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ox

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Ethereum Standard Library

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JavaScript

import * as AccessList from './AccessList.js'; import * as Address from './Address.js'; import * as Hash from './Hash.js'; import * as Hex from './Hex.js'; import * as Rlp from './Rlp.js'; import * as Signature from './Signature.js'; import * as TransactionEnvelope from './TransactionEnvelope.js'; export const serializedType = '0x01'; export const type = 'eip2930'; /** * Asserts a {@link ox#TransactionEnvelopeEip2930.TransactionEnvelopeEip2930} is valid. * * @example * ```ts twoslash * import { TransactionEnvelopeEip2930, Value } from 'ox' * * TransactionEnvelopeEip2930.assert({ * gasPrice: 2n ** 256n - 1n + 1n, * chainId: 1, * to: '0x0000000000000000000000000000000000000000', * value: Value.fromEther('1'), * }) * // @error: GasPriceTooHighError: * // @error: The gas price (`gasPrice` = 115792089237316195423570985008687907853269984665640564039457584007913 gwei) cannot be * // @error: higher than the maximum allowed value (2^256-1). * ``` * * @param envelope - The transaction envelope to assert. */ export function assert(envelope) { const { chainId, gasPrice, to } = envelope; if (chainId <= 0) throw new TransactionEnvelope.InvalidChainIdError({ chainId }); if (to) Address.assert(to, { strict: false }); if (gasPrice && BigInt(gasPrice) > 2n ** 256n - 1n) throw new TransactionEnvelope.GasPriceTooHighError({ gasPrice }); } /** * Deserializes a {@link ox#TransactionEnvelopeEip2930.TransactionEnvelopeEip2930} from its serialized form. * * @example * ```ts twoslash * import { TransactionEnvelopeEip2930 } from 'ox' * * const envelope = TransactionEnvelopeEip2930.deserialize('0x01ef0182031184773594008477359400809470997970c51812dc3a010c7d01b50e0d17dc79c8880de0b6b3a764000080c0') * // @log: { * // @log: type: 'eip2930', * // @log: nonce: 785n, * // @log: gasPrice: 2000000000n, * // @log: gas: 1000000n, * // @log: to: '0x70997970c51812dc3a010c7d01b50e0d17dc79c8', * // @log: value: 1000000000000000000n, * // @log: } * ``` * * @param serialized - The serialized transaction. * @returns Deserialized Transaction Envelope. */ export function deserialize(serialized) { const transactionArray = Rlp.toHex(Hex.slice(serialized, 1)); const [chainId, nonce, gasPrice, gas, to, value, data, accessList, yParity, r, s,] = transactionArray; if (!(transactionArray.length === 8 || transactionArray.length === 11)) throw new TransactionEnvelope.InvalidSerializedError({ attributes: { chainId, nonce, gasPrice, gas, to, value, data, accessList, ...(transactionArray.length > 8 ? { yParity, r, s, } : {}), }, serialized, type, }); let transaction = { chainId: Number(chainId), type, }; if (Hex.validate(to) && to !== '0x') transaction.to = to; if (Hex.validate(gas) && gas !== '0x') transaction.gas = BigInt(gas); if (Hex.validate(data) && data !== '0x') transaction.data = data; if (Hex.validate(nonce)) transaction.nonce = nonce === '0x' ? 0n : BigInt(nonce); if (Hex.validate(value) && value !== '0x') transaction.value = BigInt(value); if (Hex.validate(gasPrice) && gasPrice !== '0x') transaction.gasPrice = BigInt(gasPrice); if (accessList.length !== 0 && accessList !== '0x') transaction.accessList = AccessList.fromTupleList(accessList); const signature = r && s && yParity ? Signature.fromTuple([yParity, r, s]) : undefined; if (signature) transaction = { ...transaction, ...signature, }; assert(transaction); return transaction; } /** * Converts an arbitrary transaction object into an EIP-2930 Transaction Envelope. * * @example * ```ts twoslash * // @noErrors * import { TransactionEnvelopeEip2930, Value } from 'ox' * * const envelope = TransactionEnvelopeEip2930.from({ * chainId: 1, * accessList: [...], * gasPrice: Value.fromGwei('10'), * to: '0x0000000000000000000000000000000000000000', * value: Value.fromEther('1'), * }) * ``` * * @example * ### Attaching Signatures * * It is possible to attach a `signature` to the transaction envelope. * * ```ts twoslash * import { Secp256k1, TransactionEnvelopeEip2930, Value } from 'ox' * * const envelope = TransactionEnvelopeEip2930.from({ * chainId: 1, * gasPrice: Value.fromGwei('10'), * to: '0x0000000000000000000000000000000000000000', * value: Value.fromEther('1'), * }) * * const signature = Secp256k1.sign({ * payload: TransactionEnvelopeEip2930.getSignPayload(envelope), * privateKey: '0x...', * }) * * const envelope_signed = TransactionEnvelopeEip2930.from(envelope, { // [!code focus] * signature, // [!code focus] * }) // [!code focus] * // @log: { * // @log: chainId: 1, * // @log: gasPrice: 10000000000n, * // @log: to: '0x0000000000000000000000000000000000000000', * // @log: type: 'eip2930', * // @log: value: 1000000000000000000n, * // @log: r: 125...n, * // @log: s: 642...n, * // @log: yParity: 0, * // @log: } * ``` * * @example * ### From Serialized * * It is possible to instantiate an EIP-2930 Transaction Envelope from a {@link ox#TransactionEnvelopeEip2930.Serialized} value. * * ```ts twoslash * import { TransactionEnvelopeEip2930 } from 'ox' * * const envelope = TransactionEnvelopeEip2930.from('0x01f858018203118502540be4008504a817c800809470997970c51812dc3a010c7d01b50e0d17dc79c8880de0b6b3a764000080c08477359400e1a001627c687261b0e7f8638af1112efa8a77e23656f6e7945275b19e9deed80261') * // @log: { * // @log: chainId: 1, * // @log: gasPrice: 10000000000n, * // @log: to: '0x0000000000000000000000000000000000000000', * // @log: type: 'eip2930', * // @log: value: 1000000000000000000n, * // @log: } * ``` * * @param envelope - The transaction object to convert. * @param options - Options. * @returns A {@link ox#TransactionEnvelopeEip2930.TransactionEnvelopeEip2930} */ export function from(envelope, options = {}) { const { signature } = options; const envelope_ = (typeof envelope === 'string' ? deserialize(envelope) : envelope); assert(envelope_); return { ...envelope_, ...(signature ? Signature.from(signature) : {}), type: 'eip2930', }; } /** * Returns the payload to sign for a {@link ox#TransactionEnvelopeEip2930.TransactionEnvelopeEip2930}. * * @example * The example below demonstrates how to compute the sign payload which can be used * with ECDSA signing utilities like {@link ox#Secp256k1.(sign:function)}. * * ```ts twoslash * import { Secp256k1, TransactionEnvelopeEip2930 } from 'ox' * * const envelope = TransactionEnvelopeEip2930.from({ * chainId: 1, * nonce: 0n, * gasPrice: 1000000000n, * gas: 21000n, * to: '0x70997970c51812dc3a010c7d01b50e0d17dc79c8', * value: 1000000000000000000n, * }) * * const payload = TransactionEnvelopeEip2930.getSignPayload(envelope) // [!code focus] * // @log: '0x...' * * const signature = Secp256k1.sign({ payload, privateKey: '0x...' }) * ``` * * @param envelope - The transaction envelope to get the sign payload for. * @returns The sign payload. */ export function getSignPayload(envelope) { return hash(envelope, { presign: true }); } /** * Hashes a {@link ox#TransactionEnvelopeEip2930.TransactionEnvelopeEip2930}. This is the "transaction hash". * * @example * ```ts twoslash * import { Secp256k1, TransactionEnvelopeEip2930 } from 'ox' * * const envelope = TransactionEnvelopeEip2930.from({ * chainId: 1, * nonce: 0n, * gasPrice: 1000000000n, * gas: 21000n, * to: '0x70997970c51812dc3a010c7d01b50e0d17dc79c8', * value: 1000000000000000000n, * }) * * const signature = Secp256k1.sign({ * payload: TransactionEnvelopeEip2930.getSignPayload(envelope), * privateKey: '0x...', * }) * * const envelope_signed = TransactionEnvelopeEip2930.from(envelope, { * signature, * }) * * const hash = TransactionEnvelopeEip2930.hash(envelope_signed) // [!code focus] * ``` * * @param envelope - The EIP-2930 Transaction Envelope to hash. * @param options - Options. * @returns The hash of the transaction envelope. */ export function hash(envelope, options = {}) { const { presign } = options; return Hash.keccak256(serialize({ ...envelope, ...(presign ? { r: undefined, s: undefined, yParity: undefined, v: undefined, } : {}), })); } /** * Serializes a {@link ox#TransactionEnvelopeEip2930.TransactionEnvelopeEip2930}. * * @example * ```ts twoslash * import { TransactionEnvelopeEip2930, Value } from 'ox' * * const envelope = TransactionEnvelopeEip2930.from({ * chainId: 1, * gasPrice: Value.fromGwei('10'), * to: '0x0000000000000000000000000000000000000000', * value: Value.fromEther('1'), * }) * * const serialized = TransactionEnvelopeEip2930.serialize(envelope) // [!code focus] * ``` * * @example * ### Attaching Signatures * * It is possible to attach a `signature` to the serialized Transaction Envelope. * * ```ts twoslash * import { Secp256k1, TransactionEnvelopeEip2930, Value } from 'ox' * * const envelope = TransactionEnvelopeEip2930.from({ * chainId: 1, * gasPrice: Value.fromGwei('10'), * to: '0x0000000000000000000000000000000000000000', * value: Value.fromEther('1'), * }) * * const signature = Secp256k1.sign({ * payload: TransactionEnvelopeEip2930.getSignPayload(envelope), * privateKey: '0x...', * }) * * const serialized = TransactionEnvelopeEip2930.serialize(envelope, { // [!code focus] * signature, // [!code focus] * }) // [!code focus] * * // ... send `serialized` transaction to JSON-RPC `eth_sendRawTransaction` * ``` * * @param envelope - The Transaction Envelope to serialize. * @param options - Options. * @returns The serialized Transaction Envelope. */ export function serialize(envelope, options = {}) { const { chainId, gas, data, input, nonce, to, value, accessList, gasPrice } = envelope; assert(envelope); const accessTupleList = AccessList.toTupleList(accessList); const signature = Signature.extract(options.signature || envelope); const serialized = [ Hex.fromNumber(chainId), nonce ? Hex.fromNumber(nonce) : '0x', gasPrice ? Hex.fromNumber(gasPrice) : '0x', gas ? Hex.fromNumber(gas) : '0x', to ?? '0x', value ? Hex.fromNumber(value) : '0x', data ?? input ?? '0x', accessTupleList, ...(signature ? Signature.toTuple(signature) : []), ]; return Hex.concat('0x01', Rlp.fromHex(serialized)); } /** * Converts an {@link ox#TransactionEnvelopeEip2930.TransactionEnvelopeEip2930} to an {@link ox#TransactionEnvelopeEip2930.Rpc}. * * @example * ```ts twoslash * import { RpcRequest, TransactionEnvelopeEip2930, Value } from 'ox' * * const envelope = TransactionEnvelopeEip2930.from({ * chainId: 1, * nonce: 0n, * gas: 21000n, * maxFeePerGas: Value.fromGwei('20'), * to: '0x70997970c51812dc3a010c7d01b50e0d17dc79c8', * value: Value.fromEther('1'), * }) * * const envelope_rpc = TransactionEnvelopeEip2930.toRpc(envelope) // [!code focus] * * const request = RpcRequest.from({ * id: 0, * method: 'eth_sendTransaction', * params: [envelope_rpc], * }) * ``` * * @param envelope - The EIP-2930 transaction envelope to convert. * @returns An RPC-formatted EIP-2930 transaction envelope. */ export function toRpc(envelope) { const signature = Signature.extract(envelope); return { ...envelope, chainId: Hex.fromNumber(envelope.chainId), data: envelope.data ?? envelope.input, ...(typeof envelope.gas === 'bigint' ? { gas: Hex.fromNumber(envelope.gas) } : {}), ...(typeof envelope.nonce === 'bigint' ? { nonce: Hex.fromNumber(envelope.nonce) } : {}), ...(typeof envelope.value === 'bigint' ? { value: Hex.fromNumber(envelope.value) } : {}), ...(typeof envelope.gasPrice === 'bigint' ? { gasPrice: Hex.fromNumber(envelope.gasPrice) } : {}), type: '0x1', ...(signature ? Signature.toRpc(signature) : {}), }; } /** * Validates a {@link ox#TransactionEnvelopeEip2930.TransactionEnvelopeEip2930}. Returns `true` if the envelope is valid, `false` otherwise. * * @example * ```ts twoslash * import { TransactionEnvelopeEip2930, Value } from 'ox' * * const valid = TransactionEnvelopeEip2930.assert({ * gasPrice: 2n ** 256n - 1n + 1n, * chainId: 1, * to: '0x0000000000000000000000000000000000000000', * value: Value.fromEther('1'), * }) * // @log: false * ``` * * @param envelope - The transaction envelope to validate. */ export function validate(envelope) { try { assert(envelope); return true; } catch { return false; } } //# sourceMappingURL=TransactionEnvelopeEip2930.js.map