I wonder, what is the reason to pick 0xcb as OP_INTERNALKEY, when we had pseudo-words OP_PUBKEY (assigned to 0xfe) and OP_PUBKEYHASH (assigned to 0xfd). Of course, those opcodes are invalid in the non-Taproot scripts, but they were intended to be used in cases like "OP_PUBKEY OP_CHECKSIG", and "OP_DUP OP_HASH160 OP_PUBKEYHASH OP_EQUALVERIFY OP_CHECKSIG". So, I guess we could reuse those opcodes, and make it a general rule, that OP_PUBKEY picks the next key from the stack (which in this specific case will give us the internal key, but I can imagine leaving some room for extending it in the future, with scripts like "OP_PUBKEY OP_CHECKSIGVERIFY OP_PUBKEY OP_CHECKSIG", where each of those OP_PUBKEYs will give us a different key, and act somewhat like OP_FROMALTSTACK, but working on a separate stack of public keys instead, where the first key of that stack would be the internal Taproot key).

czwartek, 25 kwietnia 2024 o 12:41:04 UTC+2 Brandon Black napisał(a):
Hello list,

I'm currently failing to find the original reference discussion for
adding OP_INTERNALKEY to tapscript. I believe it was in the context of
the SIGHASH_ANYPREVOUT proposal which opted instead to access the
internalkey as a special key with value `0x01`. Regardless, here[0] is a
BIP for adding OP_INTERNALKEY to tapscript to allow access to the
taproot internal key. As noted below, this helps certain classes of
script come closer to matching segwitv0 in byte efficiency, which can be
particularly useful for protocols such as Lightning where the same
signers may need to sign a script path in some cases, and a key path in
others.

------------
## Abstract

This BIP describes a new tapscript opcode (`OP_INTERNALKEY`) which
pushes the taproot internal key to the stack.

## Specification

When verifying taproot script spends having leaf version `0xc0` (as
defined in [BIP 342]), `OP_INTERNALKEY` replaces `OP_SUCCESS203` (0xcb).
`OP_INTERNALKEY` pushes the taproot internal key, as defined in [BIP
341], to the stack.

## Motivation

### Key spend with additional conditions

When building taproot outputs, especially those secured by an aggregate
key representing more than one signer, the parties may wish to
collaborate on signing with the taproot internal key, but only with
additional script restrictions. In this case, `OP_INTERNALKEY` saves 8
vBytes.

### Mitigated control block overhead for scripts using hash locks

In cases where script path spending is not desired, the internal key may
be set to a NUMS point whose bytes would otherwise be required in a
tapscript. This could be used with any hash locked transaction, for
example, to save 8 vBytes.

Note: The internal key must be the X coordinate of a point on the
SECP256K1 curve, so any such hash must be checked and modified until it
is such an X coordinate. This will typically take approximately 2
attempts.

## Reference Implementation

A reference implementation is provided here:

https://github.com/bitcoin/bitcoin/pull/29269

## Backward Compatibility

By constraining the behavior of an OP_SUCCESS opcode, deployment of the
BIP can be done in a backwards compatible, soft-fork manner. If anyone
were to rely on the OP_SUCCESS behavior of `OP_SUCCESS203`,
`OP_INTERNALKEY` would invalidate their spend.

## Deployment

TBD

## Copyright

This document is licensed under the 3-clause BSD license.

[BIP 341]: https://github.com/bitcoin/bips/blob/master/bip-0341.mediawiki

[BIP 342]: https://github.com/bitcoin/bips/blob/master/bip-0342.mediawiki

------------

[0]: https://github.com/bitcoin/bips/pull/1534

--
--Brandon

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