eth2.0-specs/specs/phase1/shard-transition.md

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# Ethereum 2.0 Phase 1 -- Shard Transition and Fraud Proofs
**Notice**: This document is a work-in-progress for researchers and implementers.
## Table of contents
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<!-- START doctoc generated TOC please keep comment here to allow auto update -->
<!-- DON'T EDIT THIS SECTION, INSTEAD RE-RUN doctoc TO UPDATE -->
**Table of Contents** *generated with [DocToc](https://github.com/thlorenz/doctoc)*
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- [Introduction](#introduction)
- [Helper functions](#helper-functions)
- [Shard block verification functions](#shard-block-verification-functions)
- [Shard state transition](#shard-state-transition)
- [Fraud proofs](#fraud-proofs)
- [Verifying the proof](#verifying-the-proof)
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<!-- END doctoc generated TOC please keep comment here to allow auto update -->
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## Introduction
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This document describes the shard transition function and fraud proofs as part of Phase 1 of Ethereum 2.0.
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## Helper functions
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### Shard block verification functions
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```python
def verify_shard_block_message(beacon_parent_state: BeaconState,
shard_parent_state: ShardState,
block: ShardBlock) -> bool:
# Check `shard_parent_root` field
assert block.shard_parent_root == shard_parent_state.latest_block_root
# Check `beacon_parent_root` field
beacon_parent_block_header = beacon_parent_state.latest_block_header.copy()
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if beacon_parent_block_header.state_root == Root():
beacon_parent_block_header.state_root = hash_tree_root(beacon_parent_state)
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beacon_parent_root = hash_tree_root(beacon_parent_block_header)
assert block.beacon_parent_root == beacon_parent_root
# Check `slot` field
shard = block.shard
next_slot = Slot(block.slot + 1)
offset_slots = compute_offset_slots(get_latest_slot_for_shard(beacon_parent_state, shard), next_slot)
assert block.slot in offset_slots
# Check `shard` field
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assert block.shard == shard
# Check `proposer_index` field
assert block.proposer_index == get_shard_proposer_index(beacon_parent_state, block.slot, shard)
# Check `body` field
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assert 0 < len(block.body) <= MAX_SHARD_BLOCK_SIZE
return True
```
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```python
def verify_shard_block_signature(beacon_state: BeaconState,
signed_block: SignedShardBlock) -> bool:
proposer = beacon_state.validators[signed_block.message.proposer_index]
domain = get_domain(beacon_state, DOMAIN_SHARD_PROPOSAL, compute_epoch_at_slot(signed_block.message.slot))
signing_root = compute_signing_root(signed_block.message, domain)
return bls.Verify(proposer.pubkey, signing_root, signed_block.signature)
```
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## Shard state transition
```python
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def shard_state_transition(shard_state: ShardState,
block: ShardBlock) -> None:
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"""
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Update ``shard_state`` with shard ``block``.
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"""
shard_state.slot = block.slot
prev_gasprice = shard_state.gasprice
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shard_state.gasprice = compute_updated_gasprice(prev_gasprice, len(block.body))
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if len(block.body) == 0:
latest_block_root = shard_state.latest_block_root
else:
latest_block_root = hash_tree_root(block)
shard_state.latest_block_root = latest_block_root
```
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We have a pure function `get_post_shard_state` for describing the fraud proof verification and honest validator behavior.
```python
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def get_post_shard_state(shard_state: ShardState,
block: ShardBlock) -> ShardState:
"""
A pure function that returns a new post ShardState instead of modifying the given `shard_state`.
"""
post_state = shard_state.copy()
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shard_state_transition(post_state, block)
return post_state
```
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## Fraud proofs
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### Verifying the proof
TODO. The intent is to have a single universal fraud proof type, which contains the following parts:
1. An on-time attestation `attestation` on some shard `shard` signing a `transition: ShardTransition`
2. An index `offset_index` of a particular position to focus on
3. The `transition: ShardTransition` itself
4. The full body of the shard block `shard_block`
5. A Merkle proof to the `shard_states` in the parent block the attestation is referencing
6. The `subkey` to generate the custody bit
Call the following function to verify the proof:
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```python
def is_valid_fraud_proof(beacon_state: BeaconState,
attestation: Attestation,
offset_index: uint64,
transition: ShardTransition,
block: ShardBlock,
subkey: BLSPubkey,
beacon_parent_block: BeaconBlock) -> bool:
# 1. Check if `custody_bits[offset_index][j] != generate_custody_bit(subkey, block_contents)` for any `j`.
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custody_bits = attestation.custody_bits_blocks
for j in range(len(custody_bits[offset_index])):
if custody_bits[offset_index][j] != generate_custody_bit(subkey, block):
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return True
# 2. Check if the shard state transition result is wrong between
# `transition.shard_states[offset_index - 1]` to `transition.shard_states[offset_index]`.
if offset_index == 0:
shard = get_shard(beacon_state, attestation)
shard_states = beacon_parent_block.body.shard_transitions[shard].shard_states
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shard_state = shard_states[len(shard_states) - 1]
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else:
shard_state = transition.shard_states[offset_index - 1] # Not doing the actual state updates here.
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shard_state = get_post_shard_state(shard_state, block)
if shard_state != transition.shard_states[offset_index]:
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return True
return False
```
```python
def generate_custody_bit(subkey: BLSPubkey, block: ShardBlock) -> bool:
# TODO
...
```