/// <reference types="bn.js" />
/// <reference types="node" />
import { BN } from 'ethereumjs-util';
import Common from '@ethereumjs/common';
import { BaseTransaction } from './baseTransaction';
import { AccessList, AccessListBuffer, FeeMarketEIP1559TxData, FeeMarketEIP1559ValuesArray, JsonTx, TxOptions } from './types';
/**
* Typed transaction with a new gas fee market mechanism
*
* - TransactionType: 2
* - EIP: [EIP-1559](https://eips.ethereum.org/EIPS/eip-1559)
*/
export default class FeeMarketEIP1559Transaction extends BaseTransaction<FeeMarketEIP1559Transaction> {
readonly chainId: BN;
readonly accessList: AccessListBuffer;
readonly AccessListJSON: AccessList;
readonly maxPriorityFeePerGas: BN;
readonly maxFeePerGas: BN;
readonly common: Common;
/**
* The default HF if the tx type is active on that HF
* or the first greater HF where the tx is active.
*
* @hidden
*/
protected DEFAULT_HARDFORK: string;
/**
* EIP-2930 alias for `r`
*
* @deprecated use `r` instead
*/
get senderR(): BN | undefined;
/**
* EIP-2930 alias for `s`
*
* @deprecated use `s` instead
*/
get senderS(): BN | undefined;
/**
* EIP-2930 alias for `v`
*
* @deprecated use `v` instead
*/
get yParity(): BN | undefined;
/**
* Instantiate a transaction from a data dictionary.
*
* Format: { chainId, nonce, maxPriorityFeePerGas, maxFeePerGas, gasLimit, to, value, data,
* accessList, v, r, s }
*
* Notes:
* - `chainId` will be set automatically if not provided
* - All parameters are optional and have some basic default values
*/
static fromTxData(txData: FeeMarketEIP1559TxData, opts?: TxOptions): FeeMarketEIP1559Transaction;
/**
* Instantiate a transaction from the serialized tx.
*
* Format: `0x02 || rlp([chainId, nonce, maxPriorityFeePerGas, maxFeePerGas, gasLimit, to, value, data,
* accessList, signatureYParity, signatureR, signatureS])`
*/
static fromSerializedTx(serialized: Buffer, opts?: TxOptions): FeeMarketEIP1559Transaction;
/**
* Instantiate a transaction from the serialized tx.
* (alias of {@link FeeMarketEIP1559Transaction.fromSerializedTx})
*
* Note: This means that the Buffer should start with 0x01.
*
* @deprecated this constructor alias is deprecated and will be removed
* in favor of the {@link FeeMarketEIP1559Transaction.fromSerializedTx} constructor
*/
static fromRlpSerializedTx(serialized: Buffer, opts?: TxOptions): FeeMarketEIP1559Transaction;
/**
* Create a transaction from a values array.
*
* Format: `[chainId, nonce, maxPriorityFeePerGas, maxFeePerGas, gasLimit, to, value, data,
* accessList, signatureYParity, signatureR, signatureS]`
*/
static fromValuesArray(values: FeeMarketEIP1559ValuesArray, opts?: TxOptions): FeeMarketEIP1559Transaction;
/**
* This constructor takes the values, validates them, assigns them and freezes the object.
*
* It is not recommended to use this constructor directly. Instead use
* the static factory methods to assist in creating a Transaction object from
* varying data types.
*/
constructor(txData: FeeMarketEIP1559TxData, opts?: TxOptions);
/**
* The amount of gas paid for the data in this tx
*/
getDataFee(): BN;
/**
* The up front amount that an account must have for this transaction to be valid
* @param baseFee The base fee of the block (will be set to 0 if not provided)
*/
getUpfrontCost(baseFee?: BN): BN;
/**
* Returns a Buffer Array of the raw Buffers of the EIP-1559 transaction, in order.
*
* Format: `[chainId, nonce, maxPriorityFeePerGas, maxFeePerGas, gasLimit, to, value, data,
* accessList, signatureYParity, signatureR, signatureS]`
*
* Use {@link FeeMarketEIP1559Transaction.serialize} to add a transaction to a block
* with {@link Block.fromValuesArray}.
*
* For an unsigned tx this method uses the empty Buffer values for the
* signature parameters `v`, `r` and `s` for encoding. For an EIP-155 compliant
* representation for external signing use {@link FeeMarketEIP1559Transaction.getMessageToSign}.
*/
raw(): FeeMarketEIP1559ValuesArray;
/**
* Returns the serialized encoding of the EIP-1559 transaction.
*
* Format: `0x02 || rlp([chainId, nonce, maxPriorityFeePerGas, maxFeePerGas, gasLimit, to, value, data,
* accessList, signatureYParity, signatureR, signatureS])`
*
* Note that in contrast to the legacy tx serialization format this is not
* valid RLP any more due to the raw tx type preceding and concatenated to
* the RLP encoding of the values.
*/
serialize(): Buffer;
/**
* Returns the serialized unsigned tx (hashed or raw), which can be used
* to sign the transaction (e.g. for sending to a hardware wallet).
*
* Note: in contrast to the legacy tx the raw message format is already
* serialized and doesn't need to be RLP encoded any more.
*
* ```javascript
* const serializedMessage = tx.getMessageToSign(false) // use this for the HW wallet input
* ```
*
* @param hashMessage - Return hashed message if set to true (default: true)
*/
getMessageToSign(hashMessage?: boolean): Buffer;
/**
* Computes a sha3-256 hash of the serialized tx.
*
* This method can only be used for signed txs (it throws otherwise).
* Use {@link FeeMarketEIP1559Transaction.getMessageToSign} to get a tx hash for the purpose of signing.
*/
hash(): Buffer;
/**
* Computes a sha3-256 hash which can be used to verify the signature
*/
getMessageToVerifySignature(): Buffer;
/**
* Returns the public key of the sender
*/
getSenderPublicKey(): Buffer;
_processSignature(v: number, r: Buffer, s: Buffer): FeeMarketEIP1559Transaction;
/**
* Returns an object with the JSON representation of the transaction
*/
toJSON(): JsonTx;
/**
* Return a compact error string representation of the object
*/
errorStr(): string;
/**
* Internal helper function to create an annotated error message
*
* @param msg Base error message
* @hidden
*/
protected _errorMsg(msg: string): string;
}