538 lines
20 KiB
Rust
538 lines
20 KiB
Rust
//! This module contains various functions for producing and verifying `ExecutionPayloads`.
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//!
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//! Lighthouse tends to do payload tasks in *slightly* different locations to the specification.
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//! This is because some tasks involve calling out to external servers and it's nice to keep those
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//! away from our pure `state_processing` and `fork_choice` crates.
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//!
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//! So, this module contains functions that one might expect to find in other crates, but they live
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//! here for good reason.
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use crate::otb_verification_service::OptimisticTransitionBlock;
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use crate::{
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BeaconChain, BeaconChainError, BeaconChainTypes, BlockError, BlockProductionError,
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ExecutionPayloadError,
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};
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use execution_layer::{BuilderParams, PayloadStatus};
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use fork_choice::{InvalidationOperation, PayloadVerificationStatus};
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use proto_array::{Block as ProtoBlock, ExecutionStatus};
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use slog::debug;
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use slot_clock::SlotClock;
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use state_processing::per_block_processing::{
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compute_timestamp_at_slot, is_execution_enabled, is_merge_transition_complete,
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partially_verify_execution_payload,
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};
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use std::sync::Arc;
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use tokio::task::JoinHandle;
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use tree_hash::TreeHash;
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use types::*;
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pub type PreparePayloadResult<Payload> = Result<Payload, BlockProductionError>;
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pub type PreparePayloadHandle<Payload> = JoinHandle<Option<PreparePayloadResult<Payload>>>;
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#[derive(PartialEq)]
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pub enum AllowOptimisticImport {
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Yes,
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No,
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}
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/// Used to await the result of executing payload with a remote EE.
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pub struct PayloadNotifier<T: BeaconChainTypes> {
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pub chain: Arc<BeaconChain<T>>,
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pub block: Arc<SignedBeaconBlock<T::EthSpec>>,
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payload_verification_status: Option<PayloadVerificationStatus>,
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}
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impl<T: BeaconChainTypes> PayloadNotifier<T> {
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pub fn new(
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chain: Arc<BeaconChain<T>>,
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block: Arc<SignedBeaconBlock<T::EthSpec>>,
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state: &BeaconState<T::EthSpec>,
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) -> Result<Self, BlockError<T::EthSpec>> {
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let payload_verification_status = if is_execution_enabled(state, block.message().body()) {
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// Perform the initial stages of payload verification.
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//
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// We will duplicate these checks again during `per_block_processing`, however these checks
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// are cheap and doing them here ensures we protect the execution engine from junk.
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partially_verify_execution_payload(
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state,
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block.message().execution_payload()?,
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&chain.spec,
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)
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.map_err(BlockError::PerBlockProcessingError)?;
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None
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} else {
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Some(PayloadVerificationStatus::Irrelevant)
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};
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Ok(Self {
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chain,
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block,
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payload_verification_status,
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})
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}
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pub async fn notify_new_payload(
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self,
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) -> Result<PayloadVerificationStatus, BlockError<T::EthSpec>> {
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if let Some(precomputed_status) = self.payload_verification_status {
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Ok(precomputed_status)
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} else {
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notify_new_payload(&self.chain, self.block.message()).await
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}
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}
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}
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/// Verify that `execution_payload` contained by `block` is considered valid by an execution
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/// engine.
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///
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/// ## Specification
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///
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/// Equivalent to the `notify_new_payload` function in the merge Beacon Chain Changes, although it
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/// contains a few extra checks by running `partially_verify_execution_payload` first:
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///
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/// https://github.com/ethereum/consensus-specs/blob/v1.1.9/specs/bellatrix/beacon-chain.md#notify_new_payload
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async fn notify_new_payload<'a, T: BeaconChainTypes>(
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chain: &Arc<BeaconChain<T>>,
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block: BeaconBlockRef<'a, T::EthSpec>,
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) -> Result<PayloadVerificationStatus, BlockError<T::EthSpec>> {
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let execution_payload = block.execution_payload()?;
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let execution_layer = chain
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.execution_layer
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.as_ref()
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.ok_or(ExecutionPayloadError::NoExecutionConnection)?;
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let new_payload_response = execution_layer
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.notify_new_payload(&execution_payload.execution_payload)
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.await;
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match new_payload_response {
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Ok(status) => match status {
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PayloadStatus::Valid => Ok(PayloadVerificationStatus::Verified),
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PayloadStatus::Syncing | PayloadStatus::Accepted => {
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Ok(PayloadVerificationStatus::Optimistic)
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}
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PayloadStatus::Invalid {
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latest_valid_hash,
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ref validation_error,
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} => {
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debug!(
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chain.log,
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"Invalid execution payload";
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"validation_error" => ?validation_error,
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"latest_valid_hash" => ?latest_valid_hash,
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"execution_block_hash" => ?execution_payload.execution_payload.block_hash,
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"root" => ?block.tree_hash_root(),
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"graffiti" => block.body().graffiti().as_utf8_lossy(),
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"proposer_index" => block.proposer_index(),
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"slot" => block.slot(),
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"method" => "new_payload",
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);
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// latest_valid_hash == 0 implies that this was the terminal block
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// Hence, we don't need to run `BeaconChain::process_invalid_execution_payload`.
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if latest_valid_hash == ExecutionBlockHash::zero() {
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return Err(ExecutionPayloadError::RejectedByExecutionEngine { status }.into());
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}
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// This block has not yet been applied to fork choice, so the latest block that was
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// imported to fork choice was the parent.
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let latest_root = block.parent_root();
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chain
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.process_invalid_execution_payload(&InvalidationOperation::InvalidateMany {
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head_block_root: latest_root,
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always_invalidate_head: false,
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latest_valid_ancestor: latest_valid_hash,
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})
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.await?;
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Err(ExecutionPayloadError::RejectedByExecutionEngine { status }.into())
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}
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PayloadStatus::InvalidBlockHash {
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ref validation_error,
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} => {
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debug!(
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chain.log,
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"Invalid execution payload block hash";
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"validation_error" => ?validation_error,
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"execution_block_hash" => ?execution_payload.execution_payload.block_hash,
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"root" => ?block.tree_hash_root(),
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"graffiti" => block.body().graffiti().as_utf8_lossy(),
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"proposer_index" => block.proposer_index(),
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"slot" => block.slot(),
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"method" => "new_payload",
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);
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// Returning an error here should be sufficient to invalidate the block. We have no
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// information to indicate its parent is invalid, so no need to run
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// `BeaconChain::process_invalid_execution_payload`.
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Err(ExecutionPayloadError::RejectedByExecutionEngine { status }.into())
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}
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},
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Err(e) => Err(ExecutionPayloadError::RequestFailed(e).into()),
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}
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}
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/// Verify that the block which triggers the merge is valid to be imported to fork choice.
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///
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/// ## Errors
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///
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/// Will return an error when using a pre-merge fork `state`. Ensure to only run this function
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/// after the merge fork.
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///
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/// ## Specification
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///
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/// Equivalent to the `validate_merge_block` function in the merge Fork Choice Changes:
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///
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/// https://github.com/ethereum/consensus-specs/blob/v1.1.5/specs/merge/fork-choice.md#validate_merge_block
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pub async fn validate_merge_block<'a, T: BeaconChainTypes>(
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chain: &Arc<BeaconChain<T>>,
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block: BeaconBlockRef<'a, T::EthSpec>,
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allow_optimistic_import: AllowOptimisticImport,
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) -> Result<(), BlockError<T::EthSpec>> {
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let spec = &chain.spec;
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let block_epoch = block.slot().epoch(T::EthSpec::slots_per_epoch());
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let execution_payload = block.execution_payload()?;
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if spec.terminal_block_hash != ExecutionBlockHash::zero() {
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if block_epoch < spec.terminal_block_hash_activation_epoch {
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return Err(ExecutionPayloadError::InvalidActivationEpoch {
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activation_epoch: spec.terminal_block_hash_activation_epoch,
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epoch: block_epoch,
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}
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.into());
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}
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if execution_payload.parent_hash() != spec.terminal_block_hash {
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return Err(ExecutionPayloadError::InvalidTerminalBlockHash {
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terminal_block_hash: spec.terminal_block_hash,
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payload_parent_hash: execution_payload.parent_hash(),
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}
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.into());
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}
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return Ok(());
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}
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let execution_layer = chain
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.execution_layer
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.as_ref()
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.ok_or(ExecutionPayloadError::NoExecutionConnection)?;
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let is_valid_terminal_pow_block = execution_layer
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.is_valid_terminal_pow_block_hash(execution_payload.parent_hash(), spec)
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.await
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.map_err(ExecutionPayloadError::from)?;
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match is_valid_terminal_pow_block {
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Some(true) => Ok(()),
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Some(false) => Err(ExecutionPayloadError::InvalidTerminalPoWBlock {
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parent_hash: execution_payload.parent_hash(),
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}
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.into()),
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None => {
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if allow_optimistic_import == AllowOptimisticImport::Yes
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&& is_optimistic_candidate_block(chain, block.slot(), block.parent_root()).await?
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{
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debug!(
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chain.log,
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"Optimistically importing merge transition block";
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"block_hash" => ?execution_payload.parent_hash(),
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"msg" => "the terminal block/parent was unavailable"
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);
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// Store Optimistic Transition Block in Database for later Verification
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OptimisticTransitionBlock::from_block(block)
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.persist_in_store::<T, _>(&chain.store)?;
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Ok(())
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} else {
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Err(ExecutionPayloadError::UnverifiedNonOptimisticCandidate.into())
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}
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}
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}
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}
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/// Check to see if a block with the given parameters is valid to be imported optimistically.
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pub async fn is_optimistic_candidate_block<T: BeaconChainTypes>(
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chain: &Arc<BeaconChain<T>>,
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block_slot: Slot,
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block_parent_root: Hash256,
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) -> Result<bool, BeaconChainError> {
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let current_slot = chain.slot()?;
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let inner_chain = chain.clone();
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// Use a blocking task to check if the block is an optimistic candidate. Interacting
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// with the `fork_choice` lock in an async task can block the core executor.
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chain
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.spawn_blocking_handle(
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move || {
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inner_chain
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.canonical_head
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.fork_choice_read_lock()
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.is_optimistic_candidate_block(
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current_slot,
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block_slot,
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&block_parent_root,
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&inner_chain.spec,
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)
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},
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"validate_merge_block_optimistic_candidate",
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)
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.await?
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.map_err(BeaconChainError::from)
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}
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/// Validate the gossip block's execution_payload according to the checks described here:
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/// https://github.com/ethereum/consensus-specs/blob/dev/specs/merge/p2p-interface.md#beacon_block
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pub fn validate_execution_payload_for_gossip<T: BeaconChainTypes>(
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parent_block: &ProtoBlock,
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block: BeaconBlockRef<'_, T::EthSpec>,
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chain: &BeaconChain<T>,
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) -> Result<(), BlockError<T::EthSpec>> {
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// Only apply this validation if this is a merge beacon block.
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if let Ok(execution_payload) = block.body().execution_payload() {
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// This logic should match `is_execution_enabled`. We use only the execution block hash of
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// the parent here in order to avoid loading the parent state during gossip verification.
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let is_merge_transition_complete = match parent_block.execution_status {
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// Optimistically declare that an "unknown" status block has completed the merge.
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ExecutionStatus::Valid(_) | ExecutionStatus::Optimistic(_) => true,
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// It's impossible for an irrelevant block to have completed the merge. It is pre-merge
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// by definition.
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ExecutionStatus::Irrelevant(_) => false,
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// If the parent has an invalid payload then it's impossible to build a valid block upon
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// it. Reject the block.
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ExecutionStatus::Invalid(_) => {
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return Err(BlockError::ParentExecutionPayloadInvalid {
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parent_root: parent_block.root,
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})
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}
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};
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if is_merge_transition_complete || execution_payload != &<_>::default() {
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let expected_timestamp = chain
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.slot_clock
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.start_of(block.slot())
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.map(|d| d.as_secs())
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.ok_or(BlockError::BeaconChainError(
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BeaconChainError::UnableToComputeTimeAtSlot,
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))?;
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// The block's execution payload timestamp is correct with respect to the slot
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if execution_payload.timestamp() != expected_timestamp {
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return Err(BlockError::ExecutionPayloadError(
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ExecutionPayloadError::InvalidPayloadTimestamp {
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expected: expected_timestamp,
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found: execution_payload.timestamp(),
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},
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));
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}
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}
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}
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Ok(())
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}
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/// Gets an execution payload for inclusion in a block.
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///
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/// ## Errors
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///
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/// Will return an error when using a pre-merge fork `state`. Ensure to only run this function
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/// after the merge fork.
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///
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/// ## Specification
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///
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/// Equivalent to the `get_execution_payload` function in the Validator Guide:
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///
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/// https://github.com/ethereum/consensus-specs/blob/v1.1.5/specs/merge/validator.md#block-proposal
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pub fn get_execution_payload<
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T: BeaconChainTypes,
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Payload: ExecPayload<T::EthSpec> + Default + Send + 'static,
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>(
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chain: Arc<BeaconChain<T>>,
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state: &BeaconState<T::EthSpec>,
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proposer_index: u64,
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builder_params: BuilderParams,
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) -> Result<PreparePayloadHandle<Payload>, BlockProductionError> {
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// Compute all required values from the `state` now to avoid needing to pass it into a spawned
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// task.
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let spec = &chain.spec;
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let current_epoch = state.current_epoch();
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let is_merge_transition_complete = is_merge_transition_complete(state);
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let timestamp = compute_timestamp_at_slot(state, spec).map_err(BeaconStateError::from)?;
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let random = *state.get_randao_mix(current_epoch)?;
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let latest_execution_payload_header_block_hash =
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state.latest_execution_payload_header()?.block_hash;
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// Spawn a task to obtain the execution payload from the EL via a series of async calls. The
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// `join_handle` can be used to await the result of the function.
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let join_handle = chain
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.task_executor
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.clone()
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.spawn_handle(
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async move {
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prepare_execution_payload::<T, Payload>(
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&chain,
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is_merge_transition_complete,
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timestamp,
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random,
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proposer_index,
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latest_execution_payload_header_block_hash,
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builder_params,
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)
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.await
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},
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"get_execution_payload",
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)
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.ok_or(BlockProductionError::ShuttingDown)?;
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Ok(join_handle)
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}
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/// Wraps the async `prepare_execution_payload` function as a blocking task.
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pub fn prepare_execution_payload_and_blobs_blocking<
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T: BeaconChainTypes,
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Payload: ExecPayload<T::EthSpec>,
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>(
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chain: &BeaconChain<T>,
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state: &BeaconState<T::EthSpec>,
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proposer_index: u64,
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) -> Result<
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Option<(
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Payload,
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VariableList<
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KZGCommitment,
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<<T as BeaconChainTypes>::EthSpec as EthSpec>::MaxBlobsPerBlock,
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>,
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)>,
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BlockProductionError,
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> {
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let execution_layer = chain
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.execution_layer
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.as_ref()
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.ok_or(BlockProductionError::ExecutionLayerMissing)?;
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execution_layer
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.block_on_generic(|_| async {
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prepare_execution_payload_and_blobs::<T, Payload>(chain, state, proposer_index).await
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})
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.map_err(BlockProductionError::BlockingFailed)?
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}
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|
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/// Prepares an execution payload for inclusion in a block.
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///
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/// Will return `Ok(None)` if the merge fork has occurred, but a terminal block has not been found.
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///
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/// ## Errors
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///
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/// Will return an error when using a pre-merge fork `state`. Ensure to only run this function
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/// after the merge fork.
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///
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/// ## Specification
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///
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/// Equivalent to the `prepare_execution_payload` function in the Validator Guide:
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///
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/// https://github.com/ethereum/consensus-specs/blob/v1.1.5/specs/merge/validator.md#block-proposal
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#[allow(clippy::too_many_arguments)]
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pub async fn prepare_execution_payload<T, Payload>(
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chain: &Arc<BeaconChain<T>>,
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is_merge_transition_complete: bool,
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timestamp: u64,
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random: Hash256,
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proposer_index: u64,
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latest_execution_payload_header_block_hash: ExecutionBlockHash,
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builder_params: BuilderParams,
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) -> Result<Payload, BlockProductionError>
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where
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T: BeaconChainTypes,
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Payload: ExecPayload<T::EthSpec> + Default,
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{
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let current_epoch = builder_params.slot.epoch(T::EthSpec::slots_per_epoch());
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let spec = &chain.spec;
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let execution_layer = chain
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.execution_layer
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.as_ref()
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.ok_or(BlockProductionError::ExecutionLayerMissing)?;
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let parent_hash = if !is_merge_transition_complete {
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let is_terminal_block_hash_set = spec.terminal_block_hash != ExecutionBlockHash::zero();
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let is_activation_epoch_reached =
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current_epoch >= spec.terminal_block_hash_activation_epoch;
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if is_terminal_block_hash_set && !is_activation_epoch_reached {
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// Use the "empty" payload if there's a terminal block hash, but we haven't reached the
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// terminal block epoch yet.
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return Ok(<_>::default());
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}
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let terminal_pow_block_hash = execution_layer
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.get_terminal_pow_block_hash(spec, timestamp)
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.await
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.map_err(BlockProductionError::TerminalPoWBlockLookupFailed)?;
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if let Some(terminal_pow_block_hash) = terminal_pow_block_hash {
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terminal_pow_block_hash
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} else {
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// If the merge transition hasn't occurred yet and the EL hasn't found the terminal
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// block, return an "empty" payload.
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return Ok(<_>::default());
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}
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} else {
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latest_execution_payload_header_block_hash
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};
|
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|
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// Try to obtain the fork choice update parameters from the cached head.
|
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//
|
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// Use a blocking task to interact with the `canonical_head` lock otherwise we risk blocking the
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// core `tokio` executor.
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let inner_chain = chain.clone();
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let forkchoice_update_params = chain
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.spawn_blocking_handle(
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move || {
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inner_chain
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.canonical_head
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.cached_head()
|
|
.forkchoice_update_parameters()
|
|
},
|
|
"prepare_execution_payload_forkchoice_update_params",
|
|
)
|
|
.await
|
|
.map_err(BlockProductionError::BeaconChain)?;
|
|
|
|
// Note: the suggested_fee_recipient is stored in the `execution_layer`, it will add this parameter.
|
|
//
|
|
// This future is not executed here, it's up to the caller to await it.
|
|
let execution_payload = execution_layer
|
|
.get_payload::<Payload>(
|
|
parent_hash,
|
|
timestamp,
|
|
random,
|
|
proposer_index,
|
|
forkchoice_update_params,
|
|
builder_params,
|
|
&chain.spec,
|
|
)
|
|
.await
|
|
.map_err(BlockProductionError::GetPayloadFailed)?;
|
|
|
|
Ok(execution_payload)
|
|
}
|
|
|
|
pub async fn prepare_execution_payload_and_blobs<
|
|
T: BeaconChainTypes,
|
|
Payload: ExecPayload<T::EthSpec>,
|
|
>(
|
|
_chain: &BeaconChain<T>,
|
|
_state: &BeaconState<T::EthSpec>,
|
|
_proposer_index: u64,
|
|
) -> Result<
|
|
Option<(
|
|
Payload,
|
|
VariableList<
|
|
KZGCommitment,
|
|
<<T as BeaconChainTypes>::EthSpec as EthSpec>::MaxBlobsPerBlock,
|
|
>,
|
|
)>,
|
|
BlockProductionError,
|
|
> {
|
|
todo!()
|
|
}
|