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- /*
- * A JavaScript implementation of the Secure Hash Algorithm, SHA-256, as defined
- * in FIPS 180-2
- * Version 2.2 Copyright Angel Marin, Paul Johnston 2000 - 2009.
- * Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet
- * Distributed under the BSD License
- * See http://pajhome.org.uk/crypt/md5 for details.
- * Also http://anmar.eu.org/projects/jssha2/
- */
- /*
- * Configurable variables. You may need to tweak these to be compatible with
- * the server-side, but the defaults work in most cases.
- */
- var hexcase = 0; /* hex output format. 0 - lowercase; 1 - uppercase */
- var b64pad = ""; /* base-64 pad character. "=" for strict RFC compliance */
- /*
- * These are the functions you'll usually want to call
- * They take string arguments and return either hex or base-64 encoded strings
- */
- function hex_sha256(s) { return rstr2hex(rstr_sha256(str2rstr_utf8(s))); }
- function b64_sha256(s) { return rstr2b64(rstr_sha256(str2rstr_utf8(s))); }
- function any_sha256(s, e) { return rstr2any(rstr_sha256(str2rstr_utf8(s)), e); }
- function hex_hmac_sha256(k, d)
- { return rstr2hex(rstr_hmac_sha256(str2rstr_utf8(k), str2rstr_utf8(d))); }
- function b64_hmac_sha256(k, d)
- { return rstr2b64(rstr_hmac_sha256(str2rstr_utf8(k), str2rstr_utf8(d))); }
- function any_hmac_sha256(k, d, e)
- { return rstr2any(rstr_hmac_sha256(str2rstr_utf8(k), str2rstr_utf8(d)), e); }
- /*
- * Perform a simple self-test to see if the VM is working
- */
- function sha256_vm_test()
- {
- return hex_sha256("abc").toLowerCase() ==
- "ba7816bf8f01cfea414140de5dae2223b00361a396177a9cb410ff61f20015ad";
- }
- /*
- * Calculate the sha256 of a raw string
- */
- function rstr_sha256(s)
- {
- return binb2rstr(binb_sha256(rstr2binb(s), s.length * 8));
- }
- /*
- * Calculate the HMAC-sha256 of a key and some data (raw strings)
- */
- function rstr_hmac_sha256(key, data)
- {
- var bkey = rstr2binb(key);
- if(bkey.length > 16) bkey = binb_sha256(bkey, key.length * 8);
- var ipad = Array(16), opad = Array(16);
- for(var i = 0; i < 16; i++)
- {
- ipad[i] = bkey[i] ^ 0x36363636;
- opad[i] = bkey[i] ^ 0x5C5C5C5C;
- }
- var hash = binb_sha256(ipad.concat(rstr2binb(data)), 512 + data.length * 8);
- return binb2rstr(binb_sha256(opad.concat(hash), 512 + 256));
- }
- /*
- * Convert a raw string to a hex string
- */
- function rstr2hex(input)
- {
- try { hexcase } catch(e) { hexcase=0; }
- var hex_tab = hexcase ? "0123456789ABCDEF" : "0123456789abcdef";
- var output = "";
- var x;
- for(var i = 0; i < input.length; i++)
- {
- x = input.charCodeAt(i);
- output += hex_tab.charAt((x >>> 4) & 0x0F)
- + hex_tab.charAt( x & 0x0F);
- }
- return output;
- }
- /*
- * Convert a raw string to a base-64 string
- */
- function rstr2b64(input)
- {
- try { b64pad } catch(e) { b64pad=''; }
- var tab = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
- var output = "";
- var len = input.length;
- for(var i = 0; i < len; i += 3)
- {
- var triplet = (input.charCodeAt(i) << 16)
- | (i + 1 < len ? input.charCodeAt(i+1) << 8 : 0)
- | (i + 2 < len ? input.charCodeAt(i+2) : 0);
- for(var j = 0; j < 4; j++)
- {
- if(i * 8 + j * 6 > input.length * 8) output += b64pad;
- else output += tab.charAt((triplet >>> 6*(3-j)) & 0x3F);
- }
- }
- return output;
- }
- /*
- * Convert a raw string to an arbitrary string encoding
- */
- function rstr2any(input, encoding)
- {
- var divisor = encoding.length;
- var remainders = Array();
- var i, q, x, quotient;
- /* Convert to an array of 16-bit big-endian values, forming the dividend */
- var dividend = Array(Math.ceil(input.length / 2));
- for(i = 0; i < dividend.length; i++)
- {
- dividend[i] = (input.charCodeAt(i * 2) << 8) | input.charCodeAt(i * 2 + 1);
- }
- /*
- * Repeatedly perform a long division. The binary array forms the dividend,
- * the length of the encoding is the divisor. Once computed, the quotient
- * forms the dividend for the next step. We stop when the dividend is zero.
- * All remainders are stored for later use.
- */
- while(dividend.length > 0)
- {
- quotient = Array();
- x = 0;
- for(i = 0; i < dividend.length; i++)
- {
- x = (x << 16) + dividend[i];
- q = Math.floor(x / divisor);
- x -= q * divisor;
- if(quotient.length > 0 || q > 0)
- quotient[quotient.length] = q;
- }
- remainders[remainders.length] = x;
- dividend = quotient;
- }
- /* Convert the remainders to the output string */
- var output = "";
- for(i = remainders.length - 1; i >= 0; i--)
- output += encoding.charAt(remainders[i]);
- /* Append leading zero equivalents */
- var full_length = Math.ceil(input.length * 8 /
- (Math.log(encoding.length) / Math.log(2)))
- for(i = output.length; i < full_length; i++)
- output = encoding[0] + output;
- return output;
- }
- /*
- * Encode a string as utf-8.
- * For efficiency, this assumes the input is valid utf-16.
- */
- function str2rstr_utf8(input)
- {
- var output = "";
- var i = -1;
- var x, y;
- while(++i < input.length)
- {
- /* Decode utf-16 surrogate pairs */
- x = input.charCodeAt(i);
- y = i + 1 < input.length ? input.charCodeAt(i + 1) : 0;
- if(0xD800 <= x && x <= 0xDBFF && 0xDC00 <= y && y <= 0xDFFF)
- {
- x = 0x10000 + ((x & 0x03FF) << 10) + (y & 0x03FF);
- i++;
- }
- /* Encode output as utf-8 */
- if(x <= 0x7F)
- output += String.fromCharCode(x);
- else if(x <= 0x7FF)
- output += String.fromCharCode(0xC0 | ((x >>> 6 ) & 0x1F),
- 0x80 | ( x & 0x3F));
- else if(x <= 0xFFFF)
- output += String.fromCharCode(0xE0 | ((x >>> 12) & 0x0F),
- 0x80 | ((x >>> 6 ) & 0x3F),
- 0x80 | ( x & 0x3F));
- else if(x <= 0x1FFFFF)
- output += String.fromCharCode(0xF0 | ((x >>> 18) & 0x07),
- 0x80 | ((x >>> 12) & 0x3F),
- 0x80 | ((x >>> 6 ) & 0x3F),
- 0x80 | ( x & 0x3F));
- }
- return output;
- }
- /*
- * Encode a string as utf-16
- */
- function str2rstr_utf16le(input)
- {
- var output = "";
- for(var i = 0; i < input.length; i++)
- output += String.fromCharCode( input.charCodeAt(i) & 0xFF,
- (input.charCodeAt(i) >>> 8) & 0xFF);
- return output;
- }
- function str2rstr_utf16be(input)
- {
- var output = "";
- for(var i = 0; i < input.length; i++)
- output += String.fromCharCode((input.charCodeAt(i) >>> 8) & 0xFF,
- input.charCodeAt(i) & 0xFF);
- return output;
- }
- /*
- * Convert a raw string to an array of big-endian words
- * Characters >255 have their high-byte silently ignored.
- */
- function rstr2binb(input)
- {
- var output = Array(input.length >> 2);
- for(var i = 0; i < output.length; i++)
- output[i] = 0;
- for(var i = 0; i < input.length * 8; i += 8)
- output[i>>5] |= (input.charCodeAt(i / 8) & 0xFF) << (24 - i % 32);
- return output;
- }
- /*
- * Convert an array of big-endian words to a string
- */
- function binb2rstr(input)
- {
- var output = "";
- for(var i = 0; i < input.length * 32; i += 8)
- output += String.fromCharCode((input[i>>5] >>> (24 - i % 32)) & 0xFF);
- return output;
- }
- /*
- * Main sha256 function, with its support functions
- */
- function sha256_S (X, n) {return ( X >>> n ) | (X << (32 - n));}
- function sha256_R (X, n) {return ( X >>> n );}
- function sha256_Ch(x, y, z) {return ((x & y) ^ ((~x) & z));}
- function sha256_Maj(x, y, z) {return ((x & y) ^ (x & z) ^ (y & z));}
- function sha256_Sigma0256(x) {return (sha256_S(x, 2) ^ sha256_S(x, 13) ^ sha256_S(x, 22));}
- function sha256_Sigma1256(x) {return (sha256_S(x, 6) ^ sha256_S(x, 11) ^ sha256_S(x, 25));}
- function sha256_Gamma0256(x) {return (sha256_S(x, 7) ^ sha256_S(x, 18) ^ sha256_R(x, 3));}
- function sha256_Gamma1256(x) {return (sha256_S(x, 17) ^ sha256_S(x, 19) ^ sha256_R(x, 10));}
- function sha256_Sigma0512(x) {return (sha256_S(x, 28) ^ sha256_S(x, 34) ^ sha256_S(x, 39));}
- function sha256_Sigma1512(x) {return (sha256_S(x, 14) ^ sha256_S(x, 18) ^ sha256_S(x, 41));}
- function sha256_Gamma0512(x) {return (sha256_S(x, 1) ^ sha256_S(x, 8) ^ sha256_R(x, 7));}
- function sha256_Gamma1512(x) {return (sha256_S(x, 19) ^ sha256_S(x, 61) ^ sha256_R(x, 6));}
- var sha256_K = new Array
- (
- 1116352408, 1899447441, -1245643825, -373957723, 961987163, 1508970993,
- -1841331548, -1424204075, -670586216, 310598401, 607225278, 1426881987,
- 1925078388, -2132889090, -1680079193, -1046744716, -459576895, -272742522,
- 264347078, 604807628, 770255983, 1249150122, 1555081692, 1996064986,
- -1740746414, -1473132947, -1341970488, -1084653625, -958395405, -710438585,
- 113926993, 338241895, 666307205, 773529912, 1294757372, 1396182291,
- 1695183700, 1986661051, -2117940946, -1838011259, -1564481375, -1474664885,
- -1035236496, -949202525, -778901479, -694614492, -200395387, 275423344,
- 430227734, 506948616, 659060556, 883997877, 958139571, 1322822218,
- 1537002063, 1747873779, 1955562222, 2024104815, -2067236844, -1933114872,
- -1866530822, -1538233109, -1090935817, -965641998
- );
- function binb_sha256(m, l)
- {
- var HASH = new Array(1779033703, -1150833019, 1013904242, -1521486534,
- 1359893119, -1694144372, 528734635, 1541459225);
- var W = new Array(64);
- var a, b, c, d, e, f, g, h;
- var i, j, T1, T2;
- /* append padding */
- m[l >> 5] |= 0x80 << (24 - l % 32);
- m[((l + 64 >> 9) << 4) + 15] = l;
- for(i = 0; i < m.length; i += 16)
- {
- a = HASH[0];
- b = HASH[1];
- c = HASH[2];
- d = HASH[3];
- e = HASH[4];
- f = HASH[5];
- g = HASH[6];
- h = HASH[7];
- for(j = 0; j < 64; j++)
- {
- if (j < 16) W[j] = m[j + i];
- else W[j] = safe_add(safe_add(safe_add(sha256_Gamma1256(W[j - 2]), W[j - 7]),
- sha256_Gamma0256(W[j - 15])), W[j - 16]);
- T1 = safe_add(safe_add(safe_add(safe_add(h, sha256_Sigma1256(e)), sha256_Ch(e, f, g)),
- sha256_K[j]), W[j]);
- T2 = safe_add(sha256_Sigma0256(a), sha256_Maj(a, b, c));
- h = g;
- g = f;
- f = e;
- e = safe_add(d, T1);
- d = c;
- c = b;
- b = a;
- a = safe_add(T1, T2);
- }
- HASH[0] = safe_add(a, HASH[0]);
- HASH[1] = safe_add(b, HASH[1]);
- HASH[2] = safe_add(c, HASH[2]);
- HASH[3] = safe_add(d, HASH[3]);
- HASH[4] = safe_add(e, HASH[4]);
- HASH[5] = safe_add(f, HASH[5]);
- HASH[6] = safe_add(g, HASH[6]);
- HASH[7] = safe_add(h, HASH[7]);
- }
- return HASH;
- }
- function safe_add (x, y)
- {
- var lsw = (x & 0xFFFF) + (y & 0xFFFF);
- var msw = (x >> 16) + (y >> 16) + (lsw >> 16);
- return (msw << 16) | (lsw & 0xFFFF);
- }
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