eth2.0-specs/specs/phase0/beacon-chain.md

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# Ethereum 2.0 Phase 0 -- The Beacon Chain
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2019-05-06 15:30:32 +00:00
**Notice**: This document is a work-in-progress for researchers and implementers.
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## Table of contents
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<!-- TOC -->
<!-- START doctoc generated TOC please keep comment here to allow auto update -->
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- [Introduction](#introduction)
- [Notation](#notation)
- [Custom types](#custom-types)
- [Constants](#constants)
- [Configuration](#configuration)
- [Misc](#misc)
- [Gwei values](#gwei-values)
- [Initial values](#initial-values)
- [Time parameters](#time-parameters)
- [State list lengths](#state-list-lengths)
- [Rewards and penalties](#rewards-and-penalties)
- [Max operations per block](#max-operations-per-block)
- [Domain types](#domain-types)
- [Containers](#containers)
- [Misc dependencies](#misc-dependencies)
- [`Fork`](#fork)
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- [`ForkData`](#forkdata)
- [`Checkpoint`](#checkpoint)
- [`Validator`](#validator)
- [`AttestationData`](#attestationdata)
- [`IndexedAttestation`](#indexedattestation)
- [`PendingAttestation`](#pendingattestation)
- [`Eth1Data`](#eth1data)
- [`HistoricalBatch`](#historicalbatch)
- [`DepositMessage`](#depositmessage)
- [`DepositData`](#depositdata)
- [`BeaconBlockHeader`](#beaconblockheader)
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- [`SigningData`](#signingdata)
- [Beacon operations](#beacon-operations)
- [`ProposerSlashing`](#proposerslashing)
- [`AttesterSlashing`](#attesterslashing)
- [`Attestation`](#attestation)
- [`Deposit`](#deposit)
- [`VoluntaryExit`](#voluntaryexit)
- [Beacon blocks](#beacon-blocks)
- [`BeaconBlockBody`](#beaconblockbody)
- [`BeaconBlock`](#beaconblock)
- [Beacon state](#beacon-state)
- [`BeaconState`](#beaconstate)
- [Signed envelopes](#signed-envelopes)
- [`SignedVoluntaryExit`](#signedvoluntaryexit)
- [`SignedBeaconBlock`](#signedbeaconblock)
- [`SignedBeaconBlockHeader`](#signedbeaconblockheader)
- [Helper functions](#helper-functions)
- [Math](#math)
- [`integer_squareroot`](#integer_squareroot)
- [`xor`](#xor)
- [`int_to_bytes`](#int_to_bytes)
- [`bytes_to_int`](#bytes_to_int)
- [Crypto](#crypto)
- [`hash`](#hash)
- [`hash_tree_root`](#hash_tree_root)
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- [BLS Signatures](#bls-signatures)
- [Predicates](#predicates)
- [`is_active_validator`](#is_active_validator)
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- [`is_eligible_for_activation_queue`](#is_eligible_for_activation_queue)
- [`is_eligible_for_activation`](#is_eligible_for_activation)
- [`is_slashable_validator`](#is_slashable_validator)
- [`is_slashable_attestation_data`](#is_slashable_attestation_data)
- [`is_valid_indexed_attestation`](#is_valid_indexed_attestation)
- [`is_valid_merkle_branch`](#is_valid_merkle_branch)
- [Misc](#misc-1)
- [`compute_shuffled_index`](#compute_shuffled_index)
- [`compute_proposer_index`](#compute_proposer_index)
- [`compute_committee`](#compute_committee)
- [`compute_epoch_at_slot`](#compute_epoch_at_slot)
- [`compute_start_slot_at_epoch`](#compute_start_slot_at_epoch)
- [`compute_activation_exit_epoch`](#compute_activation_exit_epoch)
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- [`compute_fork_data_root`](#compute_fork_data_root)
- [`compute_fork_digest`](#compute_fork_digest)
- [`compute_domain`](#compute_domain)
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- [`compute_signing_root`](#compute_signing_root)
- [Beacon state accessors](#beacon-state-accessors)
- [`get_current_epoch`](#get_current_epoch)
- [`get_previous_epoch`](#get_previous_epoch)
- [`get_block_root`](#get_block_root)
- [`get_block_root_at_slot`](#get_block_root_at_slot)
- [`get_randao_mix`](#get_randao_mix)
- [`get_active_validator_indices`](#get_active_validator_indices)
- [`get_validator_churn_limit`](#get_validator_churn_limit)
- [`get_seed`](#get_seed)
- [`get_committee_count_at_slot`](#get_committee_count_at_slot)
- [`get_beacon_committee`](#get_beacon_committee)
- [`get_beacon_proposer_index`](#get_beacon_proposer_index)
- [`get_total_balance`](#get_total_balance)
- [`get_total_active_balance`](#get_total_active_balance)
- [`get_domain`](#get_domain)
- [`get_indexed_attestation`](#get_indexed_attestation)
- [`get_attesting_indices`](#get_attesting_indices)
- [Beacon state mutators](#beacon-state-mutators)
- [`increase_balance`](#increase_balance)
- [`decrease_balance`](#decrease_balance)
- [`initiate_validator_exit`](#initiate_validator_exit)
- [`slash_validator`](#slash_validator)
- [Genesis](#genesis)
- [Genesis state](#genesis-state)
- [Genesis block](#genesis-block)
- [Beacon chain state transition function](#beacon-chain-state-transition-function)
- [Epoch processing](#epoch-processing)
- [Helper functions](#helper-functions-1)
- [Justification and finalization](#justification-and-finalization)
- [Rewards and penalties](#rewards-and-penalties-1)
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- [Helpers](#helpers)
- [Components of attestation deltas](#components-of-attestation-deltas)
- [`get_attestation_deltas`](#get_attestation_deltas)
- [`process_rewards_and_penalties`](#process_rewards_and_penalties)
- [Registry updates](#registry-updates)
- [Slashings](#slashings)
- [Final updates](#final-updates)
- [Block processing](#block-processing)
- [Block header](#block-header)
- [RANDAO](#randao)
- [Eth1 data](#eth1-data)
- [Operations](#operations)
- [Proposer slashings](#proposer-slashings)
- [Attester slashings](#attester-slashings)
- [Attestations](#attestations)
- [Deposits](#deposits)
- [Voluntary exits](#voluntary-exits)
<!-- 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 represents the specification for Phase 0 of Ethereum 2.0 -- The Beacon Chain.
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At the core of Ethereum 2.0 is a system chain called the "beacon chain". The beacon chain stores and manages the registry of validators. In the initial deployment phases of Ethereum 2.0, the only mechanism to become a validator is to make a one-way ETH transaction to a deposit contract on Ethereum 1.0. Activation as a validator happens when Ethereum 1.0 deposit receipts are processed by the beacon chain, the activation balance is reached, and a queuing process is completed. Exit is either voluntary or done forcibly as a penalty for misbehavior.
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The primary source of load on the beacon chain is "attestations". Attestations are simultaneously availability votes for a shard block (Phase 1) and proof-of-stake votes for a beacon block (Phase 0).
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## Notation
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Code snippets appearing in `this style` are to be interpreted as Python 3 code.
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## Custom types
We define the following Python custom types for type hinting and readability:
| Name | SSZ equivalent | Description |
| - | - | - |
| `Slot` | `uint64` | a slot number |
| `Epoch` | `uint64` | an epoch number |
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| `CommitteeIndex` | `uint64` | a committee index at a slot |
| `ValidatorIndex` | `uint64` | a validator registry index |
| `Gwei` | `uint64` | an amount in Gwei |
| `Root` | `Bytes32` | a Merkle root |
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| `Version` | `Bytes4` | a fork version number |
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| `DomainType` | `Bytes4` | a domain type |
| `ForkDigest` | `Bytes4` | a digest of the current fork data |
| `Domain` | `Bytes32` | a signature domain |
| `BLSPubkey` | `Bytes48` | a BLS12-381 public key |
| `BLSSignature` | `Bytes96` | a BLS12-381 signature |
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## Constants
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The following values are (non-configurable) constants used throughout the specification.
| Name | Value |
| - | - |
| `GENESIS_SLOT` | `Slot(0)` |
| `GENESIS_EPOCH` | `Epoch(0)` |
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| `FAR_FUTURE_EPOCH` | `Epoch(2**64 - 1)` |
| `BASE_REWARDS_PER_EPOCH` | `4` |
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| `DEPOSIT_CONTRACT_TREE_DEPTH` | `2**5` (= 32) |
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| `JUSTIFICATION_BITS_LENGTH` | `4` |
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| `ENDIANNESS` | `'little'` |
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## Configuration
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*Note*: The default mainnet configuration values are included here for spec-design purposes. The different configurations for mainnet, testnets, and YAML-based testing can be found in the [`configs/constant_presets`](../../configs) directory. These configurations are updated for releases and may be out of sync during `dev` changes.
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### Misc
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| Name | Value |
| - | - |
| `ETH1_FOLLOW_DISTANCE` | `2**10` (= 1,024) |
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| `MAX_COMMITTEES_PER_SLOT` | `2**6` (= 64) |
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| `TARGET_COMMITTEE_SIZE` | `2**7` (= 128) |
| `MAX_VALIDATORS_PER_COMMITTEE` | `2**11` (= 2,048) |
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| `MIN_PER_EPOCH_CHURN_LIMIT` | `2**2` (= 4) |
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| `CHURN_LIMIT_QUOTIENT` | `2**16` (= 65,536) |
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| `SHUFFLE_ROUND_COUNT` | `90` |
| `MIN_GENESIS_ACTIVE_VALIDATOR_COUNT` | `2**14` (= 16,384) |
| `MIN_GENESIS_TIME` | `1578009600` (Jan 3, 2020) |
| `HYSTERESIS_QUOTIENT` | `4` |
| `HYSTERESIS_DOWNWARD_MULTIPLIER` | `1` |
| `HYSTERESIS_UPWARD_MULTIPLIER` | `5` |
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- For the safety of committees, `TARGET_COMMITTEE_SIZE` exceeds [the recommended minimum committee size of 111](http://web.archive.org/web/20190504131341/https://vitalik.ca/files/Ithaca201807_Sharding.pdf); with sufficient active validators (at least `SLOTS_PER_EPOCH * TARGET_COMMITTEE_SIZE`), the shuffling algorithm ensures committee sizes of at least `TARGET_COMMITTEE_SIZE`. (Unbiasable randomness with a Verifiable Delay Function (VDF) will improve committee robustness and lower the safe minimum committee size.)
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### Gwei values
| Name | Value |
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| - | - |
| `MIN_DEPOSIT_AMOUNT` | `Gwei(2**0 * 10**9)` (= 1,000,000,000) |
| `MAX_EFFECTIVE_BALANCE` | `Gwei(2**5 * 10**9)` (= 32,000,000,000) |
| `EJECTION_BALANCE` | `Gwei(2**4 * 10**9)` (= 16,000,000,000) |
| `EFFECTIVE_BALANCE_INCREMENT` | `Gwei(2**0 * 10**9)` (= 1,000,000,000) |
### Initial values
| Name | Value |
| - | - |
| `GENESIS_FORK_VERSION` | `Version('0x00000000')` |
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| `BLS_WITHDRAWAL_PREFIX` | `Bytes1('0x00')` |
### Time parameters
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| Name | Value | Unit | Duration |
| - | - | :-: | :-: |
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| `GENESIS_DELAY` | `172800` | seconds | 2 days |
| `SECONDS_PER_SLOT` | `12` | seconds | 12 seconds |
| `SECONDS_PER_ETH1_BLOCK` | `14` | seconds | 14 seconds |
| `MIN_ATTESTATION_INCLUSION_DELAY` | `2**0` (= 1) | slots | 12 seconds |
| `SLOTS_PER_EPOCH` | `2**5` (= 32) | slots | 6.4 minutes |
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| `MIN_SEED_LOOKAHEAD` | `2**0` (= 1) | epochs | 6.4 minutes |
| `MAX_SEED_LOOKAHEAD` | `2**2` (= 4) | epochs | 25.6 minutes |
| `MIN_EPOCHS_TO_INACTIVITY_PENALTY` | `2**2` (= 4) | epochs | 25.6 minutes |
| `EPOCHS_PER_ETH1_VOTING_PERIOD` | `2**5` (= 32) | epochs | ~3.4 hours |
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| `SLOTS_PER_HISTORICAL_ROOT` | `2**13` (= 8,192) | slots | ~27 hours |
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| `MIN_VALIDATOR_WITHDRAWABILITY_DELAY` | `2**8` (= 256) | epochs | ~27 hours |
| `SHARD_COMMITTEE_PERIOD` | `Epoch(2**8)` (= 256) | epochs | ~27 hours |
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### State list lengths
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| Name | Value | Unit | Duration |
| - | - | :-: | :-: |
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| `EPOCHS_PER_HISTORICAL_VECTOR` | `2**16` (= 65,536) | epochs | ~0.8 years |
| `EPOCHS_PER_SLASHINGS_VECTOR` | `2**13` (= 8,192) | epochs | ~36 days |
| `HISTORICAL_ROOTS_LIMIT` | `2**24` (= 16,777,216) | historical roots | ~52,262 years |
| `VALIDATOR_REGISTRY_LIMIT` | `2**40` (= 1,099,511,627,776) | validators |
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### Rewards and penalties
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| Name | Value |
| - | - |
Tweak inclusion delay rewards and set BASE_REWARD_FACTOR Substantive changes: 1) Split the inclusion delay reward between attester and proposer to add up to at most one base reward. This is analogous to the reward logic in `slash_validator`, and makes the `BASE_REWARDS_PER_EPOCH` constant include proposer rewards. 2) Double `BASE_REWARD_FACTOR` to 2^6 (addressing item 4 in #1054). When the total effective balance is 2^17 ETH then maximum annual issuance is a bit below 2^21 ETH. Maximum annual issuance happens when a) all validators make perfect attestations (matching source, target, head, as well as consistent crosslink data), b) all attestations are included as fast as possible (in particular, no skip blocks), and c) there are no slashings. ```python BASE_REWARD_FACTOR = 2**6 SLOTS_PER_EPOCH = 2**6 SECONDS_PER_SLOT = 6 BASE_REWARDS_PER_EPOCH = 5 GWEI_PER_ETH = 10**9 MAX_TOTAL_EFFECTIVE_BALANCE = 2**27 * GWEI_PER_ETH TARGET_MAX_ISSUANCE = 2**21 * GWEI_PER_ETH def integer_squareroot(n: int) -> int: """ The largest integer ``x`` such that ``x**2`` is less than or equal to ``n``. """ assert n >= 0 x = n y = (x + 1) // 2 while y < x: x = y y = (x + n // x) // 2 return x MAX_REWARDS_PER_EPOCH = MAX_TOTAL_EFFECTIVE_BALANCE * BASE_REWARD_FACTOR // integer_squareroot(MAX_TOTAL_EFFECTIVE_BALANCE) // BASE_REWARDS_PER_EPOCH EPOCHS_PER_YEAR = 365.25*24*60*60 / (SECONDS_PER_SLOT * SLOTS_PER_EPOCH) MAX_REWARDS_PER_YEAR = EPOCHS_PER_YEAR * MAX_REWARDS_PER_EPOCH * BASE_REWARDS_PER_EPOCH print(MAX_REWARDS_PER_YEAR / TARGET_MAX_ISSUANCE) ```
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| `BASE_REWARD_FACTOR` | `2**6` (= 64) |
| `WHISTLEBLOWER_REWARD_QUOTIENT` | `2**9` (= 512) |
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| `PROPOSER_REWARD_QUOTIENT` | `2**3` (= 8) |
| `INACTIVITY_PENALTY_QUOTIENT` | `2**24` (= 16,777,216) |
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| `MIN_SLASHING_PENALTY_QUOTIENT` | `2**5` (= 32) |
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- The `INACTIVITY_PENALTY_QUOTIENT` equals `INVERSE_SQRT_E_DROP_TIME**2` where `INVERSE_SQRT_E_DROP_TIME := 2**12` epochs (about 18 days) is the time it takes the inactivity penalty to reduce the balance of non-participating validators to about `1/sqrt(e) ~= 60.6%`. Indeed, the balance retained by offline validators after `n` epochs is about `(1 - 1/INACTIVITY_PENALTY_QUOTIENT)**(n**2/2)`; so after `INVERSE_SQRT_E_DROP_TIME` epochs, it is roughly `(1 - 1/INACTIVITY_PENALTY_QUOTIENT)**(INACTIVITY_PENALTY_QUOTIENT/2) ~= 1/sqrt(e)`.
### Max operations per block
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| Name | Value |
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| - | - |
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| `MAX_PROPOSER_SLASHINGS` | `2**4` (= 16) |
| `MAX_ATTESTER_SLASHINGS` | `2**1` (= 2) |
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| `MAX_ATTESTATIONS` | `2**7` (= 128) |
| `MAX_DEPOSITS` | `2**4` (= 16) |
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| `MAX_VOLUNTARY_EXITS` | `2**4` (= 16) |
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### Domain types
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| Name | Value |
| - | - |
| `DOMAIN_BEACON_PROPOSER` | `DomainType('0x00000000')` |
| `DOMAIN_BEACON_ATTESTER` | `DomainType('0x01000000')` |
| `DOMAIN_RANDAO` | `DomainType('0x02000000')` |
| `DOMAIN_DEPOSIT` | `DomainType('0x03000000')` |
| `DOMAIN_VOLUNTARY_EXIT` | `DomainType('0x04000000')` |
| `DOMAIN_SELECTION_PROOF` | `DomainType('0x05000000')` |
| `DOMAIN_AGGREGATE_AND_PROOF` | `DomainType('0x06000000')` |
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## Containers
The following types are [SimpleSerialize (SSZ)](../../ssz/simple-serialize.md) containers.
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*Note*: The definitions are ordered topologically to facilitate execution of the spec.
*Note*: Fields missing in container instantiations default to their zero value.
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### Misc dependencies
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#### `Fork`
```python
class Fork(Container):
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previous_version: Version
current_version: Version
epoch: Epoch # Epoch of latest fork
```
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#### `ForkData`
```python
class ForkData(Container):
current_version: Version
genesis_validators_root: Root
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```
#### `Checkpoint`
```python
class Checkpoint(Container):
epoch: Epoch
root: Root
```
#### `Validator`
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```python
class Validator(Container):
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pubkey: BLSPubkey
withdrawal_credentials: Bytes32 # Commitment to pubkey for withdrawals
effective_balance: Gwei # Balance at stake
slashed: boolean
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# Status epochs
activation_eligibility_epoch: Epoch # When criteria for activation were met
activation_epoch: Epoch
exit_epoch: Epoch
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withdrawable_epoch: Epoch # When validator can withdraw funds
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```
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#### `AttestationData`
```python
class AttestationData(Container):
slot: Slot
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index: CommitteeIndex
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# LMD GHOST vote
beacon_block_root: Root
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# FFG vote
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source: Checkpoint
target: Checkpoint
```
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#### `IndexedAttestation`
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```python
class IndexedAttestation(Container):
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attesting_indices: List[ValidatorIndex, MAX_VALIDATORS_PER_COMMITTEE]
data: AttestationData
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signature: BLSSignature
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```
#### `PendingAttestation`
```python
class PendingAttestation(Container):
aggregation_bits: Bitlist[MAX_VALIDATORS_PER_COMMITTEE]
data: AttestationData
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inclusion_delay: Slot
proposer_index: ValidatorIndex
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```
#### `Eth1Data`
```python
class Eth1Data(Container):
deposit_root: Root
deposit_count: uint64
block_hash: Bytes32
```
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#### `HistoricalBatch`
```python
class HistoricalBatch(Container):
block_roots: Vector[Root, SLOTS_PER_HISTORICAL_ROOT]
state_roots: Vector[Root, SLOTS_PER_HISTORICAL_ROOT]
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```
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#### `DepositMessage`
```python
class DepositMessage(Container):
pubkey: BLSPubkey
withdrawal_credentials: Bytes32
amount: Gwei
```
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#### `DepositData`
```python
class DepositData(Container):
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pubkey: BLSPubkey
withdrawal_credentials: Bytes32
amount: Gwei
signature: BLSSignature # Signing over DepositMessage
```
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#### `BeaconBlockHeader`
```python
class BeaconBlockHeader(Container):
slot: Slot
proposer_index: ValidatorIndex
parent_root: Root
state_root: Root
body_root: Root
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```
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#### `SigningData`
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```python
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class SigningData(Container):
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object_root: Root
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domain: Domain
```
### Beacon operations
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#### `ProposerSlashing`
```python
class ProposerSlashing(Container):
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signed_header_1: SignedBeaconBlockHeader
signed_header_2: SignedBeaconBlockHeader
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```
#### `AttesterSlashing`
```python
class AttesterSlashing(Container):
attestation_1: IndexedAttestation
attestation_2: IndexedAttestation
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```
#### `Attestation`
```python
class Attestation(Container):
aggregation_bits: Bitlist[MAX_VALIDATORS_PER_COMMITTEE]
data: AttestationData
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signature: BLSSignature
```
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#### `Deposit`
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```python
class Deposit(Container):
proof: Vector[Bytes32, DEPOSIT_CONTRACT_TREE_DEPTH + 1] # Merkle path to deposit root
data: DepositData
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```
#### `VoluntaryExit`
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```python
class VoluntaryExit(Container):
epoch: Epoch # Earliest epoch when voluntary exit can be processed
validator_index: ValidatorIndex
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```
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### Beacon blocks
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#### `BeaconBlockBody`
```python
class BeaconBlockBody(Container):
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randao_reveal: BLSSignature
eth1_data: Eth1Data # Eth1 data vote
graffiti: Bytes32 # Arbitrary data
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# Operations
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proposer_slashings: List[ProposerSlashing, MAX_PROPOSER_SLASHINGS]
attester_slashings: List[AttesterSlashing, MAX_ATTESTER_SLASHINGS]
attestations: List[Attestation, MAX_ATTESTATIONS]
deposits: List[Deposit, MAX_DEPOSITS]
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voluntary_exits: List[SignedVoluntaryExit, MAX_VOLUNTARY_EXITS]
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```
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#### `BeaconBlock`
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```python
class BeaconBlock(Container):
slot: Slot
proposer_index: ValidatorIndex
parent_root: Root
state_root: Root
body: BeaconBlockBody
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```
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### Beacon state
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#### `BeaconState`
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```python
class BeaconState(Container):
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# Versioning
genesis_time: uint64
genesis_validators_root: Root
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slot: Slot
fork: Fork
# History
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latest_block_header: BeaconBlockHeader
block_roots: Vector[Root, SLOTS_PER_HISTORICAL_ROOT]
state_roots: Vector[Root, SLOTS_PER_HISTORICAL_ROOT]
historical_roots: List[Root, HISTORICAL_ROOTS_LIMIT]
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# Eth1
eth1_data: Eth1Data
eth1_data_votes: List[Eth1Data, EPOCHS_PER_ETH1_VOTING_PERIOD * SLOTS_PER_EPOCH]
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eth1_deposit_index: uint64
# Registry
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validators: List[Validator, VALIDATOR_REGISTRY_LIMIT]
balances: List[Gwei, VALIDATOR_REGISTRY_LIMIT]
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# Randomness
randao_mixes: Vector[Bytes32, EPOCHS_PER_HISTORICAL_VECTOR]
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# Slashings
slashings: Vector[Gwei, EPOCHS_PER_SLASHINGS_VECTOR] # Per-epoch sums of slashed effective balances
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# Attestations
previous_epoch_attestations: List[PendingAttestation, MAX_ATTESTATIONS * SLOTS_PER_EPOCH]
current_epoch_attestations: List[PendingAttestation, MAX_ATTESTATIONS * SLOTS_PER_EPOCH]
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# Finality
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justification_bits: Bitvector[JUSTIFICATION_BITS_LENGTH] # Bit set for every recent justified epoch
previous_justified_checkpoint: Checkpoint # Previous epoch snapshot
current_justified_checkpoint: Checkpoint
finalized_checkpoint: Checkpoint
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```
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### Signed envelopes
#### `SignedVoluntaryExit`
```python
class SignedVoluntaryExit(Container):
message: VoluntaryExit
signature: BLSSignature
```
#### `SignedBeaconBlock`
```python
class SignedBeaconBlock(Container):
message: BeaconBlock
signature: BLSSignature
```
#### `SignedBeaconBlockHeader`
```python
class SignedBeaconBlockHeader(Container):
message: BeaconBlockHeader
signature: BLSSignature
```
## Helper functions
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*Note*: The definitions below are for specification purposes and are not necessarily optimal implementations.
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### Math
#### `integer_squareroot`
```python
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def integer_squareroot(n: uint64) -> uint64:
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"""
Return the largest integer ``x`` such that ``x**2 <= n``.
"""
x = n
y = (x + 1) // 2
while y < x:
x = y
y = (x + n // x) // 2
return x
```
#### `xor`
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```python
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def xor(bytes_1: Bytes32, bytes_2: Bytes32) -> Bytes32:
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"""
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Return the exclusive-or of two 32-byte strings.
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"""
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return Bytes32(a ^ b for a, b in zip(bytes_1, bytes_2))
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```
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#### `int_to_bytes`
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```python
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def int_to_bytes(n: uint64, length: uint64) -> bytes:
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"""
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Return the ``length``-byte serialization of ``n`` in ``ENDIANNESS``-endian.
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"""
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return n.to_bytes(length, ENDIANNESS)
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```
#### `bytes_to_int`
```python
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def bytes_to_int(data: bytes) -> uint64:
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"""
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Return the integer deserialization of ``data`` interpreted as ``ENDIANNESS``-endian.
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"""
return int.from_bytes(data, ENDIANNESS)
```
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### Crypto
#### `hash`
`def hash(data: bytes) -> Bytes32` is SHA256.
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#### `hash_tree_root`
`def hash_tree_root(object: SSZSerializable) -> Root` is a function for hashing objects into a single root by utilizing a hash tree structure, as defined in the [SSZ spec](../../ssz/simple-serialize.md#merkleization).
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#### BLS Signatures
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Eth2 makes use of BLS signatures as specified in the [IETF draft BLS specification draft-irtf-cfrg-bls-signature-02](https://tools.ietf.org/html/draft-irtf-cfrg-bls-signature-02) but uses [Hashing to Elliptic Curves - draft-irtf-cfrg-hash-to-curve-07](https://tools.ietf.org/html/draft-irtf-cfrg-hash-to-curve-07) instead of draft-irtf-cfrg-hash-to-curve-06. Specifically, eth2 uses the `BLS_SIG_BLS12381G2_XMD:SHA-256_SSWU_RO_POP_` ciphersuite which implements the following interfaces:
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- `def Sign(SK: int, message: Bytes) -> BLSSignature`
- `def Verify(PK: BLSPubkey, message: Bytes, signature: BLSSignature) -> bool`
- `def Aggregate(signatures: Sequence[BLSSignature]) -> BLSSignature`
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- `def FastAggregateVerify(PKs: Sequence[BLSPubkey], message: Bytes, signature: BLSSignature) -> bool`
- `def AggregateVerify(PKs: Sequence[BLSPubkey], messages: Sequence[Bytes], signature: BLSSignature) -> bool`
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Within these specifications, BLS signatures are treated as a module for notational clarity, thus to verify a signature `bls.Verify(...)` is used.
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*Note*: The non-standard configuration of the BLS and hash to curve specs is temporary and will be resolved once IETF releases BLS spec draft 3.
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### Predicates
#### `is_active_validator`
```python
def is_active_validator(validator: Validator, epoch: Epoch) -> bool:
"""
Check if ``validator`` is active.
"""
return validator.activation_epoch <= epoch < validator.exit_epoch
```
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#### `is_eligible_for_activation_queue`
```python
def is_eligible_for_activation_queue(validator: Validator) -> bool:
"""
Check if ``validator`` is eligible to be placed into the activation queue.
"""
return (
validator.activation_eligibility_epoch == FAR_FUTURE_EPOCH
and validator.effective_balance == MAX_EFFECTIVE_BALANCE
)
```
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#### `is_eligible_for_activation`
```python
def is_eligible_for_activation(state: BeaconState, validator: Validator) -> bool:
"""
Check if ``validator`` is eligible for activation.
"""
return (
# Placement in queue is finalized
validator.activation_eligibility_epoch <= state.finalized_checkpoint.epoch
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# Has not yet been activated
and validator.activation_epoch == FAR_FUTURE_EPOCH
)
```
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#### `is_slashable_validator`
```python
def is_slashable_validator(validator: Validator, epoch: Epoch) -> bool:
"""
Check if ``validator`` is slashable.
"""
return (not validator.slashed) and (validator.activation_epoch <= epoch < validator.withdrawable_epoch)
```
#### `is_slashable_attestation_data`
```python
def is_slashable_attestation_data(data_1: AttestationData, data_2: AttestationData) -> bool:
"""
Check if ``data_1`` and ``data_2`` are slashable according to Casper FFG rules.
"""
return (
# Double vote
(data_1 != data_2 and data_1.target.epoch == data_2.target.epoch) or
# Surround vote
(data_1.source.epoch < data_2.source.epoch and data_2.target.epoch < data_1.target.epoch)
)
```
#### `is_valid_indexed_attestation`
```python
def is_valid_indexed_attestation(state: BeaconState, indexed_attestation: IndexedAttestation) -> bool:
"""
Check if ``indexed_attestation`` is not empty, has sorted and unique indices and has a valid aggregate signature.
"""
# Verify indices are sorted and unique
indices = indexed_attestation.attesting_indices
if len(indices) == 0 or not indices == sorted(set(indices)):
return False
# Verify aggregate signature
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pubkeys = [state.validators[i].pubkey for i in indices]
domain = get_domain(state, DOMAIN_BEACON_ATTESTER, indexed_attestation.data.target.epoch)
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signing_root = compute_signing_root(indexed_attestation.data, domain)
return bls.FastAggregateVerify(pubkeys, signing_root, indexed_attestation.signature)
```
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#### `is_valid_merkle_branch`
```python
def is_valid_merkle_branch(leaf: Bytes32, branch: Sequence[Bytes32], depth: uint64, index: uint64, root: Root) -> bool:
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"""
Check if ``leaf`` at ``index`` verifies against the Merkle ``root`` and ``branch``.
"""
value = leaf
for i in range(depth):
if index // (2**i) % 2:
value = hash(branch[i] + value)
else:
value = hash(value + branch[i])
return value == root
```
### Misc
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#### `compute_shuffled_index`
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```python
def compute_shuffled_index(index: uint64, index_count: uint64, seed: Bytes32) -> uint64:
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"""
Return the shuffled index corresponding to ``seed`` (and ``index_count``).
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"""
assert index < index_count
# Swap or not (https://link.springer.com/content/pdf/10.1007%2F978-3-642-32009-5_1.pdf)
# See the 'generalized domain' algorithm on page 3
for current_round in range(SHUFFLE_ROUND_COUNT):
pivot = bytes_to_int(hash(seed + int_to_bytes(current_round, length=1))[0:8]) % index_count
flip = (pivot + index_count - index) % index_count
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position = max(index, flip)
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source = hash(seed + int_to_bytes(current_round, length=1) + int_to_bytes(position // 256, length=4))
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byte = source[(position % 256) // 8]
bit = (byte >> (position % 8)) % 2
index = flip if bit else index
return index
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```
#### `compute_proposer_index`
```python
def compute_proposer_index(state: BeaconState, indices: Sequence[ValidatorIndex], seed: Bytes32) -> ValidatorIndex:
"""
Return from ``indices`` a random index sampled by effective balance.
"""
assert len(indices) > 0
MAX_RANDOM_BYTE = 2**8 - 1
i = 0
while True:
candidate_index = indices[compute_shuffled_index(i % len(indices), len(indices), seed)]
random_byte = hash(seed + int_to_bytes(i // 32, length=8))[i % 32]
effective_balance = state.validators[candidate_index].effective_balance
if effective_balance * MAX_RANDOM_BYTE >= MAX_EFFECTIVE_BALANCE * random_byte:
return candidate_index
i += 1
```
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#### `compute_committee`
```python
def compute_committee(indices: Sequence[ValidatorIndex],
seed: Bytes32,
index: uint64,
count: uint64) -> Sequence[ValidatorIndex]:
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"""
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Return the committee corresponding to ``indices``, ``seed``, ``index``, and committee ``count``.
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"""
start = (len(indices) * index) // count
end = (len(indices) * (index + 1)) // count
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return [indices[compute_shuffled_index(i, len(indices), seed)] for i in range(start, end)]
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```
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#### `compute_epoch_at_slot`
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```python
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def compute_epoch_at_slot(slot: Slot) -> Epoch:
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"""
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Return the epoch number at ``slot``.
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"""
return Epoch(slot // SLOTS_PER_EPOCH)
```
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#### `compute_start_slot_at_epoch`
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```python
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def compute_start_slot_at_epoch(epoch: Epoch) -> Slot:
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"""
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Return the start slot of ``epoch``.
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"""
return Slot(epoch * SLOTS_PER_EPOCH)
```
#### `compute_activation_exit_epoch`
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```python
def compute_activation_exit_epoch(epoch: Epoch) -> Epoch:
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"""
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Return the epoch during which validator activations and exits initiated in ``epoch`` take effect.
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"""
return Epoch(epoch + 1 + MAX_SEED_LOOKAHEAD)
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```
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#### `compute_fork_data_root`
```python
def compute_fork_data_root(current_version: Version, genesis_validators_root: Root) -> Root:
"""
Return the 32-byte fork data root for the ``current_version`` and ``genesis_validators_root``.
This is used primarily in signature domains to avoid collisions across forks/chains.
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"""
return hash_tree_root(ForkData(
current_version=current_version,
genesis_validators_root=genesis_validators_root,
))
```
#### `compute_fork_digest`
```python
def compute_fork_digest(current_version: Version, genesis_validators_root: Root) -> ForkDigest:
"""
Return the 4-byte fork digest for the ``current_version`` and ``genesis_validators_root``.
This is a digest primarily used for domain separation on the p2p layer.
4-bytes suffices for practical separation of forks/chains.
"""
return ForkDigest(compute_fork_data_root(current_version, genesis_validators_root)[:4])
```
#### `compute_domain`
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```python
def compute_domain(domain_type: DomainType, fork_version: Version=None, genesis_validators_root: Root=None) -> Domain:
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"""
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Return the domain for the ``domain_type`` and ``fork_version``.
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"""
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if fork_version is None:
fork_version = GENESIS_FORK_VERSION
if genesis_validators_root is None:
genesis_validators_root = Root() # all bytes zero by default
fork_data_root = compute_fork_data_root(fork_version, genesis_validators_root)
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return Domain(domain_type + fork_data_root[:28])
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```
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#### `compute_signing_root`
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```python
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def compute_signing_root(ssz_object: SSZObject, domain: Domain) -> Root:
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"""
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Return the signing root for the corresponding signing data.
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"""
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return hash_tree_root(SigningData(
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object_root=hash_tree_root(ssz_object),
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domain=domain,
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))
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```
### Beacon state accessors
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#### `get_current_epoch`
```python
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def get_current_epoch(state: BeaconState) -> Epoch:
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"""
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Return the current epoch.
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"""
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return compute_epoch_at_slot(state.slot)
```
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#### `get_previous_epoch`
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```python
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def get_previous_epoch(state: BeaconState) -> Epoch:
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"""`
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Return the previous epoch (unless the current epoch is ``GENESIS_EPOCH``).
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"""
current_epoch = get_current_epoch(state)
return GENESIS_EPOCH if current_epoch == GENESIS_EPOCH else Epoch(current_epoch - 1)
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```
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#### `get_block_root`
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```python
def get_block_root(state: BeaconState, epoch: Epoch) -> Root:
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"""
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Return the block root at the start of a recent ``epoch``.
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"""
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return get_block_root_at_slot(state, compute_start_slot_at_epoch(epoch))
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```
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#### `get_block_root_at_slot`
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```python
def get_block_root_at_slot(state: BeaconState, slot: Slot) -> Root:
"""
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Return the block root at a recent ``slot``.
"""
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assert slot < state.slot <= slot + SLOTS_PER_HISTORICAL_ROOT
return state.block_roots[slot % SLOTS_PER_HISTORICAL_ROOT]
```
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#### `get_randao_mix`
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```python
def get_randao_mix(state: BeaconState, epoch: Epoch) -> Bytes32:
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"""
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Return the randao mix at a recent ``epoch``.
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"""
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return state.randao_mixes[epoch % EPOCHS_PER_HISTORICAL_VECTOR]
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```
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#### `get_active_validator_indices`
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```python
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def get_active_validator_indices(state: BeaconState, epoch: Epoch) -> Sequence[ValidatorIndex]:
"""
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Return the sequence of active validator indices at ``epoch``.
"""
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return [ValidatorIndex(i) for i, v in enumerate(state.validators) if is_active_validator(v, epoch)]
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```
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#### `get_validator_churn_limit`
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```python
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def get_validator_churn_limit(state: BeaconState) -> uint64:
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"""
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Return the validator churn limit for the current epoch.
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"""
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active_validator_indices = get_active_validator_indices(state, get_current_epoch(state))
return max(MIN_PER_EPOCH_CHURN_LIMIT, len(active_validator_indices) // CHURN_LIMIT_QUOTIENT)
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```
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#### `get_seed`
```python
def get_seed(state: BeaconState, epoch: Epoch, domain_type: DomainType) -> Bytes32:
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"""
Return the seed at ``epoch``.
"""
mix = get_randao_mix(state, Epoch(epoch + EPOCHS_PER_HISTORICAL_VECTOR - MIN_SEED_LOOKAHEAD - 1)) # Avoid underflow
return hash(domain_type + int_to_bytes(epoch, length=8) + mix)
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```
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#### `get_committee_count_at_slot`
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```python
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def get_committee_count_at_slot(state: BeaconState, slot: Slot) -> uint64:
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"""
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Return the number of committees at ``slot``.
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"""
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epoch = compute_epoch_at_slot(slot)
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return max(1, min(
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MAX_COMMITTEES_PER_SLOT,
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len(get_active_validator_indices(state, epoch)) // SLOTS_PER_EPOCH // TARGET_COMMITTEE_SIZE,
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))
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```
#### `get_beacon_committee`
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```python
def get_beacon_committee(state: BeaconState, slot: Slot, index: CommitteeIndex) -> Sequence[ValidatorIndex]:
"""
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Return the beacon committee at ``slot`` for ``index``.
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"""
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epoch = compute_epoch_at_slot(slot)
committees_per_slot = get_committee_count_at_slot(state, slot)
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return compute_committee(
indices=get_active_validator_indices(state, epoch),
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seed=get_seed(state, epoch, DOMAIN_BEACON_ATTESTER),
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index=(slot % SLOTS_PER_EPOCH) * committees_per_slot + index,
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count=committees_per_slot * SLOTS_PER_EPOCH,
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)
```
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#### `get_beacon_proposer_index`
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```python
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def get_beacon_proposer_index(state: BeaconState) -> ValidatorIndex:
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"""
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Return the beacon proposer index at the current slot.
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"""
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epoch = get_current_epoch(state)
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seed = hash(get_seed(state, epoch, DOMAIN_BEACON_PROPOSER) + int_to_bytes(state.slot, length=8))
indices = get_active_validator_indices(state, epoch)
return compute_proposer_index(state, indices, seed)
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```
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#### `get_total_balance`
```python
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def get_total_balance(state: BeaconState, indices: Set[ValidatorIndex]) -> Gwei:
"""
Return the combined effective balance of the ``indices``.
``EFFECTIVE_BALANCE_INCREMENT`` Gwei minimum to avoid divisions by zero.
Math safe up to ~10B ETH, afterwhich this overflows uint64.
"""
return Gwei(max(EFFECTIVE_BALANCE_INCREMENT, sum([state.validators[index].effective_balance for index in indices])))
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```
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#### `get_total_active_balance`
```python
def get_total_active_balance(state: BeaconState) -> Gwei:
"""
Return the combined effective balance of the active validators.
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Note: ``get_total_balance`` returns ``EFFECTIVE_BALANCE_INCREMENT`` Gwei minimum to avoid divisions by zero.
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"""
return get_total_balance(state, set(get_active_validator_indices(state, get_current_epoch(state))))
```
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#### `get_domain`
```python
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def get_domain(state: BeaconState, domain_type: DomainType, epoch: Epoch=None) -> Domain:
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"""
Return the signature domain (fork version concatenated with domain type) of a message.
"""
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epoch = get_current_epoch(state) if epoch is None else epoch
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fork_version = state.fork.previous_version if epoch < state.fork.epoch else state.fork.current_version
return compute_domain(domain_type, fork_version, state.genesis_validators_root)
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```
#### `get_indexed_attestation`
```python
def get_indexed_attestation(state: BeaconState, attestation: Attestation) -> IndexedAttestation:
"""
Return the indexed attestation corresponding to ``attestation``.
"""
attesting_indices = get_attesting_indices(state, attestation.data, attestation.aggregation_bits)
return IndexedAttestation(
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attesting_indices=sorted(attesting_indices),
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data=attestation.data,
signature=attestation.signature,
)
```
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#### `get_attesting_indices`
```python
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def get_attesting_indices(state: BeaconState,
data: AttestationData,
bits: Bitlist[MAX_VALIDATORS_PER_COMMITTEE]) -> Set[ValidatorIndex]:
"""
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Return the set of attesting indices corresponding to ``data`` and ``bits``.
"""
committee = get_beacon_committee(state, data.slot, data.index)
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return set(index for i, index in enumerate(committee) if bits[i])
```
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### Beacon state mutators
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#### `increase_balance`
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```python
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def increase_balance(state: BeaconState, index: ValidatorIndex, delta: Gwei) -> None:
"""
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Increase the validator balance at index ``index`` by ``delta``.
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"""
state.balances[index] += delta
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```
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#### `decrease_balance`
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```python
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def decrease_balance(state: BeaconState, index: ValidatorIndex, delta: Gwei) -> None:
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"""
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Decrease the validator balance at index ``index`` by ``delta``, with underflow protection.
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"""
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state.balances[index] = 0 if delta > state.balances[index] else state.balances[index] - delta
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```
#### `initiate_validator_exit`
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```python
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def initiate_validator_exit(state: BeaconState, index: ValidatorIndex) -> None:
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"""
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Initiate the exit of the validator with index ``index``.
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"""
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# Return if validator already initiated exit
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validator = state.validators[index]
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if validator.exit_epoch != FAR_FUTURE_EPOCH:
return
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# Compute exit queue epoch
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exit_epochs = [v.exit_epoch for v in state.validators if v.exit_epoch != FAR_FUTURE_EPOCH]
exit_queue_epoch = max(exit_epochs + [compute_activation_exit_epoch(get_current_epoch(state))])
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exit_queue_churn = len([v for v in state.validators if v.exit_epoch == exit_queue_epoch])
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if exit_queue_churn >= get_validator_churn_limit(state):
exit_queue_epoch += Epoch(1)
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# Set validator exit epoch and withdrawable epoch
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validator.exit_epoch = exit_queue_epoch
validator.withdrawable_epoch = Epoch(validator.exit_epoch + MIN_VALIDATOR_WITHDRAWABILITY_DELAY)
```
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#### `slash_validator`
```python
def slash_validator(state: BeaconState,
slashed_index: ValidatorIndex,
whistleblower_index: ValidatorIndex=None) -> None:
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"""
Slash the validator with index ``slashed_index``.
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"""
epoch = get_current_epoch(state)
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initiate_validator_exit(state, slashed_index)
validator = state.validators[slashed_index]
validator.slashed = True
validator.withdrawable_epoch = max(validator.withdrawable_epoch, Epoch(epoch + EPOCHS_PER_SLASHINGS_VECTOR))
state.slashings[epoch % EPOCHS_PER_SLASHINGS_VECTOR] += validator.effective_balance
decrease_balance(state, slashed_index, validator.effective_balance // MIN_SLASHING_PENALTY_QUOTIENT)
# Apply proposer and whistleblower rewards
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proposer_index = get_beacon_proposer_index(state)
if whistleblower_index is None:
whistleblower_index = proposer_index
whistleblower_reward = Gwei(validator.effective_balance // WHISTLEBLOWER_REWARD_QUOTIENT)
proposer_reward = Gwei(whistleblower_reward // PROPOSER_REWARD_QUOTIENT)
increase_balance(state, proposer_index, proposer_reward)
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increase_balance(state, whistleblower_index, Gwei(whistleblower_reward - proposer_reward))
```
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## Genesis
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Before the Ethereum 2.0 genesis has been triggered, and for every Ethereum 1.0 block, let `candidate_state = initialize_beacon_state_from_eth1(eth1_block_hash, eth1_timestamp, deposits)` where:
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- `eth1_block_hash` is the hash of the Ethereum 1.0 block
- `eth1_timestamp` is the Unix timestamp corresponding to `eth1_block_hash`
- `deposits` is the sequence of all deposits, ordered chronologically, up to (and including) the block with hash `eth1_block_hash`
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Eth1 blocks must only be considered once they are at least `SECONDS_PER_ETH1_BLOCK * ETH1_FOLLOW_DISTANCE` seconds old (i.e. `eth1_timestamp + SECONDS_PER_ETH1_BLOCK * ETH1_FOLLOW_DISTANCE <= current_unix_time`). Due to this constraint, if `GENESIS_DELAY < SECONDS_PER_ETH1_BLOCK * ETH1_FOLLOW_DISTANCE`, then the `genesis_time` can happen before the time/state is first known. Values should be configured to avoid this case.
```python
def initialize_beacon_state_from_eth1(eth1_block_hash: Bytes32,
eth1_timestamp: uint64,
deposits: Sequence[Deposit]) -> BeaconState:
fork = Fork(
previous_version=GENESIS_FORK_VERSION,
current_version=GENESIS_FORK_VERSION,
epoch=GENESIS_EPOCH,
)
state = BeaconState(
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genesis_time=eth1_timestamp + GENESIS_DELAY,
fork=fork,
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eth1_data=Eth1Data(block_hash=eth1_block_hash, deposit_count=len(deposits)),
latest_block_header=BeaconBlockHeader(body_root=hash_tree_root(BeaconBlockBody())),
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randao_mixes=[eth1_block_hash] * EPOCHS_PER_HISTORICAL_VECTOR, # Seed RANDAO with Eth1 entropy
)
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# Process deposits
leaves = list(map(lambda deposit: deposit.data, deposits))
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for index, deposit in enumerate(deposits):
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deposit_data_list = List[DepositData, 2**DEPOSIT_CONTRACT_TREE_DEPTH](*leaves[:index + 1])
state.eth1_data.deposit_root = hash_tree_root(deposit_data_list)
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process_deposit(state, deposit)
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# Process activations
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for index, validator in enumerate(state.validators):
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balance = state.balances[index]
validator.effective_balance = min(balance - balance % EFFECTIVE_BALANCE_INCREMENT, MAX_EFFECTIVE_BALANCE)
if validator.effective_balance == MAX_EFFECTIVE_BALANCE:
validator.activation_eligibility_epoch = GENESIS_EPOCH
validator.activation_epoch = GENESIS_EPOCH
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# Set genesis validators root for domain separation and chain versioning
state.genesis_validators_root = hash_tree_root(state.validators)
return state
```
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*Note*: The ETH1 block with `eth1_timestamp` meeting the minimum genesis active validator count criteria can also occur before `MIN_GENESIS_TIME`.
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### Genesis state
Let `genesis_state = candidate_state` whenever `is_valid_genesis_state(candidate_state) is True` for the first time.
```python
def is_valid_genesis_state(state: BeaconState) -> bool:
if state.genesis_time < MIN_GENESIS_TIME:
return False
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if len(get_active_validator_indices(state, GENESIS_EPOCH)) < MIN_GENESIS_ACTIVE_VALIDATOR_COUNT:
return False
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return True
```
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*Note*: The `is_valid_genesis_state` function (including `MIN_GENESIS_TIME` and `MIN_GENESIS_ACTIVE_VALIDATOR_COUNT`) is a placeholder for testing. It has yet to be finalized by the community, and can be updated as necessary.
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### Genesis block
Let `genesis_block = BeaconBlock(state_root=hash_tree_root(genesis_state))`.
## Beacon chain state transition function
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The post-state corresponding to a pre-state `state` and a signed block `signed_block` is defined as `state_transition(state, signed_block)`. State transitions that trigger an unhandled exception (e.g. a failed `assert` or an out-of-range list access) are considered invalid. State transitions that cause a `uint64` overflow or underflow are also considered invalid.
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```python
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def state_transition(state: BeaconState, signed_block: SignedBeaconBlock, validate_result: bool=True) -> BeaconState:
block = signed_block.message
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# Process slots (including those with no blocks) since block
process_slots(state, block.slot)
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# Verify signature
if validate_result:
assert verify_block_signature(state, signed_block)
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# Process block
process_block(state, block)
# Verify state root
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if validate_result:
assert block.state_root == hash_tree_root(state)
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# Return post-state
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return state
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```
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```python
def verify_block_signature(state: BeaconState, signed_block: SignedBeaconBlock) -> bool:
proposer = state.validators[signed_block.message.proposer_index]
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signing_root = compute_signing_root(signed_block.message, get_domain(state, DOMAIN_BEACON_PROPOSER))
return bls.Verify(proposer.pubkey, signing_root, signed_block.signature)
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```
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```python
def process_slots(state: BeaconState, slot: Slot) -> None:
assert state.slot < slot
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while state.slot < slot:
process_slot(state)
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# Process epoch on the start slot of the next epoch
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if (state.slot + 1) % SLOTS_PER_EPOCH == 0:
process_epoch(state)
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state.slot = Slot(state.slot + 1)
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```
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```python
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def process_slot(state: BeaconState) -> None:
# Cache state root
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previous_state_root = hash_tree_root(state)
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state.state_roots[state.slot % SLOTS_PER_HISTORICAL_ROOT] = previous_state_root
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# Cache latest block header state root
if state.latest_block_header.state_root == Bytes32():
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state.latest_block_header.state_root = previous_state_root
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# Cache block root
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previous_block_root = hash_tree_root(state.latest_block_header)
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state.block_roots[state.slot % SLOTS_PER_HISTORICAL_ROOT] = previous_block_root
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```
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### Epoch processing
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```python
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def process_epoch(state: BeaconState) -> None:
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process_justification_and_finalization(state)
process_rewards_and_penalties(state)
process_registry_updates(state)
process_slashings(state)
process_final_updates(state)
```
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#### Helper functions
```python
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def get_matching_source_attestations(state: BeaconState, epoch: Epoch) -> Sequence[PendingAttestation]:
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assert epoch in (get_previous_epoch(state), get_current_epoch(state))
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return state.current_epoch_attestations if epoch == get_current_epoch(state) else state.previous_epoch_attestations
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```
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```python
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def get_matching_target_attestations(state: BeaconState, epoch: Epoch) -> Sequence[PendingAttestation]:
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return [
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a for a in get_matching_source_attestations(state, epoch)
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if a.data.target.root == get_block_root(state, epoch)
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]
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```
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```python
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def get_matching_head_attestations(state: BeaconState, epoch: Epoch) -> Sequence[PendingAttestation]:
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return [
a for a in get_matching_target_attestations(state, epoch)
if a.data.beacon_block_root == get_block_root_at_slot(state, a.data.slot)
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]
```
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```python
def get_unslashed_attesting_indices(state: BeaconState,
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attestations: Sequence[PendingAttestation]) -> Set[ValidatorIndex]:
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output = set() # type: Set[ValidatorIndex]
for a in attestations:
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output = output.union(get_attesting_indices(state, a.data, a.aggregation_bits))
return set(filter(lambda index: not state.validators[index].slashed, output))
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```
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```python
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def get_attesting_balance(state: BeaconState, attestations: Sequence[PendingAttestation]) -> Gwei:
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"""
Return the combined effective balance of the set of unslashed validators participating in ``attestations``.
Note: ``get_total_balance`` returns ``EFFECTIVE_BALANCE_INCREMENT`` Gwei minimum to avoid divisions by zero.
"""
return get_total_balance(state, get_unslashed_attesting_indices(state, attestations))
```
#### Justification and finalization
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```python
def process_justification_and_finalization(state: BeaconState) -> None:
if get_current_epoch(state) <= GENESIS_EPOCH + 1:
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return
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previous_epoch = get_previous_epoch(state)
current_epoch = get_current_epoch(state)
old_previous_justified_checkpoint = state.previous_justified_checkpoint
old_current_justified_checkpoint = state.current_justified_checkpoint
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# Process justifications
state.previous_justified_checkpoint = state.current_justified_checkpoint
state.justification_bits[1:] = state.justification_bits[:-1]
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state.justification_bits[0] = 0b0
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matching_target_attestations = get_matching_target_attestations(state, previous_epoch) # Previous epoch
if get_attesting_balance(state, matching_target_attestations) * 3 >= get_total_active_balance(state) * 2:
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state.current_justified_checkpoint = Checkpoint(epoch=previous_epoch,
root=get_block_root(state, previous_epoch))
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state.justification_bits[1] = 0b1
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matching_target_attestations = get_matching_target_attestations(state, current_epoch) # Current epoch
if get_attesting_balance(state, matching_target_attestations) * 3 >= get_total_active_balance(state) * 2:
state.current_justified_checkpoint = Checkpoint(epoch=current_epoch,
root=get_block_root(state, current_epoch))
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state.justification_bits[0] = 0b1
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# Process finalizations
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bits = state.justification_bits
# The 2nd/3rd/4th most recent epochs are justified, the 2nd using the 4th as source
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if all(bits[1:4]) and old_previous_justified_checkpoint.epoch + 3 == current_epoch:
state.finalized_checkpoint = old_previous_justified_checkpoint
# The 2nd/3rd most recent epochs are justified, the 2nd using the 3rd as source
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if all(bits[1:3]) and old_previous_justified_checkpoint.epoch + 2 == current_epoch:
state.finalized_checkpoint = old_previous_justified_checkpoint
# The 1st/2nd/3rd most recent epochs are justified, the 1st using the 3rd as source
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if all(bits[0:3]) and old_current_justified_checkpoint.epoch + 2 == current_epoch:
state.finalized_checkpoint = old_current_justified_checkpoint
# The 1st/2nd most recent epochs are justified, the 1st using the 2nd as source
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if all(bits[0:2]) and old_current_justified_checkpoint.epoch + 1 == current_epoch:
state.finalized_checkpoint = old_current_justified_checkpoint
```
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#### Rewards and penalties
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##### Helpers
```python
def get_base_reward(state: BeaconState, index: ValidatorIndex) -> Gwei:
total_balance = get_total_active_balance(state)
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effective_balance = state.validators[index].effective_balance
return Gwei(effective_balance * BASE_REWARD_FACTOR // integer_squareroot(total_balance) // BASE_REWARDS_PER_EPOCH)
```
```python
def get_proposer_reward(state: BeaconState, attesting_index: ValidatorIndex) -> Gwei:
return Gwei(get_base_reward(state, attesting_index) // PROPOSER_REWARD_QUOTIENT)
```
```python
def get_finality_delay(state: BeaconState) -> uint64:
return get_previous_epoch(state) - state.finalized_checkpoint.epoch
```
```python
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def is_in_inactivity_leak(state: BeaconState) -> bool:
return get_finality_delay(state) > MIN_EPOCHS_TO_INACTIVITY_PENALTY
```
```python
def get_eligible_validator_indices(state: BeaconState) -> Sequence[ValidatorIndex]:
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previous_epoch = get_previous_epoch(state)
return [
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ValidatorIndex(index) for index, v in enumerate(state.validators)
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if is_active_validator(v, previous_epoch) or (v.slashed and previous_epoch + 1 < v.withdrawable_epoch)
]
```
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```python
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def get_attestation_component_deltas(state: BeaconState,
attestations: Sequence[PendingAttestation]
) -> Tuple[Sequence[Gwei], Sequence[Gwei]]:
"""
Helper with shared logic for use by get source, target, and head deltas functions
"""
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rewards = [Gwei(0)] * len(state.validators)
penalties = [Gwei(0)] * len(state.validators)
total_balance = get_total_active_balance(state)
unslashed_attesting_indices = get_unslashed_attesting_indices(state, attestations)
attesting_balance = get_total_balance(state, unslashed_attesting_indices)
for index in get_eligible_validator_indices(state):
if index in unslashed_attesting_indices:
increment = EFFECTIVE_BALANCE_INCREMENT # Factored out from balance totals to avoid uint64 overflow
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if is_in_inactivity_leak(state):
# Since full base reward will be canceled out by inactivity penalty deltas,
# optimal participation receives full base reward compensation here.
rewards[index] += get_base_reward(state, index)
else:
reward_numerator = get_base_reward(state, index) * (attesting_balance // increment)
rewards[index] += reward_numerator // (total_balance // increment)
else:
penalties[index] += get_base_reward(state, index)
return rewards, penalties
```
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##### Components of attestation deltas
```python
def get_source_deltas(state: BeaconState) -> Tuple[Sequence[Gwei], Sequence[Gwei]]:
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"""
Return attester micro-rewards/penalties for source-vote for each validator.
"""
matching_source_attestations = get_matching_source_attestations(state, get_previous_epoch(state))
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return get_attestation_component_deltas(state, matching_source_attestations)
```
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```python
def get_target_deltas(state: BeaconState) -> Tuple[Sequence[Gwei], Sequence[Gwei]]:
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"""
Return attester micro-rewards/penalties for target-vote for each validator.
"""
matching_target_attestations = get_matching_target_attestations(state, get_previous_epoch(state))
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return get_attestation_component_deltas(state, matching_target_attestations)
```
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```python
def get_head_deltas(state: BeaconState) -> Tuple[Sequence[Gwei], Sequence[Gwei]]:
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"""
Return attester micro-rewards/penalties for head-vote for each validator.
"""
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matching_head_attestations = get_matching_head_attestations(state, get_previous_epoch(state))
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return get_attestation_component_deltas(state, matching_head_attestations)
```
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```python
def get_inclusion_delay_deltas(state: BeaconState) -> Tuple[Sequence[Gwei], Sequence[Gwei]]:
"""
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Return proposer and inclusion delay micro-rewards/penalties for each validator.
"""
rewards = [Gwei(0) for _ in range(len(state.validators))]
matching_source_attestations = get_matching_source_attestations(state, get_previous_epoch(state))
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for index in get_unslashed_attesting_indices(state, matching_source_attestations):
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attestation = min([
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a for a in matching_source_attestations
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if index in get_attesting_indices(state, a.data, a.aggregation_bits)
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], key=lambda a: a.inclusion_delay)
rewards[attestation.proposer_index] += get_proposer_reward(state, index)
max_attester_reward = get_base_reward(state, index) - get_proposer_reward(state, index)
rewards[index] += Gwei(max_attester_reward // attestation.inclusion_delay)
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# No penalties associated with inclusion delay
penalties = [Gwei(0) for _ in range(len(state.validators))]
return rewards, penalties
```
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```python
def get_inactivity_penalty_deltas(state: BeaconState) -> Tuple[Sequence[Gwei], Sequence[Gwei]]:
"""
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Return inactivity reward/penalty deltas for each validator.
"""
penalties = [Gwei(0) for _ in range(len(state.validators))]
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if is_in_inactivity_leak(state):
matching_target_attestations = get_matching_target_attestations(state, get_previous_epoch(state))
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matching_target_attesting_indices = get_unslashed_attesting_indices(state, matching_target_attestations)
for index in get_eligible_validator_indices(state):
# If validator is performing optimally this cancels all rewards for a neutral balance
base_reward = get_base_reward(state, index)
penalties[index] += Gwei(BASE_REWARDS_PER_EPOCH * base_reward - get_proposer_reward(state, index))
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if index not in matching_target_attesting_indices:
effective_balance = state.validators[index].effective_balance
penalties[index] += Gwei(effective_balance * get_finality_delay(state) // INACTIVITY_PENALTY_QUOTIENT)
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# No rewards associated with inactivity penalties
rewards = [Gwei(0) for _ in range(len(state.validators))]
return rewards, penalties
```
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##### `get_attestation_deltas`
```python
def get_attestation_deltas(state: BeaconState) -> Tuple[Sequence[Gwei], Sequence[Gwei]]:
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"""
Return attestation reward/penalty deltas for each validator.
"""
source_rewards, source_penalties = get_source_deltas(state)
target_rewards, target_penalties = get_target_deltas(state)
head_rewards, head_penalties = get_head_deltas(state)
inclusion_delay_rewards, _ = get_inclusion_delay_deltas(state)
_, inactivity_penalties = get_inactivity_penalty_deltas(state)
rewards = [
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source_rewards[i] + target_rewards[i] + head_rewards[i] + inclusion_delay_rewards[i]
for i in range(len(state.validators))
]
penalties = [
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source_penalties[i] + target_penalties[i] + head_penalties[i] + inactivity_penalties[i]
for i in range(len(state.validators))
]
return rewards, penalties
```
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##### `process_rewards_and_penalties`
```python
def process_rewards_and_penalties(state: BeaconState) -> None:
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if get_current_epoch(state) == GENESIS_EPOCH:
return
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rewards, penalties = get_attestation_deltas(state)
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for index in range(len(state.validators)):
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increase_balance(state, ValidatorIndex(index), rewards[index])
decrease_balance(state, ValidatorIndex(index), penalties[index])
```
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#### Registry updates
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```python
def process_registry_updates(state: BeaconState) -> None:
# Process activation eligibility and ejections
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for index, validator in enumerate(state.validators):
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if is_eligible_for_activation_queue(validator):
validator.activation_eligibility_epoch = get_current_epoch(state) + 1
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if is_active_validator(validator, get_current_epoch(state)) and validator.effective_balance <= EJECTION_BALANCE:
initiate_validator_exit(state, ValidatorIndex(index))
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# Queue validators eligible for activation and not yet dequeued for activation
activation_queue = sorted([
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index for index, validator in enumerate(state.validators)
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if is_eligible_for_activation(state, validator)
# Order by the sequence of activation_eligibility_epoch setting and then index
], key=lambda index: (state.validators[index].activation_eligibility_epoch, index))
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# Dequeued validators for activation up to churn limit
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for index in activation_queue[:get_validator_churn_limit(state)]:
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validator = state.validators[index]
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validator.activation_epoch = compute_activation_exit_epoch(get_current_epoch(state))
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```
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#### Slashings
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```python
def process_slashings(state: BeaconState) -> None:
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epoch = get_current_epoch(state)
total_balance = get_total_active_balance(state)
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for index, validator in enumerate(state.validators):
if validator.slashed and epoch + EPOCHS_PER_SLASHINGS_VECTOR // 2 == validator.withdrawable_epoch:
increment = EFFECTIVE_BALANCE_INCREMENT # Factored out from penalty numerator to avoid uint64 overflow
penalty_numerator = validator.effective_balance // increment * min(sum(state.slashings) * 3, total_balance)
penalty = penalty_numerator // total_balance * increment
decrease_balance(state, ValidatorIndex(index), penalty)
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```
#### Final updates
```python
def process_final_updates(state: BeaconState) -> None:
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current_epoch = get_current_epoch(state)
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next_epoch = Epoch(current_epoch + 1)
# Reset eth1 data votes
if next_epoch % EPOCHS_PER_ETH1_VOTING_PERIOD == 0:
state.eth1_data_votes = []
# Update effective balances with hysteresis
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for index, validator in enumerate(state.validators):
balance = state.balances[index]
HYSTERESIS_INCREMENT = EFFECTIVE_BALANCE_INCREMENT // HYSTERESIS_QUOTIENT
DOWNWARD_THRESHOLD = HYSTERESIS_INCREMENT * HYSTERESIS_DOWNWARD_MULTIPLIER
UPWARD_THRESHOLD = HYSTERESIS_INCREMENT * HYSTERESIS_UPWARD_MULTIPLIER
if (
balance + DOWNWARD_THRESHOLD < validator.effective_balance
or validator.effective_balance + UPWARD_THRESHOLD < balance
):
validator.effective_balance = min(balance - balance % EFFECTIVE_BALANCE_INCREMENT, MAX_EFFECTIVE_BALANCE)
# Reset slashings
state.slashings[next_epoch % EPOCHS_PER_SLASHINGS_VECTOR] = Gwei(0)
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# Set randao mix
state.randao_mixes[next_epoch % EPOCHS_PER_HISTORICAL_VECTOR] = get_randao_mix(state, current_epoch)
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# Set historical root accumulator
if next_epoch % (SLOTS_PER_HISTORICAL_ROOT // SLOTS_PER_EPOCH) == 0:
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historical_batch = HistoricalBatch(block_roots=state.block_roots, state_roots=state.state_roots)
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state.historical_roots.append(hash_tree_root(historical_batch))
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# Rotate current/previous epoch attestations
state.previous_epoch_attestations = state.current_epoch_attestations
state.current_epoch_attestations = []
```
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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)
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process_randao(state, block.body)
process_eth1_data(state, block.body)
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process_operations(state, block.body)
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```
#### Block header
```python
def process_block_header(state: BeaconState, block: BeaconBlock) -> None:
# Verify that the slots match
assert block.slot == state.slot
# Verify that the block is newer than latest block header
assert block.slot > state.latest_block_header.slot
# Verify that proposer index is the correct index
assert block.proposer_index == get_beacon_proposer_index(state)
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# Verify that the parent matches
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assert block.parent_root == hash_tree_root(state.latest_block_header)
# Cache current block as the new latest block
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state.latest_block_header = BeaconBlockHeader(
slot=block.slot,
proposer_index=block.proposer_index,
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parent_root=block.parent_root,
state_root=Bytes32(), # Overwritten in the next process_slot call
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body_root=hash_tree_root(block.body),
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)
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# Verify proposer is not slashed
proposer = state.validators[block.proposer_index]
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assert not proposer.slashed
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```
#### RANDAO
```python
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def process_randao(state: BeaconState, body: BeaconBlockBody) -> None:
epoch = get_current_epoch(state)
# Verify RANDAO reveal
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proposer = state.validators[get_beacon_proposer_index(state)]
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signing_root = compute_signing_root(epoch, get_domain(state, DOMAIN_RANDAO))
assert bls.Verify(proposer.pubkey, signing_root, body.randao_reveal)
# Mix in RANDAO reveal
mix = xor(get_randao_mix(state, epoch), hash(body.randao_reveal))
state.randao_mixes[epoch % EPOCHS_PER_HISTORICAL_VECTOR] = mix
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```
#### Eth1 data
```python
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def process_eth1_data(state: BeaconState, body: BeaconBlockBody) -> None:
state.eth1_data_votes.append(body.eth1_data)
if state.eth1_data_votes.count(body.eth1_data) * 2 > EPOCHS_PER_ETH1_VOTING_PERIOD * SLOTS_PER_EPOCH:
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state.eth1_data = body.eth1_data
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```
#### Operations
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```python
def process_operations(state: BeaconState, body: BeaconBlockBody) -> None:
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# Verify that outstanding deposits are processed up to the maximum number of deposits
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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:
for operation in operations:
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fn(state, operation)
for_ops(body.proposer_slashings, process_proposer_slashing)
for_ops(body.attester_slashings, process_attester_slashing)
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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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##### Proposer slashings
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```python
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def process_proposer_slashing(state: BeaconState, proposer_slashing: ProposerSlashing) -> None:
header_1 = proposer_slashing.signed_header_1.message
header_2 = proposer_slashing.signed_header_2.message
# Verify header slots match
assert header_1.slot == header_2.slot
# Verify header proposer indices match
assert header_1.proposer_index == header_2.proposer_index
# Verify the headers are different
assert header_1 != header_2
# Verify the proposer is slashable
proposer = state.validators[header_1.proposer_index]
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assert is_slashable_validator(proposer, get_current_epoch(state))
# Verify signatures
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for signed_header in (proposer_slashing.signed_header_1, proposer_slashing.signed_header_2):
domain = get_domain(state, DOMAIN_BEACON_PROPOSER, compute_epoch_at_slot(signed_header.message.slot))
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signing_root = compute_signing_root(signed_header.message, domain)
assert bls.Verify(proposer.pubkey, signing_root, signed_header.signature)
slash_validator(state, header_1.proposer_index)
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```
##### Attester slashings
2018-12-10 21:16:06 +00:00
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```python
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def process_attester_slashing(state: BeaconState, attester_slashing: AttesterSlashing) -> None:
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attestation_1 = attester_slashing.attestation_1
attestation_2 = attester_slashing.attestation_2
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assert is_slashable_attestation_data(attestation_1.data, attestation_2.data)
assert is_valid_indexed_attestation(state, attestation_1)
assert is_valid_indexed_attestation(state, attestation_2)
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slashed_any = False
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indices = set(attestation_1.attesting_indices).intersection(attestation_2.attesting_indices)
for index in sorted(indices):
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if is_slashable_validator(state.validators[index], get_current_epoch(state)):
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slash_validator(state, index)
slashed_any = True
assert slashed_any
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```
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##### Attestations
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```python
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def process_attestation(state: BeaconState, attestation: Attestation) -> None:
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data = attestation.data
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assert data.index < get_committee_count_at_slot(state, data.slot)
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assert data.target.epoch in (get_previous_epoch(state), get_current_epoch(state))
assert data.target.epoch == compute_epoch_at_slot(data.slot)
assert data.slot + MIN_ATTESTATION_INCLUSION_DELAY <= state.slot <= data.slot + SLOTS_PER_EPOCH
committee = get_beacon_committee(state, data.slot, data.index)
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assert len(attestation.aggregation_bits) == len(committee)
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pending_attestation = PendingAttestation(
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data=data,
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aggregation_bits=attestation.aggregation_bits,
inclusion_delay=state.slot - data.slot,
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proposer_index=get_beacon_proposer_index(state),
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)
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if data.target.epoch == get_current_epoch(state):
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assert data.source == state.current_justified_checkpoint
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state.current_epoch_attestations.append(pending_attestation)
else:
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assert data.source == state.previous_justified_checkpoint
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state.previous_epoch_attestations.append(pending_attestation)
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# Verify signature
assert is_valid_indexed_attestation(state, get_indexed_attestation(state, attestation))
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```
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##### Deposits
```python
def get_validator_from_deposit(state: BeaconState, deposit: Deposit) -> Validator:
amount = deposit.data.amount
effective_balance = min(amount - amount % EFFECTIVE_BALANCE_INCREMENT, MAX_EFFECTIVE_BALANCE)
return Validator(
pubkey=deposit.data.pubkey,
withdrawal_credentials=deposit.data.withdrawal_credentials,
activation_eligibility_epoch=FAR_FUTURE_EPOCH,
activation_epoch=FAR_FUTURE_EPOCH,
exit_epoch=FAR_FUTURE_EPOCH,
withdrawable_epoch=FAR_FUTURE_EPOCH,
effective_balance=effective_balance,
)
```
```python
def process_deposit(state: BeaconState, deposit: Deposit) -> None:
# Verify the Merkle branch
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assert is_valid_merkle_branch(
leaf=hash_tree_root(deposit.data),
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branch=deposit.proof,
depth=DEPOSIT_CONTRACT_TREE_DEPTH + 1, # Add 1 for the List length mix-in
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index=state.eth1_deposit_index,
root=state.eth1_data.deposit_root,
)
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# Deposits must be processed in order
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state.eth1_deposit_index += 1
pubkey = deposit.data.pubkey
amount = deposit.data.amount
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validator_pubkeys = [v.pubkey for v in state.validators]
if pubkey not in validator_pubkeys:
# Verify the deposit signature (proof of possession) which is not checked by the deposit contract
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deposit_message = DepositMessage(
pubkey=deposit.data.pubkey,
withdrawal_credentials=deposit.data.withdrawal_credentials,
amount=deposit.data.amount,
)
domain = compute_domain(DOMAIN_DEPOSIT) # Fork-agnostic domain since deposits are valid across forks
signing_root = compute_signing_root(deposit_message, domain)
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if not bls.Verify(pubkey, signing_root, deposit.data.signature):
return
# Add validator and balance entries
state.validators.append(get_validator_from_deposit(state, deposit))
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state.balances.append(amount)
else:
# Increase balance by deposit amount
index = ValidatorIndex(validator_pubkeys.index(pubkey))
increase_balance(state, index, amount)
```
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##### Voluntary exits
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```python
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def process_voluntary_exit(state: BeaconState, signed_voluntary_exit: SignedVoluntaryExit) -> None:
voluntary_exit = signed_voluntary_exit.message
validator = state.validators[voluntary_exit.validator_index]
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# Verify the validator is active
assert is_active_validator(validator, get_current_epoch(state))
# Verify exit has not been initiated
assert validator.exit_epoch == FAR_FUTURE_EPOCH
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# Exits must specify an epoch when they become valid; they are not valid before then
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assert get_current_epoch(state) >= voluntary_exit.epoch
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# Verify the validator has been active long enough
assert get_current_epoch(state) >= validator.activation_epoch + SHARD_COMMITTEE_PERIOD
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# Verify signature
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domain = get_domain(state, DOMAIN_VOLUNTARY_EXIT, voluntary_exit.epoch)
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signing_root = compute_signing_root(voluntary_exit, domain)
assert bls.Verify(validator.pubkey, signing_root, signed_voluntary_exit.signature)
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# Initiate exit
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initiate_validator_exit(state, voluntary_exit.validator_index)
```