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217 lines
6.0 KiB
JavaScript
217 lines
6.0 KiB
JavaScript
/** @fileOverview Javascript SHA-256 implementation.
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*
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* An older version of this implementation is available in the public
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* domain, but this one is (c) Emily Stark, Mike Hamburg, Dan Boneh,
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* Stanford University 2008-2010 and BSD-licensed for liability
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* reasons.
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*
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* Special thanks to Aldo Cortesi for pointing out several bugs in
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* this code.
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*
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* @author Emily Stark
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* @author Mike Hamburg
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* @author Dan Boneh
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*/
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/**
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* Context for a SHA-256 operation in progress.
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* @constructor
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* @class Secure Hash Algorithm, 256 bits.
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*/
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sjcl.hash.sha256 = function (hash) {
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if (!this._key[0]) { this._precompute(); }
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if (hash) {
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this._h = hash._h.slice(0);
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this._buffer = hash._buffer.slice(0);
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this._length = hash._length;
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} else {
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this.reset();
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}
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};
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/**
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* Hash a string or an array of words.
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* @static
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* @param {bitArray|String} data the data to hash.
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* @return {bitArray} The hash value, an array of 16 big-endian words.
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*/
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sjcl.hash.sha256.hash = function (data) {
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return (new sjcl.hash.sha256()).update(data).finalize();
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};
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sjcl.hash.sha256.prototype = {
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/**
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* The hash's block size, in bits.
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* @constant
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*/
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blockSize: 512,
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/**
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* Reset the hash state.
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* @return this
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*/
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reset:function () {
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this._h = this._init.slice(0);
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this._buffer = [];
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this._length = 0;
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return this;
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},
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/**
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* Input several words to the hash.
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* @param {bitArray|String} data the data to hash.
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* @return this
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*/
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update: function (data) {
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if (typeof data === "string") {
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data = sjcl.codec.utf8String.toBits(data);
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}
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var i, b = this._buffer = sjcl.bitArray.concat(this._buffer, data),
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ol = this._length,
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nl = this._length = ol + sjcl.bitArray.bitLength(data);
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for (i = 512+ol & -512; i <= nl; i+= 512) {
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this._block(b.splice(0,16));
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}
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return this;
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},
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/**
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* Complete hashing and output the hash value.
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* @return {bitArray} The hash value, an array of 16 big-endian words.
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*/
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finalize:function () {
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var i, b = this._buffer, h = this._h;
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// Round out and push the buffer
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b = sjcl.bitArray.concat(b, [sjcl.bitArray.partial(1,1)]);
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// Round out the buffer to a multiple of 16 words, less the 2 length words.
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for (i = b.length + 2; i & 15; i++) {
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b.push(0);
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}
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// append the length
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b.push(Math.floor(this._length / 0x100000000));
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b.push(this._length | 0);
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while (b.length) {
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this._block(b.splice(0,16));
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}
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this.reset();
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return h;
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},
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/**
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* The SHA-256 initialization vector, to be precomputed.
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* @private
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*/
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_init:[],
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/*
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_init:[0x6a09e667,0xbb67ae85,0x3c6ef372,0xa54ff53a,0x510e527f,0x9b05688c,0x1f83d9ab,0x5be0cd19],
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*/
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/**
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* The SHA-256 hash key, to be precomputed.
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* @private
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*/
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_key:[],
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/*
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_key:
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[0x428a2f98, 0x71374491, 0xb5c0fbcf, 0xe9b5dba5, 0x3956c25b, 0x59f111f1, 0x923f82a4, 0xab1c5ed5,
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0xd807aa98, 0x12835b01, 0x243185be, 0x550c7dc3, 0x72be5d74, 0x80deb1fe, 0x9bdc06a7, 0xc19bf174,
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0xe49b69c1, 0xefbe4786, 0x0fc19dc6, 0x240ca1cc, 0x2de92c6f, 0x4a7484aa, 0x5cb0a9dc, 0x76f988da,
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0x983e5152, 0xa831c66d, 0xb00327c8, 0xbf597fc7, 0xc6e00bf3, 0xd5a79147, 0x06ca6351, 0x14292967,
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0x27b70a85, 0x2e1b2138, 0x4d2c6dfc, 0x53380d13, 0x650a7354, 0x766a0abb, 0x81c2c92e, 0x92722c85,
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0xa2bfe8a1, 0xa81a664b, 0xc24b8b70, 0xc76c51a3, 0xd192e819, 0xd6990624, 0xf40e3585, 0x106aa070,
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0x19a4c116, 0x1e376c08, 0x2748774c, 0x34b0bcb5, 0x391c0cb3, 0x4ed8aa4a, 0x5b9cca4f, 0x682e6ff3,
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0x748f82ee, 0x78a5636f, 0x84c87814, 0x8cc70208, 0x90befffa, 0xa4506ceb, 0xbef9a3f7, 0xc67178f2],
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*/
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/**
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* Function to precompute _init and _key.
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* @private
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*/
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_precompute: function () {
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var i = 0, prime = 2, factor;
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function frac(x) { return (x-Math.floor(x)) * 0x100000000 | 0; }
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outer: for (; i<64; prime++) {
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for (factor=2; factor*factor <= prime; factor++) {
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if (prime % factor === 0) {
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// not a prime
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continue outer;
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}
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}
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if (i<8) {
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this._init[i] = frac(Math.pow(prime, 1/2));
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}
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this._key[i] = frac(Math.pow(prime, 1/3));
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i++;
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}
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},
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/**
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* Perform one cycle of SHA-256.
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* @param {bitArray} words one block of words.
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* @private
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*/
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_block:function (words) {
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var i, tmp, a, b,
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w = words.slice(0),
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h = this._h,
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k = this._key,
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h0 = h[0], h1 = h[1], h2 = h[2], h3 = h[3],
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h4 = h[4], h5 = h[5], h6 = h[6], h7 = h[7];
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/* Rationale for placement of |0 :
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* If a value can overflow is original 32 bits by a factor of more than a few
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* million (2^23 ish), there is a possibility that it might overflow the
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* 53-bit mantissa and lose precision.
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*
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* To avoid this, we clamp back to 32 bits by |'ing with 0 on any value that
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* propagates around the loop, and on the hash state h[]. I don't believe
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* that the clamps on h4 and on h0 are strictly necessary, but it's close
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* (for h4 anyway), and better safe than sorry.
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*
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* The clamps on h[] are necessary for the output to be correct even in the
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* common case and for short inputs.
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*/
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for (i=0; i<64; i++) {
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// load up the input word for this round
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if (i<16) {
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tmp = w[i];
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} else {
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a = w[(i+1 ) & 15];
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b = w[(i+14) & 15];
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tmp = w[i&15] = ((a>>>7 ^ a>>>18 ^ a>>>3 ^ a<<25 ^ a<<14) +
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(b>>>17 ^ b>>>19 ^ b>>>10 ^ b<<15 ^ b<<13) +
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w[i&15] + w[(i+9) & 15]) | 0;
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}
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tmp = (tmp + h7 + (h4>>>6 ^ h4>>>11 ^ h4>>>25 ^ h4<<26 ^ h4<<21 ^ h4<<7) + (h6 ^ h4&(h5^h6)) + k[i]); // | 0;
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// shift register
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h7 = h6; h6 = h5; h5 = h4;
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h4 = h3 + tmp | 0;
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h3 = h2; h2 = h1; h1 = h0;
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h0 = (tmp + ((h1&h2) ^ (h3&(h1^h2))) + (h1>>>2 ^ h1>>>13 ^ h1>>>22 ^ h1<<30 ^ h1<<19 ^ h1<<10)) | 0;
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}
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h[0] = h[0]+h0 | 0;
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h[1] = h[1]+h1 | 0;
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h[2] = h[2]+h2 | 0;
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h[3] = h[3]+h3 | 0;
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h[4] = h[4]+h4 | 0;
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h[5] = h[5]+h5 | 0;
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h[6] = h[6]+h6 | 0;
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h[7] = h[7]+h7 | 0;
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}
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};
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