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# Ethereum 2.0 Phase 1 -- The Beacon Chain with Shards
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**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 -->
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- [Introduction ](#introduction )
- [Custom types ](#custom-types )
- [Configuration ](#configuration )
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- [Misc ](#misc )
- [Shard block configs ](#shard-block-configs )
- [Precomputed size verification points ](#precomputed-size-verification-points )
- [Gwei values ](#gwei-values )
- [Time parameters ](#time-parameters )
- [Domain types ](#domain-types )
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- [Updated containers ](#updated-containers )
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- [`AttestationData` ](#attestationdata )
- [`BeaconBlock` ](#beaconblock )
- [`BeaconState` ](#beaconstate )
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- [New containers ](#new-containers )
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- [`DataCommitment` ](#datacommitment )
- [`ShardHeader` ](#shardheader )
- [`PendingShardHeader` ](#pendingshardheader )
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- [Helper functions ](#helper-functions )
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- [Misc ](#misc-1 )
- [`compute_previous_slot` ](#compute_previous_slot )
- [`compute_shard_from_committee_index` ](#compute_shard_from_committee_index )
- [`compute_updated_gasprice` ](#compute_updated_gasprice )
- [`compute_committee_source_epoch` ](#compute_committee_source_epoch )
- [Beacon state accessors ](#beacon-state-accessors )
- [Updated `get_committee_count_per_slot` ](#updated-get_committee_count_per_slot )
- [`get_active_shard_count` ](#get_active_shard_count )
- [`get_shard_committee` ](#get_shard_committee )
- [`get_shard_proposer_index` ](#get_shard_proposer_index )
- [`get_start_shard` ](#get_start_shard )
- [Predicates ](#predicates )
- [Block processing ](#block-processing )
- [Operations ](#operations )
- [New Attestation processing ](#new-attestation-processing )
- [Updated `process_attestation` ](#updated-process_attestation )
- [`update_pending_votes` ](#update_pending_votes )
- [`process_shard_header` ](#process_shard_header )
- [Shard transition processing ](#shard-transition-processing )
- [Epoch transition ](#epoch-transition )
- [Pending headers ](#pending-headers )
- [Phase 1 final updates ](#phase-1-final-updates )
- [Custody game updates ](#custody-game-updates )
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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 extensions made to the Phase 0 design of The Beacon Chain to support data sharding, based on the ideas [here ](https://hackmd.io/@HWeNw8hNRimMm2m2GH56Cw/r1XzqYIOv ) and more broadly [here ](https://arxiv.org/abs/1809.09044 ), using Kate commitments to commit to data to remove any need for fraud proofs (and hence, safety-critical synchrony assumptions) in the design.
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## Custom types
We define the following Python custom types for type hinting and readability:
| Name | SSZ equivalent | Description |
| - | - | - |
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| `Shard` | `uint64` | A shard number |
| `BLSCommitment` | `bytes48` | A G1 curve point |
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## Configuration
### Misc
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| Name | Value | Notes |
| - | - | - |
| `MAX_SHARDS` | `uint64(2**10)` (= 1024) | Theoretical max shard count (used to determine data structure sizes) |
| `INITIAL_ACTIVE_SHARDS` | `uint64(2**6)` (= 64) | Initial shard count |
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| `GASPRICE_ADJUSTMENT_COEFFICIENT` | `uint64(2**3)` (= 8) | Gasprice may decrease/increase by at most exp(1 / this value) *per epoch* |
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| `MAX_SHARD_HEADERS_PER_SHARD` | `4` | |
| `MAX_SHARD_HEADERS` | `MAX_SHARDS * MAX_SHARD_HEADERS_PER_SHARD` | |
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| `PRIMITIVE_ROOT_OF_UNITY` | `5` | Primitive root of unity of the BLS12_381 (inner) modulus |
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| `DATA_AVAILABILITY_INVERSE_CODING_RATE` | `2**1` (=2) | Factor by which samples are extended for data availability encoding |
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### Shard block configs
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| Name | Value | Notes |
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| - | - | - |
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| `POINTS_PER_SAMPLE` | `uint64(2**3)` (= 8) | 31 * 8 = 248 bytes |
| `MAX_SAMPLES_PER_BLOCK` | `uint64(2**11)` (= 2,048) | 248 * 2,048 = 507,904 bytes |
| `TARGET_SAMPLES_PER_BLOCK` | `uint64(2**10)` (= 1,024) | 248 * 1,024 = 253,952 bytes |
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### Precomputed size verification points
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| Name | Value |
| - | - |
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| `G2_SETUP` | Type `List[G2]` . The G2-side trusted setup `[G, G*s, G*s**2....]` ; note that the first point is the generator. |
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| `MODULUS` | `0x73eda753299d7d483339d80809a1d80553bda402fffe5bfeffffffff00000001` (curve order of BLS12_381) |
| `ROOT_OF_UNITY` | `pow(PRIMITIVE_ROOT_OF_UNITY, (MODULUS - 1) // (MAX_SAMPLES_PER_BLOCK * POINTS_PER_SAMPLE, MODULUS)` |
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| `SIZE_CHECK_POINTS` | Type `List[G2, MAX_SAMPLES_PER_BLOCK + 1]` ; TO BE COMPUTED |
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These points are the G2-side Kate commitments to `product[a in i...next_power_of_two(i)] (X ** POINTS_PER_SAMPLE - w ** (reverse_bit_order(a, MAX_SAMPLES_PER_BLOCK * DATA_AVAILABILITY_INVERSE_CODING_RATE) * POINTS_PER_SAMPLE))` for each `i` in `[0...MAX_SAMPLES_PER_BLOCK]` , where `w = ROOT_OF_UNITY` . They are used to verify block size proofs. They can be computed with a one-time O(N**2/log(N)) calculation using fast-linear-combinations in G2.
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### Gwei values
| Name | Value | Unit | Description |
| - | - | - | - |
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| `MAX_GASPRICE` | `Gwei(2**33)` (= 8,589,934,592) | Gwei | Max gasprice charged for a TARGET-sized shard block |
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| `MIN_GASPRICE` | `Gwei(2**3)` (= 8) | Gwei | Min gasprice charged for a TARGET-sized shard block |
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### Time parameters
| Name | Value | Unit | Duration |
| - | - | :-: | :-: |
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| `SHARD_COMMITTEE_PERIOD` | `Epoch(2**8)` (= 256) | epochs | ~27 hours |
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### Domain types
| Name | Value |
| - | - |
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| `DOMAIN_SHARD_HEADER` | `DomainType('0x80000000')` |
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## Updated containers
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The following containers have updated definitions in Phase 1.
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### `AttestationData`
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```python
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class AttestationData(Container):
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slot: Slot
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index: CommitteeIndex
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# LMD GHOST vote
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beacon_block_root: Root
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# FFG vote
source: Checkpoint
target: Checkpoint
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# Shard header root
shard_header_root: Root
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```
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### `BeaconBlock`
```python
class BeaconBlock(phase0.BeaconBlock):
shard_headers: List[Signed[ShardHeader], MAX_SHARD_HEADERS]
```
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### `BeaconState`
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```python
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class BeaconState(phase0.BeaconState):
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# Updated fields
previous_epoch_attestations: List[PendingAttestation, MAX_ATTESTATIONS * SLOTS_PER_EPOCH]
current_epoch_attestations: List[PendingAttestation, MAX_ATTESTATIONS * SLOTS_PER_EPOCH]
# New fields
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current_epoch_pending_shard_headers: List[PendingShardHeader, MAX_SHARD_HEADERS * SLOTS_PER_EPOCH]
previous_epoch_pending_shard_headers: List[PendingShardHeader, MAX_SHARD_HEADERS * SLOTS_PER_EPOCH]
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most_recent_confirmed_commitments: Vector[Vector[DataCommitment, SLOTS_PER_EPOCH], MAX_SHARDS]
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shard_gasprice: uint64
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current_epoch_start_shard: Shard
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```
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## New containers
The following containers are new in Phase 1.
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### `DataCommitment`
```python
class DataCommitment(Container):
# Kate commitment to the data
point: BLSCommitment
# Length of the data in samples
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length: uint64
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```
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### `ShardHeader`
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```python
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class ShardHeader(Container):
# Slot and shard that this header is intended for
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slot: Slot
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shard: Shard
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# The actual data commitment
commitment: DataCommitment
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# Proof of the length (more precisely, proof that values at
# positions >= the length all equal zero)
length_proof: BLSCommitment
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```
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### `PendingShardHeader`
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```python
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class PendingShardHeader(Container):
# Slot and shard that this header is intended for
slot: uint64
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shard: Shard
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# Kate commitment to the data
commitment: BLSCommitment
# hash_tree_root of the ShardHeader (stored so that attestations
# can be checked against it)
root: Hash
# Length of the data in samples
length: uint64
# Who voted for the header
votes: Bitlist[MAX_COMMITTEE_SIZE]
# Has this header been confirmed?
confirmed: bool
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```
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## Helper functions
### Misc
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#### `next_power_of_two`
```python
def next_power_of_two(x):
return 2 ** ((x - 1).bit_length())
```
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#### `reverse_bit_order`
```python
def reverse_bit_order(n, order):
"""
Reverse the bit order of an integer n
"""
assert is_power_of_two(order)
return int(('{:0' + str(order.bit_length() - 1) + 'b}').format(n)[::-1], 2)
```
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#### `compute_previous_slot`
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```python
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def compute_previous_slot(slot: Slot) -> Slot:
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if slot > 0:
return Slot(slot - 1)
else:
return Slot(0)
```
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#### `compute_shard_from_committee_index`
```python
def compute_shard_from_committee_index(state: BeaconState, index: CommitteeIndex, slot: Slot) -> Shard:
active_shards = get_active_shard_count(state)
return Shard((index + get_start_shard(state, slot)) % active_shards)
```
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#### `compute_updated_gasprice`
```python
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def compute_updated_gasprice(prev_gasprice: Gwei, shard_block_length: uint64, adjustment_quotient: uint64) -> Gwei:
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if shard_block_length > TARGET_SAMPLES_PER_BLOCK:
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delta = max(1, prev_gasprice * (shard_block_length - TARGET_SAMPLES_PER_BLOCK)
// TARGET_SAMPLES_PER_BLOCK // adjustment_quotient)
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return min(prev_gasprice + delta, MAX_GASPRICE)
else:
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delta = max(1, prev_gasprice * (TARGET_SAMPLES_PER_BLOCK - shard_block_length)
// TARGET_SAMPLES_PER_BLOCK // adjustment_quotient)
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return max(prev_gasprice, MIN_GASPRICE + delta) - delta
```
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#### `compute_committee_source_epoch`
```python
def compute_committee_source_epoch(epoch: Epoch, period: uint64) -> Epoch:
"""
Return the source epoch for computing the committee.
"""
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source_epoch = Epoch(epoch - epoch % period)
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if source_epoch >= period:
source_epoch -= period # `period` epochs lookahead
return source_epoch
```
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### Beacon state accessors
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#### Updated `get_committee_count_per_slot`
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```python
def get_committee_count_per_slot(state: BeaconState, epoch: Epoch) -> uint64:
"""
Return the number of committees in each slot for the given ``epoch``.
"""
return max(uint64(1), min(
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get_active_shard_count(state, epoch),
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uint64(len(get_active_validator_indices(state, epoch))) // SLOTS_PER_EPOCH // TARGET_COMMITTEE_SIZE,
))
```
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#### `get_active_shard_count`
```python
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def get_active_shard_count(state: BeaconState, epoch: Epoch) -> uint64:
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"""
Return the number of active shards.
Note that this puts an upper bound on the number of committees per slot.
"""
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return INITIAL_ACTIVE_SHARDS
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```
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#### `get_shard_committee`
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```python
def get_shard_committee(beacon_state: BeaconState, epoch: Epoch, shard: Shard) -> Sequence[ValidatorIndex]:
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"""
Return the shard committee of the given ``epoch`` of the given ``shard``.
"""
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source_epoch = compute_committee_source_epoch(epoch, SHARD_COMMITTEE_PERIOD)
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active_validator_indices = get_active_validator_indices(beacon_state, source_epoch)
seed = get_seed(beacon_state, source_epoch, DOMAIN_SHARD_COMMITTEE)
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return compute_committee(
indices=active_validator_indices,
seed=seed,
index=shard,
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count=get_active_shard_count(beacon_state, epoch),
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)
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```
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#### `compute_proposer_index`
Updated version to get a proposer index that will only allow proposers with a certain minimum balance, ensuring that the balance is always sufficient to cover gas costs.
```python
def compute_proposer_index(state: BeaconState, indices: Sequence[ValidatorIndex], seed: Bytes32, min_effective_balance: GWei = GWei(0)) -> ValidatorIndex:
"""
Return from ``indices`` a random index sampled by effective balance.
"""
assert len(indices) > 0
MAX_RANDOM_BYTE = 2**8 - 1
i = uint64(0)
total = uint64(len(indices))
while True:
candidate_index = indices[compute_shuffled_index(i % total, total, seed)]
random_byte = hash(seed + uint_to_bytes(uint64(i // 32)))[i % 32]
effective_balance = state.validators[candidate_index].effective_balance
if effective_balance * MAX_RANDOM_BYTE >= MAX_EFFECTIVE_BALANCE * random_byte and effective_balance > min_effective_balance:
return candidate_index
i += 1
```
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#### `get_shard_proposer_index`
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```python
def get_shard_proposer_index(beacon_state: BeaconState, slot: Slot, shard: Shard) -> ValidatorIndex:
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"""
Return the proposer's index of shard block at ``slot``.
"""
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epoch = compute_epoch_at_slot(slot)
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committee = get_shard_committee(beacon_state, epoch, shard)
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seed = hash(get_seed(state, epoch, DOMAIN_BEACON_PROPOSER) + uint_to_bytes(state.slot))
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EFFECTIVE_BALANCE_MAX_DOWNWARD_DEVIATION = EFFECTIVE_BALANCE_INCREMENT - EFFECTIVE_BALANCE_INCREMENT * HYSTERESIS_DOWNWARD_MULTIPLIER // HYSTERESIS_QUOTIENT
return compute_proposer_index(state, committee, seed,
state.shard_gasprice * MAX_SAMPLES_PER_BLOCK // TARGET_SAMPLES_PER_BLOCK + EFFECTIVE_BALANCE_MAX_DOWNWARD_DEVIATION)
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```
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#### `get_start_shard`
```python
def get_start_shard(state: BeaconState, slot: Slot) -> Shard:
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"""
Return the start shard at ``slot``.
"""
current_epoch_start_slot = compute_start_slot_at_epoch(get_current_epoch(state))
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shard = state.current_epoch_start_shard
if slot > current_epoch_start_slot:
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# Current epoch or the next epoch lookahead
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for _slot in range(current_epoch_start_slot, slot):
committee_count = get_committee_count_per_slot(state, compute_epoch_at_slot(Slot(_slot)))
active_shard_count = get_active_shard_count(state, compute_epoch_at_slot(Slot(_slot)))
shard = (shard + committee_count) % active_shard_count
return Shard(shard)
elif slot < current_epoch_start_slot:
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# Previous epoch
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for _slot in list(range(slot, current_epoch_start_slot))[::-1]:
committee_count = get_committee_count_per_slot(state, compute_epoch_at_slot(Slot(_slot)))
active_shard_count = get_active_shard_count(state, compute_epoch_at_slot(Slot(_slot)))
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# Ensure positive
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shard = (shard + active_shard_count - committee_count) % active_shard_count
return Shard(shard)
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```
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### Block processing
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```python
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def process_block(state: BeaconState, block: BeaconBlock) -> None:
process_block_header(state, block)
process_randao(state, block.body)
process_eth1_data(state, block.body)
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process_light_client_aggregate(state, block.body)
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process_operations(state, block.body)
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```
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#### Operations
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```python
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def process_operations(state: BeaconState, body: BeaconBlockBody) -> None:
# Verify that outstanding deposits are processed up to the maximum number of deposits
assert len(body.deposits) == min(MAX_DEPOSITS, state.eth1_data.deposit_count - state.eth1_deposit_index)
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def for_ops(operations: Sequence[Any], fn: Callable[[BeaconState, Any], None]) -> None:
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for operation in operations:
fn(state, operation)
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for_ops(body.proposer_slashings, process_proposer_slashing)
for_ops(body.attester_slashings, process_attester_slashing)
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# New attestation processing
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for_ops(body.attestations, process_attestation)
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for_ops(body.deposits, process_deposit)
for_ops(body.voluntary_exits, process_voluntary_exit)
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# Limit is dynamic based on active shard count
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assert len(body.shard_headers) < = MAX_SHARD_HEADERS_PER_SHARD * get_active_shard_count(state, get_current_epoch(state))
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for_ops(body.shard_headers, process_shard_header)
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# See custody game spec.
process_custody_game_operations(state, body)
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process_shard_transitions(state, body.shard_transitions, body.attestations)
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# TODO process_operations(body.shard_receipt_proofs, process_shard_receipt_proofs)
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```
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### New Attestation processing
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#### Updated `process_attestation`
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```python
def process_attestation(state: BeaconState, attestation: Attestation) -> None:
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phase0.process_attestation(state, attestation)
update_pending_votes(
state=state,
attestation: Attestation,
root=,
aggregation_bits=attestation.aggregation_bits
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)
```
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#### `update_pending_votes`
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```python
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def update_pending_votes(state: BeaconState,
attestation: Attestation) -> None:
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if compute_epoch_at_slot(slot) == get_current_epoch(state):
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pending_headers = state.current_epoch_pending_shard_headers
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else:
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pending_headers = state.previous_epoch_pending_shard_headers
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# Create or update the PendingShardHeader object
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pending_header = None
for header in pending_headers:
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if header.root == attestation.data.shard_header_root:
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pending_header = header
assert pending_header is not None
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assert pending_header.slot == attestation.data.slot + 1
assert pending_header.shard == compute_shard_from_committee_index(
state,
attestation.data.index,
attestation.data.slot
)
pending_header.votes = bitwise_or(
pending_header.votes,
attestation.aggregation_bits
)
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# Check if the PendingShardHeader is eligible for expedited confirmation
# Requirement 1: nothing else confirmed
all_candidates = [
c for c in pending_headers if
(c.slot, c.shard) == (pending_header.slot, pending_header.shard)
]
if True not in [c.confirmed for c in all_candidates]:
# Requirement 2: >= 2/3 of balance attesting
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participants = get_attesting_indices(state, attestationg.data, pending_commitment.votes)
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participants_balance = get_total_balance(state, participants)
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full_committee = get_beacon_committee(state, attestationg.data.slot, attestationg.data.shard)
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full_committee_balance = get_total_balance(state, full_committee)
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if participants_balance * 3 > full_committee_balance * 2:
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pending_header.confirmed = True
```
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#### `process_shard_header`
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```python
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def process_shard_header(state: BeaconState,
signed_header: Signed[ShardDataHeader]) -> None:
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header = signed_header.message
header_root = hash_tree_root(header)
# Verify signature
signer_index = get_shard_proposer_index(state, header.slot, header.shard)
assert bls.Verify(
state.validators[signer_index].pubkey,
compute_signing_root(header, get_domain(state, DOMAIN_SHARD_HEADER)),
signed_header.signature
)
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# Verify length of the header, and simultaneously verify degree.
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assert (
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bls.Pairing(header.length_proof, SIZE_CHECK_POINTS[header.commitment.length]) ==
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bls.Pairing(header.commitment.point, G2_SETUP[-header.commitment.length]))
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)
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# Get the correct pending header list
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if compute_epoch_at_slot(header.slot) == get_current_epoch(state):
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pending_headers = state.current_epoch_pending_shard_headers
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else:
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pending_headers = state.previous_epoch_pending_shard_headers
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# Check that this header is not yet in the pending list
for pending_header in pending_headers:
assert header_root != pending_header.root
# Include it in the pending list
committee_length = len(get_beacon_committee(state, header.slot, header.shard))
pending_headers.append(PendingShardHeader(
slot=header.slot,
shard=header.shard,
commitment=header.commitment,
root=header_root,
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votes=Bitlist[MAX_VALIDATORS_PER_COMMITTEE]([0] * committee_length),
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confirmed=False
))
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```
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The length-and-degree proof works as follows. For a block `B` with length `l` (so `l` nonzero values in `[0... - 1]` ), the length proof is the commitment to the polynomial `(B(X) / Z(X)) * (X**(MAX_DEGREE + 1 - l))` , where `Z` is the minimal polynomial that is zero over `ROOT_OF_UNITY ** [l...next_power_of_two(l) - 1]` (see `SIZE_CHECK_POINTS` above) and `MAX_DEGREE` the the maximum power of `s` available in the setup, which is `MAX_DEGREE = len(G2_SETUP) - 1` . The goal is to ensure that a proof can only be constructed if (i) `B / Z` is itself non-fractional, meaning that `B` is a multiple of `Z` , and (ii) `deg(B) < next_power_of_two(l)` (there are not hidden higher-order terms in the polynomial, which would thwart reconstruction).
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The length proof will have the degree of `(B(X) / Z(X)) * X**(MAX_DEGREE + 1 - l)` , so `deg(B) - (next_power_of_two(l) - l) + MAX_DEGREE + 1 - l` , simplified to `deg(B) - next_power_of_two(l) + MAX_DEGREE + 1` . Because it's only possible to commit to polynomials with degree `<= MAX_DEGREE` , it's only possible to generate the proof if this expression is less than or equal to `MAX_DEGREE` , meaning that `deg(B)` must be strictly less than `next_power_of_two(l)` .
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### Shard transition processing
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### Epoch transition
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This epoch transition overrides the phase0 epoch transition:
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```python
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def process_epoch(state: BeaconState) -> None:
process_justification_and_finalization(state)
process_rewards_and_penalties(state)
process_registry_updates(state)
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# Proof of custody
process_reveal_deadlines(state)
process_challenge_deadlines(state)
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process_slashings(state)
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# Sharding
process_pending_headers(state)
charge_confirmed_header_fees(state)
reset_pending_headers(state)
# Final updates
# Phase 0
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process_eth1_data_reset(state)
process_effective_balance_updates(state)
process_slashings_reset(state)
process_randao_mixes_reset(state)
process_historical_roots_update(state)
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process_participation_record_updates(state)
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# Proof of custody
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process_custody_final_updates(state)
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# Update current_epoch_start_shard
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state.current_epoch_start_shard = get_start_shard(state, Slot(state.slot + 1))
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```
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#### Pending headers
```python
def process_pending_headers(state: BeaconState):
for slot in range(SLOTS_PER_EPOCH):
for shard in range(SHARD_COUNT):
# Pending headers for this (slot, shard) combo
candidates = [
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c for c in state.previous_epoch_pending_shard_headers if
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(c.slot, c.shard) == (slot, shard)
]
if True not in [c.confirmed for c in candidates]:
# The entire committee (and its balance)
full_committee = get_beacon_committee(state, slot, shard)
full_committee_balance = get_total_balance(state, full_committee)
# The set of voters who voted for each header
# (and their total balances)
voting_sets = [
[v for i, v in enumerate(full_committee) if c.votes[i]]
for c in candidates
]
voting_balances = [
get_total_balance(state, voters)
for voters in voting_sets
]
# Get the index with the most total balance voting for them.
# NOTE: if two choices get exactly the same voting balance,
# the candidate earlier in the list wins
if max(voting_balances) > 0:
winning_index = voting_balances.index(max(voting_balances))
else:
# If no votes, zero wins
winning_index = [c.root for c in candidates].index(Root())
candidates[winning_index].confirmed = True
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for slot in range(SLOTS_PER_EPOCH):
for shard in range(SHARD_COUNT):
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state.most_recent_confirmed_commitments[shard][slot] = DataCommitment()
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for c in state.previous_epoch_pending_shard_headers:
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if c.confirmed:
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state.most_recent_confirmed_commitments[c.shard][c.slot % SLOTS_PER_EPOCH] = c.commitment
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```
```python
def charge_confirmed_header_fees(state: BeaconState) -> None:
new_gasprice = state.shard_gasprice
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adjustment_quotient = get_active_shard_count(state) * SLOTS_PER_EPOCH * GASPRICE_ADJUSTMENT_COEFFICIENT
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for slot in range(SLOTS_PER_EPOCH):
for shard in range(SHARD_COUNT):
confirmed_candidates = [
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c for c in state.previous_epoch_pending_shard_headers if
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(c.slot, c.shard, c.confirmed) == (slot, shard, True)
]
if confirmed_candidates:
candidate = confirmed_candidates[0]
# Charge EIP 1559 fee
proposer = get_shard_proposer(state, slot, shard)
fee = (
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(state.shard_gasprice * candidates[i].commitment.length) //
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TARGET_SAMPLES_PER_BLOCK
)
decrease_balance(state, proposer, fee)
new_gasprice = compute_updated_gasprice(
new_gasprice,
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candidates[i].commitment.length,
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adjustment_quotient
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)
state.shard_gasprice = new_gasprice
```
```python
def reset_pending_headers(state: BeaconState):
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state.previous_epoch_pending_shard_headers = state.current_epoch_pending_shard_headers
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shards = [
compute_shard_from_committee_index(state, index, slot)
for i in range()
state,
attestation.data.index,
attestation.data.slot
)
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state.current_epoch_pending_shard_headers = []
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# Add dummy "empty" PendingAttestations
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# (default to vote for if no shard header available)
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for slot in range(SLOTS_IN_EPOCH):
for index in range(get_committee_count_per_slot(get_current_epoch(state))):
shard = compute_shard_from_committee_index(state, index, slot)
committee_length = len(get_beacon_committee(
state,
header.slot,
header.shard
))
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state.current_epoch_pending_shard_headers.append(PendingShardHeader(
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slot=slot,
shard=shard,
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commitment=DataCommitment(),
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root=Root(),
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votes=Bitlist[MAX_VALIDATORS_PER_COMMITTEE]([0] * committee_length),
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confirmed=False
))
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```
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#### Custody game updates
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`process_reveal_deadlines` , `process_challenge_deadlines` and `process_custody_final_updates` are defined in [the Custody Game spec ](./custody-game.md ).