365 lines
15 KiB
Markdown
365 lines
15 KiB
Markdown
# Ethereum 2.0 Phase 0 -- Beacon Chain Fork Choice
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**Notice**: This document is a work-in-progress for researchers and implementers.
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## Table of contents
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<!-- TOC -->
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<!-- START doctoc generated TOC please keep comment here to allow auto update -->
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<!-- DON'T EDIT THIS SECTION, INSTEAD RE-RUN doctoc TO UPDATE -->
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- [Introduction](#introduction)
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- [Fork choice](#fork-choice)
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- [Configuration](#configuration)
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- [Helpers](#helpers)
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- [`LatestMessage`](#latestmessage)
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- [`Store`](#store)
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- [`get_forkchoice_store`](#get_forkchoice_store)
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- [`get_slots_since_genesis`](#get_slots_since_genesis)
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- [`get_current_slot`](#get_current_slot)
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- [`compute_slots_since_epoch_start`](#compute_slots_since_epoch_start)
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- [`get_ancestor`](#get_ancestor)
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- [`get_latest_attesting_balance`](#get_latest_attesting_balance)
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- [`filter_block_tree`](#filter_block_tree)
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- [`get_filtered_block_tree`](#get_filtered_block_tree)
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- [`get_head`](#get_head)
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- [`should_update_justified_checkpoint`](#should_update_justified_checkpoint)
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- [Handlers](#handlers)
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- [`on_tick`](#on_tick)
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- [`on_block`](#on_block)
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- [`on_attestation`](#on_attestation)
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<!-- END doctoc generated TOC please keep comment here to allow auto update -->
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<!-- /TOC -->
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## Introduction
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This document is the beacon chain fork choice spec, part of Ethereum 2.0 Phase 0. It assumes the [beacon chain state transition function spec](./beacon-chain.md).
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## Fork choice
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The head block root associated with a `store` is defined as `get_head(store)`. At genesis, let `store = get_checkpoint_store(genesis_state)` and update `store` by running:
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- `on_tick(time)` whenever `time > store.time` where `time` is the current Unix time
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- `on_block(block)` whenever a block `block: SignedBeaconBlock` is received
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- `on_attestation(attestation)` whenever an attestation `attestation` is received
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*Notes*:
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1) **Leap seconds**: Slots will last `SECONDS_PER_SLOT + 1` or `SECONDS_PER_SLOT - 1` seconds around leap seconds. This is automatically handled by [UNIX time](https://en.wikipedia.org/wiki/Unix_time).
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2) **Honest clocks**: Honest nodes are assumed to have clocks synchronized within `SECONDS_PER_SLOT` seconds of each other.
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3) **Eth1 data**: The large `ETH1_FOLLOW_DISTANCE` specified in the [honest validator document](./validator.md) should ensure that `state.latest_eth1_data` of the canonical Ethereum 2.0 chain remains consistent with the canonical Ethereum 1.0 chain. If not, emergency manual intervention will be required.
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4) **Manual forks**: Manual forks may arbitrarily change the fork choice rule but are expected to be enacted at epoch transitions, with the fork details reflected in `state.fork`.
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5) **Implementation**: The implementation found in this specification is constructed for ease of understanding rather than for optimization in computation, space, or any other resource. A number of optimized alternatives can be found [here](https://github.com/protolambda/lmd-ghost).
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### Configuration
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| Name | Value | Unit | Duration |
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| - | - | :-: | :-: |
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| `SAFE_SLOTS_TO_UPDATE_JUSTIFIED` | `2**3` (= 8) | slots | 96 seconds |
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### Helpers
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#### `LatestMessage`
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```python
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@dataclass(eq=True, frozen=True)
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class LatestMessage(object):
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epoch: Epoch
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root: Root
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```
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#### `Store`
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```python
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@dataclass
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class Store(object):
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time: uint64
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genesis_time: uint64
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justified_checkpoint: Checkpoint
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finalized_checkpoint: Checkpoint
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best_justified_checkpoint: Checkpoint
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blocks: Dict[Root, BeaconBlockHeader] = field(default_factory=dict)
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block_states: Dict[Root, BeaconState] = field(default_factory=dict)
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checkpoint_states: Dict[Checkpoint, BeaconState] = field(default_factory=dict)
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latest_messages: Dict[ValidatorIndex, LatestMessage] = field(default_factory=dict)
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```
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#### `get_forkchoice_store`
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The provided anchor-state will be regarded as a trusted state, to not roll back beyond.
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This should be the genesis state for a full client.
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```python
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def get_forkchoice_store(anchor_state: BeaconState) -> Store:
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anchor_block_header = anchor_state.latest_block_header.copy()
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if anchor_block_header.state_root == Bytes32():
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anchor_block_header.state_root = hash_tree_root(anchor_state)
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anchor_root = hash_tree_root(anchor_block_header)
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anchor_epoch = get_current_epoch(anchor_state)
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justified_checkpoint = Checkpoint(epoch=anchor_epoch, root=anchor_root)
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finalized_checkpoint = Checkpoint(epoch=anchor_epoch, root=anchor_root)
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return Store(
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time=anchor_state.genesis_time,
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genesis_time=anchor_state.genesis_time,
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justified_checkpoint=justified_checkpoint,
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finalized_checkpoint=finalized_checkpoint,
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best_justified_checkpoint=justified_checkpoint,
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blocks={anchor_root: anchor_block_header},
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block_states={anchor_root: anchor_state.copy()},
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checkpoint_states={justified_checkpoint: anchor_state.copy()},
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)
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```
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#### `get_slots_since_genesis`
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```python
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def get_slots_since_genesis(store: Store) -> int:
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return (store.time - store.genesis_time) // SECONDS_PER_SLOT
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```
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#### `get_current_slot`
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```python
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def get_current_slot(store: Store) -> Slot:
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return Slot(GENESIS_SLOT + get_slots_since_genesis(store))
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```
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#### `compute_slots_since_epoch_start`
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```python
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def compute_slots_since_epoch_start(slot: Slot) -> int:
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return slot - compute_start_slot_at_epoch(compute_epoch_at_slot(slot))
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```
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#### `get_ancestor`
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```python
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def get_ancestor(store: Store, root: Root, slot: Slot) -> Root:
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block = store.blocks[root]
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if block.slot > slot:
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return get_ancestor(store, block.parent_root, slot)
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elif block.slot == slot:
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return root
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else:
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return Bytes32() # root is older than queried slot: no results.
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```
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#### `get_latest_attesting_balance`
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```python
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def get_latest_attesting_balance(store: Store, root: Root) -> Gwei:
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state = store.checkpoint_states[store.justified_checkpoint]
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active_indices = get_active_validator_indices(state, get_current_epoch(state))
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return Gwei(sum(
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state.validators[i].effective_balance for i in active_indices
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if (i in store.latest_messages
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and get_ancestor(store, store.latest_messages[i].root, store.blocks[root].slot) == root)
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))
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```
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#### `filter_block_tree`
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```python
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def filter_block_tree(store: Store, block_root: Root, blocks: Dict[Root, BeaconBlock]) -> bool:
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block = store.blocks[block_root]
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children = [
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root for root in store.blocks.keys()
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if store.blocks[root].parent_root == block_root
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]
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# If any children branches contain expected finalized/justified checkpoints,
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# add to filtered block-tree and signal viability to parent.
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if any(children):
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filter_block_tree_result = [filter_block_tree(store, child, blocks) for child in children]
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if any(filter_block_tree_result):
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blocks[block_root] = block
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return True
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return False
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# If leaf block, check finalized/justified checkpoints as matching latest.
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head_state = store.block_states[block_root]
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correct_justified = (
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store.justified_checkpoint.epoch == GENESIS_EPOCH
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or head_state.current_justified_checkpoint == store.justified_checkpoint
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)
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correct_finalized = (
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store.finalized_checkpoint.epoch == GENESIS_EPOCH
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or head_state.finalized_checkpoint == store.finalized_checkpoint
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)
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# If expected finalized/justified, add to viable block-tree and signal viability to parent.
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if correct_justified and correct_finalized:
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blocks[block_root] = block
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return True
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# Otherwise, branch not viable
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return False
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```
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#### `get_filtered_block_tree`
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```python
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def get_filtered_block_tree(store: Store) -> Dict[Root, BeaconBlock]:
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"""
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Retrieve a filtered block tree from ``store``, only returning branches
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whose leaf state's justified/finalized info agrees with that in ``store``.
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"""
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base = store.justified_checkpoint.root
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blocks: Dict[Root, BeaconBlock] = {}
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filter_block_tree(store, base, blocks)
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return blocks
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```
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#### `get_head`
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```python
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def get_head(store: Store) -> Root:
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# Get filtered block tree that only includes viable branches
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blocks = get_filtered_block_tree(store)
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# Execute the LMD-GHOST fork choice
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head = store.justified_checkpoint.root
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justified_slot = compute_start_slot_at_epoch(store.justified_checkpoint.epoch)
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while True:
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children = [
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root for root in blocks.keys()
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if blocks[root].parent_root == head and blocks[root].slot > justified_slot
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]
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if len(children) == 0:
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return head
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# Sort by latest attesting balance with ties broken lexicographically
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head = max(children, key=lambda root: (get_latest_attesting_balance(store, root), root))
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```
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#### `should_update_justified_checkpoint`
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```python
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def should_update_justified_checkpoint(store: Store, new_justified_checkpoint: Checkpoint) -> bool:
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"""
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To address the bouncing attack, only update conflicting justified
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checkpoints in the fork choice if in the early slots of the epoch.
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Otherwise, delay incorporation of new justified checkpoint until next epoch boundary.
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See https://ethresear.ch/t/prevention-of-bouncing-attack-on-ffg/6114 for more detailed analysis and discussion.
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"""
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if compute_slots_since_epoch_start(get_current_slot(store)) < SAFE_SLOTS_TO_UPDATE_JUSTIFIED:
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return True
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new_justified_block = store.blocks[new_justified_checkpoint.root]
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if new_justified_block.slot <= compute_start_slot_at_epoch(store.justified_checkpoint.epoch):
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return False
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if not (
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get_ancestor(store, new_justified_checkpoint.root, store.blocks[store.justified_checkpoint.root].slot)
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== store.justified_checkpoint.root
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):
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return False
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return True
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```
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### Handlers
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#### `on_tick`
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```python
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def on_tick(store: Store, time: uint64) -> None:
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previous_slot = get_current_slot(store)
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# update store time
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store.time = time
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current_slot = get_current_slot(store)
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# Not a new epoch, return
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if not (current_slot > previous_slot and compute_slots_since_epoch_start(current_slot) == 0):
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return
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# Update store.justified_checkpoint if a better checkpoint is known
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if store.best_justified_checkpoint.epoch > store.justified_checkpoint.epoch:
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store.justified_checkpoint = store.best_justified_checkpoint
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```
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#### `on_block`
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```python
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def on_block(store: Store, signed_block: SignedBeaconBlock) -> None:
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block = signed_block.message
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# Make a copy of the state to avoid mutability issues
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assert block.parent_root in store.block_states
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pre_state = store.block_states[block.parent_root].copy()
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# Blocks cannot be in the future. If they are, their consideration must be delayed until the are in the past.
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assert get_current_slot(store) >= block.slot
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# Add new block to the store
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store.blocks[hash_tree_root(block)] = block
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# Check block is a descendant of the finalized block
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assert (
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get_ancestor(store, hash_tree_root(block), store.blocks[store.finalized_checkpoint.root].slot) ==
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store.finalized_checkpoint.root
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)
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# Check that block is later than the finalized epoch slot
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assert block.slot > compute_start_slot_at_epoch(store.finalized_checkpoint.epoch)
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# Check the block is valid and compute the post-state
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state = state_transition(pre_state, signed_block, True)
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# Add new state for this block to the store
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store.block_states[hash_tree_root(block)] = state
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# Update justified checkpoint
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if state.current_justified_checkpoint.epoch > store.justified_checkpoint.epoch:
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if state.current_justified_checkpoint.epoch > store.best_justified_checkpoint.epoch:
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store.best_justified_checkpoint = state.current_justified_checkpoint
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if should_update_justified_checkpoint(store, state.current_justified_checkpoint):
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store.justified_checkpoint = state.current_justified_checkpoint
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# Update finalized checkpoint
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if state.finalized_checkpoint.epoch > store.finalized_checkpoint.epoch:
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store.finalized_checkpoint = state.finalized_checkpoint
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```
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#### `on_attestation`
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```python
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def on_attestation(store: Store, attestation: Attestation) -> None:
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"""
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Run ``on_attestation`` upon receiving a new ``attestation`` from either within a block or directly on the wire.
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An ``attestation`` that is asserted as invalid may be valid at a later time,
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consider scheduling it for later processing in such case.
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"""
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target = attestation.data.target
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# Attestations must be from the current or previous epoch
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current_epoch = compute_epoch_at_slot(get_current_slot(store))
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# Use GENESIS_EPOCH for previous when genesis to avoid underflow
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previous_epoch = current_epoch - 1 if current_epoch > GENESIS_EPOCH else GENESIS_EPOCH
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assert target.epoch in [current_epoch, previous_epoch]
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assert target.epoch == compute_epoch_at_slot(attestation.data.slot)
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# Attestations target be for a known block. If target block is unknown, delay consideration until the block is found
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assert target.root in store.blocks
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# Attestations cannot be from future epochs. If they are, delay consideration until the epoch arrives
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base_state = store.block_states[target.root].copy()
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assert get_current_slot(store) >= compute_start_slot_at_epoch(target.epoch)
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# Attestations must be for a known block. If block is unknown, delay consideration until the block is found
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assert attestation.data.beacon_block_root in store.blocks
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# Attestations must not be for blocks in the future. If not, the attestation should not be considered
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assert store.blocks[attestation.data.beacon_block_root].slot <= attestation.data.slot
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# Store target checkpoint state if not yet seen
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if target not in store.checkpoint_states:
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process_slots(base_state, compute_start_slot_at_epoch(target.epoch))
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store.checkpoint_states[target] = base_state
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target_state = store.checkpoint_states[target]
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# Attestations can only affect the fork choice of subsequent slots.
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# Delay consideration in the fork choice until their slot is in the past.
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assert get_current_slot(store) >= attestation.data.slot + 1
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# Get state at the `target` to validate attestation and calculate the committees
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indexed_attestation = get_indexed_attestation(target_state, attestation)
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assert is_valid_indexed_attestation(target_state, indexed_attestation)
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# Update latest messages
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for i in indexed_attestation.attesting_indices:
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if i not in store.latest_messages or target.epoch > store.latest_messages[i].epoch:
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store.latest_messages[i] = LatestMessage(epoch=target.epoch, root=attestation.data.beacon_block_root)
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```
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