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# Ethereum 2.0 Phase 0 -- The Beacon Chain
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**Notice**: This document is a work-in-progress for researchers and implementers.
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## Table of contents
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<!-- TOC -->
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<!-- START doctoc generated TOC please keep comment here to allow auto update -->
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- [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 )
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- [`Checkpoint` ](#checkpoint )
- [`Validator` ](#validator )
- [`AttestationData` ](#attestationdata )
- [`IndexedAttestation` ](#indexedattestation )
- [`PendingAttestation` ](#pendingattestation )
- [`Eth1Data` ](#eth1data )
- [`HistoricalBatch` ](#historicalbatch )
- [`DepositMessage` ](#depositmessage )
- [`DepositData` ](#depositdata )
- [`BeaconBlockHeader` ](#beaconblockheader )
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- [`SigningRoot` ](#signingroot )
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- [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 )
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- [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 )
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- [`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 )
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- [`compute_fork_digest` ](#compute_fork_digest )
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- [`compute_domain` ](#compute_domain )
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- [`compute_signing_root` ](#compute_signing_root )
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- [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 )
- [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 )
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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 |
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| `ValidatorIndex` | `uint64` | a validator registry index |
| `Gwei` | `uint64` | an amount in Gwei |
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| `Root` | `Bytes32` | a Merkle root |
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| `Version` | `Bytes4` | a fork version number |
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| `DomainType` | `Bytes4` | a domain type |
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| `ForkDigest` | `Bytes4` | a digest of the current fork data |
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| `Domain` | `Bytes32` | a signature domain |
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| `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 |
| - | - |
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| `GENESIS_SLOT` | `Slot(0)` |
| `GENESIS_EPOCH` | `Epoch(0)` |
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| `FAR_FUTURE_EPOCH` | `Epoch(2**64 - 1)` |
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| `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 |
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| - | - |
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| `MAX_COMMITTEES_PER_SLOT` | `2**6` (= 64) |
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| `TARGET_COMMITTEE_SIZE` | `2**7` (= 128) |
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| `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` |
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| `MIN_GENESIS_ACTIVE_VALIDATOR_COUNT` | `2**14` (= 16,384) |
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| `MIN_GENESIS_TIME` | `1578009600` (Jan 3, 2020) |
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| `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
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| Name | Value |
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| - | - |
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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) |
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### Initial values
| Name | Value |
| - | - |
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| `GENESIS_FORK_VERSION` | `Version('0x00000000')` |
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| `BLS_WITHDRAWAL_PREFIX` | `Bytes1('0x00')` |
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### Time parameters
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| Name | Value | Unit | Duration |
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| - | - | :-: | :-: |
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| `MIN_GENESIS_DELAY` | `86400` | seconds | 1 day |
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| `SECONDS_PER_SLOT` | `12` | seconds | 12 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 |
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| `MAX_SEED_LOOKAHEAD` | `2**2` (= 4) | epochs | 25.6 minutes |
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| `MIN_EPOCHS_TO_INACTIVITY_PENALTY` | `2**2` (= 4) | epochs | 25.6 minutes |
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| `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 |
| `PERSISTENT_COMMITTEE_PERIOD` | `2**11` (= 2,048) | epochs | 9 days |
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### State list lengths
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| Name | Value | Unit | Duration |
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| - | - | :-: | :-: |
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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 |
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| `HISTORICAL_ROOTS_LIMIT` | `2**24` (= 16,777,216) | historical roots | ~52,262 years |
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| `VALIDATOR_REGISTRY_LIMIT` | `2**40` (= 1,099,511,627,776) | validators |
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### Rewards and penalties
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| Name | Value |
| - | - |
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| `BASE_REWARD_FACTOR` | `2**6` (= 64) |
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| `WHISTLEBLOWER_REWARD_QUOTIENT` | `2**9` (= 512) |
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| `PROPOSER_REWARD_QUOTIENT` | `2**3` (= 8) |
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| `INACTIVITY_PENALTY_QUOTIENT` | `2**25` (= 33,554,432) |
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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)` .
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### Max operations per block
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| Name | Value |
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| - | - |
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| `MAX_PROPOSER_SLASHINGS` | `2**4` (= 16) |
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| `MAX_ATTESTER_SLASHINGS` | `2**0` (= 1) |
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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 |
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| - | - |
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| `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
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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.
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*Note*: Fields missing in container instantiations default to their zero value.
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### Misc dependencies
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#### `Fork`
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```python
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class Fork(Container):
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previous_version: Version
current_version: Version
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epoch: Epoch # Epoch of latest fork
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```
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#### `ForkData`
```python
class ForkData(Container):
current_version: Version
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genesis_validators_root: Root
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```
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#### `Checkpoint`
```python
class Checkpoint(Container):
epoch: Epoch
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root: Root
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```
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#### `Validator`
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```python
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class Validator(Container):
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pubkey: BLSPubkey
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withdrawal_credentials: Bytes32 # Commitment to pubkey for withdrawals
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effective_balance: Gwei # Balance at stake
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slashed: boolean
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# Status epochs
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activation_eligibility_epoch: Epoch # When criteria for activation were met
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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`
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```python
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class AttestationData(Container):
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slot: Slot
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index: CommitteeIndex
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# LMD GHOST vote
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beacon_block_root: Root
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# FFG vote
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source: Checkpoint
target: Checkpoint
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```
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#### `IndexedAttestation`
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```python
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class IndexedAttestation(Container):
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attesting_indices: List[ValidatorIndex, MAX_VALIDATORS_PER_COMMITTEE]
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data: AttestationData
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signature: BLSSignature
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```
#### `PendingAttestation`
```python
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class PendingAttestation(Container):
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aggregation_bits: Bitlist[MAX_VALIDATORS_PER_COMMITTEE]
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data: AttestationData
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inclusion_delay: Slot
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proposer_index: ValidatorIndex
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```
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#### `Eth1Data`
```python
class Eth1Data(Container):
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deposit_root: Root
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deposit_count: uint64
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block_hash: Bytes32
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```
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#### `HistoricalBatch`
```python
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class HistoricalBatch(Container):
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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`
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```python
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class DepositData(Container):
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pubkey: BLSPubkey
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withdrawal_credentials: Bytes32
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amount: Gwei
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signature: BLSSignature # Signing over DepositMessage
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```
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#### `BeaconBlockHeader`
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```python
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class BeaconBlockHeader(Container):
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slot: Slot
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proposer_index: ValidatorIndex
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parent_root: Root
state_root: Root
body_root: Root
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```
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#### `SigningRoot`
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```python
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class SigningRoot(Container):
object_root: Root
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domain: Domain
```
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### Beacon operations
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#### `ProposerSlashing`
```python
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class ProposerSlashing(Container):
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signed_header_1: SignedBeaconBlockHeader
signed_header_2: SignedBeaconBlockHeader
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```
#### `AttesterSlashing`
```python
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class AttesterSlashing(Container):
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attestation_1: IndexedAttestation
attestation_2: IndexedAttestation
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```
#### `Attestation`
```python
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class Attestation(Container):
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aggregation_bits: Bitlist[MAX_VALIDATORS_PER_COMMITTEE]
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data: AttestationData
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signature: BLSSignature
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```
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#### `Deposit`
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```python
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class Deposit(Container):
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proof: Vector[Bytes32, DEPOSIT_CONTRACT_TREE_DEPTH + 1] # Merkle path to deposit root
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data: DepositData
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```
#### `VoluntaryExit`
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```python
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class VoluntaryExit(Container):
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epoch: Epoch # Earliest epoch when voluntary exit can be processed
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validator_index: ValidatorIndex
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```
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### Beacon blocks
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#### `BeaconBlockBody`
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```python
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class BeaconBlockBody(Container):
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randao_reveal: BLSSignature
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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
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class BeaconBlock(Container):
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slot: Slot
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proposer_index: ValidatorIndex
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parent_root: Root
state_root: Root
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body: BeaconBlockBody
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```
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### Beacon state
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#### `BeaconState`
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```python
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class BeaconState(Container):
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# Versioning
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genesis_time: uint64
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genesis_validators_root: Root
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slot: Slot
fork: Fork
# History
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latest_block_header: BeaconBlockHeader
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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
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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
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randao_mixes: Vector[Bytes32, EPOCHS_PER_HISTORICAL_VECTOR]
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# Slashings
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slashings: Vector[Gwei, EPOCHS_PER_SLASHINGS_VECTOR] # Per-epoch sums of slashed effective balances
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# Attestations
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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
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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
```
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## 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`
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`def hash(data: bytes) -> Bytes32` is SHA256.
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#### `hash_tree_root`
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`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 ](https://tools.ietf.org/html/draft-irtf-cfrg-bls-signature-00 ). Specifically, eth2 uses the `BLS_SIG_BLS12381G2-SHA256-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(pairs: Sequence[PK: BLSPubkey, message: 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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### 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 (
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# 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 )
)
```
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#### `is_valid_indexed_attestation`
```python
def is_valid_indexed_attestation(state: BeaconState, indexed_attestation: IndexedAttestation) -> bool:
"""
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Check if ``indexed_attestation`` has valid indices and signature.
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"""
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indices = indexed_attestation.attesting_indices
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# Verify max number of indices
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if not len(indices) < = MAX_VALIDATORS_PER_COMMITTEE:
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return False
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# Verify indices are sorted and unique
if not indices == sorted(set(indices)):
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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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```
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#### `is_valid_merkle_branch`
```python
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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
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def compute_shuffled_index(index: ValidatorIndex, index_count: uint64, seed: Bytes32) -> ValidatorIndex:
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"""
Return the shuffled validator index corresponding to ``seed`` (and ``index_count``).
"""
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 = ValidatorIndex((pivot + index_count - index) % index_count)
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 ValidatorIndex(index)
```
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#### `compute_proposer_index`
```python
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def compute_proposer_index(state: BeaconState, indices: Sequence[ValidatorIndex], seed: Bytes32) -> ValidatorIndex:
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"""
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(ValidatorIndex(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 ValidatorIndex(candidate_index)
i += 1
```
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#### `compute_committee`
```python
def compute_committee(indices: Sequence[ValidatorIndex],
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seed: Bytes32,
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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(ValidatorIndex(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)
```
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#### `compute_activation_exit_epoch`
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```python
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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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"""
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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:
"""
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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,
))
```
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#### `compute_fork_digest`
```python
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def compute_fork_digest(current_version: Version, genesis_validators_root: Root) -> ForkDigest:
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"""
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])
```
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#### `compute_domain`
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```python
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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
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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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"""
Return the signing root of an object by calculating the root of the object-domain tree.
"""
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domain_wrapped_object = SigningRoot(
object_root=hash_tree_root(ssz_object),
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domain=domain,
)
return hash_tree_root(domain_wrapped_object)
```
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### Beacon state accessors
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#### `get_current_epoch`
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```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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```
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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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"""
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current_epoch = get_current_epoch(state)
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return GENESIS_EPOCH if current_epoch == GENESIS_EPOCH else Epoch(current_epoch - 1)
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```
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#### `get_block_root`
2018-09-20 05:20:49 +00:00
2019-01-26 14:31:09 +00:00
```python
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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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2018-12-12 19:00:53 +00:00
```python
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def get_block_root_at_slot(state: BeaconState, slot: Slot) -> Root:
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"""
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Return the block root at a recent ``slot``.
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"""
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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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```
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#### `get_randao_mix`
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```python
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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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"""
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Return the sequence of active validator indices at ``epoch``.
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"""
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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`
2019-03-07 07:38:03 +00:00
2019-03-21 16:04:20 +00:00
```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
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def get_seed(state: BeaconState, epoch: Epoch, domain_type: DomainType) -> Bytes32:
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"""
Return the seed at ``epoch``.
"""
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mix = get_randao_mix(state, Epoch(epoch + EPOCHS_PER_HISTORICAL_VECTOR - MIN_SEED_LOOKAHEAD - 1)) # Avoid underflow
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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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```
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#### `get_beacon_committee`
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```python
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def get_beacon_committee(state: BeaconState, slot: Slot, index: CommitteeIndex) -> Sequence[ValidatorIndex]:
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"""
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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))
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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`
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```python
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def get_total_balance(state: BeaconState, indices: Set[ValidatorIndex]) -> Gwei:
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"""
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Return the combined effective balance of the ``indices``.
``EFFECTIVE_BALANCE_INCREMENT`` Gwei minimum to avoid divisions by zero.
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Math safe up to ~10B ETH, afterwhich this overflows uint64.
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"""
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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
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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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)
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```
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#### `get_attesting_indices`
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```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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"""
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Return the set of attesting indices corresponding to ``data`` and ``bits``.
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"""
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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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```
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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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```
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#### `initiate_validator_exit`
2018-12-10 21:16:06 +00:00
```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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2019-04-14 09:01:53 +00:00
# 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]
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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):
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exit_queue_epoch += Epoch(1)
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2019-04-13 23:13:53 +00:00
# Set validator exit epoch and withdrawable epoch
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validator.exit_epoch = exit_queue_epoch
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validator.withdrawable_epoch = Epoch(validator.exit_epoch + MIN_VALIDATOR_WITHDRAWABILITY_DELAY)
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```
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#### `slash_validator`
2019-01-28 19:15:43 +00:00
2018-12-28 18:04:03 +00:00
```python
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def slash_validator(state: BeaconState,
slashed_index: ValidatorIndex,
whistleblower_index: ValidatorIndex=None) -> None:
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"""
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Slash the validator with index ``slashed_index``.
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"""
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epoch = get_current_epoch(state)
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initiate_validator_exit(state, slashed_index)
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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)
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# Apply proposer and whistleblower rewards
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proposer_index = get_beacon_proposer_index(state)
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if whistleblower_index is None:
whistleblower_index = proposer_index
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whistleblower_reward = Gwei(validator.effective_balance // WHISTLEBLOWER_REWARD_QUOTIENT)
proposer_reward = Gwei(whistleblower_reward // PROPOSER_REWARD_QUOTIENT)
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increase_balance(state, proposer_index, proposer_reward)
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increase_balance(state, whistleblower_index, whistleblower_reward - proposer_reward)
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```
2019-05-05 16:15:05 +00:00
## 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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2019-06-30 19:25:58 +00:00
- `eth1_block_hash` is the hash of the Ethereum 1.0 block
- `eth1_timestamp` is the Unix timestamp corresponding to `eth1_block_hash`
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- `deposits` is the sequence of all deposits, ordered chronologically, up to (and including) the block with hash `eth1_block_hash`
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2019-06-08 18:00:50 +00:00
```python
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def initialize_beacon_state_from_eth1(eth1_block_hash: Bytes32,
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eth1_timestamp: uint64,
deposits: Sequence[Deposit]) -> BeaconState:
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fork = Fork(
previous_version=GENESIS_FORK_VERSION,
current_version=GENESIS_FORK_VERSION,
epoch=GENESIS_EPOCH,
)
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state = BeaconState(
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genesis_time=eth1_timestamp - eth1_timestamp % MIN_GENESIS_DELAY + 2 * MIN_GENESIS_DELAY,
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fork=fork,
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eth1_data=Eth1Data(block_hash=eth1_block_hash, deposit_count=len(deposits)),
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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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)
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# Process deposits
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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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2019-06-29 20:29:10 +00:00
# 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:
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validator.activation_eligibility_epoch = GENESIS_EPOCH
validator.activation_epoch = GENESIS_EPOCH
2018-12-10 21:16:06 +00:00
2020-03-05 16:21:32 +00:00
# Set genesis validators root for domain separation and chain versioning
state.genesis_validators_root = hash_tree_root(state.validators)
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return state
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```
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### Genesis state
Let `genesis_state = candidate_state` whenever `is_valid_genesis_state(candidate_state) is True` for the first time.
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```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:
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return False
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return True
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```
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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))` .
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## 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.
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2019-05-01 12:14:10 +00:00
```python
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def state_transition(state: BeaconState, signed_block: SignedBeaconBlock, validate_result: bool=True) -> BeaconState:
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block = signed_block.message
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# Process slots (including those with no blocks) since block
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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
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process_block(state, block)
# Verify state root
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if validate_result:
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assert block.state_root == hash_tree_root(state)
2019-05-08 18:15:23 +00:00
# Return post-state
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return state
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```
2018-09-20 05:20:49 +00:00
2019-11-21 22:13:45 +00:00
```python
def verify_block_signature(state: BeaconState, signed_block: SignedBeaconBlock) -> bool:
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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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```
2019-05-03 20:21:42 +00:00
```python
def process_slots(state: BeaconState, slot: Slot) -> None:
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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(1)
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```
2018-12-12 13:02:50 +00:00
2019-03-03 11:04:28 +00:00
```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
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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
2019-03-03 11:04:28 +00:00
```
2018-09-20 05:20:49 +00:00
2019-05-01 12:29:03 +00:00
### Epoch processing
2018-12-10 10:11:41 +00:00
2019-05-01 12:14:10 +00:00
```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)
```
2018-12-10 10:11:41 +00:00
2019-03-07 19:05:34 +00:00
#### 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))
2019-04-20 05:17:33 +00:00
return state.current_epoch_attestations if epoch == get_current_epoch(state) else state.previous_epoch_attestations
2019-03-07 19:05:34 +00:00
```
2018-10-11 17:57:30 +00:00
2019-03-03 11:04:28 +00:00
```python
2019-06-22 16:12:42 +00:00
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)
2019-06-22 20:49:53 +00:00
if a.data.target.root == get_block_root(state, epoch)
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]
2019-03-03 11:04:28 +00:00
```
2018-11-30 14:28:33 +00:00
2019-03-07 19:05:34 +00:00
```python
2019-06-22 16:12:42 +00:00
def get_matching_head_attestations(state: BeaconState, epoch: Epoch) -> Sequence[PendingAttestation]:
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return [
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a for a in get_matching_target_attestations(state, epoch)
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if a.data.beacon_block_root == get_block_root_at_slot(state, a.data.slot)
2019-03-07 19:05:34 +00:00
]
```
2018-11-16 12:54:03 +00:00
2019-03-07 19:05:34 +00:00
```python
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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]
2019-04-17 04:06:28 +00:00
for a in attestations:
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output = output.union(get_attesting_indices(state, a.data, a.aggregation_bits))
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return set(filter(lambda index: not state.validators[index].slashed, output))
2019-03-07 19:05:34 +00:00
```
2018-11-16 15:48:57 +00:00
2019-04-17 04:06:28 +00:00
```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.
"""
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return get_total_balance(state, get_unslashed_attesting_indices(state, attestations))
2019-04-17 04:06:28 +00:00
```
2018-11-16 12:54:03 +00:00
2019-04-18 09:08:34 +00:00
#### Justification and finalization
2019-03-07 19:05:34 +00:00
2019-03-01 02:54:59 +00:00
```python
2019-04-18 09:08:34 +00:00
def process_justification_and_finalization(state: BeaconState) -> None:
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if get_current_epoch(state) < = GENESIS_EPOCH + 1:
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return
2019-04-20 06:10:25 +00:00
previous_epoch = get_previous_epoch(state)
current_epoch = get_current_epoch(state)
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old_previous_justified_checkpoint = state.previous_justified_checkpoint
old_current_justified_checkpoint = state.current_justified_checkpoint
2019-03-12 18:32:11 +00:00
2019-04-16 04:59:35 +00:00
# Process justifications
2019-06-21 22:33:43 +00:00
state.previous_justified_checkpoint = state.current_justified_checkpoint
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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:
2019-06-28 15:34:31 +00:00
state.current_justified_checkpoint = Checkpoint(epoch=current_epoch,
root=get_block_root(state, current_epoch))
2019-06-28 11:23:22 +00:00
state.justification_bits[0] = 0b1
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# Process finalizations
2019-06-28 11:23:22 +00:00
bits = state.justification_bits
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# The 2nd/3rd/4th most recent epochs are justified, the 2nd using the 4th as source
2019-06-28 11:23:22 +00:00
if all(bits[1:4]) and old_previous_justified_checkpoint.epoch + 3 == current_epoch:
2019-06-21 22:33:43 +00:00
state.finalized_checkpoint = old_previous_justified_checkpoint
2019-04-16 04:59:35 +00:00
# The 2nd/3rd most recent epochs are justified, the 2nd using the 3rd as source
2019-06-28 11:23:22 +00:00
if all(bits[1:3]) and old_previous_justified_checkpoint.epoch + 2 == current_epoch:
2019-06-21 22:33:43 +00:00
state.finalized_checkpoint = old_previous_justified_checkpoint
2019-04-16 04:59:35 +00:00
# The 1st/2nd/3rd most recent epochs are justified, the 1st using the 3rd as source
2019-06-28 11:23:22 +00:00
if all(bits[0:3]) and old_current_justified_checkpoint.epoch + 2 == current_epoch:
2019-06-21 22:33:43 +00:00
state.finalized_checkpoint = old_current_justified_checkpoint
2019-04-16 04:59:35 +00:00
# The 1st/2nd most recent epochs are justified, the 1st using the 2nd as source
2019-06-28 11:23:22 +00:00
if all(bits[0:2]) and old_current_justified_checkpoint.epoch + 1 == current_epoch:
2019-06-21 22:33:43 +00:00
state.finalized_checkpoint = old_current_justified_checkpoint
2019-03-01 02:54:59 +00:00
```
2018-09-20 05:20:49 +00:00
2019-01-28 19:15:43 +00:00
#### Rewards and penalties
2018-12-12 15:07:44 +00:00
2019-03-01 13:59:52 +00:00
```python
2019-04-22 06:13:46 +00:00
def get_base_reward(state: BeaconState, index: ValidatorIndex) -> Gwei:
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total_balance = get_total_active_balance(state)
2019-06-09 19:41:21 +00:00
effective_balance = state.validators[index].effective_balance
2019-06-11 04:15:52 +00:00
return Gwei(effective_balance * BASE_REWARD_FACTOR // integer_squareroot(total_balance) // BASE_REWARDS_PER_EPOCH)
2019-03-01 13:59:52 +00:00
```
2019-04-17 02:32:50 +00:00
```python
2019-06-22 16:12:42 +00:00
def get_attestation_deltas(state: BeaconState) -> Tuple[Sequence[Gwei], Sequence[Gwei]]:
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previous_epoch = get_previous_epoch(state)
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total_balance = get_total_active_balance(state)
2019-06-17 21:51:00 +00:00
rewards = [Gwei(0) for _ in range(len(state.validators))]
penalties = [Gwei(0) for _ in range(len(state.validators))]
2019-04-24 04:23:51 +00:00
eligible_validator_indices = [
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ValidatorIndex(index) for index, v in enumerate(state.validators)
2019-04-24 04:23:51 +00:00
if is_active_validator(v, previous_epoch) or (v.slashed and previous_epoch + 1 < v.withdrawable_epoch )
2019-03-21 20:11:05 +00:00
]
2019-04-24 04:23:51 +00:00
# Micro-incentives for matching FFG source, FFG target, and head
matching_source_attestations = get_matching_source_attestations(state, previous_epoch)
matching_target_attestations = get_matching_target_attestations(state, previous_epoch)
matching_head_attestations = get_matching_head_attestations(state, previous_epoch)
for attestations in (matching_source_attestations, matching_target_attestations, matching_head_attestations):
unslashed_attesting_indices = get_unslashed_attesting_indices(state, attestations)
2019-06-02 20:13:52 +00:00
attesting_balance = get_total_balance(state, unslashed_attesting_indices)
2019-04-24 04:23:51 +00:00
for index in eligible_validator_indices:
if index in unslashed_attesting_indices:
2020-03-03 22:34:02 +00:00
increment = EFFECTIVE_BALANCE_INCREMENT # Factored out from balance totals to avoid uint64 overflow
reward_numerator = get_base_reward(state, index) * (attesting_balance // increment)
2020-03-24 06:15:40 +00:00
rewards[index] += reward_numerator // (total_balance // increment)
2019-04-17 04:06:28 +00:00
else:
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penalties[index] += get_base_reward(state, index)
# Proposer and inclusion delay micro-rewards
2019-04-24 05:32:43 +00:00
for index in get_unslashed_attesting_indices(state, matching_source_attestations):
2019-04-30 11:27:45 +00:00
attestation = min([
2019-05-03 16:34:16 +00:00
a for a in matching_source_attestations
2019-06-28 11:23:22 +00:00
if index in get_attesting_indices(state, a.data, a.aggregation_bits)
2019-04-30 11:27:45 +00:00
], key=lambda a: a.inclusion_delay)
2019-06-18 14:24:23 +00:00
proposer_reward = Gwei(get_base_reward(state, index) // PROPOSER_REWARD_QUOTIENT)
2019-06-10 14:14:32 +00:00
rewards[attestation.proposer_index] += proposer_reward
max_attester_reward = get_base_reward(state, index) - proposer_reward
2019-12-15 11:10:43 +00:00
rewards[index] += Gwei(max_attester_reward // attestation.inclusion_delay)
2019-04-24 04:23:51 +00:00
# Inactivity penalty
2019-06-21 22:33:43 +00:00
finality_delay = previous_epoch - state.finalized_checkpoint.epoch
2019-04-24 04:23:51 +00:00
if finality_delay > MIN_EPOCHS_TO_INACTIVITY_PENALTY:
matching_target_attesting_indices = get_unslashed_attesting_indices(state, matching_target_attestations)
for index in eligible_validator_indices:
2019-06-11 04:15:52 +00:00
penalties[index] += Gwei(BASE_REWARDS_PER_EPOCH * get_base_reward(state, index))
2019-04-24 04:23:51 +00:00
if index not in matching_target_attesting_indices:
2019-12-15 11:10:43 +00:00
effective_balance = state.validators[index].effective_balance
penalties[index] += Gwei(effective_balance * finality_delay // INACTIVITY_PENALTY_QUOTIENT)
2019-04-17 04:06:28 +00:00
2019-04-25 07:37:05 +00:00
return rewards, penalties
2019-03-01 13:59:52 +00:00
```
2018-09-20 05:20:49 +00:00
2019-03-01 13:59:52 +00:00
```python
2019-04-18 09:08:34 +00:00
def process_rewards_and_penalties(state: BeaconState) -> None:
2019-04-11 12:28:42 +00:00
if get_current_epoch(state) == GENESIS_EPOCH:
return
2019-10-18 03:17:46 +00:00
rewards, penalties = get_attestation_deltas(state)
2019-06-17 21:51:00 +00:00
for index in range(len(state.validators)):
2019-10-18 03:17:46 +00:00
increase_balance(state, ValidatorIndex(index), rewards[index])
decrease_balance(state, ValidatorIndex(index), penalties[index])
2019-03-01 13:59:52 +00:00
```
2018-11-23 04:54:11 +00:00
2019-04-18 09:08:34 +00:00
#### Registry updates
2018-12-13 19:45:08 +00:00
2018-12-05 11:22:15 +00:00
```python
2019-04-18 09:08:34 +00:00
def process_registry_updates(state: BeaconState) -> None:
# Process activation eligibility and ejections
2019-06-09 19:41:21 +00:00
for index, validator in enumerate(state.validators):
2019-12-11 23:10:18 +00:00
if is_eligible_for_activation_queue(validator):
2019-12-12 13:53:56 +00:00
validator.activation_eligibility_epoch = get_current_epoch(state) + 1
2018-12-04 19:49:26 +00:00
2019-04-20 06:32:41 +00:00
if is_active_validator(validator, get_current_epoch(state)) and validator.effective_balance < = EJECTION_BALANCE:
2019-06-11 04:15:52 +00:00
initiate_validator_exit(state, ValidatorIndex(index))
2019-03-07 19:05:34 +00:00
2019-12-10 18:49:26 +00:00
# Queue validators eligible for activation and not yet dequeued for activation
2019-04-06 14:24:50 +00:00
activation_queue = sorted([
2019-06-30 20:59:12 +00:00
index for index, validator in enumerate(state.validators)
2019-12-11 23:00:46 +00:00
if is_eligible_for_activation(state, validator)
2019-12-12 13:53:56 +00:00
# Order by the sequence of activation_eligibility_epoch setting and then index
2019-12-12 13:43:37 +00:00
], key=lambda index: (state.validators[index].activation_eligibility_epoch, index))
2019-12-10 18:25:55 +00:00
# Dequeued validators for activation up to churn limit
2019-06-30 13:11:46 +00:00
for index in activation_queue[:get_validator_churn_limit(state)]:
2019-06-09 19:41:21 +00:00
validator = state.validators[index]
2019-12-10 18:25:55 +00:00
validator.activation_epoch = compute_activation_exit_epoch(get_current_epoch(state))
2019-03-07 19:05:34 +00:00
```
2019-04-06 10:07:03 +00:00
#### Slashings
2019-03-07 19:05:34 +00:00
```python
def process_slashings(state: BeaconState) -> None:
2019-06-22 05:34:02 +00:00
epoch = get_current_epoch(state)
2019-05-26 15:42:37 +00:00
total_balance = get_total_active_balance(state)
2019-06-09 19:41:21 +00:00
for index, validator in enumerate(state.validators):
2019-06-28 13:35:26 +00:00
if validator.slashed and epoch + EPOCHS_PER_SLASHINGS_VECTOR // 2 == validator.withdrawable_epoch:
2019-07-11 08:53:51 +00:00
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
2019-06-11 04:15:52 +00:00
decrease_balance(state, ValidatorIndex(index), penalty)
2019-03-07 19:05:34 +00:00
```
#### Final updates
```python
2019-04-18 09:08:34 +00:00
def process_final_updates(state: BeaconState) -> None:
2019-03-07 19:05:34 +00:00
current_epoch = get_current_epoch(state)
2019-06-30 10:01:54 +00:00
next_epoch = Epoch(current_epoch + 1)
2019-04-17 04:30:03 +00:00
# Reset eth1 data votes
2020-02-18 13:12:43 +00:00
if next_epoch % EPOCHS_PER_ETH1_VOTING_PERIOD == 0:
2019-04-17 04:30:03 +00:00
state.eth1_data_votes = []
2019-04-22 06:13:46 +00:00
# Update effective balances with hysteresis
2019-06-09 19:41:21 +00:00
for index, validator in enumerate(state.validators):
2019-04-26 14:46:35 +00:00
balance = state.balances[index]
2020-03-03 17:58:47 +00:00
HYSTERESIS_INCREMENT = EFFECTIVE_BALANCE_INCREMENT // HYSTERESIS_QUOTIENT
DOWNWARD_THRESHOLD = HYSTERESIS_INCREMENT * HYSTERESIS_DOWNWARD_MULTIPLIER
UPWARD_THRESHOLD = HYSTERESIS_INCREMENT * HYSTERESIS_UPWARD_MULTIPLIER
2020-02-18 18:36:20 +00:00
if (
2020-03-03 17:58:47 +00:00
balance + DOWNWARD_THRESHOLD < validator.effective_balance
or validator.effective_balance + UPWARD_THRESHOLD < balance
2020-02-18 18:36:20 +00:00
):
2019-04-26 14:46:35 +00:00
validator.effective_balance = min(balance - balance % EFFECTIVE_BALANCE_INCREMENT, MAX_EFFECTIVE_BALANCE)
2019-06-28 13:35:26 +00:00
# Reset slashings
state.slashings[next_epoch % EPOCHS_PER_SLASHINGS_VECTOR] = Gwei(0)
2019-03-07 19:05:34 +00:00
# Set randao mix
2019-06-19 19:59:44 +00:00
state.randao_mixes[next_epoch % EPOCHS_PER_HISTORICAL_VECTOR] = get_randao_mix(state, current_epoch)
2019-03-07 19:05:34 +00:00
# Set historical root accumulator
if next_epoch % (SLOTS_PER_HISTORICAL_ROOT // SLOTS_PER_EPOCH) == 0:
2019-06-30 13:45:36 +00:00
historical_batch = HistoricalBatch(block_roots=state.block_roots, state_roots=state.state_roots)
2019-03-08 17:13:05 +00:00
state.historical_roots.append(hash_tree_root(historical_batch))
2019-03-07 19:05:34 +00:00
# Rotate current/previous epoch attestations
state.previous_epoch_attestations = state.current_epoch_attestations
state.current_epoch_attestations = []
```
2019-05-01 12:29:03 +00:00
### Block processing
2019-03-07 19:05:34 +00:00
```python
2019-05-01 12:14:10 +00:00
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)
2019-05-01 12:14:10 +00:00
process_operations(state, block.body)
2019-03-07 19:05:34 +00:00
```
#### Block header
```python
def process_block_header(state: BeaconState, block: BeaconBlock) -> None:
# Verify that the slots match
assert block.slot == state.slot
2020-02-17 19:02:24 +00:00
# Verify that proposer index is the correct index
assert block.proposer_index == get_beacon_proposer_index(state)
2019-03-07 19:05:34 +00:00
# Verify that the parent matches
2019-11-21 22:13:45 +00:00
assert block.parent_root == hash_tree_root(state.latest_block_header)
2019-12-15 11:10:43 +00:00
# Cache current block as the new latest block
2019-04-19 08:26:54 +00:00
state.latest_block_header = BeaconBlockHeader(
slot=block.slot,
2020-02-17 19:02:24 +00:00
proposer_index=block.proposer_index,
2019-05-06 19:49:46 +00:00
parent_root=block.parent_root,
2019-12-15 11:10:43 +00:00
state_root=Bytes32(), # Overwritten in the next process_slot call
2019-05-07 07:52:56 +00:00
body_root=hash_tree_root(block.body),
2019-04-19 08:26:54 +00:00
)
2019-12-15 11:10:43 +00:00
2019-03-17 11:48:47 +00:00
# Verify proposer is not slashed
2020-02-17 19:02:24 +00:00
proposer = state.validators[block.proposer_index]
2019-03-11 22:07:34 +00:00
assert not proposer.slashed
2019-03-07 19:05:34 +00:00
```
#### RANDAO
```python
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def process_randao(state: BeaconState, body: BeaconBlockBody) -> None:
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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)
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# 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)
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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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```
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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:
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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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```
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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:
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header_1 = proposer_slashing.signed_header_1.message
header_2 = proposer_slashing.signed_header_2.message
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# Verify header slots match
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assert header_1.slot == header_2.slot
# Verify header proposer indices match
assert header_1.proposer_index == header_2.proposer_index
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# Verify the headers are different
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assert header_1 != header_2
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# Verify the proposer is slashable
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proposer = state.validators[header_1.proposer_index]
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assert is_slashable_validator(proposer, get_current_epoch(state))
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# 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)
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slash_validator(state, header_1.proposer_index)
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```
##### Attester slashings
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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)
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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))
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assert data.target.epoch == compute_epoch_at_slot(data.slot)
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assert data.slot + MIN_ATTESTATION_INCLUSION_DELAY < = state.slot < = data.slot + SLOTS_PER_EPOCH
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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,
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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)
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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
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assert is_valid_indexed_attestation(state, get_indexed_attestation(state, attestation))
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```
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##### Deposits
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```python
def process_deposit(state: BeaconState, deposit: Deposit) -> None:
# Verify the Merkle branch
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assert is_valid_merkle_branch(
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leaf=hash_tree_root(deposit.data),
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branch=deposit.proof,
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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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)
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# Deposits must be processed in order
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state.eth1_deposit_index += 1
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pubkey = deposit.data.pubkey
amount = deposit.data.amount
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validator_pubkeys = [v.pubkey for v in state.validators]
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if pubkey not in validator_pubkeys:
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# 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,
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amount=deposit.data.amount,
)
domain = compute_domain(DOMAIN_DEPOSIT) # Fork-agnostic domain since deposits are valid across forks
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signing_root = compute_signing_root(deposit_message, domain)
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if not bls.Verify(pubkey, signing_root, deposit.data.signature):
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return
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# Add validator and balance entries
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state.validators.append(Validator(
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pubkey=pubkey,
withdrawal_credentials=deposit.data.withdrawal_credentials,
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activation_eligibility_epoch=FAR_FUTURE_EPOCH,
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activation_epoch=FAR_FUTURE_EPOCH,
exit_epoch=FAR_FUTURE_EPOCH,
withdrawable_epoch=FAR_FUTURE_EPOCH,
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effective_balance=min(amount - amount % EFFECTIVE_BALANCE_INCREMENT, MAX_EFFECTIVE_BALANCE),
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))
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state.balances.append(amount)
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else:
# Increase balance by deposit amount
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index = ValidatorIndex(validator_pubkeys.index(pubkey))
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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))
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# Verify exit has not been initiated
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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
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assert get_current_epoch(state) >= validator.activation_epoch + PERSISTENT_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)
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```