/019419.html
> [4]
> https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2022-January/019813.html
> [5] https://github.com/jl2012/bips/blob/vault/bip-0ZZZ.mediawiki
> [6] https://medium.com/blockstream/cat-and-schnorr-tricks-i-faf1b59bd298
> [7]
> https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2022-February/019926.html
> [8]
> https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2018-February/015700.html
> [9]
> https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2021-July/019243.html
> [10] https://github.com/bitcoin/bips/blob/master/bip-0116.mediawiki
> [11]
> https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2022-January/019808.html
> [12]
> https://github.com/bitcoin/bips/blob/master/bip-0119.mediawiki#Congestion_Controlled_Transactions
> [13]
> https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2020-June/017964.html
> [14]
> https://lists.linuxfoundation.org/pipermail/lightning-dev/2020-January/002448.html
> [15] http://fc17.ifca.ai/bitcoin/papers/bitcoin17-final28.pdf
> [16]
> https://github.com/ariard/talk-slides/blob/master/advanced-contracts.pdf
> [17] https://blog.bitmex.com/taproot-you-betcha/
> [18]
> https://gist.github.com/RubenSomsen/c9f0a92493e06b0e29acced61ca9f49a#spacechains
> [19] https://gist.github.com/RubenSomsen/bf08664b3d174551ab7361ffb835fcef
> [20] https://github.com/jamesob/mempool.work
> [21] https://github.com/bitcoinops/bitcoinops.github.io/pull/806
> [22] https://blog.bitmex.com/txwithhold-smart-contracts/
>
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