/*! * siphash.js - siphash for bcoin * Copyright (c) 2016-2017, Christopher Jeffrey (MIT License). * https://github.com/bcoin-org/bcoin * * Ported from: * https://github.com/bitcoin/bitcoin/blob/master/src/hash.cpp */ 'use strict'; /** * @module crypto/siphash */ var native = require('../utils/native').binding; /** * Javascript siphash implementation. Used for compact block relay. * @alias module:crypto/siphash.siphash24 * @param {Buffer} data * @param {Buffer} key - 128 bit key. * @returns {Buffer} uint64le */ function siphash24(data, key, shift) { var blocks = Math.floor(data.length / 8); var c0 = U64(0x736f6d65, 0x70736575); var c1 = U64(0x646f7261, 0x6e646f6d); var c2 = U64(0x6c796765, 0x6e657261); var c3 = U64(0x74656462, 0x79746573); var f0 = U64(blocks << (shift - 32), 0); var f1 = U64(0, 0xff); var k0 = U64.fromRaw(key, 0); var k1 = U64.fromRaw(key, 8); var p = 0; var i, d, v0, v1, v2, v3; // Init v0 = c0.xor(k0); v1 = c1.xor(k1); v2 = c2.xor(k0); v3 = c3.xor(k1); // Blocks for (i = 0; i < blocks; i++) { d = U64.fromRaw(data, p); p += 8; v3.xor(d); sipround(v0, v1, v2, v3); sipround(v0, v1, v2, v3); v0.xor(d); } switch (data.length & 7) { case 7: f0.hi |= data[p + 6] << 16; case 6: f0.hi |= data[p + 5] << 8; case 5: f0.hi |= data[p + 4] << 0; case 4: f0.lo |= data[p + 3] << 24; case 3: f0.lo |= data[p + 2] << 16; case 2: f0.lo |= data[p + 1] << 8; case 1: f0.lo |= data[p + 0] << 0; if (f0.lo < 0) f0.lo += 0x100000000; if (f0.hi < 0) f0.hi += 0x100000000; break; case 0: break; } // Finalization v3.xor(f0); sipround(v0, v1, v2, v3); sipround(v0, v1, v2, v3); v0.xor(f0); v2.xor(f1); sipround(v0, v1, v2, v3); sipround(v0, v1, v2, v3); sipround(v0, v1, v2, v3); sipround(v0, v1, v2, v3); v0.xor(v1); v0.xor(v2); v0.xor(v3); return v0.toRaw(); } function sipround(v0, v1, v2, v3) { v0.add(v1); v1.rotl(13); v1.xor(v0); v0.rotl(32); v2.add(v3); v3.rotl(16); v3.xor(v2); v0.add(v3); v3.rotl(21); v3.xor(v0); v2.add(v1); v1.rotl(17); v1.xor(v2); v2.rotl(32); } /** * Javascript siphash implementation. Used for compact block relay. * @alias module:crypto/siphash.siphash * @param {Buffer} data * @param {Buffer} key - 128 bit key. * @returns {Buffer} uint64le */ function siphash(data, key) { return siphash24(data, key, 56); } /** * Javascript siphash implementation. Used for compact block relay. * @alias module:crypto/siphash.siphash256 * @param {Buffer} data * @param {Buffer} key - 128 bit key. * @returns {Buffer} uint64le */ function siphash256(data, key) { return siphash24(data, key, 59); } if (native) { siphash = native.siphash; siphash256 = native.siphash256; } /* * Helpers */ function U64(hi, lo) { if (!(this instanceof U64)) return new U64(hi, lo); this.hi = hi || 0; this.lo = lo || 0; } U64.prototype.add = function add(b) { var r, carry; r = this.lo + b.lo; carry = (r - (r % 0x100000000)) / 0x100000000; this.hi = (this.hi + b.hi + carry) & 0xffffffff; this.lo = r & 0xffffffff; if (this.hi < 0) this.hi += 0x100000000; if (this.lo < 0) this.lo += 0x100000000; return this; }; U64.prototype.xor = function xor(b) { this.hi ^= b.hi; this.lo ^= b.lo; if (this.hi < 0) this.hi += 0x100000000; if (this.lo < 0) this.lo += 0x100000000; return this; }; U64.prototype.rotl = function rotl(b) { var h1, l1, h2, l2, c; // v1 = x << b if (b < 32) { h1 = this.hi << b; c = this.lo >>> (32 - b); l1 = this.lo << b; h1 |= c; } else { h1 = this.lo << (b - 32); l1 = 0; } // v2 = x >> (64 - b) b = 64 - b; if (b < 32) { h2 = this.hi >>> b; c = this.hi & (0xffffffff >>> (32 - b)); l2 = this.lo >>> b; l2 |= c << (32 - b); } else { h2 = 0; l2 = this.hi >>> (b - 32); } // v1 | v2 this.hi = h1 | h2; this.lo = l1 | l2; if (this.hi < 0) this.hi += 0x100000000; if (this.lo < 0) this.lo += 0x100000000; return this; }; U64.prototype.toRaw = function toRaw() { var data = new Buffer(8); data.writeUInt32LE(this.hi, 4, true); data.writeUInt32LE(this.lo, 0, true); return data; }; U64.fromRaw = function fromRaw(data, off) { var hi, lo; if (!off) off = 0; hi = data.readUInt32LE(off + 4, true); lo = data.readUInt32LE(off, true); return new U64(hi, lo); }; /* * Expose */ exports = siphash256; exports.siphash = siphash; exports.siphash256 = siphash256; exports.U64 = U64; module.exports = exports;