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Workflow updating files of maticwallet

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RanchiMall Dev 2026-01-12 13:04:18 +00:00
parent 05cad913ce
commit bc162dc331
22 changed files with 29661 additions and 0 deletions
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maticwallet/.vscode/settings.json vendored Normal file
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{
"liveServer.settings.port": 5501
}

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# MATIC blockchain wallet
Matic blockchain wallet linked with FLO address

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(function (EXPORTS) { //compactIDB v2.1.2
/* Compact IndexedDB operations */
'use strict';
const compactIDB = EXPORTS;
var defaultDB;
const indexedDB = window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB;
const IDBTransaction = window.IDBTransaction || window.webkitIDBTransaction || window.msIDBTransaction;
const IDBKeyRange = window.IDBKeyRange || window.webkitIDBKeyRange || window.msIDBKeyRange;
if (!indexedDB) {
console.error("Your browser doesn't support a stable version of IndexedDB.");
return;
}
compactIDB.setDefaultDB = dbName => defaultDB = dbName;
Object.defineProperty(compactIDB, 'default', {
get: () => defaultDB,
set: dbName => defaultDB = dbName
});
function getDBversion(dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
resolve(db.version)
db.close()
}).catch(error => reject(error))
})
}
function upgradeDB(dbName, createList = null, deleteList = null) {
return new Promise((resolve, reject) => {
getDBversion(dbName).then(version => {
var idb = indexedDB.open(dbName, version + 1);
idb.onerror = (event) => reject("Error in opening IndexedDB");
idb.onupgradeneeded = (event) => {
let db = event.target.result;
if (createList instanceof Object) {
if (Array.isArray(createList)) {
let tmp = {}
createList.forEach(o => tmp[o] = {})
createList = tmp
}
for (let o in createList) {
let obs = db.createObjectStore(o, createList[o].options || {});
if (createList[o].indexes instanceof Object)
for (let i in createList[o].indexes)
obs.createIndex(i, i, createList[o].indexes || {});
}
}
if (Array.isArray(deleteList))
deleteList.forEach(o => db.deleteObjectStore(o));
resolve('Database upgraded')
}
idb.onsuccess = (event) => event.target.result.close();
}).catch(error => reject(error))
})
}
compactIDB.initDB = function (dbName, objectStores = {}) {
return new Promise((resolve, reject) => {
if (!(objectStores instanceof Object))
return reject('ObjectStores must be an object or array')
defaultDB = defaultDB || dbName;
var idb = indexedDB.open(dbName);
idb.onerror = (event) => reject("Error in opening IndexedDB");
idb.onsuccess = (event) => {
var db = event.target.result;
let cList = Object.values(db.objectStoreNames);
var obs = {},
a_obs = {},
d_obs = [];
if (!Array.isArray(objectStores))
var obs = objectStores
else
objectStores.forEach(o => obs[o] = {})
let nList = Object.keys(obs)
for (let o of nList)
if (!cList.includes(o))
a_obs[o] = obs[o]
for (let o of cList)
if (!nList.includes(o))
d_obs.push(o)
if (!Object.keys(a_obs).length && !d_obs.length)
resolve("Initiated IndexedDB");
else
upgradeDB(dbName, a_obs, d_obs)
.then(result => resolve(result))
.catch(error => reject(error))
db.close();
}
});
}
const openDB = compactIDB.openDB = function (dbName = defaultDB) {
return new Promise((resolve, reject) => {
var idb = indexedDB.open(dbName);
idb.onerror = (event) => reject("Error in opening IndexedDB");
idb.onupgradeneeded = (event) => {
event.target.result.close();
deleteDB(dbName).then(_ => null).catch(_ => null).finally(_ => reject("Datebase not found"))
}
idb.onsuccess = (event) => resolve(event.target.result);
});
}
const deleteDB = compactIDB.deleteDB = function (dbName = defaultDB) {
return new Promise((resolve, reject) => {
var deleteReq = indexedDB.deleteDatabase(dbName);;
deleteReq.onerror = (event) => reject("Error deleting database!");
deleteReq.onsuccess = (event) => resolve("Database deleted successfully");
});
}
compactIDB.writeData = function (obsName, data, key = false, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readwrite").objectStore(obsName);
let writeReq = (key ? obs.put(data, key) : obs.put(data));
writeReq.onsuccess = (evt) => resolve(`Write data Successful`);
writeReq.onerror = (evt) => reject(
`Write data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
);
db.close();
}).catch(error => reject(error));
});
}
compactIDB.addData = function (obsName, data, key = false, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readwrite").objectStore(obsName);
let addReq = (key ? obs.add(data, key) : obs.add(data));
addReq.onsuccess = (evt) => resolve(`Add data successful`);
addReq.onerror = (evt) => reject(
`Add data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
);
db.close();
}).catch(error => reject(error));
});
}
compactIDB.removeData = function (obsName, key, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readwrite").objectStore(obsName);
let delReq = obs.delete(key);
delReq.onsuccess = (evt) => resolve(`Removed Data ${key}`);
delReq.onerror = (evt) => reject(
`Remove data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
);
db.close();
}).catch(error => reject(error));
});
}
compactIDB.clearData = function (obsName, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readwrite").objectStore(obsName);
let clearReq = obs.clear();
clearReq.onsuccess = (evt) => resolve(`Clear data Successful`);
clearReq.onerror = (evt) => reject(`Clear data Unsuccessful`);
db.close();
}).catch(error => reject(error));
});
}
compactIDB.readData = function (obsName, key, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readonly").objectStore(obsName);
let getReq = obs.get(key);
getReq.onsuccess = (evt) => resolve(evt.target.result);
getReq.onerror = (evt) => reject(
`Read data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
);
db.close();
}).catch(error => reject(error));
});
}
compactIDB.readAllData = function (obsName, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readonly").objectStore(obsName);
var tmpResult = {}
let curReq = obs.openCursor();
curReq.onsuccess = (evt) => {
var cursor = evt.target.result;
if (cursor) {
tmpResult[cursor.primaryKey] = cursor.value;
cursor.continue();
} else
resolve(tmpResult);
}
curReq.onerror = (evt) => reject(
`Read-All data unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`
);
db.close();
}).catch(error => reject(error));
});
}
/* compactIDB.searchData = function (obsName, options = {}, dbName = defaultDB) {
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readonly").objectStore(obsName);
var filteredResult = {}
let keyRange;
if(options.lowerKey!==null && options.upperKey!==null)
keyRange = IDBKeyRange.bound(options.lowerKey, options.upperKey);
else if(options.lowerKey!==null)
keyRange = IDBKeyRange.lowerBound(options.lowerKey);
else if (options.upperKey!==null)
keyRange = IDBKeyRange.upperBound(options.upperBound);
else if (options.atKey)
let curReq = obs.openCursor(keyRange, )
}).catch(error => reject(error))
})
}*/
compactIDB.searchData = function (obsName, options = {}, dbName = defaultDB) {
options.lowerKey = options.atKey || options.lowerKey || 0
options.upperKey = options.atKey || options.upperKey || false
options.patternEval = options.patternEval || ((k, v) => true);
options.limit = options.limit || false;
options.reverse = options.reverse || false;
options.lastOnly = options.lastOnly || false
return new Promise((resolve, reject) => {
openDB(dbName).then(db => {
var obs = db.transaction(obsName, "readonly").objectStore(obsName);
var filteredResult = {}
let curReq = obs.openCursor(
options.upperKey ? IDBKeyRange.bound(options.lowerKey, options.upperKey) : IDBKeyRange.lowerBound(options.lowerKey),
options.lastOnly || options.reverse ? "prev" : "next");
curReq.onsuccess = (evt) => {
var cursor = evt.target.result;
if (!cursor || (options.limit && options.limit <= Object.keys(filteredResult).length))
return resolve(filteredResult); //reached end of key list or limit reached
else if (options.patternEval(cursor.primaryKey, cursor.value)) {
filteredResult[cursor.primaryKey] = cursor.value;
options.lastOnly ? resolve(filteredResult) : cursor.continue();
} else
cursor.continue();
}
curReq.onerror = (evt) => reject(`Search unsuccessful [${evt.target.error.name}] ${evt.target.error.message}`);
db.close();
}).catch(error => reject(error));
});
}
})(window.compactIDB = {});

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(function (EXPORTS) {
//maticOperator v1.0.2
/* ETH Crypto and API Operator */
if (!window.ethers) return console.error("ethers.js not found");
const maticOperator = EXPORTS;
const isValidAddress = (maticOperator.isValidAddress = (address) => {
try {
// Check if the address is a valid checksum address
const isValidChecksum = ethers.utils.isAddress(address);
// Check if the address is a valid non-checksum address
const isValidNonChecksum =
ethers.utils.getAddress(address) === address.toLowerCase();
return isValidChecksum || isValidNonChecksum;
} catch (error) {
return false;
}
});
const BEP20ABI = [
{
constant: true,
inputs: [],
name: "name",
outputs: [
{
name: "",
type: "string",
},
],
payable: false,
stateMutability: "view",
type: "function",
},
{
constant: false,
inputs: [
{
name: "_spender",
type: "address",
},
{
name: "_value",
type: "uint256",
},
],
name: "approve",
outputs: [
{
name: "",
type: "bool",
},
],
payable: false,
stateMutability: "nonpayable",
type: "function",
},
{
constant: true,
inputs: [],
name: "totalSupply",
outputs: [
{
name: "",
type: "uint256",
},
],
payable: false,
stateMutability: "view",
type: "function",
},
{
constant: false,
inputs: [
{
name: "_from",
type: "address",
},
{
name: "_to",
type: "address",
},
{
name: "_value",
type: "uint256",
},
],
name: "transferFrom",
outputs: [
{
name: "",
type: "bool",
},
],
payable: false,
stateMutability: "nonpayable",
type: "function",
},
{
constant: true,
inputs: [],
name: "decimals",
outputs: [
{
name: "",
type: "uint8",
},
],
payable: false,
stateMutability: "view",
type: "function",
},
{
constant: true,
inputs: [
{
name: "_owner",
type: "address",
},
],
name: "balanceOf",
outputs: [
{
name: "balance",
type: "uint256",
},
],
payable: false,
stateMutability: "view",
type: "function",
},
{
constant: true,
inputs: [],
name: "symbol",
outputs: [
{
name: "",
type: "string",
},
],
payable: false,
stateMutability: "view",
type: "function",
},
{
constant: false,
inputs: [
{
name: "_to",
type: "address",
},
{
name: "_value",
type: "uint256",
},
],
name: "transfer",
outputs: [
{
name: "",
type: "bool",
},
],
payable: false,
stateMutability: "nonpayable",
type: "function",
},
{
constant: true,
inputs: [
{
name: "_owner",
type: "address",
},
{
name: "_spender",
type: "address",
},
],
name: "allowance",
outputs: [
{
name: "",
type: "uint256",
},
],
payable: false,
stateMutability: "view",
type: "function",
},
{
payable: true,
stateMutability: "payable",
type: "fallback",
},
{
anonymous: false,
inputs: [
{
indexed: true,
name: "owner",
type: "address",
},
{
indexed: true,
name: "spender",
type: "address",
},
{
indexed: false,
name: "value",
type: "uint256",
},
],
name: "Approval",
type: "event",
},
{
anonymous: false,
inputs: [
{
indexed: true,
name: "from",
type: "address",
},
{
indexed: true,
name: "to",
type: "address",
},
{
indexed: false,
name: "value",
type: "uint256",
},
],
name: "Transfer",
type: "event",
},
];
const CONTRACT_ADDRESSES = {
usdc: "0x3c499c542cef5e3811e1192ce70d8cc03d5c3359",
usdt: "0xc2132d05d31c914a87c6611c10748aeb04b58e8f",
};
function getProvider() {
// switches provider based on whether the user is using MetaMask or not
const maticMainnet = {
chainId: 137, // Hexadecimal representation of 137
name: 'matic',
rpc: 'https://polygon-mainnet.g.alchemy.com/v2/Xycml_AQd_BHbbUME4fNAjGGR2ILxYWO', // RPC URL for Polygon (Matic)
explorer: 'https://polygonscan.com'
};
if (window.ethereum) {
return new ethers.providers.Web3Provider(window.ethereum);
} else {
return new ethers.providers.JsonRpcProvider(maticMainnet.rpc, maticMainnet);
}
}
function connectToMetaMask() {
return new Promise((resolve, reject) => {
// if (typeof window.ethereum === "undefined")
// return reject("MetaMask not installed");
return resolve(true);
ethereum
.request({ method: "eth_requestAccounts" })
.then((accounts) => {
console.log("Connected to MetaMask");
return resolve(accounts);
})
.catch((err) => {
console.log(err);
return reject(err);
});
});
}
// connectToMetaMask();
const getBalance = (maticOperator.getBalance = async (address) => {
try {
if (!address || !isValidAddress(address))
return new Error("Invalid address");
// Get the balance
const provider = getProvider();
const balanceWei = await provider.getBalance(address);
const balanceEth = parseFloat(ethers.utils.formatEther(balanceWei));
return balanceEth;
} catch (error) {
console.error("Error:", error.message);
return error;
}
});
const getTokenBalance = (maticOperator.getTokenBalance = async (
address,
token,
{ contractAddress } = {}
) => {
try {
// if (!window.ethereum.isConnected()) {
// await connectToMetaMask();
// }
if (!token)
return new Error("Token not specified");
if (!CONTRACT_ADDRESSES[token] && contractAddress)
return new Error('Contract address of token not available')
const usdcContract = new ethers.Contract(CONTRACT_ADDRESSES[token] || contractAddress, BEP20ABI, getProvider());
let balance = await usdcContract.balanceOf(address);
balance = parseFloat(ethers.utils.formatUnits(balance, 6)); // Assuming 6 decimals
return balance;
} catch (e) {
console.error(e);
}
});
const estimateGas = (maticOperator.estimateGas = async ({
privateKey,
receiver,
amount,
}) => {
try {
const provider = getProvider();
const signer = new ethers.Wallet(privateKey, provider);
return provider.estimateGas({
from: signer.address,
to: receiver,
value: ethers.utils.parseUnits(amount, "ether"),
});
} catch (e) {
throw new Error(e);
}
});
const sendTransaction = (maticOperator.sendTransaction = async ({
privateKey,
receiver,
amount,
}) => {
try {
const provider = getProvider();
const signer = new ethers.Wallet(privateKey, provider);
const limit = await estimateGas({ privateKey, receiver, amount });
// Creating and sending the transaction object
return signer.sendTransaction({
to: receiver,
value: ethers.utils.parseUnits(amount, "ether"),
gasLimit: limit,
nonce: signer.getTransactionCount(),
maxPriorityFeePerGas: ethers.utils.parseUnits("2", "gwei"),
});
} catch (e) {
throw new Error(e);
}
});
const sendToken = (maticOperator.sendToken = async ({
token,
privateKey,
amount,
receiver,
contractAddress,
}) => {
try {
// Create a wallet using the private key
const wallet = new ethers.Wallet(privateKey, getProvider());
// Contract interface
const tokenContract = new ethers.Contract(
CONTRACT_ADDRESSES[token] || contractAddress,
BEP20ABI,
wallet
);
// Fetch the correct number of decimals for the token
const decimals = await tokenContract.decimals();
// Convert the amount to the smallest unit of the token
const amountWei = ethers.utils.parseUnits(amount.toString(), decimals);
// Estimate gas limit for the transaction
let gasLimit;
try {
gasLimit = await tokenContract.estimateGas.transfer(receiver, amountWei);
} catch (error) {
console.warn("Gas limit estimation failed, using default gas limit:", error);
gasLimit = ethers.BigNumber.from("60000"); // Default value, adjust as necessary
}
// Get the current gas price and add a buffer to avoid the "replacement fee too low" error
let gasPrice;
try {
gasPrice = await wallet.provider.getGasPrice();
gasPrice = gasPrice.mul(ethers.BigNumber.from(2)); // Increase the gas price to avoid the error
} catch (error) {
console.warn("Gas price fetching failed, using default gas price:", error);
gasPrice = ethers.utils.parseUnits("5", "gwei"); // Default value, adjust as necessary
}
// Check if the wallet has enough balance to cover gas fees
const gasCost = gasPrice.mul(gasLimit);
const balance = await wallet.getBalance();
if (balance.lt(gasCost)) {
throw new Error("Insufficient funds for gas fee");
}
// Call the transfer function on the token contract
const tx = await tokenContract.transfer(receiver, amountWei, {
gasLimit: gasLimit,
gasPrice: gasPrice,
});
await tx.wait(); // Wait for the transaction to be mined
return tx;
} catch (error) {
console.error("Token transfer error:", error);
throw new Error("Failed to transfer token");
}
});
})("object" === typeof module ? module.exports : (window.maticOperator = {}));

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!(function (EXPORTS) {
if (!window.ethers) return console.error("ethers.js not found");
const maticOperator = EXPORTS,
isValidAddress = (maticOperator.isValidAddress = (address) => {
try {
const isValidChecksum = ethers.utils.isAddress(address),
isValidNonChecksum =
ethers.utils.getAddress(address) === address.toLowerCase();
return isValidChecksum || isValidNonChecksum;
} catch (error) {
return !1;
}
}),
ERC20ABI = [
{
constant: !0,
inputs: [],
name: "name",
outputs: [{ name: "", type: "string" }],
payable: !1,
stateMutability: "view",
type: "function",
},
{
constant: !1,
inputs: [
{ name: "_spender", type: "address" },
{ name: "_value", type: "uint256" },
],
name: "approve",
outputs: [{ name: "", type: "bool" }],
payable: !1,
stateMutability: "nonpayable",
type: "function",
},
{
constant: !0,
inputs: [],
name: "totalSupply",
outputs: [{ name: "", type: "uint256" }],
payable: !1,
stateMutability: "view",
type: "function",
},
{
constant: !1,
inputs: [
{ name: "_from", type: "address" },
{ name: "_to", type: "address" },
{ name: "_value", type: "uint256" },
],
name: "transferFrom",
outputs: [{ name: "", type: "bool" }],
payable: !1,
stateMutability: "nonpayable",
type: "function",
},
{
constant: !0,
inputs: [],
name: "decimals",
outputs: [{ name: "", type: "uint8" }],
payable: !1,
stateMutability: "view",
type: "function",
},
{
constant: !0,
inputs: [{ name: "_owner", type: "address" }],
name: "balanceOf",
outputs: [{ name: "balance", type: "uint256" }],
payable: !1,
stateMutability: "view",
type: "function",
},
{
constant: !0,
inputs: [],
name: "symbol",
outputs: [{ name: "", type: "string" }],
payable: !1,
stateMutability: "view",
type: "function",
},
{
constant: !1,
inputs: [
{ name: "_to", type: "address" },
{ name: "_value", type: "uint256" },
],
name: "transfer",
outputs: [{ name: "", type: "bool" }],
payable: !1,
stateMutability: "nonpayable",
type: "function",
},
{
constant: !0,
inputs: [
{ name: "_owner", type: "address" },
{ name: "_spender", type: "address" },
],
name: "allowance",
outputs: [{ name: "", type: "uint256" }],
payable: !1,
stateMutability: "view",
type: "function",
},
{ payable: !0, stateMutability: "payable", type: "fallback" },
{
anonymous: !1,
inputs: [
{ indexed: !0, name: "owner", type: "address" },
{ indexed: !0, name: "spender", type: "address" },
{ indexed: !1, name: "value", type: "uint256" },
],
name: "Approval",
type: "event",
},
{
anonymous: !1,
inputs: [
{ indexed: !0, name: "from", type: "address" },
{ indexed: !0, name: "to", type: "address" },
{ indexed: !1, name: "value", type: "uint256" },
],
name: "Transfer",
type: "event",
},
]
const CONTRACT_ADDRESSES = {
usdc: "0x3c499c542cef5e3811e1192ce70d8cc03d5c3359",
usdt: "0xc2132d05d31c914a87c6611c10748aeb04b58e8f"
}
function getProvider() {
// switches provider based on whether the user is using MetaMask or not
if (window.ethereum) {
return new ethers.providers.Web3Provider(window.ethereum);
} else {
return new ethers.providers.JsonRpcProvider(`https://polygon-mainnet.infura.io/v3/804ecc59729248fc9cf5b3713289a321`)
}
}
(maticOperator.getBalance = async (address) => {
try {
if (!address || !isValidAddress(address))
return new Error("Invalid address");
const provider = getProvider(),
balanceWei = await provider.getBalance(address);
return parseFloat(ethers.utils.formatEther(balanceWei));
} catch (error) {
return console.error("Error:", error.message), error;
}
}),
(maticOperator.getTokenBalance = async (
address,
token,
{ contractAddress: contractAddress } = {}
) => {
try {
if (!token) return new Error("Token not specified");
if (!CONTRACT_ADDRESSES[token] && contractAddress)
return new Error("Contract address of token not available");
const usdcContract = new ethers.Contract(
CONTRACT_ADDRESSES[token] || contractAddress,
ERC20ABI,
getProvider()
);
let balance = await usdcContract.balanceOf(address);
return (
(balance = parseFloat(ethers.utils.formatUnits(balance, 6))), balance
);
} catch (e) {
console.error(e);
}
});
const estimateGas = (maticOperator.estimateGas = async ({
privateKey: privateKey,
receiver: receiver,
amount: amount,
}) => {
try {
const provider = getProvider(),
signer = new ethers.Wallet(privateKey, provider);
return provider.estimateGas({
from: signer.address,
to: receiver,
value: ethers.utils.parseUnits(amount, "ether"),
});
} catch (e) {
throw new Error(e);
}
});
(maticOperator.sendTransaction = async ({
privateKey: privateKey,
receiver: receiver,
amount: amount,
}) => {
try {
const provider = getProvider(),
signer = new ethers.Wallet(privateKey, provider),
limit = await estimateGas({
privateKey: privateKey,
receiver: receiver,
amount: amount,
});
return signer.sendTransaction({
to: receiver,
value: ethers.utils.parseUnits(amount, "ether"),
gasLimit: limit,
nonce: signer.getTransactionCount(),
maxPriorityFeePerGas: ethers.utils.parseUnits("2", "gwei"),
});
} catch (e) {
throw new Error(e);
}
}),
(maticOperator.sendToken = async ({
token: token,
privateKey: privateKey,
amount: amount,
receiver: receiver,
contractAddress: contractAddress,
}) => {
const wallet = new ethers.Wallet(privateKey, getProvider()),
tokenContract = new ethers.Contract(
CONTRACT_ADDRESSES[token] || contractAddress,
ERC20ABI,
wallet
),
amountWei = ethers.utils.parseUnits(amount.toString(), 6);
return tokenContract.transfer(receiver, amountWei);
});
})("object" == typeof module ? module.exports : (window.maticOperator = {}));

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(function (EXPORTS) { //floCrypto v2.3.6a
/* FLO Crypto Operators */
'use strict';
const floCrypto = EXPORTS;
const p = BigInteger("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F", 16);
const ecparams = EllipticCurve.getSECCurveByName("secp256k1");
const ascii_alternatives = ` '\n '\n“ "\n” "\n --\n— ---\n≥ >=\n≤ <=\n≠ !=\n× *\n÷ /\n← <-\n→ ->\n↔ <->\n⇒ =>\n⇐ <=\n⇔ <=>`;
const exponent1 = () => p.add(BigInteger.ONE).divide(BigInteger("4"));
coinjs.compressed = true; //defaulting coinjs compressed to true;
function calculateY(x) {
let exp = exponent1();
// x is x value of public key in BigInteger format without 02 or 03 or 04 prefix
return x.modPow(BigInteger("3"), p).add(BigInteger("7")).mod(p).modPow(exp, p)
}
function getUncompressedPublicKey(compressedPublicKey) {
// Fetch x from compressedPublicKey
let pubKeyBytes = Crypto.util.hexToBytes(compressedPublicKey);
const prefix = pubKeyBytes.shift() // remove prefix
let prefix_modulus = prefix % 2;
pubKeyBytes.unshift(0) // add prefix 0
let x = new BigInteger(pubKeyBytes)
let xDecimalValue = x.toString()
// Fetch y
let y = calculateY(x);
let yDecimalValue = y.toString();
// verify y value
let resultBigInt = y.mod(BigInteger("2"));
let check = resultBigInt.toString() % 2;
if (prefix_modulus !== check)
yDecimalValue = y.negate().mod(p).toString();
return {
x: xDecimalValue,
y: yDecimalValue
};
}
function getSenderPublicKeyString() {
let privateKey = ellipticCurveEncryption.senderRandom();
var senderPublicKeyString = ellipticCurveEncryption.senderPublicString(privateKey);
return {
privateKey: privateKey,
senderPublicKeyString: senderPublicKeyString
}
}
function deriveSharedKeySender(receiverPublicKeyHex, senderPrivateKey) {
let receiverPublicKeyString = getUncompressedPublicKey(receiverPublicKeyHex);
var senderDerivedKey = ellipticCurveEncryption.senderSharedKeyDerivation(
receiverPublicKeyString.x, receiverPublicKeyString.y, senderPrivateKey);
return senderDerivedKey;
}
function deriveSharedKeyReceiver(senderPublicKeyString, receiverPrivateKey) {
return ellipticCurveEncryption.receiverSharedKeyDerivation(
senderPublicKeyString.XValuePublicString, senderPublicKeyString.YValuePublicString, receiverPrivateKey);
}
function getReceiverPublicKeyString(privateKey) {
return ellipticCurveEncryption.receiverPublicString(privateKey);
}
function wifToDecimal(pk_wif, isPubKeyCompressed = false) {
let pk = Bitcoin.Base58.decode(pk_wif)
pk.shift()
pk.splice(-4, 4)
//If the private key corresponded to a compressed public key, also drop the last byte (it should be 0x01).
if (isPubKeyCompressed == true) pk.pop()
pk.unshift(0)
let privateKeyDecimal = BigInteger(pk).toString()
let privateKeyHex = Crypto.util.bytesToHex(pk)
return {
privateKeyDecimal: privateKeyDecimal,
privateKeyHex: privateKeyHex
}
}
//generate a random Interger within range
floCrypto.randInt = function (min, max) {
min = Math.ceil(min);
max = Math.floor(max);
return Math.floor(securedMathRandom() * (max - min + 1)) + min;
}
//generate a random String within length (options : alphaNumeric chars only)
floCrypto.randString = function (length, alphaNumeric = true) {
var result = '';
var characters = alphaNumeric ? 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789' :
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789_+-./*?@#&$<>=[]{}():';
for (var i = 0; i < length; i++)
result += characters.charAt(Math.floor(securedMathRandom() * characters.length));
return result;
}
//Encrypt Data using public-key
floCrypto.encryptData = function (data, receiverPublicKeyHex) {
var senderECKeyData = getSenderPublicKeyString();
var senderDerivedKey = deriveSharedKeySender(receiverPublicKeyHex, senderECKeyData.privateKey);
let senderKey = senderDerivedKey.XValue + senderDerivedKey.YValue;
let secret = Crypto.AES.encrypt(data, senderKey);
return {
secret: secret,
senderPublicKeyString: senderECKeyData.senderPublicKeyString
};
}
//Decrypt Data using private-key
floCrypto.decryptData = function (data, privateKeyHex) {
var receiverECKeyData = {};
if (typeof privateKeyHex !== "string") throw new Error("No private key found.");
let privateKey = wifToDecimal(privateKeyHex, true);
if (typeof privateKey.privateKeyDecimal !== "string") throw new Error("Failed to detremine your private key.");
receiverECKeyData.privateKey = privateKey.privateKeyDecimal;
var receiverDerivedKey = deriveSharedKeyReceiver(data.senderPublicKeyString, receiverECKeyData.privateKey);
let receiverKey = receiverDerivedKey.XValue + receiverDerivedKey.YValue;
let decryptMsg = Crypto.AES.decrypt(data.secret, receiverKey);
return decryptMsg;
}
//Sign data using private-key
floCrypto.signData = function (data, privateKeyHex) {
var key = new Bitcoin.ECKey(privateKeyHex);
var messageHash = Crypto.SHA256(data);
var messageSign = Bitcoin.ECDSA.sign(messageHash, key.priv);
var sighex = Crypto.util.bytesToHex(messageSign);
return sighex;
}
//Verify signatue of the data using public-key
floCrypto.verifySign = function (data, signatureHex, publicKeyHex) {
var msgHash = Crypto.SHA256(data);
var sigBytes = Crypto.util.hexToBytes(signatureHex);
var publicKeyPoint = ecparams.getCurve().decodePointHex(publicKeyHex);
var verify = Bitcoin.ECDSA.verify(msgHash, sigBytes, publicKeyPoint);
return verify;
}
//Generates a new flo ID and returns private-key, public-key and floID
const generateNewID = floCrypto.generateNewID = function () {
var key = new Bitcoin.ECKey(false);
key.setCompressed(true);
return {
floID: key.getBitcoinAddress(),
pubKey: key.getPubKeyHex(),
privKey: key.getBitcoinWalletImportFormat()
}
}
Object.defineProperties(floCrypto, {
newID: {
get: () => generateNewID()
},
hashID: {
value: (str) => {
let bytes = ripemd160(Crypto.SHA256(str, { asBytes: true }), { asBytes: true });
bytes.unshift(bitjs.pub);
var hash = Crypto.SHA256(Crypto.SHA256(bytes, {
asBytes: true
}), {
asBytes: true
});
var checksum = hash.slice(0, 4);
return bitjs.Base58.encode(bytes.concat(checksum));
}
},
tmpID: {
get: () => {
let bytes = Crypto.util.randomBytes(20);
bytes.unshift(bitjs.pub);
var hash = Crypto.SHA256(Crypto.SHA256(bytes, {
asBytes: true
}), {
asBytes: true
});
var checksum = hash.slice(0, 4);
return bitjs.Base58.encode(bytes.concat(checksum));
}
}
});
//Returns public-key from private-key
floCrypto.getPubKeyHex = function (privateKeyHex) {
if (!privateKeyHex)
return null;
var key = new Bitcoin.ECKey(privateKeyHex);
if (key.priv == null)
return null;
key.setCompressed(true);
return key.getPubKeyHex();
}
//Returns flo-ID from public-key or private-key
floCrypto.getFloID = function (keyHex) {
if (!keyHex)
return null;
try {
var key = new Bitcoin.ECKey(keyHex);
if (key.priv == null)
key.setPub(keyHex);
return key.getBitcoinAddress();
} catch {
return null;
}
}
floCrypto.getAddress = function (privateKeyHex, strict = false) {
if (!privateKeyHex)
return;
var key = new Bitcoin.ECKey(privateKeyHex);
if (key.priv == null)
return null;
key.setCompressed(true);
let pubKey = key.getPubKeyHex(),
version = bitjs.Base58.decode(privateKeyHex)[0];
switch (version) {
case coinjs.priv: //BTC
return coinjs.bech32Address(pubKey).address;
case bitjs.priv: //FLO
return bitjs.pubkey2address(pubKey);
default:
return strict ? false : bitjs.pubkey2address(pubKey); //default to FLO address (if strict=false)
}
}
//Verify the private-key for the given public-key or flo-ID
floCrypto.verifyPrivKey = function (privateKeyHex, pubKey_floID, isfloID = true) {
if (!privateKeyHex || !pubKey_floID)
return false;
try {
var key = new Bitcoin.ECKey(privateKeyHex);
if (key.priv == null)
return false;
key.setCompressed(true);
if (isfloID && pubKey_floID == key.getBitcoinAddress())
return true;
else if (!isfloID && pubKey_floID.toUpperCase() == key.getPubKeyHex().toUpperCase())
return true;
else
return false;
} catch {
return null;
}
}
floCrypto.getMultisigAddress = function (publicKeyList, requiredSignatures) {
if (!Array.isArray(publicKeyList) || !publicKeyList.length)
return null;
if (!Number.isInteger(requiredSignatures) || requiredSignatures < 1 || requiredSignatures > publicKeyList.length)
return null;
try {
var multisig = bitjs.pubkeys2multisig(publicKeyList, requiredSignatures);
return multisig;
} catch {
return null;
}
}
floCrypto.decodeRedeemScript = function (redeemScript) {
try {
var decoded = bitjs.transaction().decodeRedeemScript(redeemScript);
return decoded;
} catch {
return null;
}
}
//Check if the given flo-id is valid or not
floCrypto.validateFloID = function (floID, regularOnly = false) {
if (!floID)
return false;
try {
let addr = new Bitcoin.Address(floID);
if (regularOnly && addr.version != Bitcoin.Address.standardVersion)
return false;
return true;
} catch {
return false;
}
}
//Check if the given address (any blockchain) is valid or not
floCrypto.validateAddr = function (address, std = true, bech = true) {
let raw = decodeAddress(address);
if (!raw)
return false;
if (typeof raw.version !== 'undefined') { //legacy or segwit
if (std == false)
return false;
else if (std === true || (!Array.isArray(std) && std === raw.version) || (Array.isArray(std) && std.includes(raw.version)))
return true;
else
return false;
} else if (typeof raw.bech_version !== 'undefined') { //bech32
if (bech === false)
return false;
else if (bech === true || (!Array.isArray(bech) && bech === raw.bech_version) || (Array.isArray(bech) && bech.includes(raw.bech_version)))
return true;
else
return false;
} else //unknown
return false;
}
//Check the public-key (or redeem-script) for the address (any blockchain)
floCrypto.verifyPubKey = function (pubKeyHex, address) {
let raw = decodeAddress(address);
if (!raw)
return;
let pub_hash = Crypto.util.bytesToHex(ripemd160(Crypto.SHA256(Crypto.util.hexToBytes(pubKeyHex), { asBytes: true })));
if (typeof raw.bech_version !== 'undefined' && raw.bytes.length == 32) //bech32-multisig
raw.hex = Crypto.util.bytesToHex(ripemd160(raw.bytes, { asBytes: true }));
return pub_hash === raw.hex;
}
//Convert the given address (any blockchain) to equivalent floID
floCrypto.toFloID = function (address, options = null) {
if (!address)
return;
let raw = decodeAddress(address);
if (!raw)
return;
else if (options) { //if (optional) version check is passed
if (typeof raw.version !== 'undefined' && (!options.std || !options.std.includes(raw.version)))
return;
if (typeof raw.bech_version !== 'undefined' && (!options.bech || !options.bech.includes(raw.bech_version)))
return;
}
raw.bytes.unshift(bitjs.pub);
let hash = Crypto.SHA256(Crypto.SHA256(raw.bytes, {
asBytes: true
}), {
asBytes: true
});
return bitjs.Base58.encode(raw.bytes.concat(hash.slice(0, 4)));
}
//Convert raw address bytes to floID
floCrypto.rawToFloID = function (raw_bytes) {
if (typeof raw_bytes === 'string')
raw_bytes = Crypto.util.hexToBytes(raw_bytes);
if (raw_bytes.length != 20)
return null;
raw_bytes.unshift(bitjs.pub);
let hash = Crypto.SHA256(Crypto.SHA256(raw_bytes, {
asBytes: true
}), {
asBytes: true
});
return bitjs.Base58.encode(raw_bytes.concat(hash.slice(0, 4)));
}
//Convert the given multisig address (any blockchain) to equivalent multisig floID
floCrypto.toMultisigFloID = function (address, options = null) {
if (!address)
return;
let raw = decodeAddress(address);
if (!raw)
return;
else if (options) { //if (optional) version check is passed
if (typeof raw.version !== 'undefined' && (!options.std || !options.std.includes(raw.version)))
return;
if (typeof raw.bech_version !== 'undefined' && (!options.bech || !options.bech.includes(raw.bech_version)))
return;
}
if (typeof raw.bech_version !== 'undefined') {
if (raw.bytes.length != 32) return; //multisig bech address have 32 bytes
//multisig-bech:hash=SHA256 whereas multisig:hash=r160(SHA265), thus ripemd160 the bytes from multisig-bech
raw.bytes = ripemd160(raw.bytes, {
asBytes: true
});
}
raw.bytes.unshift(bitjs.multisig);
let hash = Crypto.SHA256(Crypto.SHA256(raw.bytes, {
asBytes: true
}), {
asBytes: true
});
return bitjs.Base58.encode(raw.bytes.concat(hash.slice(0, 4)));
}
//Checks if the given addresses (any blockchain) are same (w.r.t keys)
floCrypto.isSameAddr = function (addr1, addr2) {
if (!addr1 || !addr2)
return;
let raw1 = decodeAddress(addr1),
raw2 = decodeAddress(addr2);
if (!raw1 || !raw2)
return false;
else {
if (typeof raw1.bech_version !== 'undefined' && raw1.bytes.length == 32) //bech32-multisig
raw1.hex = Crypto.util.bytesToHex(ripemd160(raw1.bytes, { asBytes: true }));
if (typeof raw2.bech_version !== 'undefined' && raw2.bytes.length == 32) //bech32-multisig
raw2.hex = Crypto.util.bytesToHex(ripemd160(raw2.bytes, { asBytes: true }));
return raw1.hex === raw2.hex;
}
}
const decodeAddress = floCrypto.decodeAddr = function (address) {
if (!address)
return;
else if (address.length == 33 || address.length == 34) { //legacy encoding
let decode = bitjs.Base58.decode(address);
let bytes = decode.slice(0, decode.length - 4);
let checksum = decode.slice(decode.length - 4),
hash = Crypto.SHA256(Crypto.SHA256(bytes, {
asBytes: true
}), {
asBytes: true
});
return (hash[0] != checksum[0] || hash[1] != checksum[1] || hash[2] != checksum[2] || hash[3] != checksum[3]) ? null : {
version: bytes.shift(),
hex: Crypto.util.bytesToHex(bytes),
bytes
}
} else if (address.length == 42 || address.length == 62) { //bech encoding
let decode = coinjs.bech32_decode(address);
if (decode) {
let bytes = decode.data;
let bech_version = bytes.shift();
bytes = coinjs.bech32_convert(bytes, 5, 8, false);
return {
bech_version,
hrp: decode.hrp,
hex: Crypto.util.bytesToHex(bytes),
bytes
}
} else
return null;
}
}
//Split the str using shamir's Secret and Returns the shares
floCrypto.createShamirsSecretShares = function (str, total_shares, threshold_limit) {
try {
if (str.length > 0) {
var strHex = shamirSecretShare.str2hex(str);
var shares = shamirSecretShare.share(strHex, total_shares, threshold_limit);
return shares;
}
return false;
} catch {
return false
}
}
//Returns the retrived secret by combining the shamirs shares
const retrieveShamirSecret = floCrypto.retrieveShamirSecret = function (sharesArray) {
try {
if (sharesArray.length > 0) {
var comb = shamirSecretShare.combine(sharesArray.slice(0, sharesArray.length));
comb = shamirSecretShare.hex2str(comb);
return comb;
}
return false;
} catch {
return false;
}
}
//Verifies the shares and str
floCrypto.verifyShamirsSecret = function (sharesArray, str) {
if (!str)
return null;
else if (retrieveShamirSecret(sharesArray) === str)
return true;
else
return false;
}
const validateASCII = floCrypto.validateASCII = function (string, bool = true) {
if (typeof string !== "string")
return null;
if (bool) {
let x;
for (let i = 0; i < string.length; i++) {
x = string.charCodeAt(i);
if (x < 32 || x > 127)
return false;
}
return true;
} else {
let x, invalids = {};
for (let i = 0; i < string.length; i++) {
x = string.charCodeAt(i);
if (x < 32 || x > 127)
if (x in invalids)
invalids[string[i]].push(i)
else
invalids[string[i]] = [i];
}
if (Object.keys(invalids).length)
return invalids;
else
return true;
}
}
floCrypto.convertToASCII = function (string, mode = 'soft-remove') {
let chars = validateASCII(string, false);
if (chars === true)
return string;
else if (chars === null)
return null;
let convertor, result = string,
refAlt = {};
ascii_alternatives.split('\n').forEach(a => refAlt[a[0]] = a.slice(2));
mode = mode.toLowerCase();
if (mode === "hard-unicode")
convertor = (c) => `\\u${('000' + c.charCodeAt().toString(16)).slice(-4)}`;
else if (mode === "soft-unicode")
convertor = (c) => refAlt[c] || `\\u${('000' + c.charCodeAt().toString(16)).slice(-4)}`;
else if (mode === "hard-remove")
convertor = c => "";
else if (mode === "soft-remove")
convertor = c => refAlt[c] || "";
else
return null;
for (let c in chars)
result = result.replaceAll(c, convertor(c));
return result;
}
floCrypto.revertUnicode = function (string) {
return string.replace(/\\u[\dA-F]{4}/gi,
m => String.fromCharCode(parseInt(m.replace(/\\u/g, ''), 16)));
}
})('object' === typeof module ? module.exports : window.floCrypto = {});

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(function (EXPORTS) { //floEthereum v1.0.1a
/* FLO Ethereum Operators */
/* Make sure you added Taproot, Keccak, FLO and BTC Libraries before */
'use strict';
const floEthereum = EXPORTS;
const ethAddressFromPrivateKey = floEthereum.ethAddressFromPrivateKey = function (privateKey, onlyEvenY = false) {
var t1, t1_x, t1_y, t1_y_BigInt, t2, t3, t4;
var groupOrder = BigInt("0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F");
t1 = bitjs.newPubkey(privateKey);
t1_x = t1.slice(2, 66); t1_y = t1.slice(-64);
if (onlyEvenY) {
t1_y_BigInt = BigInt("0x" + t1_y);
if (t1_y_BigInt % 2n !== 0n) { t1_y_BigInt = (groupOrder - t1_y_BigInt) % groupOrder; t1_y = t1_y_BigInt.toString(16) }
};
t2 = t1_x.toString(16) + t1_y.toString(16);
t3 = keccak.keccak_256(Crypto.util.hexToBytes(t2));
t4 = keccak.extractLast20Bytes(t3);
return "0x" + t4;
}
const ethAddressFromCompressedPublicKey = floEthereum.ethAddressFromCompressedPublicKey = function (compressedPublicKey) {
var t1, t2, t3, t4;
t1 = coinjs.compressedToUncompressed(compressedPublicKey);
t2 = t1.slice(2);
t3 = keccak.keccak_256(Crypto.util.hexToBytes(t2));
t4 = keccak.extractLast20Bytes(t3);
return "0x" + t4;
}
const ethPrivateKeyFromUntweakedPrivateKey = floEthereum.ethPrivateKeyFromUntweakedPrivateKey = function (untweakedPrivateKey) {
var t1;
t1 = hex.encode(taproot.taprootTweakPrivKey(hex.decode(untweakedPrivateKey)));
return t1;
}
const ethAddressFromUntweakedPrivateKey = floEthereum.ethAddressFromUntweakedPrivateKey = function (untweakedPrivateKey) {
var t1, t2;
t1 = hex.encode(taproot.taprootTweakPrivKey(hex.decode(untweakedPrivateKey)));
t2 = ethAddressFromPrivateKey(t1);
return t2;
}
const ethAddressFromTaprootAddress = floEthereum.ethAddressFromTaprootAddress = function (taprootAddress) {
var t1, t2, t3, t4;
t1 = coinjs.addressDecode(taprootAddress);
t2 = t1.outstring.slice(4);
t3 = "02" + t2;
t4 = ethAddressFromCompressedPublicKey(t3);
return t4;
}
})('object' === typeof module ? module.exports : window.floEthereum = {});

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!function(EXPORTS){"use strict";const floEthereum="object"===typeof module?module.exports:window.floEthereum={},ethAddressFromPrivateKey=floEthereum.ethAddressFromPrivateKey=function(privateKey,onlyEvenY=!1){var t1,t1_x,t1_y,t1_y_BigInt,t2,t3,groupOrder=BigInt("0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F");return t1_x=(t1=bitjs.newPubkey(privateKey)).slice(2,66),t1_y=t1.slice(-64),onlyEvenY&&(t1_y_BigInt=BigInt("0x"+t1_y))%2n!==0n&&(t1_y=(t1_y_BigInt=(groupOrder-t1_y_BigInt)%groupOrder).toString(16)),t2=t1_x.toString(16)+t1_y.toString(16),t3=keccak.keccak_256(Crypto.util.hexToBytes(t2)),"0x"+keccak.extractLast20Bytes(t3)},ethAddressFromCompressedPublicKey=floEthereum.ethAddressFromCompressedPublicKey=function(compressedPublicKey){var t2,t3;return t2=coinjs.compressedToUncompressed(compressedPublicKey).slice(2),t3=keccak.keccak_256(Crypto.util.hexToBytes(t2)),"0x"+keccak.extractLast20Bytes(t3)};floEthereum.ethPrivateKeyFromUntweakedPrivateKey=function(untweakedPrivateKey){return hex.encode(taproot.taprootTweakPrivKey(hex.decode(untweakedPrivateKey)))},floEthereum.ethAddressFromUntweakedPrivateKey=function(untweakedPrivateKey){var t1;return t1=hex.encode(taproot.taprootTweakPrivKey(hex.decode(untweakedPrivateKey))),ethAddressFromPrivateKey(t1)},floEthereum.ethAddressFromTaprootAddress=function(taprootAddress){var t2;return t2=coinjs.addressDecode(taprootAddress).outstring.slice(4),ethAddressFromCompressedPublicKey("02"+t2)}}();

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maticwallet/scripts/keccak.js Normal file
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(function () {
'use strict';
var INPUT_ERROR = 'input is invalid type';
var FINALIZE_ERROR = 'finalize already called';
var WINDOW = typeof window === 'object';
var root = WINDOW ? (window.keccak = window.keccak || {}) : {};
if (root.JS_SHA3_NO_WINDOW) {
WINDOW = false;
}
var WEB_WORKER = !WINDOW && typeof self === 'object';
var NODE_JS = !root.JS_SHA3_NO_NODE_JS && typeof process === 'object' && process.versions && process.versions.node;
if (NODE_JS) {
root = global;
} else if (WEB_WORKER) {
root = self;
}
var COMMON_JS = !root.JS_SHA3_NO_COMMON_JS && typeof module === 'object' && module.exports;
var AMD = typeof define === 'function' && define.amd;
var ARRAY_BUFFER = !root.JS_SHA3_NO_ARRAY_BUFFER && typeof ArrayBuffer !== 'undefined';
var HEX_CHARS = '0123456789abcdef'.split('');
var SHAKE_PADDING = [31, 7936, 2031616, 520093696];
var CSHAKE_PADDING = [4, 1024, 262144, 67108864];
var KECCAK_PADDING = [1, 256, 65536, 16777216];
var PADDING = [6, 1536, 393216, 100663296];
var SHIFT = [0, 8, 16, 24];
var RC = [1, 0, 32898, 0, 32906, 2147483648, 2147516416, 2147483648, 32907, 0, 2147483649,
0, 2147516545, 2147483648, 32777, 2147483648, 138, 0, 136, 0, 2147516425, 0,
2147483658, 0, 2147516555, 0, 139, 2147483648, 32905, 2147483648, 32771,
2147483648, 32770, 2147483648, 128, 2147483648, 32778, 0, 2147483658, 2147483648,
2147516545, 2147483648, 32896, 2147483648, 2147483649, 0, 2147516424, 2147483648];
var BITS = [224, 256, 384, 512];
var SHAKE_BITS = [128, 256];
var OUTPUT_TYPES = ['hex', 'buffer', 'arrayBuffer', 'array', 'digest'];
var CSHAKE_BYTEPAD = {
'128': 168,
'256': 136
};
var isArray = root.JS_SHA3_NO_NODE_JS || !Array.isArray
? function (obj) {
return Object.prototype.toString.call(obj) === '[object Array]';
}
: Array.isArray;
var isView = (ARRAY_BUFFER && (root.JS_SHA3_NO_ARRAY_BUFFER_IS_VIEW || !ArrayBuffer.isView))
? function (obj) {
return typeof obj === 'object' && obj.buffer && obj.buffer.constructor === ArrayBuffer;
}
: ArrayBuffer.isView;
// [message: string, isString: bool]
var formatMessage = function (message) {
var type = typeof message;
if (type === 'string') {
return [message, true];
}
if (type !== 'object' || message === null) {
throw new Error(INPUT_ERROR);
}
if (ARRAY_BUFFER && message.constructor === ArrayBuffer) {
return [new Uint8Array(message), false];
}
if (!isArray(message) && !isView(message)) {
throw new Error(INPUT_ERROR);
}
return [message, false];
}
var empty = function (message) {
return formatMessage(message)[0].length === 0;
};
var createOutputMethod = function (bits, padding, outputType) {
return function (message) {
return new Keccak(bits, padding, bits).update(message)[outputType]();
};
};
var createShakeOutputMethod = function (bits, padding, outputType) {
return function (message, outputBits) {
return new Keccak(bits, padding, outputBits).update(message)[outputType]();
};
};
var createCshakeOutputMethod = function (bits, padding, outputType) {
return function (message, outputBits, n, s) {
return methods['cshake' + bits].update(message, outputBits, n, s)[outputType]();
};
};
var createKmacOutputMethod = function (bits, padding, outputType) {
return function (key, message, outputBits, s) {
return methods['kmac' + bits].update(key, message, outputBits, s)[outputType]();
};
};
var createOutputMethods = function (method, createMethod, bits, padding) {
for (var i = 0; i < OUTPUT_TYPES.length; ++i) {
var type = OUTPUT_TYPES[i];
method[type] = createMethod(bits, padding, type);
}
return method;
};
var createMethod = function (bits, padding) {
var method = createOutputMethod(bits, padding, 'hex');
method.create = function () {
return new Keccak(bits, padding, bits);
};
method.update = function (message) {
return method.create().update(message);
};
return createOutputMethods(method, createOutputMethod, bits, padding);
};
var createShakeMethod = function (bits, padding) {
var method = createShakeOutputMethod(bits, padding, 'hex');
method.create = function (outputBits) {
return new Keccak(bits, padding, outputBits);
};
method.update = function (message, outputBits) {
return method.create(outputBits).update(message);
};
return createOutputMethods(method, createShakeOutputMethod, bits, padding);
};
var createCshakeMethod = function (bits, padding) {
var w = CSHAKE_BYTEPAD[bits];
var method = createCshakeOutputMethod(bits, padding, 'hex');
method.create = function (outputBits, n, s) {
if (empty(n) && empty(s)) {
return methods['shake' + bits].create(outputBits);
} else {
return new Keccak(bits, padding, outputBits).bytepad([n, s], w);
}
};
method.update = function (message, outputBits, n, s) {
return method.create(outputBits, n, s).update(message);
};
return createOutputMethods(method, createCshakeOutputMethod, bits, padding);
};
var createKmacMethod = function (bits, padding) {
var w = CSHAKE_BYTEPAD[bits];
var method = createKmacOutputMethod(bits, padding, 'hex');
method.create = function (key, outputBits, s) {
return new Kmac(bits, padding, outputBits).bytepad(['KMAC', s], w).bytepad([key], w);
};
method.update = function (key, message, outputBits, s) {
return method.create(key, outputBits, s).update(message);
};
return createOutputMethods(method, createKmacOutputMethod, bits, padding);
};
var algorithms = [
{ name: 'keccak', padding: KECCAK_PADDING, bits: BITS, createMethod: createMethod },
{ name: 'sha3', padding: PADDING, bits: BITS, createMethod: createMethod },
{ name: 'shake', padding: SHAKE_PADDING, bits: SHAKE_BITS, createMethod: createShakeMethod },
{ name: 'cshake', padding: CSHAKE_PADDING, bits: SHAKE_BITS, createMethod: createCshakeMethod },
{ name: 'kmac', padding: CSHAKE_PADDING, bits: SHAKE_BITS, createMethod: createKmacMethod }
];
var methods = {}, methodNames = [];
for (var i = 0; i < algorithms.length; ++i) {
var algorithm = algorithms[i];
var bits = algorithm.bits;
for (var j = 0; j < bits.length; ++j) {
var methodName = algorithm.name + '_' + bits[j];
methodNames.push(methodName);
methods[methodName] = algorithm.createMethod(bits[j], algorithm.padding);
if (algorithm.name !== 'sha3') {
var newMethodName = algorithm.name + bits[j];
methodNames.push(newMethodName);
methods[newMethodName] = methods[methodName];
}
}
}
methodNames.push("extractLast20Bytes");
methods["extractLast20Bytes"] = extractLast20Bytes;
function Keccak(bits, padding, outputBits) {
this.blocks = [];
this.s = [];
this.padding = padding;
this.outputBits = outputBits;
this.reset = true;
this.finalized = false;
this.block = 0;
this.start = 0;
this.blockCount = (1600 - (bits << 1)) >> 5;
this.byteCount = this.blockCount << 2;
this.outputBlocks = outputBits >> 5;
this.extraBytes = (outputBits & 31) >> 3;
for (var i = 0; i < 50; ++i) {
this.s[i] = 0;
}
}
Keccak.prototype.update = function (message) {
if (this.finalized) {
throw new Error(FINALIZE_ERROR);
}
var result = formatMessage(message);
message = result[0];
var isString = result[1];
var blocks = this.blocks, byteCount = this.byteCount, length = message.length,
blockCount = this.blockCount, index = 0, s = this.s, i, code;
while (index < length) {
if (this.reset) {
this.reset = false;
blocks[0] = this.block;
for (i = 1; i < blockCount + 1; ++i) {
blocks[i] = 0;
}
}
if (isString) {
for (i = this.start; index < length && i < byteCount; ++index) {
code = message.charCodeAt(index);
if (code < 0x80) {
blocks[i >> 2] |= code << SHIFT[i++ & 3];
} else if (code < 0x800) {
blocks[i >> 2] |= (0xc0 | (code >> 6)) << SHIFT[i++ & 3];
blocks[i >> 2] |= (0x80 | (code & 0x3f)) << SHIFT[i++ & 3];
} else if (code < 0xd800 || code >= 0xe000) {
blocks[i >> 2] |= (0xe0 | (code >> 12)) << SHIFT[i++ & 3];
blocks[i >> 2] |= (0x80 | ((code >> 6) & 0x3f)) << SHIFT[i++ & 3];
blocks[i >> 2] |= (0x80 | (code & 0x3f)) << SHIFT[i++ & 3];
} else {
code = 0x10000 + (((code & 0x3ff) << 10) | (message.charCodeAt(++index) & 0x3ff));
blocks[i >> 2] |= (0xf0 | (code >> 18)) << SHIFT[i++ & 3];
blocks[i >> 2] |= (0x80 | ((code >> 12) & 0x3f)) << SHIFT[i++ & 3];
blocks[i >> 2] |= (0x80 | ((code >> 6) & 0x3f)) << SHIFT[i++ & 3];
blocks[i >> 2] |= (0x80 | (code & 0x3f)) << SHIFT[i++ & 3];
}
}
} else {
for (i = this.start; index < length && i < byteCount; ++index) {
blocks[i >> 2] |= message[index] << SHIFT[i++ & 3];
}
}
this.lastByteIndex = i;
if (i >= byteCount) {
this.start = i - byteCount;
this.block = blocks[blockCount];
for (i = 0; i < blockCount; ++i) {
s[i] ^= blocks[i];
}
f(s);
this.reset = true;
} else {
this.start = i;
}
}
return this;
};
Keccak.prototype.encode = function (x, right) {
var o = x & 255, n = 1;
var bytes = [o];
x = x >> 8;
o = x & 255;
while (o > 0) {
bytes.unshift(o);
x = x >> 8;
o = x & 255;
++n;
}
if (right) {
bytes.push(n);
} else {
bytes.unshift(n);
}
this.update(bytes);
return bytes.length;
};
Keccak.prototype.encodeString = function (str) {
var result = formatMessage(str);
str = result[0];
var isString = result[1];
var bytes = 0, length = str.length;
if (isString) {
for (var i = 0; i < str.length; ++i) {
var code = str.charCodeAt(i);
if (code < 0x80) {
bytes += 1;
} else if (code < 0x800) {
bytes += 2;
} else if (code < 0xd800 || code >= 0xe000) {
bytes += 3;
} else {
code = 0x10000 + (((code & 0x3ff) << 10) | (str.charCodeAt(++i) & 0x3ff));
bytes += 4;
}
}
} else {
bytes = length;
}
bytes += this.encode(bytes * 8);
this.update(str);
return bytes;
};
Keccak.prototype.bytepad = function (strs, w) {
var bytes = this.encode(w);
for (var i = 0; i < strs.length; ++i) {
bytes += this.encodeString(strs[i]);
}
var paddingBytes = (w - bytes % w) % w;
var zeros = [];
zeros.length = paddingBytes;
this.update(zeros);
return this;
};
Keccak.prototype.finalize = function () {
if (this.finalized) {
return;
}
this.finalized = true;
var blocks = this.blocks, i = this.lastByteIndex, blockCount = this.blockCount, s = this.s;
blocks[i >> 2] |= this.padding[i & 3];
if (this.lastByteIndex === this.byteCount) {
blocks[0] = blocks[blockCount];
for (i = 1; i < blockCount + 1; ++i) {
blocks[i] = 0;
}
}
blocks[blockCount - 1] |= 0x80000000;
for (i = 0; i < blockCount; ++i) {
s[i] ^= blocks[i];
}
f(s);
};
Keccak.prototype.toString = Keccak.prototype.hex = function () {
this.finalize();
var blockCount = this.blockCount, s = this.s, outputBlocks = this.outputBlocks,
extraBytes = this.extraBytes, i = 0, j = 0;
var hex = '', block;
while (j < outputBlocks) {
for (i = 0; i < blockCount && j < outputBlocks; ++i, ++j) {
block = s[i];
hex += HEX_CHARS[(block >> 4) & 0x0F] + HEX_CHARS[block & 0x0F] +
HEX_CHARS[(block >> 12) & 0x0F] + HEX_CHARS[(block >> 8) & 0x0F] +
HEX_CHARS[(block >> 20) & 0x0F] + HEX_CHARS[(block >> 16) & 0x0F] +
HEX_CHARS[(block >> 28) & 0x0F] + HEX_CHARS[(block >> 24) & 0x0F];
}
if (j % blockCount === 0) {
f(s);
i = 0;
}
}
if (extraBytes) {
block = s[i];
hex += HEX_CHARS[(block >> 4) & 0x0F] + HEX_CHARS[block & 0x0F];
if (extraBytes > 1) {
hex += HEX_CHARS[(block >> 12) & 0x0F] + HEX_CHARS[(block >> 8) & 0x0F];
}
if (extraBytes > 2) {
hex += HEX_CHARS[(block >> 20) & 0x0F] + HEX_CHARS[(block >> 16) & 0x0F];
}
}
return hex;
};
Keccak.prototype.arrayBuffer = function () {
this.finalize();
var blockCount = this.blockCount, s = this.s, outputBlocks = this.outputBlocks,
extraBytes = this.extraBytes, i = 0, j = 0;
var bytes = this.outputBits >> 3;
var buffer;
if (extraBytes) {
buffer = new ArrayBuffer((outputBlocks + 1) << 2);
} else {
buffer = new ArrayBuffer(bytes);
}
var array = new Uint32Array(buffer);
while (j < outputBlocks) {
for (i = 0; i < blockCount && j < outputBlocks; ++i, ++j) {
array[j] = s[i];
}
if (j % blockCount === 0) {
f(s);
}
}
if (extraBytes) {
array[i] = s[i];
buffer = buffer.slice(0, bytes);
}
return buffer;
};
Keccak.prototype.buffer = Keccak.prototype.arrayBuffer;
Keccak.prototype.digest = Keccak.prototype.array = function () {
this.finalize();
var blockCount = this.blockCount, s = this.s, outputBlocks = this.outputBlocks,
extraBytes = this.extraBytes, i = 0, j = 0;
var array = [], offset, block;
while (j < outputBlocks) {
for (i = 0; i < blockCount && j < outputBlocks; ++i, ++j) {
offset = j << 2;
block = s[i];
array[offset] = block & 0xFF;
array[offset + 1] = (block >> 8) & 0xFF;
array[offset + 2] = (block >> 16) & 0xFF;
array[offset + 3] = (block >> 24) & 0xFF;
}
if (j % blockCount === 0) {
f(s);
}
}
if (extraBytes) {
offset = j << 2;
block = s[i];
array[offset] = block & 0xFF;
if (extraBytes > 1) {
array[offset + 1] = (block >> 8) & 0xFF;
}
if (extraBytes > 2) {
array[offset + 2] = (block >> 16) & 0xFF;
}
}
return array;
};
function Kmac(bits, padding, outputBits) {
Keccak.call(this, bits, padding, outputBits);
}
Kmac.prototype = new Keccak();
Kmac.prototype.finalize = function () {
this.encode(this.outputBits, true);
return Keccak.prototype.finalize.call(this);
};
var f = function (s) {
var h, l, n, c0, c1, c2, c3, c4, c5, c6, c7, c8, c9,
b0, b1, b2, b3, b4, b5, b6, b7, b8, b9, b10, b11, b12, b13, b14, b15, b16, b17,
b18, b19, b20, b21, b22, b23, b24, b25, b26, b27, b28, b29, b30, b31, b32, b33,
b34, b35, b36, b37, b38, b39, b40, b41, b42, b43, b44, b45, b46, b47, b48, b49;
for (n = 0; n < 48; n += 2) {
c0 = s[0] ^ s[10] ^ s[20] ^ s[30] ^ s[40];
c1 = s[1] ^ s[11] ^ s[21] ^ s[31] ^ s[41];
c2 = s[2] ^ s[12] ^ s[22] ^ s[32] ^ s[42];
c3 = s[3] ^ s[13] ^ s[23] ^ s[33] ^ s[43];
c4 = s[4] ^ s[14] ^ s[24] ^ s[34] ^ s[44];
c5 = s[5] ^ s[15] ^ s[25] ^ s[35] ^ s[45];
c6 = s[6] ^ s[16] ^ s[26] ^ s[36] ^ s[46];
c7 = s[7] ^ s[17] ^ s[27] ^ s[37] ^ s[47];
c8 = s[8] ^ s[18] ^ s[28] ^ s[38] ^ s[48];
c9 = s[9] ^ s[19] ^ s[29] ^ s[39] ^ s[49];
h = c8 ^ ((c2 << 1) | (c3 >>> 31));
l = c9 ^ ((c3 << 1) | (c2 >>> 31));
s[0] ^= h;
s[1] ^= l;
s[10] ^= h;
s[11] ^= l;
s[20] ^= h;
s[21] ^= l;
s[30] ^= h;
s[31] ^= l;
s[40] ^= h;
s[41] ^= l;
h = c0 ^ ((c4 << 1) | (c5 >>> 31));
l = c1 ^ ((c5 << 1) | (c4 >>> 31));
s[2] ^= h;
s[3] ^= l;
s[12] ^= h;
s[13] ^= l;
s[22] ^= h;
s[23] ^= l;
s[32] ^= h;
s[33] ^= l;
s[42] ^= h;
s[43] ^= l;
h = c2 ^ ((c6 << 1) | (c7 >>> 31));
l = c3 ^ ((c7 << 1) | (c6 >>> 31));
s[4] ^= h;
s[5] ^= l;
s[14] ^= h;
s[15] ^= l;
s[24] ^= h;
s[25] ^= l;
s[34] ^= h;
s[35] ^= l;
s[44] ^= h;
s[45] ^= l;
h = c4 ^ ((c8 << 1) | (c9 >>> 31));
l = c5 ^ ((c9 << 1) | (c8 >>> 31));
s[6] ^= h;
s[7] ^= l;
s[16] ^= h;
s[17] ^= l;
s[26] ^= h;
s[27] ^= l;
s[36] ^= h;
s[37] ^= l;
s[46] ^= h;
s[47] ^= l;
h = c6 ^ ((c0 << 1) | (c1 >>> 31));
l = c7 ^ ((c1 << 1) | (c0 >>> 31));
s[8] ^= h;
s[9] ^= l;
s[18] ^= h;
s[19] ^= l;
s[28] ^= h;
s[29] ^= l;
s[38] ^= h;
s[39] ^= l;
s[48] ^= h;
s[49] ^= l;
b0 = s[0];
b1 = s[1];
b32 = (s[11] << 4) | (s[10] >>> 28);
b33 = (s[10] << 4) | (s[11] >>> 28);
b14 = (s[20] << 3) | (s[21] >>> 29);
b15 = (s[21] << 3) | (s[20] >>> 29);
b46 = (s[31] << 9) | (s[30] >>> 23);
b47 = (s[30] << 9) | (s[31] >>> 23);
b28 = (s[40] << 18) | (s[41] >>> 14);
b29 = (s[41] << 18) | (s[40] >>> 14);
b20 = (s[2] << 1) | (s[3] >>> 31);
b21 = (s[3] << 1) | (s[2] >>> 31);
b2 = (s[13] << 12) | (s[12] >>> 20);
b3 = (s[12] << 12) | (s[13] >>> 20);
b34 = (s[22] << 10) | (s[23] >>> 22);
b35 = (s[23] << 10) | (s[22] >>> 22);
b16 = (s[33] << 13) | (s[32] >>> 19);
b17 = (s[32] << 13) | (s[33] >>> 19);
b48 = (s[42] << 2) | (s[43] >>> 30);
b49 = (s[43] << 2) | (s[42] >>> 30);
b40 = (s[5] << 30) | (s[4] >>> 2);
b41 = (s[4] << 30) | (s[5] >>> 2);
b22 = (s[14] << 6) | (s[15] >>> 26);
b23 = (s[15] << 6) | (s[14] >>> 26);
b4 = (s[25] << 11) | (s[24] >>> 21);
b5 = (s[24] << 11) | (s[25] >>> 21);
b36 = (s[34] << 15) | (s[35] >>> 17);
b37 = (s[35] << 15) | (s[34] >>> 17);
b18 = (s[45] << 29) | (s[44] >>> 3);
b19 = (s[44] << 29) | (s[45] >>> 3);
b10 = (s[6] << 28) | (s[7] >>> 4);
b11 = (s[7] << 28) | (s[6] >>> 4);
b42 = (s[17] << 23) | (s[16] >>> 9);
b43 = (s[16] << 23) | (s[17] >>> 9);
b24 = (s[26] << 25) | (s[27] >>> 7);
b25 = (s[27] << 25) | (s[26] >>> 7);
b6 = (s[36] << 21) | (s[37] >>> 11);
b7 = (s[37] << 21) | (s[36] >>> 11);
b38 = (s[47] << 24) | (s[46] >>> 8);
b39 = (s[46] << 24) | (s[47] >>> 8);
b30 = (s[8] << 27) | (s[9] >>> 5);
b31 = (s[9] << 27) | (s[8] >>> 5);
b12 = (s[18] << 20) | (s[19] >>> 12);
b13 = (s[19] << 20) | (s[18] >>> 12);
b44 = (s[29] << 7) | (s[28] >>> 25);
b45 = (s[28] << 7) | (s[29] >>> 25);
b26 = (s[38] << 8) | (s[39] >>> 24);
b27 = (s[39] << 8) | (s[38] >>> 24);
b8 = (s[48] << 14) | (s[49] >>> 18);
b9 = (s[49] << 14) | (s[48] >>> 18);
s[0] = b0 ^ (~b2 & b4);
s[1] = b1 ^ (~b3 & b5);
s[10] = b10 ^ (~b12 & b14);
s[11] = b11 ^ (~b13 & b15);
s[20] = b20 ^ (~b22 & b24);
s[21] = b21 ^ (~b23 & b25);
s[30] = b30 ^ (~b32 & b34);
s[31] = b31 ^ (~b33 & b35);
s[40] = b40 ^ (~b42 & b44);
s[41] = b41 ^ (~b43 & b45);
s[2] = b2 ^ (~b4 & b6);
s[3] = b3 ^ (~b5 & b7);
s[12] = b12 ^ (~b14 & b16);
s[13] = b13 ^ (~b15 & b17);
s[22] = b22 ^ (~b24 & b26);
s[23] = b23 ^ (~b25 & b27);
s[32] = b32 ^ (~b34 & b36);
s[33] = b33 ^ (~b35 & b37);
s[42] = b42 ^ (~b44 & b46);
s[43] = b43 ^ (~b45 & b47);
s[4] = b4 ^ (~b6 & b8);
s[5] = b5 ^ (~b7 & b9);
s[14] = b14 ^ (~b16 & b18);
s[15] = b15 ^ (~b17 & b19);
s[24] = b24 ^ (~b26 & b28);
s[25] = b25 ^ (~b27 & b29);
s[34] = b34 ^ (~b36 & b38);
s[35] = b35 ^ (~b37 & b39);
s[44] = b44 ^ (~b46 & b48);
s[45] = b45 ^ (~b47 & b49);
s[6] = b6 ^ (~b8 & b0);
s[7] = b7 ^ (~b9 & b1);
s[16] = b16 ^ (~b18 & b10);
s[17] = b17 ^ (~b19 & b11);
s[26] = b26 ^ (~b28 & b20);
s[27] = b27 ^ (~b29 & b21);
s[36] = b36 ^ (~b38 & b30);
s[37] = b37 ^ (~b39 & b31);
s[46] = b46 ^ (~b48 & b40);
s[47] = b47 ^ (~b49 & b41);
s[8] = b8 ^ (~b0 & b2);
s[9] = b9 ^ (~b1 & b3);
s[18] = b18 ^ (~b10 & b12);
s[19] = b19 ^ (~b11 & b13);
s[28] = b28 ^ (~b20 & b22);
s[29] = b29 ^ (~b21 & b23);
s[38] = b38 ^ (~b30 & b32);
s[39] = b39 ^ (~b31 & b33);
s[48] = b48 ^ (~b40 & b42);
s[49] = b49 ^ (~b41 & b43);
s[0] ^= RC[n];
s[1] ^= RC[n + 1];
}
};
function extractLast20Bytes(hexString, addPrefix) {
// Ensure the input hexString has '0x' prefix
if (!hexString.startsWith('0x')) {
hexString = '0x' + hexString;
}
// Remove '0x' prefix and parse the hex string to a BigInt
var bigIntValue = BigInt(hexString);
// Extract the last 20 bytes (160 bits) from the BigInt
var last20Bytes = bigIntValue & BigInt('0x' + 'f'.repeat(40)); // 0xf is 4 bits in hexadecimal, repeated 40 times for 160 bits
// Convert the result back to a hexadecimal string
var result = last20Bytes.toString(16).padStart(40, '0'); // 40 characters for 160 bits
// Add '0x' prefix if addPrefix is truthy
if (addPrefix) {
result = '0x' + result;
}
return result;
}
if (typeof root.keccak === 'object') {
Object.assign(root.keccak, methods);
}
if (COMMON_JS) {
module.exports = methods;
} else {
for (i = 0; i < methodNames.length; ++i) {
root[methodNames[i]] = methods[methodNames[i]];
}
if (AMD) {
define(function () {
return methods;
});
}
}
})();

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