Implements schema and functions related to Ethereum's block. |
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Note: this README
reflects the state of the library from v3.0.0
onwards. See README
from the standalone repository for an introduction on the last preceeding release.
npm install @ethereumjs/block
There are three static factories to instantiate a Block
:
Block.fromBlockData(blockData: BlockData = {}, opts?: BlockOptions)
Block.fromRLPSerializedBlock(serialized: Buffer, opts?: BlockOptions)
Block.fromValuesArray(values: BlockBuffer, opts?: BlockOptions)
For BlockHeader
instantiation analogue factory methods exists, see API docs linked below.
Instantiation Example:
import { BlockHeader } from '@ethereumjs/block'
const headerData = {
number: 15,
parentHash: '0x6bfee7294bf44572b7266358e627f3c35105e1c3851f3de09e6d646f955725a7',
difficulty: 131072,
gasLimit: 8000000,
timestamp: 1562422144,
}
const header = BlockHeader.fromHeaderData(headerData)
Properties of a Block
or BlockHeader
object are frozen with Object.freeze()
which gives you enhanced security and consistency properties when working with the instantiated object. This behavior can be modified using the freeze
option in the constructor if needed.
API Usage Example:
try {
await block.validate(blockchain)
// Block validation has passed
} catch (err) {
// handle errors appropriately
}
The block library supports the creation as well as format and consensus validation of PoW ethash
and PoA clique
blocks.
An Ethash/PoW block can be instantiated as follows:
import { Block } from '@ethereumjs/block'
import Common from '@ethereumjs/common'
const common = new Common({ chain: 'mainnet' })
console.log(common.consensusType()) // 'pow'
console.log(common.consensusAlgorithm()) // 'ethash'
const block = Block.fromBlockData({}, { common })
To validate that the difficulty of the block matches the canonical difficulty use block.validate(blockchain)
.
To calculate the difficulty when creating the block pass in the block option calcDifficultyFromHeader
with the preceding (parent) BlockHeader
.
A clique block can be instantiated as follows:
import { Block } from '@ethereumjs/block'
import Common from '@ethereumjs/common'
const common = new Common({ chain: 'goerli' })
console.log(common.consensusType()) // 'poa'
console.log(common.consensusAlgorithm()) // 'clique'
const block = Block.fromBlockData({}, { common })
For clique PoA BlockHeader.validate()
function validates the various Clique/PoA-specific properties (extraData
checks and others, see API documentation) and BlockHeader.validateConsensus()
can be used to properly validate that a Clique/PoA block has the correct signature.
For sealing a block on instantiation you can use the cliqueSigner
constructor option:
const cliqueSigner = Buffer.from('PRIVATE_KEY_HEX_STRING', 'hex')
const block = Block.fromHeaderData(headerData, { cliqueSigner })
Additionally there are the following utility methods for Clique/PoA related functionality in the BlockHeader
class:
BlockHeader.validateCliqueDifficulty(blockchain: Blockchain): boolean
BlockHeader.cliqueSigHash()
BlockHeader.cliqueIsEpochTransition(): boolean
BlockHeader.cliqueExtraVanity(): Buffer
BlockHeader.cliqueExtraSeal(): Buffer
BlockHeader.cliqueEpochTransitionSigners(): Address[]
BlockHeader.cliqueVerifySignature(signerList: Address[]): boolean
BlockHeader.cliqueSigner(): Address
See the API docs for detailed documentation. Note that these methods will throw if called in a non-Clique/PoA context.
Tests in the tests
directory are partly outdated and testing is primarily done by running the BlockchainTests
from within the @ethereumjs/vm package.
To avoid bloating this repository with ethereum/tests JSON files, we usually copy specific JSON files and wrap them with some metadata (source, date, commit hash). There's a helper to aid in that process and can be found at wrap-ethereum-test.sh.
See our organizational documentation for an introduction to EthereumJS
as well as information on current standards and best practices.
If you want to join for work or do improvements on the libraries have a look at our contribution guidelines.