"use strict";
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Object.defineProperty(exports, "__esModule", { value: true });
var ethereumjs_util_1 = require("ethereumjs-util");
var baseTransaction_1 = require("./baseTransaction");
var types_1 = require("./types");
var util_1 = require("./util");
var TRANSACTION_TYPE = 1;
var TRANSACTION_TYPE_BUFFER = Buffer.from(TRANSACTION_TYPE.toString(16).padStart(2, '0'), 'hex');
/**
* Typed transaction with optional access lists
*
* - TransactionType: 1
* - EIP: [EIP-2930](https://eips.ethereum.org/EIPS/eip-2930)
*/
var AccessListEIP2930Transaction = /** @class */ (function (_super) {
__extends(AccessListEIP2930Transaction, _super);
/**
* 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.
*/
function AccessListEIP2930Transaction(txData, opts) {
if (opts === void 0) { opts = {}; }
var _this = this;
var _a, _b;
_this = _super.call(this, __assign(__assign({}, txData), { type: TRANSACTION_TYPE }), opts) || this;
/**
* The default HF if the tx type is active on that HF
* or the first greater HF where the tx is active.
*
* @hidden
*/
_this.DEFAULT_HARDFORK = 'berlin';
var chainId = txData.chainId, accessList = txData.accessList, gasPrice = txData.gasPrice;
_this.common = _this._getCommon(opts.common, chainId);
_this.chainId = _this.common.chainIdBN();
// EIP-2718 check is done in Common
if (!_this.common.isActivatedEIP(2930)) {
throw new Error('EIP-2930 not enabled on Common');
}
_this.activeCapabilities = _this.activeCapabilities.concat([2718, 2930]);
// Populate the access list fields
var accessListData = util_1.AccessLists.getAccessListData(accessList !== null && accessList !== void 0 ? accessList : []);
_this.accessList = accessListData.accessList;
_this.AccessListJSON = accessListData.AccessListJSON;
// Verify the access list format.
util_1.AccessLists.verifyAccessList(_this.accessList);
_this.gasPrice = new ethereumjs_util_1.BN((0, ethereumjs_util_1.toBuffer)(gasPrice === '' ? '0x' : gasPrice));
_this._validateCannotExceedMaxInteger({
gasPrice: _this.gasPrice,
});
if (_this.gasPrice.mul(_this.gasLimit).gt(ethereumjs_util_1.MAX_INTEGER)) {
var msg = _this._errorMsg('gasLimit * gasPrice cannot exceed MAX_INTEGER');
throw new Error(msg);
}
if (_this.v && !_this.v.eqn(0) && !_this.v.eqn(1)) {
var msg = _this._errorMsg('The y-parity of the transaction should either be 0 or 1');
throw new Error(msg);
}
if (_this.common.gteHardfork('homestead') && ((_a = _this.s) === null || _a === void 0 ? void 0 : _a.gt(types_1.N_DIV_2))) {
var msg = _this._errorMsg('Invalid Signature: s-values greater than secp256k1n/2 are considered invalid');
throw new Error(msg);
}
if (_this.common.isActivatedEIP(3860)) {
(0, util_1.checkMaxInitCodeSize)(_this.common, _this.data.length);
}
var freeze = (_b = opts === null || opts === void 0 ? void 0 : opts.freeze) !== null && _b !== void 0 ? _b : true;
if (freeze) {
Object.freeze(_this);
}
return _this;
}
Object.defineProperty(AccessListEIP2930Transaction.prototype, "senderR", {
/**
* EIP-2930 alias for `r`
*
* @deprecated use `r` instead
*/
get: function () {
return this.r;
},
enumerable: false,
configurable: true
});
Object.defineProperty(AccessListEIP2930Transaction.prototype, "senderS", {
/**
* EIP-2930 alias for `s`
*
* @deprecated use `s` instead
*/
get: function () {
return this.s;
},
enumerable: false,
configurable: true
});
Object.defineProperty(AccessListEIP2930Transaction.prototype, "yParity", {
/**
* EIP-2930 alias for `v`
*
* @deprecated use `v` instead
*/
get: function () {
return this.v;
},
enumerable: false,
configurable: true
});
/**
* Instantiate a transaction from a data dictionary.
*
* Format: { chainId, nonce, gasPrice, 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
*/
AccessListEIP2930Transaction.fromTxData = function (txData, opts) {
if (opts === void 0) { opts = {}; }
return new AccessListEIP2930Transaction(txData, opts);
};
/**
* Instantiate a transaction from the serialized tx.
*
* Format: `0x01 || rlp([chainId, nonce, gasPrice, gasLimit, to, value, data, accessList,
* signatureYParity (v), signatureR (r), signatureS (s)])`
*/
AccessListEIP2930Transaction.fromSerializedTx = function (serialized, opts) {
if (opts === void 0) { opts = {}; }
if (!serialized.slice(0, 1).equals(TRANSACTION_TYPE_BUFFER)) {
throw new Error("Invalid serialized tx input: not an EIP-2930 transaction (wrong tx type, expected: ".concat(TRANSACTION_TYPE, ", received: ").concat(serialized
.slice(0, 1)
.toString('hex')));
}
var values = ethereumjs_util_1.rlp.decode(serialized.slice(1));
if (!Array.isArray(values)) {
throw new Error('Invalid serialized tx input: must be array');
}
return AccessListEIP2930Transaction.fromValuesArray(values, opts);
};
/**
* Instantiate a transaction from the serialized tx.
* (alias of {@link AccessListEIP2930Transaction.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 AccessListEIP2930Transaction.fromSerializedTx} constructor
*/
AccessListEIP2930Transaction.fromRlpSerializedTx = function (serialized, opts) {
if (opts === void 0) { opts = {}; }
return AccessListEIP2930Transaction.fromSerializedTx(serialized, opts);
};
/**
* Create a transaction from a values array.
*
* Format: `[chainId, nonce, gasPrice, gasLimit, to, value, data, accessList,
* signatureYParity (v), signatureR (r), signatureS (s)]`
*/
AccessListEIP2930Transaction.fromValuesArray = function (values, opts) {
if (opts === void 0) { opts = {}; }
if (values.length !== 8 && values.length !== 11) {
throw new Error('Invalid EIP-2930 transaction. Only expecting 8 values (for unsigned tx) or 11 values (for signed tx).');
}
var _a = __read(values, 11), chainId = _a[0], nonce = _a[1], gasPrice = _a[2], gasLimit = _a[3], to = _a[4], value = _a[5], data = _a[6], accessList = _a[7], v = _a[8], r = _a[9], s = _a[10];
(0, ethereumjs_util_1.validateNoLeadingZeroes)({ nonce: nonce, gasPrice: gasPrice, gasLimit: gasLimit, value: value, v: v, r: r, s: s });
var emptyAccessList = [];
return new AccessListEIP2930Transaction({
chainId: new ethereumjs_util_1.BN(chainId),
nonce: nonce,
gasPrice: gasPrice,
gasLimit: gasLimit,
to: to,
value: value,
data: data,
accessList: accessList !== null && accessList !== void 0 ? accessList : emptyAccessList,
v: v !== undefined ? new ethereumjs_util_1.BN(v) : undefined,
r: r,
s: s,
}, opts);
};
/**
* The amount of gas paid for the data in this tx
*/
AccessListEIP2930Transaction.prototype.getDataFee = function () {
if (this.cache.dataFee && this.cache.dataFee.hardfork === this.common.hardfork()) {
return this.cache.dataFee.value;
}
var cost = _super.prototype.getDataFee.call(this);
cost.iaddn(util_1.AccessLists.getDataFeeEIP2930(this.accessList, this.common));
if (Object.isFrozen(this)) {
this.cache.dataFee = {
value: cost,
hardfork: this.common.hardfork(),
};
}
return cost;
};
/**
* The up front amount that an account must have for this transaction to be valid
*/
AccessListEIP2930Transaction.prototype.getUpfrontCost = function () {
return this.gasLimit.mul(this.gasPrice).add(this.value);
};
/**
* Returns a Buffer Array of the raw Buffers of the EIP-2930 transaction, in order.
*
* Format: `[chainId, nonce, gasPrice, gasLimit, to, value, data, accessList,
* signatureYParity (v), signatureR (r), signatureS (s)]`
*
* Use {@link AccessListEIP2930Transaction.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 AccessListEIP2930Transaction.getMessageToSign}.
*/
AccessListEIP2930Transaction.prototype.raw = function () {
return [
(0, ethereumjs_util_1.bnToUnpaddedBuffer)(this.chainId),
(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.accessList,
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 EIP-2930 transaction.
*
* Format: `0x01 || rlp([chainId, nonce, gasPrice, gasLimit, to, value, data, accessList,
* signatureYParity (v), signatureR (r), signatureS (s)])`
*
* 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.
*/
AccessListEIP2930Transaction.prototype.serialize = function () {
var base = this.raw();
return Buffer.concat([TRANSACTION_TYPE_BUFFER, ethereumjs_util_1.rlp.encode(base)]);
};
/**
* 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)
*/
AccessListEIP2930Transaction.prototype.getMessageToSign = function (hashMessage) {
if (hashMessage === void 0) { hashMessage = true; }
var base = this.raw().slice(0, 8);
var message = Buffer.concat([TRANSACTION_TYPE_BUFFER, ethereumjs_util_1.rlp.encode(base)]);
if (hashMessage) {
return (0, ethereumjs_util_1.keccak256)(message);
}
else {
return message;
}
};
/**
* Computes a sha3-256 hash of the serialized tx.
*
* This method can only be used for signed txs (it throws otherwise).
* Use {@link AccessListEIP2930Transaction.getMessageToSign} to get a tx hash for the purpose of signing.
*/
AccessListEIP2930Transaction.prototype.hash = function () {
if (!this.isSigned()) {
var 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.keccak256)(this.serialize());
}
return this.cache.hash;
}
return (0, ethereumjs_util_1.keccak256)(this.serialize());
};
/**
* Computes a sha3-256 hash which can be used to verify the signature
*/
AccessListEIP2930Transaction.prototype.getMessageToVerifySignature = function () {
return this.getMessageToSign();
};
/**
* Returns the public key of the sender
*/
AccessListEIP2930Transaction.prototype.getSenderPublicKey = function () {
var _a;
if (!this.isSigned()) {
var msg = this._errorMsg('Cannot call this method if transaction is not signed');
throw new Error(msg);
}
var 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))) {
var msg = this._errorMsg('Invalid Signature: s-values greater than secp256k1n/2 are considered invalid');
throw new Error(msg);
}
var _b = this, yParity = _b.yParity, r = _b.r, s = _b.s;
try {
return (0, ethereumjs_util_1.ecrecover)(msgHash, yParity.addn(27), // Recover the 27 which was stripped from ecsign
(0, ethereumjs_util_1.bnToUnpaddedBuffer)(r), (0, ethereumjs_util_1.bnToUnpaddedBuffer)(s));
}
catch (e) {
var msg = this._errorMsg('Invalid Signature');
throw new Error(msg);
}
};
AccessListEIP2930Transaction.prototype._processSignature = function (v, r, s) {
var opts = __assign(__assign({}, this.txOptions), { common: this.common });
return AccessListEIP2930Transaction.fromTxData({
chainId: this.chainId,
nonce: this.nonce,
gasPrice: this.gasPrice,
gasLimit: this.gasLimit,
to: this.to,
value: this.value,
data: this.data,
accessList: this.accessList,
v: new ethereumjs_util_1.BN(v - 27),
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
*/
AccessListEIP2930Transaction.prototype.toJSON = function () {
var accessListJSON = util_1.AccessLists.getAccessListJSON(this.accessList);
return {
chainId: (0, ethereumjs_util_1.bnToHex)(this.chainId),
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'),
accessList: accessListJSON,
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,
};
};
/**
* Return a compact error string representation of the object
*/
AccessListEIP2930Transaction.prototype.errorStr = function () {
var _a, _b;
var errorStr = this._getSharedErrorPostfix();
// Keep ? for this.accessList since this otherwise causes Hardhat E2E tests to fail
errorStr += " gasPrice=".concat(this.gasPrice, " accessListCount=").concat((_b = (_a = this.accessList) === null || _a === void 0 ? void 0 : _a.length) !== null && _b !== void 0 ? _b : 0);
return errorStr;
};
/**
* Internal helper function to create an annotated error message
*
* @param msg Base error message
* @hidden
*/
AccessListEIP2930Transaction.prototype._errorMsg = function (msg) {
return "".concat(msg, " (").concat(this.errorStr(), ")");
};
return AccessListEIP2930Transaction;
}(baseTransaction_1.BaseTransaction));
exports.default = AccessListEIP2930Transaction;
//# sourceMappingURL=eip2930Transaction.js.map