@ethereumjs/block
Version:
Provides Block serialization and help functions
650 lines • 30.6 kB
JavaScript
import { Common, ConsensusAlgorithm, ConsensusType, Hardfork, Mainnet } from '@ethereumjs/common';
import { RLP } from '@ethereumjs/rlp';
import { Address, BIGINT_0, BIGINT_1, BIGINT_2, BIGINT_7, EthereumJSErrorWithoutCode, KECCAK256_RLP, KECCAK256_RLP_ARRAY, SHA256_NULL, TypeOutput, bigIntToHex, bigIntToUnpaddedBytes, bytesToHex, bytesToUtf8, createZeroAddress, equalsBytes, hexToBytes, toType, } from '@ethereumjs/util';
import { keccak256 } from 'ethereum-cryptography/keccak.js';
import { CLIQUE_EXTRA_SEAL, CLIQUE_EXTRA_VANITY, cliqueIsEpochTransition, } from "../consensus/clique.js";
import { computeBlobGasPrice } from "../helpers.js";
import { paramsBlock } from "../params.js";
const DEFAULT_GAS_LIMIT = BigInt('0xffffffffffffff');
/**
* An object that represents the block header.
*/
export class BlockHeader {
/**
* EIP-4399: After merge to PoS, `mixHash` supplanted as `prevRandao`
*/
get prevRandao() {
if (!this.common.isActivatedEIP(4399)) {
const msg = this._errorMsg('The prevRandao parameter can only be accessed when EIP-4399 is activated');
throw EthereumJSErrorWithoutCode(msg);
}
return this.mixHash;
}
/**
* This constructor takes the values, validates them, assigns them and freezes the object.
*
* @deprecated Use the public static factory methods to assist in creating a Header object from
* varying data types. For a default empty header, use {@link createBlockHeader}.
*
*/
constructor(headerData, opts = {}) {
this.cache = {
hash: undefined,
};
if (opts.common) {
this.common = opts.common.copy();
}
else {
this.common = new Common({
chain: Mainnet, // default
});
}
this.common.updateParams(opts.params ?? paramsBlock);
this.keccakFunction = this.common.customCrypto.keccak256 ?? keccak256;
const skipValidateConsensusFormat = opts.skipConsensusFormatValidation ?? false;
const defaults = {
parentHash: new Uint8Array(32),
uncleHash: KECCAK256_RLP_ARRAY,
coinbase: createZeroAddress(),
stateRoot: new Uint8Array(32),
transactionsTrie: KECCAK256_RLP,
receiptTrie: KECCAK256_RLP,
logsBloom: new Uint8Array(256),
difficulty: BIGINT_0,
number: BIGINT_0,
gasLimit: DEFAULT_GAS_LIMIT,
gasUsed: BIGINT_0,
timestamp: BIGINT_0,
extraData: new Uint8Array(0),
mixHash: new Uint8Array(32),
nonce: new Uint8Array(8),
};
const parentHash = toType(headerData.parentHash, TypeOutput.Uint8Array) ?? defaults.parentHash;
const uncleHash = toType(headerData.uncleHash, TypeOutput.Uint8Array) ?? defaults.uncleHash;
const coinbase = new Address(toType(headerData.coinbase ?? defaults.coinbase, TypeOutput.Uint8Array));
const stateRoot = toType(headerData.stateRoot, TypeOutput.Uint8Array) ?? defaults.stateRoot;
const transactionsTrie = toType(headerData.transactionsTrie, TypeOutput.Uint8Array) ?? defaults.transactionsTrie;
const receiptTrie = toType(headerData.receiptTrie, TypeOutput.Uint8Array) ?? defaults.receiptTrie;
const logsBloom = toType(headerData.logsBloom, TypeOutput.Uint8Array) ?? defaults.logsBloom;
const difficulty = toType(headerData.difficulty, TypeOutput.BigInt) ?? defaults.difficulty;
const number = toType(headerData.number, TypeOutput.BigInt) ?? defaults.number;
const gasLimit = toType(headerData.gasLimit, TypeOutput.BigInt) ?? defaults.gasLimit;
const gasUsed = toType(headerData.gasUsed, TypeOutput.BigInt) ?? defaults.gasUsed;
const timestamp = toType(headerData.timestamp, TypeOutput.BigInt) ?? defaults.timestamp;
const extraData = toType(headerData.extraData, TypeOutput.Uint8Array) ?? defaults.extraData;
const mixHash = toType(headerData.mixHash, TypeOutput.Uint8Array) ?? defaults.mixHash;
const nonce = toType(headerData.nonce, TypeOutput.Uint8Array) ?? defaults.nonce;
const setHardfork = opts.setHardfork ?? false;
if (setHardfork === true) {
this.common.setHardforkBy({
blockNumber: number,
timestamp,
});
}
// Hardfork defaults which couldn't be paired with earlier defaults
const hardforkDefaults = {
baseFeePerGas: this.common.isActivatedEIP(1559)
? number === this.common.hardforkBlock(Hardfork.London)
? this.common.param('initialBaseFee')
: BIGINT_7
: undefined,
withdrawalsRoot: this.common.isActivatedEIP(4895) ? KECCAK256_RLP : undefined,
blobGasUsed: this.common.isActivatedEIP(4844) ? BIGINT_0 : undefined,
excessBlobGas: this.common.isActivatedEIP(4844) ? BIGINT_0 : undefined,
parentBeaconBlockRoot: this.common.isActivatedEIP(4788) ? new Uint8Array(32) : undefined,
// Note: as of devnet-4 we stub the null SHA256 hash, but for devnet5 this will actually
// be the correct hash for empty requests.
requestsHash: this.common.isActivatedEIP(7685) ? SHA256_NULL : undefined,
};
const baseFeePerGas = toType(headerData.baseFeePerGas, TypeOutput.BigInt) ?? hardforkDefaults.baseFeePerGas;
const withdrawalsRoot = toType(headerData.withdrawalsRoot, TypeOutput.Uint8Array) ?? hardforkDefaults.withdrawalsRoot;
const blobGasUsed = toType(headerData.blobGasUsed, TypeOutput.BigInt) ?? hardforkDefaults.blobGasUsed;
const excessBlobGas = toType(headerData.excessBlobGas, TypeOutput.BigInt) ?? hardforkDefaults.excessBlobGas;
const parentBeaconBlockRoot = toType(headerData.parentBeaconBlockRoot, TypeOutput.Uint8Array) ??
hardforkDefaults.parentBeaconBlockRoot;
const requestsHash = toType(headerData.requestsHash, TypeOutput.Uint8Array) ?? hardforkDefaults.requestsHash;
if (!this.common.isActivatedEIP(1559) && baseFeePerGas !== undefined) {
throw EthereumJSErrorWithoutCode('A base fee for a block can only be set with EIP1559 being activated');
}
if (!this.common.isActivatedEIP(4895) && withdrawalsRoot !== undefined) {
throw EthereumJSErrorWithoutCode('A withdrawalsRoot for a header can only be provided with EIP4895 being activated');
}
if (!this.common.isActivatedEIP(4844)) {
if (blobGasUsed !== undefined) {
throw EthereumJSErrorWithoutCode('blob gas used can only be provided with EIP4844 activated');
}
if (excessBlobGas !== undefined) {
throw EthereumJSErrorWithoutCode('excess blob gas can only be provided with EIP4844 activated');
}
}
if (!this.common.isActivatedEIP(4788) && parentBeaconBlockRoot !== undefined) {
throw EthereumJSErrorWithoutCode('A parentBeaconBlockRoot for a header can only be provided with EIP4788 being activated');
}
if (!this.common.isActivatedEIP(7685) && requestsHash !== undefined) {
throw EthereumJSErrorWithoutCode('requestsHash can only be provided with EIP 7685 activated');
}
this.parentHash = parentHash;
this.uncleHash = uncleHash;
this.coinbase = coinbase;
this.stateRoot = stateRoot;
this.transactionsTrie = transactionsTrie;
this.receiptTrie = receiptTrie;
this.logsBloom = logsBloom;
this.difficulty = difficulty;
this.number = number;
this.gasLimit = gasLimit;
this.gasUsed = gasUsed;
this.timestamp = timestamp;
this.extraData = extraData;
this.mixHash = mixHash;
this.nonce = nonce;
this.baseFeePerGas = baseFeePerGas;
this.withdrawalsRoot = withdrawalsRoot;
this.blobGasUsed = blobGasUsed;
this.excessBlobGas = excessBlobGas;
this.parentBeaconBlockRoot = parentBeaconBlockRoot;
this.requestsHash = requestsHash;
this._genericFormatValidation();
this._validateDAOExtraData();
// Now we have set all the values of this Header, we possibly have set a dummy
// `difficulty` value (defaults to 0). If we have a `calcDifficultyFromHeader`
// block option parameter, we instead set difficulty to this value.
if (opts.calcDifficultyFromHeader &&
this.common.consensusAlgorithm() === ConsensusAlgorithm.Ethash) {
this.difficulty = this.ethashCanonicalDifficulty(opts.calcDifficultyFromHeader);
}
// Validate consensus format after block is sealed (if applicable) so extraData checks will pass
if (skipValidateConsensusFormat === false)
this._consensusFormatValidation();
const freeze = opts?.freeze ?? true;
if (freeze) {
Object.freeze(this);
}
}
/**
* Validates correct buffer lengths, throws if invalid.
*/
_genericFormatValidation() {
const { parentHash, stateRoot, transactionsTrie, receiptTrie, mixHash, nonce } = this;
if (parentHash.length !== 32) {
const msg = this._errorMsg(`parentHash must be 32 bytes, received ${parentHash.length} bytes`);
throw EthereumJSErrorWithoutCode(msg);
}
if (stateRoot.length !== 32) {
const msg = this._errorMsg(`stateRoot must be 32 bytes, received ${stateRoot.length} bytes`);
throw EthereumJSErrorWithoutCode(msg);
}
if (transactionsTrie.length !== 32) {
const msg = this._errorMsg(`transactionsTrie must be 32 bytes, received ${transactionsTrie.length} bytes`);
throw EthereumJSErrorWithoutCode(msg);
}
if (receiptTrie.length !== 32) {
const msg = this._errorMsg(`receiptTrie must be 32 bytes, received ${receiptTrie.length} bytes`);
throw EthereumJSErrorWithoutCode(msg);
}
if (mixHash.length !== 32) {
const msg = this._errorMsg(`mixHash must be 32 bytes, received ${mixHash.length} bytes`);
throw EthereumJSErrorWithoutCode(msg);
}
if (nonce.length !== 8) {
const msg = this._errorMsg(`nonce must be 8 bytes, received ${nonce.length} bytes`);
throw EthereumJSErrorWithoutCode(msg);
}
// check if the block used too much gas
if (this.gasUsed > this.gasLimit) {
const msg = this._errorMsg(`Invalid block: too much gas used. Used: ${this.gasUsed}, gas limit: ${this.gasLimit}`);
throw EthereumJSErrorWithoutCode(msg);
}
// Validation for EIP-1559 blocks
if (this.common.isActivatedEIP(1559)) {
if (typeof this.baseFeePerGas !== 'bigint') {
const msg = this._errorMsg('EIP1559 block has no base fee field');
throw EthereumJSErrorWithoutCode(msg);
}
const londonHfBlock = this.common.hardforkBlock(Hardfork.London);
if (typeof londonHfBlock === 'bigint' &&
londonHfBlock !== BIGINT_0 &&
this.number === londonHfBlock) {
const initialBaseFee = this.common.param('initialBaseFee');
if (this.baseFeePerGas !== initialBaseFee) {
const msg = this._errorMsg('Initial EIP1559 block does not have initial base fee');
throw EthereumJSErrorWithoutCode(msg);
}
}
}
if (this.common.isActivatedEIP(4895)) {
if (this.withdrawalsRoot === undefined) {
const msg = this._errorMsg('EIP4895 block has no withdrawalsRoot field');
throw EthereumJSErrorWithoutCode(msg);
}
if (this.withdrawalsRoot?.length !== 32) {
const msg = this._errorMsg(`withdrawalsRoot must be 32 bytes, received ${this.withdrawalsRoot.length} bytes`);
throw EthereumJSErrorWithoutCode(msg);
}
}
if (this.common.isActivatedEIP(4788)) {
if (this.parentBeaconBlockRoot === undefined) {
const msg = this._errorMsg('EIP4788 block has no parentBeaconBlockRoot field');
throw EthereumJSErrorWithoutCode(msg);
}
if (this.parentBeaconBlockRoot?.length !== 32) {
const msg = this._errorMsg(`parentBeaconBlockRoot must be 32 bytes, received ${this.parentBeaconBlockRoot.length} bytes`);
throw EthereumJSErrorWithoutCode(msg);
}
}
if (this.common.isActivatedEIP(7685)) {
if (this.requestsHash === undefined) {
const msg = this._errorMsg('EIP7685 block has no requestsHash field');
throw EthereumJSErrorWithoutCode(msg);
}
}
}
/**
* Checks static parameters related to consensus algorithm
* @throws if any check fails
*/
_consensusFormatValidation() {
const { nonce, uncleHash, difficulty, extraData, number } = this;
// Consensus type dependent checks
if (this.common.consensusAlgorithm() === ConsensusAlgorithm.Ethash) {
// PoW/Ethash
if (number > BIGINT_0 && this.extraData.length > this.common.param('maxExtraDataSize')) {
// Check length of data on all post-genesis blocks
const msg = this._errorMsg('invalid amount of extra data');
throw EthereumJSErrorWithoutCode(msg);
}
}
if (this.common.consensusAlgorithm() === ConsensusAlgorithm.Clique) {
// PoA/Clique
const minLength = CLIQUE_EXTRA_VANITY + CLIQUE_EXTRA_SEAL;
if (!cliqueIsEpochTransition(this)) {
// ExtraData length on epoch transition
if (this.extraData.length !== minLength) {
const msg = this._errorMsg(`extraData must be ${minLength} bytes on non-epoch transition blocks, received ${this.extraData.length} bytes`);
throw EthereumJSErrorWithoutCode(msg);
}
}
else {
const signerLength = this.extraData.length - minLength;
if (signerLength % 20 !== 0) {
const msg = this._errorMsg(`invalid signer list length in extraData, received signer length of ${signerLength} (not divisible by 20)`);
throw EthereumJSErrorWithoutCode(msg);
}
// coinbase (beneficiary) on epoch transition
if (!this.coinbase.isZero()) {
const msg = this._errorMsg(`coinbase must be filled with zeros on epoch transition blocks, received ${this.coinbase}`);
throw EthereumJSErrorWithoutCode(msg);
}
}
// MixHash format
if (!equalsBytes(this.mixHash, new Uint8Array(32))) {
const msg = this._errorMsg(`mixHash must be filled with zeros, received ${this.mixHash}`);
throw EthereumJSErrorWithoutCode(msg);
}
}
// Validation for PoS blocks (EIP-3675)
if (this.common.consensusType() === ConsensusType.ProofOfStake) {
let error = false;
let errorMsg = '';
if (!equalsBytes(uncleHash, KECCAK256_RLP_ARRAY)) {
errorMsg += `, uncleHash: ${bytesToHex(uncleHash)} (expected: ${bytesToHex(KECCAK256_RLP_ARRAY)})`;
error = true;
}
if (number !== BIGINT_0) {
// Skip difficulty, nonce, and extraData check for PoS genesis block as genesis block may have non-zero difficulty (if TD is > 0)
if (difficulty !== BIGINT_0) {
errorMsg += `, difficulty: ${difficulty} (expected: 0)`;
error = true;
}
if (extraData.length > 32) {
errorMsg += `, extraData: ${bytesToHex(extraData)} (cannot exceed 32 bytes length, received ${extraData.length} bytes)`;
error = true;
}
if (!equalsBytes(nonce, new Uint8Array(8))) {
errorMsg += `, nonce: ${bytesToHex(nonce)} (expected: ${bytesToHex(new Uint8Array(8))})`;
error = true;
}
}
if (error) {
const msg = this._errorMsg(`Invalid PoS block: ${errorMsg}`);
throw EthereumJSErrorWithoutCode(msg);
}
}
}
/**
* Validates if the block gasLimit remains in the boundaries set by the protocol.
* Throws if out of bounds.
*
* @param parentBlockHeader - the header from the parent `Block` of this header
*/
validateGasLimit(parentBlockHeader) {
let parentGasLimit = parentBlockHeader.gasLimit;
// EIP-1559: assume double the parent gas limit on fork block
// to adopt to the new gas target centered logic
const londonHardforkBlock = this.common.hardforkBlock(Hardfork.London);
if (typeof londonHardforkBlock === 'bigint' &&
londonHardforkBlock !== BIGINT_0 &&
this.number === londonHardforkBlock) {
const elasticity = this.common.param('elasticityMultiplier');
parentGasLimit = parentGasLimit * elasticity;
}
const gasLimit = this.gasLimit;
const a = parentGasLimit / this.common.param('gasLimitBoundDivisor');
const maxGasLimit = parentGasLimit + a;
const minGasLimit = parentGasLimit - a;
if (gasLimit >= maxGasLimit) {
const msg = this._errorMsg(`gas limit increased too much. Gas limit: ${gasLimit}, max gas limit: ${maxGasLimit}`);
throw EthereumJSErrorWithoutCode(msg);
}
if (gasLimit <= minGasLimit) {
const msg = this._errorMsg(`gas limit decreased too much. Gas limit: ${gasLimit}, min gas limit: ${minGasLimit}`);
throw EthereumJSErrorWithoutCode(msg);
}
if (gasLimit < this.common.param('minGasLimit')) {
const msg = this._errorMsg(`gas limit decreased below minimum gas limit. Gas limit: ${gasLimit}, minimum gas limit: ${this.common.param('minGasLimit')}`);
throw EthereumJSErrorWithoutCode(msg);
}
}
/**
* Calculates the base fee for a potential next block
*/
calcNextBaseFee() {
if (!this.common.isActivatedEIP(1559)) {
const msg = this._errorMsg('calcNextBaseFee() can only be called with EIP1559 being activated');
throw EthereumJSErrorWithoutCode(msg);
}
let nextBaseFee;
const elasticity = this.common.param('elasticityMultiplier');
const parentGasTarget = this.gasLimit / elasticity;
if (parentGasTarget === this.gasUsed) {
nextBaseFee = this.baseFeePerGas;
}
else if (this.gasUsed > parentGasTarget) {
const gasUsedDelta = this.gasUsed - parentGasTarget;
const baseFeeMaxChangeDenominator = this.common.param('baseFeeMaxChangeDenominator');
const calculatedDelta = (this.baseFeePerGas * gasUsedDelta) / parentGasTarget / baseFeeMaxChangeDenominator;
nextBaseFee = (calculatedDelta > BIGINT_1 ? calculatedDelta : BIGINT_1) + this.baseFeePerGas;
}
else {
const gasUsedDelta = parentGasTarget - this.gasUsed;
const baseFeeMaxChangeDenominator = this.common.param('baseFeeMaxChangeDenominator');
const calculatedDelta = (this.baseFeePerGas * gasUsedDelta) / parentGasTarget / baseFeeMaxChangeDenominator;
nextBaseFee =
this.baseFeePerGas - calculatedDelta > BIGINT_0
? this.baseFeePerGas - calculatedDelta
: BIGINT_0;
}
return nextBaseFee;
}
/**
* Returns the price per unit of blob gas for a blob transaction in the current/pending block
* @returns the price in gwei per unit of blob gas spent
*/
getBlobGasPrice() {
if (this.excessBlobGas === undefined) {
throw EthereumJSErrorWithoutCode('header must have excessBlobGas field populated');
}
return computeBlobGasPrice(this.excessBlobGas, this.common);
}
/**
* Returns the total fee for blob gas spent for including blobs in block.
*
* @param numBlobs number of blobs in the transaction/block
* @returns the total blob gas fee for numBlobs blobs
*/
calcDataFee(numBlobs) {
const blobGasPerBlob = this.common.param('blobGasPerBlob');
const blobGasUsed = blobGasPerBlob * BigInt(numBlobs);
const blobGasPrice = this.getBlobGasPrice();
return blobGasUsed * blobGasPrice;
}
/**
* Calculates the excess blob gas for next (hopefully) post EIP 4844 block.
*/
calcNextExcessBlobGas(childCommon) {
// The validation of the fields and 4844 activation is already taken care in BlockHeader constructor
const targetGasConsumed = (this.excessBlobGas ?? BIGINT_0) + (this.blobGasUsed ?? BIGINT_0);
const targetBlobGasPerBlock = childCommon.param('targetBlobGasPerBlock');
if (targetGasConsumed <= targetBlobGasPerBlock) {
return BIGINT_0;
}
else {
return targetGasConsumed - targetBlobGasPerBlock;
}
}
/**
* Calculate the blob gas price of the block built on top of this one
* @returns The blob gas price
*/
calcNextBlobGasPrice(childCommon) {
return computeBlobGasPrice(this.calcNextExcessBlobGas(childCommon), childCommon);
}
/**
* Returns a Uint8Array Array of the raw Bytes in this header, in order.
*/
raw() {
const rawItems = [
this.parentHash,
this.uncleHash,
this.coinbase.bytes,
this.stateRoot,
this.transactionsTrie,
this.receiptTrie,
this.logsBloom,
bigIntToUnpaddedBytes(this.difficulty),
bigIntToUnpaddedBytes(this.number),
bigIntToUnpaddedBytes(this.gasLimit),
bigIntToUnpaddedBytes(this.gasUsed),
bigIntToUnpaddedBytes(this.timestamp ?? BIGINT_0),
this.extraData,
this.mixHash,
this.nonce,
];
if (this.common.isActivatedEIP(1559)) {
rawItems.push(bigIntToUnpaddedBytes(this.baseFeePerGas));
}
if (this.common.isActivatedEIP(4895)) {
rawItems.push(this.withdrawalsRoot);
}
// in kaustinen 2 verkle is scheduled after withdrawals, will eventually be post deneb hopefully
if (this.common.isActivatedEIP(6800)) {
// execution witness is not mandatory part of the the block so nothing to push here
// but keep this comment segment for clarity regarding the same and move it according as per the
// HF sequence eventually planned
}
if (this.common.isActivatedEIP(4844)) {
rawItems.push(bigIntToUnpaddedBytes(this.blobGasUsed));
rawItems.push(bigIntToUnpaddedBytes(this.excessBlobGas));
}
if (this.common.isActivatedEIP(4788)) {
rawItems.push(this.parentBeaconBlockRoot);
}
if (this.common.isActivatedEIP(7685)) {
rawItems.push(this.requestsHash);
}
return rawItems;
}
/**
* Returns the hash of the block header.
*/
hash() {
if (Object.isFrozen(this)) {
if (!this.cache.hash) {
this.cache.hash = this.keccakFunction(RLP.encode(this.raw()));
}
return this.cache.hash;
}
return this.keccakFunction(RLP.encode(this.raw()));
}
/**
* Checks if the block header is a genesis header.
*/
isGenesis() {
return this.number === BIGINT_0;
}
/**
* Returns the canonical difficulty for this block.
*
* @param parentBlockHeader - the header from the parent `Block` of this header
*/
ethashCanonicalDifficulty(parentBlockHeader) {
if (this.common.consensusType() !== ConsensusType.ProofOfWork) {
const msg = this._errorMsg('difficulty calculation is only supported on PoW chains');
throw EthereumJSErrorWithoutCode(msg);
}
if (this.common.consensusAlgorithm() !== ConsensusAlgorithm.Ethash) {
const msg = this._errorMsg('difficulty calculation currently only supports the ethash algorithm');
throw EthereumJSErrorWithoutCode(msg);
}
const blockTs = this.timestamp;
const { timestamp: parentTs, difficulty: parentDif } = parentBlockHeader;
const minimumDifficulty = this.common.param('minimumDifficulty');
const offset = parentDif / this.common.param('difficultyBoundDivisor');
let num = this.number;
// We use a ! here as TS cannot follow this hardfork-dependent logic, but it always gets assigned
let dif;
if (this.common.gteHardfork(Hardfork.Byzantium)) {
// max((2 if len(parent.uncles) else 1) - ((timestamp - parent.timestamp) // 9), -99) (EIP100)
const uncleAddend = equalsBytes(parentBlockHeader.uncleHash, KECCAK256_RLP_ARRAY) ? 1 : 2;
let a = BigInt(uncleAddend) - (blockTs - parentTs) / BigInt(9);
const cutoff = BigInt(-99);
// MAX(cutoff, a)
if (cutoff > a) {
a = cutoff;
}
dif = parentDif + offset * a;
}
if (this.common.gteHardfork(Hardfork.Byzantium)) {
// Get delay as parameter from common
num = num - this.common.param('difficultyBombDelay');
if (num < BIGINT_0) {
num = BIGINT_0;
}
}
else if (this.common.gteHardfork(Hardfork.Homestead)) {
// 1 - (block_timestamp - parent_timestamp) // 10
let a = BIGINT_1 - (blockTs - parentTs) / BigInt(10);
const cutoff = BigInt(-99);
// MAX(cutoff, a)
if (cutoff > a) {
a = cutoff;
}
dif = parentDif + offset * a;
}
else {
// pre-homestead
if (parentTs + this.common.param('durationLimit') > blockTs) {
dif = offset + parentDif;
}
else {
dif = parentDif - offset;
}
}
const exp = num / BigInt(100000) - BIGINT_2;
if (exp >= 0) {
dif = dif + BIGINT_2 ** exp;
}
if (dif < minimumDifficulty) {
dif = minimumDifficulty;
}
return dif;
}
/**
* Returns the rlp encoding of the block header.
*/
serialize() {
return RLP.encode(this.raw());
}
/**
* Returns the block header in JSON format.
*/
toJSON() {
const withdrawalAttr = this.withdrawalsRoot
? { withdrawalsRoot: bytesToHex(this.withdrawalsRoot) }
: {};
const JSONDict = {
parentHash: bytesToHex(this.parentHash),
uncleHash: bytesToHex(this.uncleHash),
coinbase: this.coinbase.toString(),
stateRoot: bytesToHex(this.stateRoot),
transactionsTrie: bytesToHex(this.transactionsTrie),
...withdrawalAttr,
receiptTrie: bytesToHex(this.receiptTrie),
logsBloom: bytesToHex(this.logsBloom),
difficulty: bigIntToHex(this.difficulty),
number: bigIntToHex(this.number),
gasLimit: bigIntToHex(this.gasLimit),
gasUsed: bigIntToHex(this.gasUsed),
timestamp: bigIntToHex(this.timestamp),
extraData: bytesToHex(this.extraData),
mixHash: bytesToHex(this.mixHash),
nonce: bytesToHex(this.nonce),
};
if (this.common.isActivatedEIP(1559)) {
JSONDict.baseFeePerGas = bigIntToHex(this.baseFeePerGas);
}
if (this.common.isActivatedEIP(4844)) {
JSONDict.blobGasUsed = bigIntToHex(this.blobGasUsed);
JSONDict.excessBlobGas = bigIntToHex(this.excessBlobGas);
}
if (this.common.isActivatedEIP(4788)) {
JSONDict.parentBeaconBlockRoot = bytesToHex(this.parentBeaconBlockRoot);
}
if (this.common.isActivatedEIP(7685)) {
JSONDict.requestsHash = bytesToHex(this.requestsHash);
}
return JSONDict;
}
/**
* Validates extra data is DAO_ExtraData for DAO_ForceExtraDataRange blocks after DAO
* activation block (see: https://blog.slock.it/hard-fork-specification-24b889e70703)
*/
_validateDAOExtraData() {
if (!this.common.hardforkIsActiveOnBlock(Hardfork.Dao, this.number)) {
return;
}
const DAOActivationBlock = this.common.hardforkBlock(Hardfork.Dao);
if (DAOActivationBlock === null || this.number < DAOActivationBlock) {
return;
}
const DAO_ExtraData = hexToBytes('0x64616f2d686172642d666f726b');
const DAO_ForceExtraDataRange = BigInt(9);
const drift = this.number - DAOActivationBlock;
if (drift <= DAO_ForceExtraDataRange && !equalsBytes(this.extraData, DAO_ExtraData)) {
const msg = this._errorMsg(`extraData should be 'dao-hard-fork', got ${bytesToUtf8(this.extraData)} (hex: ${bytesToHex(this.extraData)})`);
throw EthereumJSErrorWithoutCode(msg);
}
}
/**
* Return a compact error string representation of the object
*/
errorStr() {
let hash = '';
try {
hash = bytesToHex(this.hash());
}
catch {
hash = 'error';
}
let hf = '';
try {
hf = this.common.hardfork();
}
catch {
hf = 'error';
}
let errorStr = `block header number=${this.number} hash=${hash} `;
errorStr += `hf=${hf} baseFeePerGas=${this.baseFeePerGas ?? 'none'}`;
return errorStr;
}
/**
* Helper function to create an annotated error message
*
* @param msg Base error message
* @hidden
*/
_errorMsg(msg) {
return `${msg} (${this.errorStr()})`;
}
}
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