"use strict";
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Object.defineProperty(exports, "__esModule", { value: true });
exports.BaseTransaction = void 0;
const common_1 = __importStar(require("@ethereumjs/common"));
const ethereumjs_util_1 = require("ethereumjs-util");
const types_1 = require("./types");
/**
* This base class will likely be subject to further
* refactoring along the introduction of additional tx types
* on the Ethereum network.
*
* It is therefore not recommended to use directly.
*/
class BaseTransaction {
constructor(txData, opts) {
this.cache = {
hash: undefined,
dataFee: undefined,
};
/**
* List of tx type defining EIPs,
* e.g. 1559 (fee market) and 2930 (access lists)
* for FeeMarketEIP1559Transaction objects
*/
this.activeCapabilities = [];
/**
* The default chain the tx falls back to if no Common
* is provided and if the chain can't be derived from
* a passed in chainId (only EIP-2718 typed txs) or
* EIP-155 signature (legacy txs).
*
* @hidden
*/
this.DEFAULT_CHAIN = common_1.Chain.Mainnet;
/**
* 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 = common_1.Hardfork.Istanbul;
const { nonce, gasLimit, to, value, data, v, r, s, type } = txData;
this._type = new ethereumjs_util_1.BN((0, ethereumjs_util_1.toBuffer)(type)).toNumber();
this.txOptions = opts;
const toB = (0, ethereumjs_util_1.toBuffer)(to === '' ? '0x' : to);
const vB = (0, ethereumjs_util_1.toBuffer)(v === '' ? '0x' : v);
const rB = (0, ethereumjs_util_1.toBuffer)(r === '' ? '0x' : r);
const sB = (0, ethereumjs_util_1.toBuffer)(s === '' ? '0x' : s);
this.nonce = new ethereumjs_util_1.BN((0, ethereumjs_util_1.toBuffer)(nonce === '' ? '0x' : nonce));
this.gasLimit = new ethereumjs_util_1.BN((0, ethereumjs_util_1.toBuffer)(gasLimit === '' ? '0x' : gasLimit));
this.to = toB.length > 0 ? new ethereumjs_util_1.Address(toB) : undefined;
this.value = new ethereumjs_util_1.BN((0, ethereumjs_util_1.toBuffer)(value === '' ? '0x' : value));
this.data = (0, ethereumjs_util_1.toBuffer)(data === '' ? '0x' : data);
this.v = vB.length > 0 ? new ethereumjs_util_1.BN(vB) : undefined;
this.r = rB.length > 0 ? new ethereumjs_util_1.BN(rB) : undefined;
this.s = sB.length > 0 ? new ethereumjs_util_1.BN(sB) : undefined;
this._validateCannotExceedMaxInteger({ value: this.value, r: this.r, s: this.s });
// geth limits gasLimit to 2^64-1
this._validateCannotExceedMaxInteger({ gasLimit: this.gasLimit }, 64);
// EIP-2681 limits nonce to 2^64-1 (cannot equal 2^64-1)
this._validateCannotExceedMaxInteger({ nonce: this.nonce }, 64, true);
}
/**
* Alias for {@link BaseTransaction.type}
*
* @deprecated Use `type` instead
*/
get transactionType() {
return this.type;
}
/**
* Returns the transaction type.
*
* Note: legacy txs will return tx type `0`.
*/
get type() {
return this._type;
}
/**
* Checks if a tx type defining capability is active
* on a tx, for example the EIP-1559 fee market mechanism
* or the EIP-2930 access list feature.
*
* Note that this is different from the tx type itself,
* so EIP-2930 access lists can very well be active
* on an EIP-1559 tx for example.
*
* This method can be useful for feature checks if the
* tx type is unknown (e.g. when instantiated with
* the tx factory).
*
* See `Capabilites` in the `types` module for a reference
* on all supported capabilities.
*/
supports(capability) {
return this.activeCapabilities.includes(capability);
}
validate(stringError = false) {
const errors = [];
if (this.getBaseFee().gt(this.gasLimit)) {
errors.push(`gasLimit is too low. given ${this.gasLimit}, need at least ${this.getBaseFee()}`);
}
if (this.isSigned() && !this.verifySignature()) {
errors.push('Invalid Signature');
}
return stringError ? errors : errors.length === 0;
}
/**
* The minimum amount of gas the tx must have (DataFee + TxFee + Creation Fee)
*/
getBaseFee() {
const fee = this.getDataFee().addn(this.common.param('gasPrices', 'tx'));
if (this.common.gteHardfork('homestead') && this.toCreationAddress()) {
fee.iaddn(this.common.param('gasPrices', 'txCreation'));
}
return fee;
}
/**
* The amount of gas paid for the data in this tx
*/
getDataFee() {
const txDataZero = this.common.param('gasPrices', 'txDataZero');
const txDataNonZero = this.common.param('gasPrices', 'txDataNonZero');
let cost = 0;
for (let i = 0; i < this.data.length; i++) {
this.data[i] === 0 ? (cost += txDataZero) : (cost += txDataNonZero);
}
cost = new ethereumjs_util_1.BN(cost);
if ((this.to === undefined || this.to === null) && this.common.isActivatedEIP(3860)) {
const dataLength = Math.ceil(this.data.length / 32);
const initCodeCost = new ethereumjs_util_1.BN(this.common.param('gasPrices', 'initCodeWordCost')).imuln(dataLength);
cost.iadd(initCodeCost);
}
return cost;
}
/**
* If the tx's `to` is to the creation address
*/
toCreationAddress() {
return this.to === undefined || this.to.buf.length === 0;
}
isSigned() {
const { v, r, s } = this;
if (this.type === 0) {
if (!v || !r || !s) {
return false;
}
else {
return true;
}
}
else {
if (v === undefined || !r || !s) {
return false;
}
else {
return true;
}
}
}
/**
* Determines if the signature is valid
*/
verifySignature() {
try {
// Main signature verification is done in `getSenderPublicKey()`
const publicKey = this.getSenderPublicKey();
return (0, ethereumjs_util_1.unpadBuffer)(publicKey).length !== 0;
}
catch (e) {
return false;
}
}
/**
* Returns the sender's address
*/
getSenderAddress() {
return new ethereumjs_util_1.Address((0, ethereumjs_util_1.publicToAddress)(this.getSenderPublicKey()));
}
/**
* Signs a transaction.
*
* Note that the signed tx is returned as a new object,
* use as follows:
* ```javascript
* const signedTx = tx.sign(privateKey)
* ```
*/
sign(privateKey) {
if (privateKey.length !== 32) {
const msg = this._errorMsg('Private key must be 32 bytes in length.');
throw new Error(msg);
}
// Hack for the constellation that we have got a legacy tx after spuriousDragon with a non-EIP155 conforming signature
// and want to recreate a signature (where EIP155 should be applied)
// Leaving this hack lets the legacy.spec.ts -> sign(), verifySignature() test fail
// 2021-06-23
let hackApplied = false;
if (this.type === 0 &&
this.common.gteHardfork('spuriousDragon') &&
!this.supports(types_1.Capability.EIP155ReplayProtection)) {
this.activeCapabilities.push(types_1.Capability.EIP155ReplayProtection);
hackApplied = true;
}
const msgHash = this.getMessageToSign(true);
const { v, r, s } = (0, ethereumjs_util_1.ecsign)(msgHash, privateKey);
const tx = this._processSignature(v, r, s);
// Hack part 2
if (hackApplied) {
const index = this.activeCapabilities.indexOf(types_1.Capability.EIP155ReplayProtection);
if (index > -1) {
this.activeCapabilities.splice(index, 1);
}
}
return tx;
}
/**
* Does chain ID checks on common and returns a common
* to be used on instantiation
* @hidden
*
* @param common - {@link Common} instance from tx options
* @param chainId - Chain ID from tx options (typed txs) or signature (legacy tx)
*/
_getCommon(common, chainId) {
var _a;
// Chain ID provided
if (chainId) {
const chainIdBN = new ethereumjs_util_1.BN((0, ethereumjs_util_1.toBuffer)(chainId));
if (common) {
if (!common.chainIdBN().eq(chainIdBN)) {
const msg = this._errorMsg('The chain ID does not match the chain ID of Common');
throw new Error(msg);
}
// Common provided, chain ID does match
// -> Return provided Common
return common.copy();
}
else {
if (common_1.default.isSupportedChainId(chainIdBN)) {
// No Common, chain ID supported by Common
// -> Instantiate Common with chain ID
return new common_1.default({ chain: chainIdBN, hardfork: this.DEFAULT_HARDFORK });
}
else {
// No Common, chain ID not supported by Common
// -> Instantiate custom Common derived from DEFAULT_CHAIN
return common_1.default.forCustomChain(this.DEFAULT_CHAIN, {
name: 'custom-chain',
networkId: chainIdBN,
chainId: chainIdBN,
}, this.DEFAULT_HARDFORK);
}
}
}
else {
// No chain ID provided
// -> return Common provided or create new default Common
return ((_a = common === null || common === void 0 ? void 0 : common.copy()) !== null && _a !== void 0 ? _a : new common_1.default({ chain: this.DEFAULT_CHAIN, hardfork: this.DEFAULT_HARDFORK }));
}
}
/**
* Validates that an object with BN values cannot exceed the specified bit limit.
* @param values Object containing string keys and BN values
* @param bits Number of bits to check (64 or 256)
* @param cannotEqual Pass true if the number also cannot equal one less the maximum value
*/
_validateCannotExceedMaxInteger(values, bits = 256, cannotEqual = false) {
for (const [key, value] of Object.entries(values)) {
switch (bits) {
case 64:
if (cannotEqual) {
if (value === null || value === void 0 ? void 0 : value.gte(ethereumjs_util_1.MAX_UINT64)) {
const msg = this._errorMsg(`${key} cannot equal or exceed MAX_UINT64 (2^64-1), given ${value}`);
throw new Error(msg);
}
}
else {
if (value === null || value === void 0 ? void 0 : value.gt(ethereumjs_util_1.MAX_UINT64)) {
const msg = this._errorMsg(`${key} cannot exceed MAX_UINT64 (2^64-1), given ${value}`);
throw new Error(msg);
}
}
break;
case 256:
if (cannotEqual) {
if (value === null || value === void 0 ? void 0 : value.gte(ethereumjs_util_1.MAX_INTEGER)) {
const msg = this._errorMsg(`${key} cannot equal or exceed MAX_INTEGER (2^256-1), given ${value}`);
throw new Error(msg);
}
}
else {
if (value === null || value === void 0 ? void 0 : value.gt(ethereumjs_util_1.MAX_INTEGER)) {
const msg = this._errorMsg(`${key} cannot exceed MAX_INTEGER (2^256-1), given ${value}`);
throw new Error(msg);
}
}
break;
default: {
const msg = this._errorMsg('unimplemented bits value');
throw new Error(msg);
}
}
}
}
/**
* Returns the shared error postfix part for _error() method
* tx type implementations.
*/
_getSharedErrorPostfix() {
let hash = '';
try {
hash = this.isSigned() ? (0, ethereumjs_util_1.bufferToHex)(this.hash()) : 'not available (unsigned)';
}
catch (e) {
hash = 'error';
}
let isSigned = '';
try {
isSigned = this.isSigned().toString();
}
catch (e) {
hash = 'error';
}
let hf = '';
try {
hf = this.common.hardfork();
}
catch (e) {
hf = 'error';
}
let postfix = `tx type=${this.type} hash=${hash} nonce=${this.nonce} value=${this.value} `;
postfix += `signed=${isSigned} hf=${hf}`;
return postfix;
}
}
exports.BaseTransaction = BaseTransaction;
//# sourceMappingURL=baseTransaction.js.map