# Tributary A tributary is a side-chain, created for a specific multisig instance, used as a verifiable broadcast layer. ## Transactions ### Key Gen Commitments `DkgCommitments` is created when a processor sends the coordinator `key_gen::ProcessorMessage::Commitments`. When all validators participating in a multisig publish `DkgCommitments`, the coordinator sends the processor `key_gen::CoordinatorMessage::Commitments`, excluding the processor's own commitments. ### Key Gen Shares `DkgShares` is created when a processor sends the coordinator `key_gen::ProcessorMessage::Shares`. The coordinator additionally includes its own pair of MuSig nonces, used in a signing protocol to inform Substrate of the key's successful creation. When all validators participating in a multisig publish `DkgShares`, the coordinator sends the processor `key_gen::CoordinatorMessage::Shares`, excluding the processor's own shares and the MuSig nonces. ### Key Gen Confirmation `DkgConfirmed` is created when a processor sends the coordinator `key_gen::ProcessorMessage::GeneratedKeyPair`. The coordinator takes the MuSig nonces they prior associated with this DKG attempt and publishes their signature share. When all validators participating in the multisig publish `DkgConfirmed`, an extrinsic calling `validator_sets::pallet::set_keys` is made to confirm the keys. Setting the keys on the Serai blockchain as such lets it receive `Batch`s, provides a BFT consensus guarantee, and enables accessibility by users. While the tributary itself could offer both the BFT consensus guarantee, and verifiable accessibility to users, they'd both require users access the tributary. Since Substrate must already know the resulting key, there's no value to usage of the tributary as-such, as all desired properties are already offered by Substrate. Note that the keys are confirmed when Substrate emits a `KeyGen` event, regardless of if the Tributary has the expected `DkgConfirmed` transactions. ### External Block When *TODO*, a `ExternalBlock` transaction is provided. This is used to have the group acknowledge and synchronize around the block, without the overhead of voting in its acknowledgment. When a `ExternalBlock` transaction is included, participants are allowed to publish transactions to produce a threshold signature for the block's `Batch`. ### Substrate Block `SubstrateBlock` is provided when the processor sends the coordinator `substrate::ProcessorMessage::SubstrateBlockAck`. When a `SubstrateBlock` transaction is included, participants are allowed to publish transactions for the signing protocols it causes. ### Batch Preprocess `BatchPreprocess` is created when a processor sends the coordinator `coordinator::ProcessorMessage::BatchPreprocess` and an `ExternalBlock` transaction allowing the batch to be signed has already been included on chain. When `t` validators have published `BatchPreprocess` transactions, if the coordinator represents one of the first `t` validators to do so, a `coordinator::ProcessorMessage::BatchPreprocesses` is sent to the processor, excluding the processor's own preprocess. ### Batch Share `BatchShare` is created when a processor sends the coordinator `coordinator::ProcessorMessage::BatchShare`. The relevant `ExternalBlock` transaction having already been included on chain follows from `coordinator::ProcessorMessage::BatchShare` being a response to a message which also has that precondition. When the `t` validators who first published `BatchPreprocess` transactions have published `BatchShare` transactions, if the coordinator represents one of the first `t` validators to do so, a `coordinator::ProcessorMessage::BatchShares` with the relevant shares (excluding the processor's own) is sent to the processor. ### Sign Preprocess `SignPreprocess` is created when a processor sends the coordinator `sign::ProcessorMessage::Preprocess` and a `SubstrateBlock` transaction allowing the transaction to be signed has already been included on chain. When `t` validators have published `SignPreprocess` transactions, if the coordinator represents one of the first `t` validators to do so, a `sign::ProcessorMessage::Preprocesses` is sent to the processor, excluding the processor's own preprocess. ### Sign Share `SignShare` is created when a processor sends the coordinator `sign::ProcessorMessage::Share`. The relevant `SubstrateBlock` transaction having already been included on chain follows from `sign::ProcessorMessage::Share` being a response to a message which also has that precondition. When the `t` validators who first published `SignPreprocess` transactions have published `SignShare` transactions, if the coordinator represents one of the first `t` validators to do so, a `sign::ProcessorMessage::Shares` with the relevant shares (excluding the processor's own) is sent to the processor. ### Sign Completed `SignCompleted` is created when a processor sends the coordinator `sign::ProcessorMessage::Completed`. As soon as 34% of validators send `Completed`, the signing protocol is no longer further attempted. ## Re-attempts Key generation protocols may fail if a validator is malicious. Signing protocols, whether batch or transaction, may fail if a validator goes offline or takes too long to respond. Accordingly, the tributary will schedule re-attempts. These are communicated with `key_gen::CoordinatorMessage::GenerateKey`, `coordinator::CoordinatorMessage::BatchReattempt`, and `sign::CoordinatorMessage::Reattempt`. TODO: Document the re-attempt scheduling logic.