📅 Original date posted:2020-09-18
📝 Original message:Conceptually this is so simple and explicit it almost seems like an obvious
primitive.
Glossing over some of the design/policy decisions...
I wonder what the real-world privacy implications are due to the
dependencies now being encoded on-chain rather than requiring some effort
to watch the mempool?
Cory
On Fri, Sep 18, 2020, 20:52 Jeremy via bitcoin-dev <
bitcoin-dev at lists.linuxfoundation.org> wrote:
> Hi Bitcoin Devs,
>
>
> I'd like to share with you a draft proposal for a mechanism to replace CPFP and RBF for
> increasing fees on transactions in the mempool that should be more robust against attacks.
>
> A reference implementation demonstrating these rules is available
> [here](https://github.com/bitcoin/bitcoin/compare/master...JeremyRubin:subsidy-tx) for those who
> prefer to not read specs.
>
> Should the mailing list formatting be bungled, it is also available as a gist [here](https://gist.github.com/JeremyRubin/92a9fc4c6531817f66c2934282e71fdf).
>
> Non-Destructive TXID Dependencies for Fee Sponsoring
> ====================================================
>
> This BIP proposes a general purpose mechanism for expressing non-destructive (i.e., not requiring
> the spending of a coin) dependencies on specific transactions being in the same block that can be
> used to sponsor fees of remote transactions.
>
> Motivation
> ==========
>
> The mempool has a variety of protections and guards in place to ensure that miners are economic and
> to protect the network from denial of service.
>
> The rough surface of these policies has some unintended consequences for second layer protocol
> developers. Applications are either vulnerable to attacks (such as transaction pinning) or must go
> through great amounts of careful protocol engineering to guard against known mempool attacks.
>
> This is insufficient because if new attacks are found, there is limited ability to deploy fixes for
> them against deployed contract instances (such as open lightning channels). What is required is a
> fully abstracted primitive that requires no special structure from an underlying transaction in
> order to increase fees to confirm the transactions.
>
> Consensus Specification
> =======================
>
> If a transaction's last output's scripPubKey is of the form OP_VER followed by n*32 bytes, where
> n>1, it is interpreted as a vector of TXIDs (Sponsor Vector). The Sponsor Vector TXIDs must also be
> in the block the transaction is validated in, with no restriction on order or on specifying a TXID
> more than once. This can be accomplished simply with the following patch:
>
>
> ```diff
> +
> + // Extract all required fee dependencies
> + std::unordered_set<uint256, SaltedTxidHasher> dependencies;
> +
> + const bool dependencies_enabled = VersionBitsState(pindex->pprev, chainparams.GetConsensus(), Consensus::DeploymentPos::DEPLOYMENT_TXID_DEPENDENCY, versionbitscache) == ThresholdState::ACTIVE;
> + if (dependencies_enabled) {
> + for (const auto& tx : block.vtx) {
> + // dependency output is if the last output of a txn is OP_VER followed by a sequence of 32*n
> + // bytes
> + // vout.back() must exist because it is checked in CheckBlock
> + const CScript& dependencies_script = tx->vout.back().scriptPubKey;
> + // empty scripts are valid, so be sure we have at least one byte
> + if (dependencies_script.size() && dependencies_script[0] == OP_VER) {
> + const size_t size = dependencies_script.size() - 1;
> + if (size % 32 == 0 && size > 0) {
> + for (auto start = dependencies_script.begin() +1, stop = start + 32; start < dependencies_script.end(); start = stop, stop += 32) {
> + uint256 txid;
> + std::copy(start, stop, txid.begin());
> + dependencies.emplace(txid);
> + }
> + }
> + // No rules applied otherwise, open for future upgrades
> + }
> + }
> + if (dependencies.size() > block.vtx.size()) {
> + return state.Invalid(BlockValidationResult::BLOCK_CONSENSUS, "bad-dependencies-too-many-target-txid");
> + }
> + }
> +
> for (unsigned int i = 0; i < block.vtx.size(); i++)
> {
> const CTransaction &tx = *(block.vtx[i]);
> + if (!dependencies.empty()) {
> + dependencies.erase(tx.GetHash());
> + }
>
> nInputs += tx.vin.size();
>
> @@ -2190,6 +2308,9 @@ bool CChainState::ConnectBlock(const CBlock& block, BlockValidationState& state,
> }
> UpdateCoins(tx, view, i == 0 ? undoDummy : blockundo.vtxundo.back(), pindex->nHeight);
> }
> + if (!dependencies.empty()) {
> + return state.Invalid(BlockValidationResult::BLOCK_CONSENSUS, "bad-dependency-missing-target-txid");
> + }
> ```
>
> ### Design Motivation
> The final output of a transaction is an unambiguous location to attach metadata to a transaction
> such that the data is available for transaction validation. This data could be committed to anywhere,
> with added implementation complexity, or in the case of Taproot annexes, incompatibility with
> non-Taproot addresses (although this is not a concern for sponsoring a transaction that does not use
> Taproot).
>
> A bare scriptPubKey prefixed with OP_VER is defined to be invalid in any context, and is trivially
> provably unspendable and therefore pruneable.
>
> If there is another convenient place to put the TXID vector, that's fine too.
>
> As the output type is non-standard, unupgraded nodes will by default not include Transactions
> containing them in the mempool, limiting risk of an upgrade via this mechanism.
>
> Policy Specification
> ====================
>
> The mechanism proposed above is a general specification for inter-transaction dependencies.
>
> In this BIP, we only care to ensure a subset of behavior sufficient to replace CPFP and RBF for fee
> bumping.
>
> Thus we restrict the mempool policy such that:
>
> 1. No Transaction with a Sponsor Vector may have any child spends; and
> 1. No Transaction with a Sponsor Vector may have any unconfirmed parents; and
> 1. The Sponsor Vector must have exactly 1 entry; and
> 1. The Sponsor Vector's entry must be present in the mempool; and
> 1. Every Transaction may have exactly 1 sponsor in the mempool; except
> 1. Transactions with a Sponsor Vector may not be sponsored.
>
>
> The mempool treats ancestors and descendants limits as follows:
>
> 1. Sponsors are counted as children transactions for descendants; but
> 1. Sponsoring transactions are exempted from any limits saturated at the time of submission.
>
> This ensures that within a given package, every child transaction may have a sponsor, but that the
> mempool prefers to not accept new true children while there are parents that can be cleared.
>
> To prevent garbage sponsors, we also require that:
>
> 1. The Sponsor's feerate must be greater than the Sponsored's ancestor fee rate
>
> We allow one Sponsor to replace another subject to normal replacement policies, they are treated as
> conflicts.
>
>
> ### Design Motivation
>
> There are a few other ways to use OP_VER sponsors that are not included. For instance, one could
> make child chains that are only valid if their parent is in the same block (this is incompatible
> with CTV, exercise left to reader). These use cases are in a sense incidental to the motivation
> of this mechanism, and add a lot of implementation complexity.
>
> What is wanted is a minimal mechanism that allows arbitrary unconnected third parties to attach
> fees to an arbitrary transaction. The set of rules given tightly bounds how much extra work the
> mempool might have to do to account for the new sponsors in the worst case, while providing a "it
> always works" API for end users that is not subject to traditional issues around pinning.
>
> Eventually, rational miners may wish to permit multiple sponsor targets, or multiple sponsoring
> transactions, but they are not required for the mechanism to work. This is a benefit of the
> minimality of the consensus rule, it is compatible with future policy should it be implemented.
>
>
> #### Attack Analysis of new Policy
>
> In the worst case the new policy can lead to a 1/2 reduction in the number of children allowed
> (e.g., if there are 13 children submitted, then 12 sponsors, the 25 child limit will saturate
> before) and a 2x increase in the maximum children (e.g., if there are 25 children submitted, and
> then each are sponsored). Importantly, even in the latter attack scenario, the DoS surface is not
> great because the sponsor transactions have no children nor parents.
>
> #### Package Relay/Orphan Pool
>
> Future policy work might be able to insert sponsors into a special sponsor pool with an eviction
> policy that would enable sponsors to be queried and tracked for transactions that have too low fee
> to enter the mempool in the first place. This is treated as a separate concern, as any strides on
> package relay generally should be able to support sponsors trivially.
>
> Reference Implementation
> ========================
> A reference implementation demonstrating these rules is available
> [here](https://github.com/bitcoin/bitcoin/compare/master...JeremyRubin:subsidy-tx). This is a best
> effort implementation, but has not been carefully audited for correctness and likely diverges from
> this document in ways that should either be reflected in this document or amended in the code.
>
>
> Best,
>
> Jeremy
>
>
>
> --
> @JeremyRubin <https://twitter.com/JeremyRubin>
> <https://twitter.com/JeremyRubin>
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