437 lines
17 KiB
Markdown
437 lines
17 KiB
Markdown
# Ethereum 2.0 Phase 1 -- Custody Game
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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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<!-- 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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- [Constants](#constants)
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- [Misc](#misc)
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- [Configuration](#configuration)
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- [Time parameters](#time-parameters)
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- [Max operations per block](#max-operations-per-block)
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- [Reward and penalty quotients](#reward-and-penalty-quotients)
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- [Signature domain types](#signature-domain-types)
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- [Data structures](#data-structures)
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- [New Beacon Chain operations](#new-beacon-chain-operations)
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- [`CustodySlashing`](#custodyslashing)
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- [`SignedCustodySlashing`](#signedcustodyslashing)
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- [`CustodyKeyReveal`](#custodykeyreveal)
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- [`EarlyDerivedSecretReveal`](#earlyderivedsecretreveal)
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- [Helpers](#helpers)
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- [`legendre_bit`](#legendre_bit)
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- [`custody_atoms`](#custody_atoms)
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- [`compute_custody_bit`](#compute_custody_bit)
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- [`get_randao_epoch_for_custody_period`](#get_randao_epoch_for_custody_period)
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- [`get_custody_period_for_validator`](#get_custody_period_for_validator)
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- [Per-block processing](#per-block-processing)
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- [Custody Game Operations](#custody-game-operations)
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- [Custody key reveals](#custody-key-reveals)
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- [Early derived secret reveals](#early-derived-secret-reveals)
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- [Custody Slashings](#custody-slashings)
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- [Per-epoch processing](#per-epoch-processing)
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- [Handling of reveal deadlines](#handling-of-reveal-deadlines)
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- [Final updates](#final-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 details the beacon chain additions and changes in Phase 1 of Ethereum 2.0 to support the shard data custody game, building upon the [Phase 0](../phase0/beacon-chain.md) specification.
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## Constants
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### Misc
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| Name | Value | Unit |
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| - | - | - |
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| `BLS12_381_Q` | `4002409555221667393417789825735904156556882819939007885332058136124031650490837864442687629129015664037894272559787` | - |
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| `BYTES_PER_CUSTODY_ATOM` | `48` | bytes |
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## Configuration
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### Time parameters
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| Name | Value | Unit | Duration |
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| - | - | :-: | :-: |
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| `RANDAO_PENALTY_EPOCHS` | `2**1` (= 2) | epochs | 12.8 minutes |
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| `EARLY_DERIVED_SECRET_PENALTY_MAX_FUTURE_EPOCHS` | `2**14` (= 16,384) | epochs | ~73 days |
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| `EPOCHS_PER_CUSTODY_PERIOD` | `2**11` (= 2,048) | epochs | ~9 days |
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| `CUSTODY_PERIOD_TO_RANDAO_PADDING` | `2**11` (= 2,048) | epochs | ~9 days |
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| `MAX_REVEAL_LATENESS_DECREMENT` | `2**7` (= 128) | epochs | ~14 hours |
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### Max operations per block
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| Name | Value |
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| - | - |
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| `MAX_CUSTODY_KEY_REVEALS` | `2**8` (= 256) |
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| `MAX_EARLY_DERIVED_SECRET_REVEALS` | `1` |
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| `MAX_CUSTODY_SLASHINGS` | `1` |
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### Reward and penalty quotients
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| Name | Value |
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| - | - |
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| `EARLY_DERIVED_SECRET_REVEAL_SLOT_REWARD_MULTIPLE` | `2**1` (= 2) |
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| `MINOR_REWARD_QUOTIENT` | `2**8` (= 256) |
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### Signature domain types
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The following types are defined, mapping into `DomainType` (little endian):
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| Name | Value |
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| - | - |
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| `DOMAIN_CUSTODY_BIT_SLASHING` | `DomainType('0x83000000')` |
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## Data structures
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### New Beacon Chain operations
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#### `CustodySlashing`
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```python
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class CustodySlashing(Container):
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# Attestation.custody_bits_blocks[data_index][committee.index(malefactor_index)] is the target custody bit to check.
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# (Attestation.data.shard_transition_root as ShardTransition).shard_data_roots[data_index] is the root of the data.
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data_index: uint64
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malefactor_index: ValidatorIndex
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malefactor_secret: BLSSignature
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whistleblower_index: ValidatorIndex
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shard_transition: ShardTransition
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attestation: Attestation
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data: ByteList[MAX_SHARD_BLOCK_SIZE]
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```
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#### `SignedCustodySlashing`
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```python
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class SignedCustodySlashing(Container):
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message: CustodySlashing
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signature: BLSSignature
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```
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#### `CustodyKeyReveal`
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```python
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class CustodyKeyReveal(Container):
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# Index of the validator whose key is being revealed
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revealer_index: ValidatorIndex
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# Reveal (masked signature)
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reveal: BLSSignature
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```
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#### `EarlyDerivedSecretReveal`
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Represents an early (punishable) reveal of one of the derived secrets, where derived secrets are RANDAO reveals and custody reveals (both are part of the same domain).
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```python
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class EarlyDerivedSecretReveal(Container):
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# Index of the validator whose key is being revealed
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revealed_index: ValidatorIndex
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# RANDAO epoch of the key that is being revealed
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epoch: Epoch
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# Reveal (masked signature)
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reveal: BLSSignature
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# Index of the validator who revealed (whistleblower)
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masker_index: ValidatorIndex
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# Mask used to hide the actual reveal signature (prevent reveal from being stolen)
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mask: Bytes32
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```
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## Helpers
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### `legendre_bit`
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Returns the Legendre symbol `(a/q)` normalizes as a bit (i.e. `((a/q) + 1) // 2`). In a production implementation, a well-optimized library (e.g. GMP) should be used for this.
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```python
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def legendre_bit(a: int, q: int) -> int:
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if a >= q:
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return legendre_bit(a % q, q)
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if a == 0:
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return 0
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assert(q > a > 0 and q % 2 == 1)
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t = 1
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n = q
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while a != 0:
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while a % 2 == 0:
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a //= 2
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r = n % 8
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if r == 3 or r == 5:
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t = -t
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a, n = n, a
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if a % 4 == n % 4 == 3:
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t = -t
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a %= n
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if n == 1:
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return (t + 1) // 2
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else:
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return 0
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```
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### `custody_atoms`
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Given one set of data, return the custody atoms: each atom will be combined with one legendre bit.
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```python
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def get_custody_atoms(bytez: bytes) -> Sequence[bytes]:
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bytez += b'\x00' * (-len(bytez) % BYTES_PER_CUSTODY_ATOM) # right-padding
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return [bytez[i:i + BYTES_PER_CUSTODY_ATOM]
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for i in range(0, len(bytez), BYTES_PER_CUSTODY_ATOM)]
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```
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### `compute_custody_bit`
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```python
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def compute_custody_bit(key: BLSSignature, data: bytes) -> bit:
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full_G2_element = bls.signature_to_G2(key)
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s = full_G2_element[0].coeffs
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custody_atoms = get_custody_atoms(data)
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n = len(custody_atoms)
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a = sum(s[i % 2]**i * int.from_bytes(atom, "little") for i, atom in enumerate(custody_atoms) + s[n % 2]**n)
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return legendre_bit(a, BLS12_381_Q)
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```
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### `get_randao_epoch_for_custody_period`
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```python
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def get_randao_epoch_for_custody_period(period: uint64, validator_index: ValidatorIndex) -> Epoch:
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next_period_start = (period + 1) * EPOCHS_PER_CUSTODY_PERIOD - validator_index % EPOCHS_PER_CUSTODY_PERIOD
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return Epoch(next_period_start + CUSTODY_PERIOD_TO_RANDAO_PADDING)
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```
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### `get_custody_period_for_validator`
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```python
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def get_custody_period_for_validator(validator_index: ValidatorIndex, epoch: Epoch) -> int:
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'''
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Return the reveal period for a given validator.
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'''
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return (epoch + validator_index % EPOCHS_PER_CUSTODY_PERIOD) // EPOCHS_PER_CUSTODY_PERIOD
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```
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## Per-block processing
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### Custody Game Operations
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```python
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def process_custody_game_operations(state: BeaconState, body: BeaconBlockBody) -> None:
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def for_ops(operations: Sequence[Any], fn: Callable[[BeaconState, Any], None]) -> None:
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for operation in operations:
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fn(state, operation)
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for_ops(body.custody_key_reveals, process_custody_key_reveal)
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for_ops(body.early_derived_secret_reveals, process_early_derived_secret_reveal)
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for_ops(body.custody_slashings, process_custody_slashing)
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```
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#### Custody key reveals
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```python
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def process_custody_key_reveal(state: BeaconState, reveal: CustodyKeyReveal) -> None:
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"""
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Process ``CustodyKeyReveal`` operation.
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Note that this function mutates ``state``.
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"""
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revealer = state.validators[reveal.revealer_index]
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epoch_to_sign = get_randao_epoch_for_custody_period(revealer.next_custody_secret_to_reveal, reveal.revealer_index)
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custody_reveal_period = get_custody_period_for_validator(reveal.revealer_index, get_current_epoch(state))
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assert revealer.next_custody_secret_to_reveal < custody_reveal_period
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# Revealed validator is active or exited, but not withdrawn
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assert is_slashable_validator(revealer, get_current_epoch(state))
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# Verify signature
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domain = get_domain(state, DOMAIN_RANDAO, epoch_to_sign)
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signing_root = compute_signing_root(epoch_to_sign, domain)
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assert bls.Verify(revealer.pubkey, signing_root, reveal.reveal)
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# Decrement max reveal lateness if response is timely
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if epoch_to_sign + EPOCHS_PER_CUSTODY_PERIOD >= get_current_epoch(state):
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if revealer.max_reveal_lateness >= MAX_REVEAL_LATENESS_DECREMENT:
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revealer.max_reveal_lateness -= MAX_REVEAL_LATENESS_DECREMENT
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else:
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revealer.max_reveal_lateness = 0
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else:
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revealer.max_reveal_lateness = max(
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revealer.max_reveal_lateness,
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get_current_epoch(state) - epoch_to_sign - EPOCHS_PER_CUSTODY_PERIOD
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)
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# Process reveal
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revealer.next_custody_secret_to_reveal += 1
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# Reward Block Proposer
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proposer_index = get_beacon_proposer_index(state)
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increase_balance(
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state,
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proposer_index,
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Gwei(get_base_reward(state, reveal.revealer_index) // MINOR_REWARD_QUOTIENT)
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)
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```
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#### Early derived secret reveals
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```python
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def process_early_derived_secret_reveal(state: BeaconState, reveal: EarlyDerivedSecretReveal) -> None:
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"""
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Process ``EarlyDerivedSecretReveal`` operation.
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Note that this function mutates ``state``.
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"""
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revealed_validator = state.validators[reveal.revealed_index]
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derived_secret_location = reveal.epoch % EARLY_DERIVED_SECRET_PENALTY_MAX_FUTURE_EPOCHS
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assert reveal.epoch >= get_current_epoch(state) + RANDAO_PENALTY_EPOCHS
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assert reveal.epoch < get_current_epoch(state) + EARLY_DERIVED_SECRET_PENALTY_MAX_FUTURE_EPOCHS
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assert not revealed_validator.slashed
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assert reveal.revealed_index not in state.exposed_derived_secrets[derived_secret_location]
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# Verify signature correctness
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masker = state.validators[reveal.masker_index]
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pubkeys = [revealed_validator.pubkey, masker.pubkey]
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domain = get_domain(state, DOMAIN_RANDAO, reveal.epoch)
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signing_roots = [compute_signing_root(root, domain) for root in [hash_tree_root(reveal.epoch), reveal.mask]]
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assert bls.AggregateVerify(pubkeys, signing_roots, reveal.reveal)
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if reveal.epoch >= get_current_epoch(state) + CUSTODY_PERIOD_TO_RANDAO_PADDING:
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# Full slashing when the secret was revealed so early it may be a valid custody
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# round key
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slash_validator(state, reveal.revealed_index, reveal.masker_index)
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else:
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# Only a small penalty proportional to proposer slot reward for RANDAO reveal
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# that does not interfere with the custody period
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# The penalty is proportional to the max proposer reward
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# Calculate penalty
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max_proposer_slot_reward = (
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get_base_reward(state, reveal.revealed_index)
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* SLOTS_PER_EPOCH
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// len(get_active_validator_indices(state, get_current_epoch(state)))
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// PROPOSER_REWARD_QUOTIENT
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)
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penalty = Gwei(
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max_proposer_slot_reward
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* EARLY_DERIVED_SECRET_REVEAL_SLOT_REWARD_MULTIPLE
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* (len(state.exposed_derived_secrets[derived_secret_location]) + 1)
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)
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# Apply penalty
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proposer_index = get_beacon_proposer_index(state)
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whistleblower_index = reveal.masker_index
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whistleblowing_reward = Gwei(penalty // WHISTLEBLOWER_REWARD_QUOTIENT)
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proposer_reward = Gwei(whistleblowing_reward // PROPOSER_REWARD_QUOTIENT)
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increase_balance(state, proposer_index, proposer_reward)
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increase_balance(state, whistleblower_index, whistleblowing_reward - proposer_reward)
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decrease_balance(state, reveal.revealed_index, penalty)
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# Mark this derived secret as exposed so validator cannot be punished repeatedly
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state.exposed_derived_secrets[derived_secret_location].append(reveal.revealed_index)
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```
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#### Custody Slashings
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```python
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def process_custody_slashing(state: BeaconState, signed_custody_slashing: SignedCustodySlashing) -> None:
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custody_slashing = signed_custody_slashing.message
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attestation = custody_slashing.attestation
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# Any signed custody-slashing should result in at least one slashing.
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# If the custody bits are valid, then the claim itself is slashed.
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malefactor = state.validators[custody_slashing.malefactor_index]
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whistleblower = state.validators[custody_slashing.whistleblower_index]
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domain = get_domain(state, DOMAIN_CUSTODY_BIT_SLASHING, get_current_epoch(state))
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signing_root = compute_signing_root(custody_slashing, domain)
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assert bls.Verify(whistleblower.pubkey, signing_root, signed_custody_slashing.signature)
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# Verify that the whistleblower is slashable
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assert is_slashable_validator(whistleblower, get_current_epoch(state))
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# Verify that the claimed malefactor is slashable
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assert is_slashable_validator(malefactor, get_current_epoch(state))
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# Verify the attestation
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assert is_valid_indexed_attestation(state, get_indexed_attestation(state, attestation))
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# TODO: custody_slashing.data is not chunked like shard blocks yet, result is lots of padding.
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# TODO: can do a single combined merkle proof of data being attested.
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# Verify the shard transition is indeed attested by the attestation
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shard_transition = custody_slashing.shard_transition
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assert hash_tree_root(shard_transition) == attestation.shard_transition_root
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# Verify that the provided data matches the shard-transition
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assert hash_tree_root(custody_slashing.data) == shard_transition.shard_data_roots[custody_slashing.data_index]
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# Verify existence and participation of claimed malefactor
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attesters = get_attesting_indices(state, attestation.data, attestation.aggregation_bits)
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assert custody_slashing.malefactor_index in attesters
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# Verify the malefactor custody key
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epoch_to_sign = get_randao_epoch_for_custody_period(
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get_custody_period_for_validator(custody_slashing.malefactor_index, attestation.data.target.epoch),
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custody_slashing.malefactor_index,
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)
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domain = get_domain(state, DOMAIN_RANDAO, epoch_to_sign)
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signing_root = compute_signing_root(epoch_to_sign, domain)
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assert bls.Verify(malefactor.pubkey, signing_root, custody_slashing.malefactor_secret)
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# Get the custody bit
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custody_bits = attestation.custody_bits_blocks[custody_slashing.data_index]
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committee = get_beacon_committee(state, attestation.data.slot, attestation.data.index)
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claimed_custody_bit = custody_bits[committee.index(custody_slashing.malefactor_index)]
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# Compute the custody bit
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computed_custody_bit = compute_custody_bit(custody_slashing.malefactor_secret, custody_slashing.data)
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# Verify the claim
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if claimed_custody_bit != computed_custody_bit:
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# Slash the malefactor, reward the other committee members
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slash_validator(state, custody_slashing.malefactor_index)
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others_count = len(committee) - 1
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whistleblower_reward = Gwei(malefactor.effective_balance // WHISTLEBLOWER_REWARD_QUOTIENT // others_count)
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for attester_index in attesters:
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if attester_index != custody_slashing.malefactor_index:
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increase_balance(state, attester_index, whistleblower_reward)
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# No special whisteblower reward: it is expected to be an attester. Others are free to slash too however.
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else:
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# The claim was false, the custody bit was correct. Slash the whistleblower that induced this work.
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slash_validator(state, custody_slashing.whistleblower_index)
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```
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## Per-epoch processing
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### Handling of reveal deadlines
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Run `process_reveal_deadlines(state)` after `process_registry_updates(state)`:
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```python
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def process_reveal_deadlines(state: BeaconState) -> None:
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epoch = get_current_epoch(state)
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for index, validator in enumerate(state.validators):
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if get_custody_period_for_validator(ValidatorIndex(index), epoch) > validator.next_custody_secret_to_reveal:
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# ------------------ WARNING ----------------------- #
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# UNSAFE REMOVAL OF SLASHING TO PRIORITIZE PHASE 0 CI #
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# Must find generic way to handle key reveals in tests #
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# ---------------------------------------------------- #
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# slash_validator(state, ValidatorIndex(index))
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pass
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```
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### Final updates
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After `process_final_updates(state)`, additional updates are made for the custody game:
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```python
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def process_custody_final_updates(state: BeaconState) -> None:
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# Clean up exposed RANDAO key reveals
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state.exposed_derived_secrets[get_current_epoch(state) % EARLY_DERIVED_SECRET_PENALTY_MAX_FUTURE_EPOCHS] = []
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```
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