fbcf0f8e2e
* Refactor `Attestation` production * Add constant * Start refactor for aggregation * Return early when no attesting validators * Refactor into individual functions * Tidy, add comments * Add first draft of NaiveAggregationPool * Further progress on naive aggregation pool * Fix compile errors in VC * Change locking logic for naive pool * Introduce AttesationType * Add pruning, comments * Add MAX_ATTESTATIONS_PER_SLOT restriction * Add pruning based on slot * Update BN for new aggregation fns * Fix test compile errors * Fix failing rest_api test * Move SignedAggregateAndProof into own file * Update docs, fix warning * Tidy some formatting in validator API * Remove T::default_spec from signing * Fix failing rest test * Tidy * Add test, fix bug * Improve naive pool tests * Add max attestations test * Revert changes to the op_pool * Refactor timer |
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| .. | ||
| src | ||
| Cargo.toml | ||
| README.md | ||
Lighthouse Validator Client
The Validator Client (VC) is a stand-alone binary which connects to a Beacon Node (BN) and fulfils the roles of a validator.
Roles
The VC is responsible for the following tasks:
- Requesting validator duties (a.k.a. shuffling) from the BN.
- Prompting the BN to produce a new block, when a validator's block production duties require.
- Completing all the fields on a new block (e.g., RANDAO reveal, signature) and publishing the block to a BN.
- Prompting the BN to produce a new attestation as per a validator's duties.
- Ensuring that no slashable messages are signed by a validator private key.
- Keeping track of the system clock and how it relates to slots/epochs.
The VC is capable of managing multiple validators in the same process tree.
Implementation
This section describes the present implementation of this VC binary.
Services
Each validator is represented by two services, one which tracks the validator duties and another which performs block production duties.
A separate thread is maintained for each service, for each validator. As such, a single validator utilises three (3) threads (one for the base VC and two for each service) and two validators utilise five (5) threads.
DutiesManagerService
Polls a BN and requests validator responsibilities, as well as a validator
index. The outcome of a successful poll is a EpochDuties struct:
EpochDuties {
validator_index: u64,
block_production_slot: u64,
}
This is stored in the EpochDutiesMap, a HashMap mapping epoch -> EpochDuties.
BlockProducerService
Polls the system clock and determines if a block needs to be produced. Reads
from the EpochDutiesMap maintained by the DutiesManagerService.
If block production is required, performs all the necessary duties to request, complete and return a block from the BN.
Configuration
Validator configurations are stored in a separate data directory from the main Beacon Node
binary. The validator data directory defaults to:
$HOME/.lighthouse-validator, however an alternative can be specified on the command line
with --datadir.
The configuration directory structure looks like:
~/.lighthouse-validator
├── 3cf4210d58ec
│ └── private.key
├── 9b5d8b5be4e7
│ └── private.key
└── cf6e07188f48
└── private.key
Where the hex value of the directory is a portion of the validator public key.
Validator keys must be generated using the separate account_manager binary, which will
place the keys into this directory structure in a format compatible with the validator client.
Be sure to check the readme for account_manager.
The chain specification (slot length, BLS domain, etc.) defaults to foundation parameters, however is temporary and an upgrade will allow these parameters to be read from a file (or initialized on first-boot).
BN Communication
The VC communicates with the BN via a gRPC/protobuf connection.