lighthouse.js/server/utils/importer/util.js

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// taken from https://github.com/crypto-browserify/buffer-reverse/blob/master/inplace.js
function reverseInplace (buffer) {
for (var i = 0, j = buffer.length - 1; i < j; ++i, --j) {
var t = buffer[j];
buffer[j] = buffer[i];
buffer[i] = t;
}
return buffer;
}
function ripemd160 (bytearray) {
const crypto = require('crypto');
const secret = 'abcdefg';
const hash = crypto.createHash('ripemd160', secret)
.update(bytearray, 'binary', 'binary')
.digest();
return hash;
}
function sha256 (bytearray) {
const crypto = require('crypto');
const secret = 'abcdefg';
const hash = crypto.createHash('sha256', secret)
.update(bytearray, 'binary', 'binary')
.digest();
return hash;
}
export function OutpointToClaimId (outpointstr) {
var outpointsplit = outpointstr.split(':');
var outpoint = {txid: outpointsplit[0], vout: outpointsplit[1]};
// Assuming endianess is LittleEndian - Javacsript endianess depends on hardware.
// Can check with os.endianness(). Possible values are "BE" or "LE" as of Node.js v0.10.0
// convert txid to byte array then reverse bytes to get BigEndian
var txidbytes = Buffer.from(outpoint.txid, 'hex');
var txidrevbytes = reverseInplace(txidbytes);
// Get big endian of vout(uint32)
var voutbytes = Buffer.allocUnsafe(4);
voutbytes.writeInt32BE(outpoint.vout);
// Merge arrays
var claimidbytes = Buffer.concat([txidrevbytes, voutbytes]);
// Hash - Sha256
claimidbytes = sha256(claimidbytes);
// Hash - RipeMD160
claimidbytes = ripemd160(claimidbytes);
// Return to little endian.
claimidbytes = reverseInplace(claimidbytes);
// Encode to hex string
var claimid = claimidbytes.toString('hex');
return claimid;
}