"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const ethereumjs_util_1 = require("ethereumjs-util");
const types_1 = require("./types");
const baseTransaction_1 = require("./baseTransaction");
const util_1 = require("./util");
const TRANSACTION_TYPE = 0;
/**
* An Ethereum non-typed (legacy) transaction
*/
class Transaction extends baseTransaction_1.BaseTransaction {
/**
* 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, opts = {}) {
var _a;
super(Object.assign(Object.assign({}, txData), { type: TRANSACTION_TYPE }), opts);
this.common = this._validateTxV(this.v, opts.common);
this.gasPrice = new ethereumjs_util_1.BN((0, ethereumjs_util_1.toBuffer)(txData.gasPrice === '' ? '0x' : txData.gasPrice));
if (this.gasPrice.mul(this.gasLimit).gt(ethereumjs_util_1.MAX_INTEGER)) {
const msg = this._errorMsg('gas limit * gasPrice cannot exceed MAX_INTEGER (2^256-1)');
throw new Error(msg);
}
this._validateCannotExceedMaxInteger({ gasPrice: this.gasPrice });
if (this.common.gteHardfork('spuriousDragon')) {
if (!this.isSigned()) {
this.activeCapabilities.push(types_1.Capability.EIP155ReplayProtection);
}
else {
// EIP155 spec:
// If block.number >= 2,675,000 and v = CHAIN_ID * 2 + 35 or v = CHAIN_ID * 2 + 36
// then when computing the hash of a transaction for purposes of signing or recovering
// instead of hashing only the first six elements (i.e. nonce, gasprice, startgas, to, value, data)
// hash nine elements, with v replaced by CHAIN_ID, r = 0 and s = 0.
const v = this.v;
const chainIdDoubled = this.common.chainIdBN().muln(2);
// v and chain ID meet EIP-155 conditions
if (v.eq(chainIdDoubled.addn(35)) || v.eq(chainIdDoubled.addn(36))) {
this.activeCapabilities.push(types_1.Capability.EIP155ReplayProtection);
}
}
}
if (this.common.isActivatedEIP(3860)) {
(0, util_1.checkMaxInitCodeSize)(this.common, this.data.length);
}
const freeze = (_a = opts === null || opts === void 0 ? void 0 : opts.freeze) !== null && _a !== void 0 ? _a : true;
if (freeze) {
Object.freeze(this);
}
}
/**
* Instantiate a transaction from a data dictionary.
*
* Format: { nonce, gasPrice, gasLimit, to, value, data, v, r, s }
*
* Notes:
* - All parameters are optional and have some basic default values
*/
static fromTxData(txData, opts = {}) {
return new Transaction(txData, opts);
}
/**
* Instantiate a transaction from the serialized tx.
*
* Format: `rlp([nonce, gasPrice, gasLimit, to, value, data, v, r, s])`
*/
static fromSerializedTx(serialized, opts = {}) {
const values = ethereumjs_util_1.rlp.decode(serialized);
if (!Array.isArray(values)) {
throw new Error('Invalid serialized tx input. Must be array');
}
return this.fromValuesArray(values, opts);
}
/**
* Instantiate a transaction from the serialized tx.
* (alias of {@link Transaction.fromSerializedTx})
*
* @deprecated this constructor alias is deprecated and will be removed
* in favor of the {@link Transaction.fromSerializedTx} constructor
*/
static fromRlpSerializedTx(serialized, opts = {}) {
return Transaction.fromSerializedTx(serialized, opts);
}
/**
* Create a transaction from a values array.
*
* Format: `[nonce, gasPrice, gasLimit, to, value, data, v, r, s]`
*/
static fromValuesArray(values, opts = {}) {
// If length is not 6, it has length 9. If v/r/s are empty Buffers, it is still an unsigned transaction
// This happens if you get the RLP data from `raw()`
if (values.length !== 6 && values.length !== 9) {
throw new Error('Invalid transaction. Only expecting 6 values (for unsigned tx) or 9 values (for signed tx).');
}
const [nonce, gasPrice, gasLimit, to, value, data, v, r, s] = values;
(0, ethereumjs_util_1.validateNoLeadingZeroes)({ nonce, gasPrice, gasLimit, value, v, r, s });
return new Transaction({
nonce,
gasPrice,
gasLimit,
to,
value,
data,
v,
r,
s,
}, opts);
}
/**
* Returns a Buffer Array of the raw Buffers of the legacy transaction, in order.
*
* Format: `[nonce, gasPrice, gasLimit, to, value, data, v, r, s]`
*
* For legacy txs this is also the correct format to add transactions
* to a block with {@link Block.fromValuesArray} (use the `serialize()` method
* for typed txs).
*
* For an unsigned tx this method returns the empty Buffer values
* for the signature parameters `v`, `r` and `s`. For an EIP-155 compliant
* representation have a look at {@link Transaction.getMessageToSign}.
*/
raw() {
return [
(0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.nonce),
(0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.gasPrice),
(0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.gasLimit),
this.to !== undefined ? this.to.buf : Buffer.from([]),
(0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.value),
this.data,
this.v !== undefined ? (0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.v) : Buffer.from([]),
this.r !== undefined ? (0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.r) : Buffer.from([]),
this.s !== undefined ? (0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.s) : Buffer.from([]),
];
}
/**
* Returns the serialized encoding of the legacy transaction.
*
* Format: `rlp([nonce, gasPrice, gasLimit, to, value, data, v, r, s])`
*
* 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 Transaction.getMessageToSign}.
*/
serialize() {
return ethereumjs_util_1.rlp.encode(this.raw());
}
_getMessageToSign() {
const values = [
(0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.nonce),
(0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.gasPrice),
(0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.gasLimit),
this.to !== undefined ? this.to.buf : Buffer.from([]),
(0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.value),
this.data,
];
if (this.supports(types_1.Capability.EIP155ReplayProtection)) {
values.push((0, ethereumjs_util_1.toBuffer)(this.common.chainIdBN()));
values.push((0, ethereumjs_util_1.unpadBuffer)((0, ethereumjs_util_1.toBuffer)(0)));
values.push((0, ethereumjs_util_1.unpadBuffer)((0, ethereumjs_util_1.toBuffer)(0)));
}
return values;
}
getMessageToSign(hashMessage = true) {
const message = this._getMessageToSign();
if (hashMessage) {
return (0, ethereumjs_util_1.rlphash)(message);
}
else {
return message;
}
}
/**
* The amount of gas paid for the data in this tx
*/
getDataFee() {
if (this.cache.dataFee && this.cache.dataFee.hardfork === this.common.hardfork()) {
return this.cache.dataFee.value;
}
if (Object.isFrozen(this)) {
this.cache.dataFee = {
value: super.getDataFee(),
hardfork: this.common.hardfork(),
};
}
return super.getDataFee();
}
/**
* The up front amount that an account must have for this transaction to be valid
*/
getUpfrontCost() {
return this.gasLimit.mul(this.gasPrice).add(this.value);
}
/**
* Computes a sha3-256 hash of the serialized tx.
*
* This method can only be used for signed txs (it throws otherwise).
* Use {@link Transaction.getMessageToSign} to get a tx hash for the purpose of signing.
*/
hash() {
// In contrast to the tx type transaction implementations the `hash()` function
// for the legacy tx does not throw if the tx is not signed.
// This has been considered for inclusion but lead to unexpected backwards
// compatibility problems (no concrete reference found, needs validation).
//
// For context see also https://github.com/ethereumjs/ethereumjs-monorepo/pull/1445,
// September, 2021 as well as work done before.
//
// This should be updated along the next major version release by adding:
//
//if (!this.isSigned()) {
// const msg = this._errorMsg('Cannot call hash method if transaction is not signed')
// throw new Error(msg)
//}
if (Object.isFrozen(this)) {
if (!this.cache.hash) {
this.cache.hash = (0, ethereumjs_util_1.rlphash)(this.raw());
}
return this.cache.hash;
}
return (0, ethereumjs_util_1.rlphash)(this.raw());
}
/**
* Computes a sha3-256 hash which can be used to verify the signature
*/
getMessageToVerifySignature() {
if (!this.isSigned()) {
const msg = this._errorMsg('This transaction is not signed');
throw new Error(msg);
}
const message = this._getMessageToSign();
return (0, ethereumjs_util_1.rlphash)(message);
}
/**
* Returns the public key of the sender
*/
getSenderPublicKey() {
var _a;
const msgHash = this.getMessageToVerifySignature();
// EIP-2: All transaction signatures whose s-value is greater than secp256k1n/2 are considered invalid.
// Reasoning: https://ethereum.stackexchange.com/a/55728
if (this.common.gteHardfork('homestead') && ((_a = this.s) === null || _a === void 0 ? void 0 : _a.gt(types_1.N_DIV_2))) {
const msg = this._errorMsg('Invalid Signature: s-values greater than secp256k1n/2 are considered invalid');
throw new Error(msg);
}
const { v, r, s } = this;
try {
return (0, ethereumjs_util_1.ecrecover)(msgHash, v, (0, ethereumjs_util_1.bnToUnpaddedBuffer)(r), (0, ethereumjs_util_1.bnToUnpaddedBuffer)(s), this.supports(types_1.Capability.EIP155ReplayProtection) ? this.common.chainIdBN() : undefined);
}
catch (e) {
const msg = this._errorMsg('Invalid Signature');
throw new Error(msg);
}
}
/**
* Process the v, r, s values from the `sign` method of the base transaction.
*/
_processSignature(v, r, s) {
const vBN = new ethereumjs_util_1.BN(v);
if (this.supports(types_1.Capability.EIP155ReplayProtection)) {
vBN.iadd(this.common.chainIdBN().muln(2).addn(8));
}
const opts = Object.assign(Object.assign({}, this.txOptions), { common: this.common });
return Transaction.fromTxData({
nonce: this.nonce,
gasPrice: this.gasPrice,
gasLimit: this.gasLimit,
to: this.to,
value: this.value,
data: this.data,
v: vBN,
r: new ethereumjs_util_1.BN(r),
s: new ethereumjs_util_1.BN(s),
}, opts);
}
/**
* Returns an object with the JSON representation of the transaction.
*/
toJSON() {
return {
nonce: (0, ethereumjs_util_1.bnToHex)(this.nonce),
gasPrice: (0, ethereumjs_util_1.bnToHex)(this.gasPrice),
gasLimit: (0, ethereumjs_util_1.bnToHex)(this.gasLimit),
to: this.to !== undefined ? this.to.toString() : undefined,
value: (0, ethereumjs_util_1.bnToHex)(this.value),
data: '0x' + this.data.toString('hex'),
v: this.v !== undefined ? (0, ethereumjs_util_1.bnToHex)(this.v) : undefined,
r: this.r !== undefined ? (0, ethereumjs_util_1.bnToHex)(this.r) : undefined,
s: this.s !== undefined ? (0, ethereumjs_util_1.bnToHex)(this.s) : undefined,
};
}
/**
* Validates tx's `v` value
*/
_validateTxV(v, common) {
// Check for valid v values in the scope of a signed legacy tx
if (v !== undefined) {
// v is 1. not matching the EIP-155 chainId included case and...
// v is 2. not matching the classic v=27 or v=28 case
if (v.ltn(37) && !v.eqn(27) && !v.eqn(28)) {
throw new Error(`Legacy txs need either v = 27/28 or v >= 37 (EIP-155 replay protection), got v = ${v}`);
}
}
let chainIdBN;
// No unsigned tx and EIP-155 activated and chain ID included
if (v !== undefined &&
(!common || common.gteHardfork('spuriousDragon')) &&
!v.eqn(27) &&
!v.eqn(28)) {
if (common) {
const chainIdDoubled = common.chainIdBN().muln(2);
const isValidEIP155V = v.eq(chainIdDoubled.addn(35)) || v.eq(chainIdDoubled.addn(36));
if (!isValidEIP155V) {
throw new Error(`Incompatible EIP155-based V ${v} and chain id ${common.chainIdBN()}. See the Common parameter of the Transaction constructor to set the chain id.`);
}
}
else {
// Derive the original chain ID
let numSub;
if (v.subn(35).isEven()) {
numSub = 35;
}
else {
numSub = 36;
}
// Use derived chain ID to create a proper Common
chainIdBN = v.subn(numSub).divn(2);
}
}
return this._getCommon(common, chainIdBN);
}
/**
* @deprecated if you have called this internal method please use `tx.supports(Capabilities.EIP155ReplayProtection)` instead
*/
_unsignedTxImplementsEIP155() {
return this.common.gteHardfork('spuriousDragon');
}
/**
* @deprecated if you have called this internal method please use `tx.supports(Capabilities.EIP155ReplayProtection)` instead
*/
_signedTxImplementsEIP155() {
if (!this.isSigned()) {
const msg = this._errorMsg('This transaction is not signed');
throw new Error(msg);
}
const onEIP155BlockOrLater = this.common.gteHardfork('spuriousDragon');
// EIP155 spec:
// If block.number >= 2,675,000 and v = CHAIN_ID * 2 + 35 or v = CHAIN_ID * 2 + 36, then when computing the hash of a transaction for purposes of signing or recovering, instead of hashing only the first six elements (i.e. nonce, gasprice, startgas, to, value, data), hash nine elements, with v replaced by CHAIN_ID, r = 0 and s = 0.
const v = this.v;
const chainIdDoubled = this.common.chainIdBN().muln(2);
const vAndChainIdMeetEIP155Conditions = v.eq(chainIdDoubled.addn(35)) || v.eq(chainIdDoubled.addn(36));
return vAndChainIdMeetEIP155Conditions && onEIP155BlockOrLater;
}
/**
* Return a compact error string representation of the object
*/
errorStr() {
let errorStr = this._getSharedErrorPostfix();
errorStr += ` gasPrice=${this.gasPrice}`;
return errorStr;
}
/**
* Internal helper function to create an annotated error message
*
* @param msg Base error message
* @hidden
*/
_errorMsg(msg) {
return `${msg} (${this.errorStr()})`;
}
}
exports.default = Transaction;
//# sourceMappingURL=legacyTransaction.js.map