> Ark Can you remind me in what way Ark would benefit from sibling commitments?
Greg On Wednesday, May 27, 2026 at 4:29:30 PM UTC-4 Josh Doman wrote: > Like many others, I'm interested in the OP_CTV and OP_TEMPLATEHASH > proposals. One subtle difference is that OP_TEMPLATEHASH does not enable > sibling-aware covenants, like those used in BitVM, Ark, and (potentially) > LN-Symmetry.[1] This requires a connector output and a sibling prevout > commitment. This way, additional conditions can be added to the covenant, > or it can be invalidated altogether. > > Personally, I find unsatisfactory the method by which OP_CTV achieves this > (by committing to the scriptSigs), and I appreciate the simplicity of > OP_TEMPLATEHASH (TH) and the fact that it requires no additional > pre-computation. > > The purpose of this post isn't to suggest a modification to TH but to > attempt to list all the ways sibling-aware covenants could be achieved. I > found this helpful to understand the tradeoffs that surround this > capability. > > The first five options entail an additional commitment to TH: > 1.* scriptSigs*: precompute a hash of all scriptSigs. > 2. *Dynamic MuHash*: precompute a MuHash commitment to all indexed > prevouts and then remove the prevout at the current index. > 3. *All-but-first*: restrict execution to the first input and commit to > all other prevouts. > 4. *First-only*: commit to the prevout at the first index, if the current > index is non-zero. > 5. *Next-only*: commit to the prevout at the next index, if present. > > An alternative approach is to create a new witness program, which > indirectly enforces a sibling prevout commitment: > 6. * Pay-to-Prevout-Anchor (P2PA):* an anyone-can-spend output that *cannot > be created *unless the output's program is the hash of the prevout at the > same index in that transaction. > > The final options involve new introspection opcodes (not exhaustive): > 7. *OP_TXHASH*: a general introspection opcode that can push a hash that > commits to one or more prevouts at specific indices. > 8. *OP_CAT*: a simple opcode that enables introspection via complex > script. > > I won't go into the pros and cons of each option, except to say that I > think Option 5 strikes a nice balance between minimalism, pragmatism, and > flexibility.[2] > > Mostly, I wanted to list what options I think exist. If I missed any, > please let me know! > > Best, > Josh > > *[1] Eliminating the 2x-delay problem in LN-Symmetry requires a > contract-level relative timelock (CLRT) and a sibling-aware covenant. CLRT > capabilities remain an active area of research and may not exist in the > first iteration of LN-Symmetry.* > > *See: > https://delvingbitcoin.org/t/contract-level-relative-timelocks-or-lets-talk-about-ancestry-proofs-and-singletons/1353 > > <https://delvingbitcoin.org/t/contract-level-relative-timelocks-or-lets-talk-about-ancestry-proofs-and-singletons/1353>* > > *[2] Option 5 (Next-Only) strikes me as a balanced option for several > reasons:* > *- Identical to TH in the common single-input use case.* > *- Solves for the two-input sibling-aware covenant common to L2 protocols.* > *- Leaves the door open to multi-input covenants with no sibling > commitments.* > *- Requires no additional pre-computation.* > > -- You received this message because you are subscribed to the Google Groups "Bitcoin Development Mailing List" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To view this discussion visit https://groups.google.com/d/msgid/bitcoindev/c00f0fdf-950b-4ff8-a502-eeb1be02c510n%40googlegroups.com.
