📅 Original date posted:2019-05-23
📝 Original message:On Thu, 23 May 2019 at 11:33, Tamas Blummer via bitcoin-dev
<bitcoin-dev at lists.linuxfoundation.org> wrote:
>
> Difficulty change has profound impact on miner’s production thereby introduce the biggest risk while considering an investment.
> Commodity markets offer futures and options to hedge risks on traditional trading venues. Some might soon list difficulty futures.
>
> I think we could do much better than them natively within Bitcoin.
>
> A better solution could be a transaction that uses nLocktime denominated in block height, such that it is valid after the difficulty adjusted block in the future.
> A new OP_DIFFICULTY opcode would put onto stack the value of difficulty for the block the transaction is included into.
> The output script may then decide comparing that value with a strike which key can spend it.
> The input of the transaction would be a multi-sig escrow of those who entered the bet.
> The winner would broadcast.
If the difficulty can be directly observed by the script language, you
would need to re-evaluate all scripts in unconfirmed transactions
whenever the difficulty changes. This complicates implementation of
mempools, but it also makes reasoning about validity of (chains of)
unconfirmed transactions harder, as an unconfirmed predecessor may
have conditions that change over time.
For things like block time/height, this is solved by not having the
script itself observe the context state directly, but instead having
an assertion on the state outside of script (nLockTime for absolute
time/height and nSequence for relative), and then having opcodes
inside script that observe the assertion (OP_CLTV and OP_CSV). By
doing so, script validity is a single context-free yes or not that can
be evaluated once, and the variable part is just transaction-level
reasoning that doesn't involve a full script interpreter.
Additionally, the supported assertions are restricted in such a way
that if they are true within a particular block, they're also true in
any descendant, removing the complexity of reasoning about validity
(apart from the inevitable reasoning about possible double-spend
before confirmation).
I feel a similar construction is needed for observing block
difficulty. This can be done by either having an opcode that as a side
effect of execution "posts" an assertion (e.g. "difficulty at block
height X is at least Y"), instead of putting the difficulty on the
stack. An alternative is having the assertion be part of the
transaction structure (for example in the annex we propose in
bip-taproot), and having an opcode that observes the difficulty
assertion inside script.
I don't have a strong opinion either way on the usefulness of having
difficulty-dependent transaction/scripts.
Cheers,
--
Pieter
Pieter Wuille [ARCHIVE] /
npub1tj…jtl6r
2023-06-07 18:18:14
in reply to nevent1q…j8zz
Author Public Key
npub1tjephawh7fdf6358jufuh5eyxwauzrjqa7qn50pglee4tayc2ntqcjtl6rPublished at
2023-06-07 18:18:14Event JSON
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"content": "📅 Original date posted:2019-05-23\n📝 Original message:On Thu, 23 May 2019 at 11:33, Tamas Blummer via bitcoin-dev\n\u003cbitcoin-dev at lists.linuxfoundation.org\u003e wrote:\n\u003e\n\u003e Difficulty change has profound impact on miner’s production thereby introduce the biggest risk while considering an investment.\n\u003e Commodity markets offer futures and options to hedge risks on traditional trading venues. Some might soon list difficulty futures.\n\u003e\n\u003e I think we could do much better than them natively within Bitcoin.\n\u003e\n\u003e A better solution could be a transaction that uses nLocktime denominated in block height, such that it is valid after the difficulty adjusted block in the future.\n\u003e A new OP_DIFFICULTY opcode would put onto stack the value of difficulty for the block the transaction is included into.\n\u003e The output script may then decide comparing that value with a strike which key can spend it.\n\u003e The input of the transaction would be a multi-sig escrow of those who entered the bet.\n\u003e The winner would broadcast.\n\nIf the difficulty can be directly observed by the script language, you\nwould need to re-evaluate all scripts in unconfirmed transactions\nwhenever the difficulty changes. This complicates implementation of\nmempools, but it also makes reasoning about validity of (chains of)\nunconfirmed transactions harder, as an unconfirmed predecessor may\nhave conditions that change over time.\n\nFor things like block time/height, this is solved by not having the\nscript itself observe the context state directly, but instead having\nan assertion on the state outside of script (nLockTime for absolute\ntime/height and nSequence for relative), and then having opcodes\ninside script that observe the assertion (OP_CLTV and OP_CSV). By\ndoing so, script validity is a single context-free yes or not that can\nbe evaluated once, and the variable part is just transaction-level\nreasoning that doesn't involve a full script interpreter.\nAdditionally, the supported assertions are restricted in such a way\nthat if they are true within a particular block, they're also true in\nany descendant, removing the complexity of reasoning about validity\n(apart from the inevitable reasoning about possible double-spend\nbefore confirmation).\n\nI feel a similar construction is needed for observing block\ndifficulty. This can be done by either having an opcode that as a side\neffect of execution \"posts\" an assertion (e.g. \"difficulty at block\nheight X is at least Y\"), instead of putting the difficulty on the\nstack. An alternative is having the assertion be part of the\ntransaction structure (for example in the annex we propose in\nbip-taproot), and having an opcode that observes the difficulty\nassertion inside script.\n\nI don't have a strong opinion either way on the usefulness of having\ndifficulty-dependent transaction/scripts.\n\nCheers,\n\n-- \nPieter",
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