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index.js
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const createKeccakHash = require('keccak')
const secp256k1 = require('secp256k1')
const assert = require('assert')
const rlp = require('rlp')
const BN = require('bn.js')
const createHash = require('create-hash')
const Buffer = require('safe-buffer').Buffer
Object.assign(exports, require('ethjs-util'))
/**
* the max integer that this VM can handle (a ```BN```)
* @var {BN} MAX_INTEGER
*/
exports.MAX_INTEGER = new BN('ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff', 16)
/**
* 2^256 (a ```BN```)
* @var {BN} TWO_POW256
*/
exports.TWO_POW256 = new BN('10000000000000000000000000000000000000000000000000000000000000000', 16)
/**
* Keccak-256 hash of null (a ```String```)
* @var {String} KECCAK256_NULL_S
*/
exports.KECCAK256_NULL_S = 'c5d2460186f7233c927e7db2dcc703c0e500b653ca82273b7bfad8045d85a470'
exports.SHA3_NULL_S = exports.KECCAK256_NULL_S
/**
* Keccak-256 hash of null (a ```Buffer```)
* @var {Buffer} KECCAK256_NULL
*/
exports.KECCAK256_NULL = Buffer.from(exports.KECCAK256_NULL_S, 'hex')
exports.SHA3_NULL = exports.KECCAK256_NULL
/**
* Keccak-256 of an RLP of an empty array (a ```String```)
* @var {String} KECCAK256_RLP_ARRAY_S
*/
exports.KECCAK256_RLP_ARRAY_S = '1dcc4de8dec75d7aab85b567b6ccd41ad312451b948a7413f0a142fd40d49347'
exports.SHA3_RLP_ARRAY_S = exports.KECCAK256_RLP_ARRAY_S
/**
* Keccak-256 of an RLP of an empty array (a ```Buffer```)
* @var {Buffer} KECCAK256_RLP_ARRAY
*/
exports.KECCAK256_RLP_ARRAY = Buffer.from(exports.KECCAK256_RLP_ARRAY_S, 'hex')
exports.SHA3_RLP_ARRAY = exports.KECCAK256_RLP_ARRAY
/**
* Keccak-256 hash of the RLP of null (a ```String```)
* @var {String} KECCAK256_RLP_S
*/
exports.KECCAK256_RLP_S = '56e81f171bcc55a6ff8345e692c0f86e5b48e01b996cadc001622fb5e363b421'
exports.SHA3_RLP_S = exports.KECCAK256_RLP_S
/**
* Keccak-256 hash of the RLP of null (a ```Buffer```)
* @var {Buffer} KECCAK256_RLP
*/
exports.KECCAK256_RLP = Buffer.from(exports.KECCAK256_RLP_S, 'hex')
exports.SHA3_RLP = exports.KECCAK256_RLP
/**
* [`BN`](https://github.com/indutny/bn.js)
* @var {Function}
*/
exports.BN = BN
/**
* [`rlp`](https://github.com/ethereumjs/rlp)
* @var {Function}
*/
exports.rlp = rlp
/**
* [`secp256k1`](https://github.com/cryptocoinjs/secp256k1-node/)
* @var {Object}
*/
exports.secp256k1 = secp256k1
/**
* Returns a buffer filled with 0s
* @method zeros
* @param {Number} bytes the number of bytes the buffer should be
* @return {Buffer}
*/
exports.zeros = function (bytes) {
return Buffer.allocUnsafe(bytes).fill(0)
}
/**
* Returns a zero address
* @method zeroAddress
* @return {String}
*/
exports.zeroAddress = function () {
const addressLength = 20
const zeroAddress = exports.zeros(addressLength)
return exports.bufferToHex(zeroAddress)
}
/**
* Left Pads an `Array` or `Buffer` with leading zeros till it has `length` bytes.
* Or it truncates the beginning if it exceeds.
* @method lsetLength
* @param {Buffer|Array} msg the value to pad
* @param {Number} length the number of bytes the output should be
* @param {Boolean} [right=false] whether to start padding form the left or right
* @return {Buffer|Array}
*/
exports.setLengthLeft = exports.setLength = function (msg, length, right) {
const buf = exports.zeros(length)
msg = exports.toBuffer(msg)
if (right) {
if (msg.length < length) {
msg.copy(buf)
return buf
}
return msg.slice(0, length)
} else {
if (msg.length < length) {
msg.copy(buf, length - msg.length)
return buf
}
return msg.slice(-length)
}
}
/**
* Right Pads an `Array` or `Buffer` with leading zeros till it has `length` bytes.
* Or it truncates the beginning if it exceeds.
* @param {Buffer|Array} msg the value to pad
* @param {Number} length the number of bytes the output should be
* @return {Buffer|Array}
*/
exports.setLengthRight = function (msg, length) {
return exports.setLength(msg, length, true)
}
/**
* Trims leading zeros from a `Buffer` or an `Array`
* @param {Buffer|Array|String} a
* @return {Buffer|Array|String}
*/
exports.unpad = exports.stripZeros = function (a) {
a = exports.stripHexPrefix(a)
let first = a[0]
while (a.length > 0 && first.toString() === '0') {
a = a.slice(1)
first = a[0]
}
return a
}
/**
* Attempts to turn a value into a `Buffer`. As input it supports `Buffer`, `String`, `Number`, null/undefined, `BN` and other objects with a `toArray()` method.
* @param {*} v the value
*/
exports.toBuffer = function (v) {
if (!Buffer.isBuffer(v)) {
if (Array.isArray(v)) {
v = Buffer.from(v)
} else if (typeof v === 'string') {
if (exports.isHexString(v)) {
v = Buffer.from(exports.padToEven(exports.stripHexPrefix(v)), 'hex')
} else {
v = Buffer.from(v)
}
} else if (typeof v === 'number') {
v = exports.intToBuffer(v)
} else if (v === null || v === undefined) {
v = Buffer.allocUnsafe(0)
} else if (BN.isBN(v)) {
v = v.toArrayLike(Buffer)
} else if (v.toArray) {
// converts a BN to a Buffer
v = Buffer.from(v.toArray())
} else {
throw new Error('invalid type')
}
}
return v
}
/**
* Converts a `Buffer` to a `Number`
* @param {Buffer} buf
* @return {Number}
* @throws If the input number exceeds 53 bits.
*/
exports.bufferToInt = function (buf) {
return new BN(exports.toBuffer(buf)).toNumber()
}
/**
* Converts a `Buffer` into a hex `String`
* @param {Buffer} buf
* @return {String}
*/
exports.bufferToHex = function (buf) {
buf = exports.toBuffer(buf)
return '0x' + buf.toString('hex')
}
/**
* Interprets a `Buffer` as a signed integer and returns a `BN`. Assumes 256-bit numbers.
* @param {Buffer} num
* @return {BN}
*/
exports.fromSigned = function (num) {
return new BN(num).fromTwos(256)
}
/**
* Converts a `BN` to an unsigned integer and returns it as a `Buffer`. Assumes 256-bit numbers.
* @param {BN} num
* @return {Buffer}
*/
exports.toUnsigned = function (num) {
return Buffer.from(num.toTwos(256).toArray())
}
/**
* Creates Keccak hash of the input
* @param {Buffer|Array|String|Number} a the input data
* @param {Number} [bits=256] the Keccak width
* @return {Buffer}
*/
exports.keccak = function (a, bits) {
a = exports.toBuffer(a)
if (!bits) bits = 256
return createKeccakHash('keccak' + bits).update(a).digest()
}
/**
* Creates Keccak-256 hash of the input, alias for keccak(a, 256)
* @param {Buffer|Array|String|Number} a the input data
* @return {Buffer}
*/
exports.keccak256 = function (a) {
return exports.keccak(a)
}
/**
* Creates SHA-3 (Keccak) hash of the input [OBSOLETE]
* @param {Buffer|Array|String|Number} a the input data
* @param {Number} [bits=256] the SHA-3 width
* @return {Buffer}
*/
exports.sha3 = exports.keccak
/**
* Creates SHA256 hash of the input
* @param {Buffer|Array|String|Number} a the input data
* @return {Buffer}
*/
exports.sha256 = function (a) {
a = exports.toBuffer(a)
return createHash('sha256').update(a).digest()
}
/**
* Creates RIPEMD160 hash of the input
* @param {Buffer|Array|String|Number} a the input data
* @param {Boolean} padded whether it should be padded to 256 bits or not
* @return {Buffer}
*/
exports.ripemd160 = function (a, padded) {
a = exports.toBuffer(a)
const hash = createHash('rmd160').update(a).digest()
if (padded === true) {
return exports.setLength(hash, 32)
} else {
return hash
}
}
/**
* Creates SHA-3 hash of the RLP encoded version of the input
* @param {Buffer|Array|String|Number} a the input data
* @return {Buffer}
*/
exports.rlphash = function (a) {
return exports.keccak(rlp.encode(a))
}
/**
* Checks if the private key satisfies the rules of the curve secp256k1.
* @param {Buffer} privateKey
* @return {Boolean}
*/
exports.isValidPrivate = function (privateKey) {
return secp256k1.privateKeyVerify(privateKey)
}
/**
* Checks if the public key satisfies the rules of the curve secp256k1
* and the requirements of Ethereum.
* @param {Buffer} publicKey The two points of an uncompressed key, unless sanitize is enabled
* @param {Boolean} [sanitize=false] Accept public keys in other formats
* @return {Boolean}
*/
exports.isValidPublic = function (publicKey, sanitize) {
if (publicKey.length === 64) {
// Convert to SEC1 for secp256k1
return secp256k1.publicKeyVerify(Buffer.concat([ Buffer.from([4]), publicKey ]))
}
if (!sanitize) {
return false
}
return secp256k1.publicKeyVerify(publicKey)
}
/**
* Returns the ethereum address of a given public key.
* Accepts "Ethereum public keys" and SEC1 encoded keys.
* @param {Buffer} pubKey The two points of an uncompressed key, unless sanitize is enabled
* @param {Boolean} [sanitize=false] Accept public keys in other formats
* @return {Buffer}
*/
exports.pubToAddress = exports.publicToAddress = function (pubKey, sanitize) {
pubKey = exports.toBuffer(pubKey)
if (sanitize && (pubKey.length !== 64)) {
pubKey = secp256k1.publicKeyConvert(pubKey, false).slice(1)
}
assert(pubKey.length === 64)
// Only take the lower 160bits of the hash
return exports.keccak(pubKey).slice(-20)
}
/**
* Returns the ethereum public key of a given private key
* @param {Buffer} privateKey A private key must be 256 bits wide
* @return {Buffer}
*/
const privateToPublic = exports.privateToPublic = function (privateKey) {
privateKey = exports.toBuffer(privateKey)
// skip the type flag and use the X, Y points
return secp256k1.publicKeyCreate(privateKey, false).slice(1)
}
/**
* Converts a public key to the Ethereum format.
* @param {Buffer} publicKey
* @return {Buffer}
*/
exports.importPublic = function (publicKey) {
publicKey = exports.toBuffer(publicKey)
if (publicKey.length !== 64) {
publicKey = secp256k1.publicKeyConvert(publicKey, false).slice(1)
}
return publicKey
}
/**
* ECDSA sign
* @param {Buffer} msgHash
* @param {Buffer} privateKey
* @return {Object}
*/
exports.ecsign = function (msgHash, privateKey) {
const sig = secp256k1.sign(msgHash, privateKey)
const ret = {}
ret.r = sig.signature.slice(0, 32)
ret.s = sig.signature.slice(32, 64)
ret.v = sig.recovery + 27
return ret
}
/**
* Returns the keccak-256 hash of `message`, prefixed with the header used by the `eth_sign` RPC call.
* The output of this function can be fed into `ecsign` to produce the same signature as the `eth_sign`
* call for a given `message`, or fed to `ecrecover` along with a signature to recover the public key
* used to produce the signature.
* @param message
* @returns {Buffer} hash
*/
exports.hashPersonalMessage = function (message) {
const prefix = exports.toBuffer('\u0019Ethereum Signed Message:\n' + message.length.toString())
return exports.keccak(Buffer.concat([prefix, message]))
}
/**
* ECDSA public key recovery from signature
* @param {Buffer} msgHash
* @param {Number} v
* @param {Buffer} r
* @param {Buffer} s
* @return {Buffer} publicKey
*/
exports.ecrecover = function (msgHash, v, r, s) {
const signature = Buffer.concat([exports.setLength(r, 32), exports.setLength(s, 32)], 64)
const recovery = v - 27
if (recovery !== 0 && recovery !== 1) {
throw new Error('Invalid signature v value')
}
const senderPubKey = secp256k1.recover(msgHash, signature, recovery)
return secp256k1.publicKeyConvert(senderPubKey, false).slice(1)
}
/**
* Convert signature parameters into the format of `eth_sign` RPC method
* @param {Number} v
* @param {Buffer} r
* @param {Buffer} s
* @return {String} sig
*/
exports.toRpcSig = function (v, r, s) {
// NOTE: with potential introduction of chainId this might need to be updated
if (v !== 27 && v !== 28) {
throw new Error('Invalid recovery id')
}
// geth (and the RPC eth_sign method) uses the 65 byte format used by Bitcoin
return exports.bufferToHex(Buffer.concat([
exports.setLengthLeft(r, 32),
exports.setLengthLeft(s, 32),
exports.toBuffer(v)
]))
}
/**
* Convert signature format of the `eth_sign` RPC method to signature parameters
* NOTE: all because of a bug in geth: https://github.com/ethereum/go-ethereum/issues/2053
* @param {String} sig
* @return {Object}
*/
exports.fromRpcSig = function (sig) {
sig = exports.toBuffer(sig)
// NOTE: with potential introduction of chainId this might need to be updated
if (sig.length !== 65) {
throw new Error('Invalid signature length')
}
let v = sig[64]
// support both versions of `eth_sign` responses
if (v < 27) {
v += 27
}
return {
v: v,
r: sig.slice(0, 32),
s: sig.slice(32, 64)
}
}
/**
* Returns the ethereum address of a given private key
* @param {Buffer} privateKey A private key must be 256 bits wide
* @return {Buffer}
*/
exports.privateToAddress = function (privateKey) {
return exports.publicToAddress(privateToPublic(privateKey))
}
/**
* Checks if the address is a valid. Accepts checksummed addresses too
* @param {String} address
* @return {Boolean}
*/
exports.isValidAddress = function (address) {
return /^0x[0-9a-fA-F]{40}$/.test(address)
}
/**
* Checks if a given address is a zero address
* @method isZeroAddress
* @param {String} address
* @return {Boolean}
*/
exports.isZeroAddress = function (address) {
const zeroAddress = exports.zeroAddress()
return zeroAddress === exports.addHexPrefix(address)
}
/**
* Returns a checksummed address
* @param {String} address
* @return {String}
*/
exports.toChecksumAddress = function (address) {
address = exports.stripHexPrefix(address).toLowerCase()
const hash = exports.keccak(address).toString('hex')
let ret = '0x'
for (let i = 0; i < address.length; i++) {
if (parseInt(hash[i], 16) >= 8) {
ret += address[i].toUpperCase()
} else {
ret += address[i]
}
}
return ret
}
/**
* Checks if the address is a valid checksummed address
* @param {Buffer} address
* @return {Boolean}
*/
exports.isValidChecksumAddress = function (address) {
return exports.isValidAddress(address) && (exports.toChecksumAddress(address) === address)
}
/**
* Generates an address of a newly created contract
* @param {Buffer} from the address which is creating this new address
* @param {Buffer} nonce the nonce of the from account
* @return {Buffer}
*/
exports.generateAddress = function (from, nonce) {
from = exports.toBuffer(from)
nonce = new BN(nonce)
if (nonce.isZero()) {
// in RLP we want to encode null in the case of zero nonce
// read the RLP documentation for an answer if you dare
nonce = null
} else {
nonce = Buffer.from(nonce.toArray())
}
// Only take the lower 160bits of the hash
return exports.rlphash([from, nonce]).slice(-20)
}
/**
* Returns true if the supplied address belongs to a precompiled account (Byzantium)
* @param {Buffer|String} address
* @return {Boolean}
*/
exports.isPrecompiled = function (address) {
const a = exports.unpad(address)
return a.length === 1 && a[0] >= 1 && a[0] <= 8
}
/**
* Adds "0x" to a given `String` if it does not already start with "0x"
* @param {String} str
* @return {String}
*/
exports.addHexPrefix = function (str) {
if (typeof str !== 'string') {
return str
}
return exports.isHexPrefixed(str) ? str : '0x' + str
}
/**
* Validate ECDSA signature
* @method isValidSignature
* @param {Buffer} v
* @param {Buffer} r
* @param {Buffer} s
* @param {Boolean} [homestead=true]
* @return {Boolean}
*/
exports.isValidSignature = function (v, r, s, homestead) {
const SECP256K1_N_DIV_2 = new BN('7fffffffffffffffffffffffffffffff5d576e7357a4501ddfe92f46681b20a0', 16)
const SECP256K1_N = new BN('fffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141', 16)
if (r.length !== 32 || s.length !== 32) {
return false
}
if (v !== 27 && v !== 28) {
return false
}
r = new BN(r)
s = new BN(s)
if (r.isZero() || r.gt(SECP256K1_N) || s.isZero() || s.gt(SECP256K1_N)) {
return false
}
if ((homestead === false) && (new BN(s).cmp(SECP256K1_N_DIV_2) === 1)) {
return false
}
return true
}
/**
* Converts a `Buffer` or `Array` to JSON
* @param {Buffer|Array} ba
* @return {Array|String|null}
*/
exports.baToJSON = function (ba) {
if (Buffer.isBuffer(ba)) {
return '0x' + ba.toString('hex')
} else if (ba instanceof Array) {
const array = []
for (let i = 0; i < ba.length; i++) {
array.push(exports.baToJSON(ba[i]))
}
return array
}
}
/**
* Defines properties on a `Object`. It make the assumption that underlying data is binary.
* @param {Object} self the `Object` to define properties on
* @param {Array} fields an array fields to define. Fields can contain:
* * `name` - the name of the properties
* * `length` - the number of bytes the field can have
* * `allowLess` - if the field can be less than the length
* * `allowEmpty`
* @param {*} data data to be validated against the definitions
*/
exports.defineProperties = function (self, fields, data) {
self.raw = []
self._fields = []
// attach the `toJSON`
self.toJSON = function (label) {
if (label) {
const obj = {}
self._fields.forEach((field) => {
obj[field] = '0x' + self[field].toString('hex')
})
return obj
}
return exports.baToJSON(this.raw)
}
self.serialize = function serialize () {
return rlp.encode(self.raw)
}
fields.forEach((field, i) => {
self._fields.push(field.name)
function getter () {
return self.raw[i]
}
function setter (v) {
v = exports.toBuffer(v)
if (v.toString('hex') === '00' && !field.allowZero) {
v = Buffer.allocUnsafe(0)
}
if (field.allowLess && field.length) {
v = exports.stripZeros(v)
assert(field.length >= v.length, 'The field ' + field.name + ' must not have more ' + field.length + ' bytes')
} else if (!(field.allowZero && v.length === 0) && field.length) {
assert(field.length === v.length, 'The field ' + field.name + ' must have byte length of ' + field.length)
}
self.raw[i] = v
}
Object.defineProperty(self, field.name, {
enumerable: true,
configurable: true,
get: getter,
set: setter
})
if (field.default) {
self[field.name] = field.default
}
// attach alias
if (field.alias) {
Object.defineProperty(self, field.alias, {
enumerable: false,
configurable: true,
set: setter,
get: getter
})
}
})
// if the constuctor is passed data
if (data) {
if (typeof data === 'string') {
data = Buffer.from(exports.stripHexPrefix(data), 'hex')
}
if (Buffer.isBuffer(data)) {
data = rlp.decode(data)
}
if (Array.isArray(data)) {
if (data.length > self._fields.length) {
throw (new Error('wrong number of fields in data'))
}
// make sure all the items are buffers
data.forEach((d, i) => {
self[self._fields[i]] = exports.toBuffer(d)
})
} else if (typeof data === 'object') {
const keys = Object.keys(data)
fields.forEach((field) => {
if (keys.indexOf(field.name) !== -1) self[field.name] = data[field.name]
if (keys.indexOf(field.alias) !== -1) self[field.alias] = data[field.alias]
})
} else {
throw new Error('invalid data')
}
}
}