mirror of
https://github.com/BlueWallet/BlueWallet.git
synced 2024-11-20 02:09:10 +01:00
240 lines
7.0 KiB
JavaScript
240 lines
7.0 KiB
JavaScript
var aes = require('browserify-aes')
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var assert = require('assert')
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var Buffer = require('safe-buffer').Buffer
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var bs58check = require('bs58check')
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var createHash = require('create-hash')
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var scrypt = require('./scryptsy')
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var xor = require('buffer-xor/inplace')
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var ecurve = require('ecurve')
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var curve = ecurve.getCurveByName('secp256k1')
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var BigInteger = require('bigi')
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// constants
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var SCRYPT_PARAMS = {
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N: 16384, // specified by BIP38
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r: 8,
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p: 8
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}
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var NULL = Buffer.alloc(0)
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function hash160 (buffer) {
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return createHash('rmd160').update(
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createHash('sha256').update(buffer).digest()
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).digest()
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}
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function hash256 (buffer) {
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return createHash('sha256').update(
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createHash('sha256').update(buffer).digest()
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).digest()
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}
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function getAddress (d, compressed) {
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var Q = curve.G.multiply(d).getEncoded(compressed)
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var hash = hash160(Q)
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var payload = Buffer.allocUnsafe(21)
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payload.writeUInt8(0x00, 0) // XXX TODO FIXME bitcoin only??? damn you BIP38
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hash.copy(payload, 1)
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return bs58check.encode(payload)
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}
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async function encryptRaw (buffer, compressed, passphrase, progressCallback, scryptParams) {
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if (buffer.length !== 32) throw new Error('Invalid private key length')
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scryptParams = scryptParams || SCRYPT_PARAMS
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var d = BigInteger.fromBuffer(buffer)
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var address = getAddress(d, compressed)
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var secret = Buffer.from(passphrase, 'utf8')
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var salt = hash256(address).slice(0, 4)
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var N = scryptParams.N
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var r = scryptParams.r
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var p = scryptParams.p
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var scryptBuf = await scrypt(secret, salt, N, r, p, 64, progressCallback)
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var derivedHalf1 = scryptBuf.slice(0, 32)
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var derivedHalf2 = scryptBuf.slice(32, 64)
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var xorBuf = xor(derivedHalf1, buffer)
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var cipher = aes.createCipheriv('aes-256-ecb', derivedHalf2, NULL)
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cipher.setAutoPadding(false)
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cipher.end(xorBuf)
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var cipherText = cipher.read()
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// 0x01 | 0x42 | flagByte | salt (4) | cipherText (32)
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var result = Buffer.allocUnsafe(7 + 32)
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result.writeUInt8(0x01, 0)
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result.writeUInt8(0x42, 1)
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result.writeUInt8(compressed ? 0xe0 : 0xc0, 2)
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salt.copy(result, 3)
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cipherText.copy(result, 7)
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return result
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}
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function encrypt (buffer, compressed, passphrase, progressCallback, scryptParams) {
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return bs58check.encode(encryptRaw(buffer, compressed, passphrase, progressCallback, scryptParams))
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}
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// some of the techniques borrowed from: https://github.com/pointbiz/bitaddress.org
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async function decryptRaw (buffer, passphrase, progressCallback, scryptParams) {
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// 39 bytes: 2 bytes prefix, 37 bytes payload
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if (buffer.length !== 39) throw new Error('Invalid BIP38 data length')
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if (buffer.readUInt8(0) !== 0x01) throw new Error('Invalid BIP38 prefix')
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scryptParams = scryptParams || SCRYPT_PARAMS
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// check if BIP38 EC multiply
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var type = buffer.readUInt8(1)
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if (type === 0x43) return await decryptECMult(buffer, passphrase, progressCallback, scryptParams)
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if (type !== 0x42) throw new Error('Invalid BIP38 type')
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passphrase = Buffer.from(passphrase, 'utf8')
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var flagByte = buffer.readUInt8(2)
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var compressed = flagByte === 0xe0
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if (!compressed && flagByte !== 0xc0) throw new Error('Invalid BIP38 compression flag')
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var N = scryptParams.N
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var r = scryptParams.r
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var p = scryptParams.p
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var salt = buffer.slice(3, 7)
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var scryptBuf = await scrypt(passphrase, salt, N, r, p, 64, progressCallback)
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var derivedHalf1 = scryptBuf.slice(0, 32)
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var derivedHalf2 = scryptBuf.slice(32, 64)
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var privKeyBuf = buffer.slice(7, 7 + 32)
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var decipher = aes.createDecipheriv('aes-256-ecb', derivedHalf2, NULL)
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decipher.setAutoPadding(false)
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decipher.end(privKeyBuf)
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var plainText = decipher.read()
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var privateKey = xor(derivedHalf1, plainText)
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// verify salt matches address
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var d = BigInteger.fromBuffer(privateKey)
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var address = getAddress(d, compressed)
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var checksum = hash256(address).slice(0, 4)
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assert.deepEqual(salt, checksum)
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return {
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privateKey: privateKey,
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compressed: compressed
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}
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}
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async function decrypt (string, passphrase, progressCallback, scryptParams) {
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return await decryptRaw(bs58check.decode(string), passphrase, progressCallback, scryptParams)
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}
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async function decryptECMult (buffer, passphrase, progressCallback, scryptParams) {
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passphrase = Buffer.from(passphrase, 'utf8')
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buffer = buffer.slice(1) // FIXME: we can avoid this
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scryptParams = scryptParams || SCRYPT_PARAMS
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var flag = buffer.readUInt8(1)
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var compressed = (flag & 0x20) !== 0
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var hasLotSeq = (flag & 0x04) !== 0
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assert.equal((flag & 0x24), flag, 'Invalid private key.')
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var addressHash = buffer.slice(2, 6)
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var ownerEntropy = buffer.slice(6, 14)
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var ownerSalt
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// 4 bytes ownerSalt if 4 bytes lot/sequence
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if (hasLotSeq) {
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ownerSalt = ownerEntropy.slice(0, 4)
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// else, 8 bytes ownerSalt
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} else {
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ownerSalt = ownerEntropy
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}
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var encryptedPart1 = buffer.slice(14, 22) // First 8 bytes
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var encryptedPart2 = buffer.slice(22, 38) // 16 bytes
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var N = scryptParams.N
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var r = scryptParams.r
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var p = scryptParams.p
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var preFactor = await scrypt(passphrase, ownerSalt, N, r, p, 32, progressCallback)
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var passFactor
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if (hasLotSeq) {
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var hashTarget = Buffer.concat([preFactor, ownerEntropy])
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passFactor = hash256(hashTarget)
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} else {
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passFactor = preFactor
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}
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var passInt = BigInteger.fromBuffer(passFactor)
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var passPoint = curve.G.multiply(passInt).getEncoded(true)
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var seedBPass = await scrypt(passPoint, Buffer.concat([addressHash, ownerEntropy]), 1024, 1, 1, 64)
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var derivedHalf1 = seedBPass.slice(0, 32)
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var derivedHalf2 = seedBPass.slice(32, 64)
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var decipher = aes.createDecipheriv('aes-256-ecb', derivedHalf2, Buffer.alloc(0))
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decipher.setAutoPadding(false)
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decipher.end(encryptedPart2)
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var decryptedPart2 = decipher.read()
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var tmp = xor(decryptedPart2, derivedHalf1.slice(16, 32))
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var seedBPart2 = tmp.slice(8, 16)
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var decipher2 = aes.createDecipheriv('aes-256-ecb', derivedHalf2, Buffer.alloc(0))
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decipher2.setAutoPadding(false)
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decipher2.write(encryptedPart1) // first 8 bytes
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decipher2.end(tmp.slice(0, 8)) // last 8 bytes
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var seedBPart1 = xor(decipher2.read(), derivedHalf1.slice(0, 16))
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var seedB = Buffer.concat([seedBPart1, seedBPart2], 24)
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var factorB = BigInteger.fromBuffer(hash256(seedB))
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// d = passFactor * factorB (mod n)
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var d = passInt.multiply(factorB).mod(curve.n)
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return {
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privateKey: d.toBuffer(32),
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compressed: compressed
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}
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}
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function verify (string) {
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var decoded = bs58check.decodeUnsafe(string)
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if (!decoded) return false
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if (decoded.length !== 39) return false
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if (decoded.readUInt8(0) !== 0x01) return false
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var type = decoded.readUInt8(1)
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var flag = decoded.readUInt8(2)
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// encrypted WIF
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if (type === 0x42) {
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if (flag !== 0xc0 && flag !== 0xe0) return false
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// EC mult
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} else if (type === 0x43) {
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if ((flag & ~0x24)) return false
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} else {
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return false
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}
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return true
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}
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module.exports = {
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decrypt: decrypt,
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decryptECMult: decryptECMult,
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decryptRaw: decryptRaw,
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encrypt: encrypt,
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encryptRaw: encryptRaw,
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verify: verify
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}
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