eth2.0-specs/specs/_features/eip7732/builder.md

EIP-7732 -- Honest Builder

This is an accompanying document which describes the expected actions of a "builder" participating in the Ethereum proof-of-stake protocol.

• Introduction
• Builders attributions
  • Constructing the payload bid
  • Constructing the BlobSidecars
  • Constructing the execution payload envelope
  • Honest payload withheld messages

Introduction

With the EIP-7732 Fork, the protocol includes new staked participants of the protocol called Builders. While Builders are a subset of the validator set, they have extra attributions that are optional. Validators may opt to not be builders and as such we collect the set of guidelines for those validators that want to act as builders in this document.

Builders attributions

Builders can submit bids to produce execution payloads. They can broadcast these bids in the form of SignedExecutionPayloadHeader objects, these objects encode a commitment to reveal an execution payload in exchange for a payment. When their bids are chosen by the corresponding proposer, builders are expected to broadcast an accompanying SignedExecutionPayloadEnvelope object honoring the commitment.

Thus, builders tasks are divided in two, submitting bids, and submitting payloads.

Constructing the payload bid

Builders can broadcast a payload bid for the current or the next slot's proposer to include. They produce a SignedExecutionPayloadHeader as follows.

1. Set header.parent_block_hash to the current head of the execution chain (this can be obtained from the beacon state as state.last_block_hash).
2. Set header.parent_block_root to be the head of the consensus chain (this can be obtained from the beacon state as hash_tree_root(state.latest_block_header). The parent_block_root and parent_block_hash must be compatible, in the sense that they both should come from the same state by the method described in this and the previous point.
3. Construct an execution payload. This can be performed with an external execution engine with a call to engine_getPayloadV4.
4. Set header.block_hash to be the block hash of the constructed payload, that is payload.block_hash.
5. Set header.gas_limit to be the gas limit of the constructed payload, that is payload.gas_limit.
6. Set header.builder_index to be the validator index of the builder performing these actions.
7. Set header.slot to be the slot for which this bid is aimed. This slot MUST be either the current slot or the next slot.
8. Set header.value to be the value that the builder will pay the proposer if the bid is accepted. The builder MUST have balance enough to fulfill this bid.
9. Set header.kzg_commitments_root to be the hash_tree_root of the blobsbundle.commitments field returned by engine_getPayloadV4.

After building the header, the builder obtains a signature of the header by using

def get_execution_payload_header_signature(
        state: BeaconState, header: ExecutionPayloadHeader, privkey: int) -> BLSSignature:
    domain = get_domain(state, DOMAIN_BEACON_BUILDER, compute_epoch_at_slot(header.slot))
    signing_root = compute_signing_root(header, domain)
    return bls.Sign(privkey, signing_root)

The builder assembles then signed_execution_payload_header = SignedExecutionPayloadHeader(message=header, signature=signature) and broadcasts it on the execution_payload_header global gossip topic.

Constructing the BlobSidecars

[Modified in EIP-7732]

The BlobSidecar container is modified indirectly because the constant KZG_COMMITMENT_INCLUSION_PROOF_DEPTH is modified. The function get_blob_sidecars is modified because the KZG commitments are no longer included in the beacon block but rather in the ExecutionPayloadEnvelope, the builder has to send the commitments as parameters to this function.

def get_blob_sidecars(signed_block: SignedBeaconBlock,
                      blobs: Sequence[Blob],
                      blob_kzg_commitments: List[KZGCommitment, MAX_BLOB_COMMITMENTS_PER_BLOCK],
                      blob_kzg_proofs: Sequence[KZGProof]) -> Sequence[BlobSidecar]:
    block = signed_block.message
    block_header = BeaconBlockHeader(
        slot=block.slot,
        proposer_index=block.proposer_index,
        parent_root=block.parent_root,
        state_root=block.state_root,
        body_root=hash_tree_root(block.body),
    )
    signed_block_header = SignedBeaconBlockHeader(message=block_header, signature=signed_block.signature)
    sidecars: List[BlobSidecar] = []
    for index, blob in enumerate(blobs):
        proof = compute_merkle_proof(
            blob_kzg_commitments,
            get_generalized_index(List[KZGCommitment, MAX_BLOB_COMMITMENTS_PER_BLOCK], index),
        )
        proof += compute_merkle_proof(
            block.body,
            get_generalized_index(
                BeaconBlockBody,
                "signed_execution_payload_header",
                "message",
                "blob_kzg_commitments_root",
            ),
        )
        sidecars.append(
            BlobSidecar(
                index=index,
                blob=blob,
                kzg_commitment=blob_kzg_commitments[index],
                kzg_proof=blob_kzg_proofs[index],
                signed_block_header=signed_block_header,
                kzg_commitment_inclusion_proof=proof
            )
        )
    return sidecars

Constructing the execution payload envelope

When the proposer publishes a valid SignedBeaconBlock containing a signed commitment by the builder, the builder is later expected to broadcast the corresponding SignedExecutionPayloadEnvelope that fulfills this commitment. See below for a special case of an honestly withheld payload.

To construct the execution_payload_envelope the builder must perform the following steps, we alias header to be the committed ExecutionPayloadHeader in the beacon block.

1. Set the payload field to be the ExecutionPayload constructed when creating the corresponding bid. This payload MUST have the same block hash as header.block_hash.
2. Set the builder_index field to be the validator index of the builder performing these steps. This field MUST be header.builder_index.
3. Set beacon_block_root to be the hash_tree_root of the corresponding beacon block.
4. Set blob_kzg_commitments to be the commitments field of the blobs bundle constructed when constructing the bid. This field MUST have a hash_tree_root equal to header.blob_kzg_commitments_root.
5. Set payload_witheld to False.

After setting these parameters, the builder should run process_execution_payload(state, signed_envelope, verify=False) and this function should not trigger an exception.

6. Set state_root to hash_tree_root(state). After preparing the envelope the builder should sign the envelope using:

def get_execution_payload_envelope_signature(
        state: BeaconState, envelope: ExecutionPayloadEnvelope, privkey: int) -> BLSSignature:
    domain = get_domain(state, DOMAIN_BEACON_BUILDER, compute_epoch_at_slot(state.slot))
    signing_root = compute_signing_root(envelope, domain)
    return bls.Sign(privkey, signing_root)

The builder assembles then signed_execution_payload_envelope = SignedExecutionPayloadEnvelope(message=envelope, signature=signature) and broadcasts it on the execution_payload global gossip topic.

Honest payload withheld messages

An honest builder that has seen a SignedBeaconBlock referencing his signed bid, but that block was not timely and thus it is not the head of the builder's chain, may choose to withhold their execution payload. For this the builder should simply act as if it were building an empty payload, without any transactions, withdrawals, etc. The payload.block_hash may not be equal to header.block_hash. The builder may then sets payload_withheld to True. If the PTC sees this message and votes for it, validators will attribute a withholding boost to the builder, which would increase the forkchoice weight of the parent block, favoring it and preventing the builder from being charged for the bid by not revealing.