> APO/IIDs, CTV, and TLUV/EVICT all seem to me to be very specific to
> certain usecases (respectively: Eltoo, congestion control, and
> joinpools)

The enumeration of covenants uses here excludes vaulting,
which I see as far and away the highest utility use for covenants given
that it allows significant derisking of custody for any user of Bitcoin
interested in holding their own coins (which is debatably redundant
with a strict definition of "Bitcoin user" ;).

A lot of why I like CTV is the simple fact that it is a low-risk way of
getting us vaults. That feature in itself is more than enough to
justify (to me) CTV's added validation complexity, which is very modest
- in contrast every other covenant proposal I've seen so far.

On Thu, Apr 21, 2022 at 6:28 PM David A. Harding via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote:
On 21.04.2022 08:39, Matt Corallo wrote:
> We add things to Bitcoin because (a) there's some demonstrated
> use-cases and intent to use the change (which I think we definitely
> have for covenants, but which only barely, if at all, suggests
> favoring one covenant design over any other)

I'm unconvinced about CTV's use cases but others have made reasonable
claims that it will be used.  We could argue about this indefinitely,
but I would love to give CTV proponents an opportunity to prove that a
significant number of people would use it.

> (b) because its
> generally considered aligned with Bitcoin's design and goals, based on
> developer and more broad community response

I think CTV fulfills this criteria.  At least, I can't think of any way
BIP119 itself (notwithstanding activation concerns) violates Bitcoin's
designs and goals.

> (c) because the
> technical folks who have/are wiling to spend time working on the
> specific design space think the concrete proposal is the best design
> we have

This is the criteria that most concerns me.  What if there is no
universal best?  For example, I mentioned in my previous email that I'm
a partisan of OP_CAT+OP_CSFS due to their min-max of implementation
simplicity versus production flexibility.  But one problem is that
spends using them would need to contain a lot of witness data.  In my
mind, they're the best for experimentation and for proving the existence
of demand for more optimized constructions.

OP_TX or OP_TXHASH would likely offer almost as much simplicity and
flexibility but be more efficient onchain.  Does that make them better
than OP_CAT+OP_CSFS?  I don't know how to objectively answer that
question, and I don't feel comfortable with my subjective opinion of
CAT+CSFS being better than OP_TX.

APO/IIDs, CTV, and TLUV/EVICT all seem to me to be very specific to
certain usecases (respectively: Eltoo, congestion control, and
joinpools), providing maximum onchain efficiency for those cases but
requiring contortions or larger witnesses to accomplish other covenant
usecases.  Is their increased efficiency better than more general
constructions like CSFS or TX?  Again, I don't know how to answer that
question objectively, although subjectively I'm ok with optimized
constructions for cases of proven demand.

> , and finally (d) because the implementation is well-reviewed
> and complete.

No comment here; I haven't followed CTV's review progress to know
whether I'd consider it well enough reviewed or not.

> I do not see how we can make an argument for any specific covenant
> under (c) here. We could just as well be talking about
> TLUV/CAT+CHECKSIGFROMSTACK/etc, and nearly anyone who is going to use
> CTV can probably just as easily use those instead - ie this has
> nothing to do with "will people use it".

I'm curious how we as a technical community will be able to determine
which is the best approach.  Again, I like starting simple and general,
gathering real usage data, and then optimizing for demonstrated needs. 
But the simplest and most general approaches seem to be too general for
some people (because they enable recursive covenants), seemingly forcing
us into looking only at application-optimized designs.  In that case, I
think the main thing we want to know about these narrow proposals for
new applications is whether the applications and the proposed consensus
changes will actually receive significant use.  For that, I think we
need some sort of test bed with real paying users, and ideally one that
is as similar to Bitcoin mainnet as possible.

> we
> cannot remove the validation code for something ever, really - you
> still want to be able to validate the historical chain

You and Jeremy both brought up this point.  I understand it and I
should've addressed it better in my OP, but I'm of the opinion that
reverting to earlier consensus rules gives future developers the
*option* of dropping no-longer-used consensus code as a practical
simplification of the same type we've used on several occasions before,
and which is an optional default in newly started Bitcoin Core nodes for
over a decade now (i.e. skipping verification of old signatures).  If
future devs *want* to maintain code from a set of temporary rules used
millions of blocks ago, that's great, but giving them the option to
forget about those rules eliminates one of my concerns about making
consensus changes without fully proven demand for that change.

I just wanted to mention the above in case this discussion comes back to
serious consideration of a transitory soft fork.  For now, I think we
can table a debate over validating reverted rules and focus on how we'll
come to agreement that a particular covenant-related consensus change is
warranted.

Thanks for your thoughtful response,

-Dave
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