Such a construct would present dangerous implications to the fungibility of individual UTXOs by introducing a totally different risk model in being paid with such a coin compared to any other coin not encumbered by such a condition

How is that different from being paid in an altcoin?
It seems to me that being able to say "sorry, your money isn't good here" is at the heart of Bitcoin's security (similarly to enforcing the network rules with your node). If someone can coerce you into using another currency, you've already lost.

Now there is left the influence on the system of an user being coerced into using gov coin (on another chain) or an encumbered bit coin. Sure the latter would decrease the supply available, but that's already possible to do today.

------- Original Message -------
Le vendredi 11 février 2022 à 7:12 PM, digital vagabond via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> a écrit :
This is Shinobi (can verify out of band at @brian_trollz on Twitter, I only signed up to the list with this email to read initially, but feel like I should reply to this as I think I am one of the only people in this space who has voiced concerns with recursive covenants).

My concerns don't really center specifically around recursion itself necessarily, but unbounded recursion in combination with too much generality/flexibility in what types of conditions future UTXOs can be encumbered with based on the restriction of such covenants. Forgive the hand waiving arguments without getting into specific opcodes, but I would summarize my concerns with a hypothetical construct that I believe would be incredibly damaging to fungibility. Imagine a covenant design that was flexible enough to create an encumbrance like this: a script specifies a specific key in a multisig controlled by some authority figure (or a branch in the script that would allow unilateral control by such an authority), and the conditions of the covenant would perpetually require than any spend from the covenant can only be sent to a script involving that key from said authority, preventing by consensus any removal of that central authorities involvement in control over that UTXO. Such a construct would present dangerous implications to the fungibility of individual UTXOs by introducing a totally different risk model in being paid with such a coin compared to any other coin not encumbered by such a condition, and also potentially introduce a shift in the scope of what a 51% attack could accomplish in terms of permanent consequences attempting to coerce coins into such covenants, as opposed to right now only being able to accomplish censorship or temporary network disruption.

I know that such a walled garden could easily be constructed now with multisig and restrictions on where coins can be withdrawn to from exchanges or whatever place they initially purchased from, as is demonstrated by the implementation of the Asset Management Platform by Blockstream for use on Liquid with regulated equity tokens, but I think the important distinction between such non-consensus system designed to enforce such restrictions and a recursive covenant to accomplish the same is that in the case of a multisig/non-consensus based system, exit from that restriction is still possible under the consensus rules of the protocol. If such a construct was possible to build with a recursive covenant enforced by consensus, coins encumbered by such a covenant would literally be incapable of escaping those restrictions without hardforking the protocol, leaving any such UTXOs permanently non-fungible with ones not encumbered by such conditions.

I'm not that deeply familiar with all the working pieces involved in the recent TXHASH + CSFS proposal, and whether such a type of overly (IMO) generalized recursion would be possible to construct, but one of the reasons CTV does not bother me in terms of such concerns is the inability to infinitely recurse in such a generalized way given the requirements to exactly specify the destination of future spends in constructing a chain of CTV encumbrances. I'd very much appreciate any feedback on my concerns, and if this side tracks the discussion I apologize, but I felt given the issue has been mentioned a few times in this thread it was appropriate for me to voice the concerns here so they could be addressed directly.

On Fri, Feb 11, 2022 at 11:42 AM James O'Beirne via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote:
I don't oppose recursive covenants per se, but in prior posts I have expressed uncertainty about proposals that enable more "featureful" covenants by adding more kinds of computation into bitcoin script.

Not that anyone here is necessarily saying otherwise, but I am very interested in limiting operations in bitcoin script to "verification" (vs. "computation") to the extent practical, and instead encouraging general computation be done off-chain. This of course isn't a new observation and I think the last few years have been very successful to that effect, e.g. the popularity of the "scriptless scripts" idea and Taproot's emphasis on embedding computational artifacts in key tweaks.

My (maybe unfounded?) worry about opcodes like OP_CAT and OP_TX is that more logic will live in script than is necessary, and so the burden to verify the chain may grow and the extra "degrees of freedom" in script may make it harder to reason about. But I guess at this point there aren't alternative means to construct new kinds of sighashes that are necessary for some interesting covenants.

One thing I like about CTV is that it buys a lot of functionality without increasing the "surface area" of script's design. In general I think there is a lot to be said for this "jets"-style approach[0] of codifying the script operations that you'd actually want to do into single opcodes. This adds functionality while introducing minimal surface area to script, giving script implementers more flexibility for, say, optimization. But of course this comes at the cost of precluding experimentation, and probably requiring more soft-forking. Though whether the place for script experimentation using more general-purpose opcodes on the main chain is another interesting debate...

Sorry for going a little off-topic there.



On Thu, Feb 10, 2022 at 7:55 PM David A. Harding via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote:
On Mon, Feb 07, 2022 at 08:34:30PM -0800, Jeremy Rubin via bitcoin-dev wrote:
> Whether [recursive covenants] is an issue or not precluding this sort
> of design or not, I defer to others.

For reference, I believe the last time the merits of allowing recursive
covenants was discussed at length on this list[1], not a single person
replied to say that they were opposed to the idea.

I would like to suggest that anyone opposed to recursive covenants speak
for themselves (if any intelligent such people exist). Citing the risk
of recursive covenants without presenting a credible argument for the
source of that risk feels to me like (at best) stop energy[2] and (at
worst) FUD.

-Dave

[1] https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2021-July/019203.html
[2] http://radio-weblogs.com/0107584/stories/2002/05/05/stopEnergyByDaveWiner.html
(thanks to AJ who told me about stop energy one time when I was
producing it)

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