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https://github.com/sorenisanerd/gotty.git
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c66ae7b2e4
Launch an Xspice and run: echo -ne "\033]844;127.0.0.1;9876\007" This will launch a SPiCE client connecting to 127.0.0.1:9876. Still need to add all the security stuff and generally be more defensive in the implementation.
106 lines
3.8 KiB
JavaScript
106 lines
3.8 KiB
JavaScript
/* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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/* SHA-1 implementation in JavaScript (c) Chris Veness 2002-2009 */
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/* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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function sha1Hash(msg)
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{
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// constants [§4.2.1]
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var K = [0x5a827999, 0x6ed9eba1, 0x8f1bbcdc, 0xca62c1d6];
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// PREPROCESSING
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msg += String.fromCharCode(0x80); // add trailing '1' bit (+ 0's padding) to string [§5.1.1]
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// convert string msg into 512-bit/16-integer blocks arrays of ints [§5.2.1]
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var l = msg.length/4 + 2; // length (in 32-bit integers) of msg + ‘1’ + appended length
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var N = Math.ceil(l/16); // number of 16-integer-blocks required to hold 'l' ints
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var M = new Array(N);
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for (var i=0; i<N; i++) {
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M[i] = new Array(16);
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for (var j=0; j<16; j++) { // encode 4 chars per integer, big-endian encoding
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M[i][j] = (msg.charCodeAt(i*64+j*4)<<24) | (msg.charCodeAt(i*64+j*4+1)<<16) |
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(msg.charCodeAt(i*64+j*4+2)<<8) | (msg.charCodeAt(i*64+j*4+3));
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}
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}
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// add length (in bits) into final pair of 32-bit integers (big-endian) [5.1.1]
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// note: most significant word would be (len-1)*8 >>> 32, but since JS converts
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// bitwise-op args to 32 bits, we need to simulate this by arithmetic operators
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M[N-1][14] = ((msg.length-1)*8) / Math.pow(2, 32); M[N-1][14] = Math.floor(M[N-1][14])
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M[N-1][15] = ((msg.length-1)*8) & 0xffffffff;
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// set initial hash value [§5.3.1]
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var H0 = 0x67452301;
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var H1 = 0xefcdab89;
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var H2 = 0x98badcfe;
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var H3 = 0x10325476;
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var H4 = 0xc3d2e1f0;
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// HASH COMPUTATION [§6.1.2]
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var W = new Array(80); var a, b, c, d, e;
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for (var i=0; i<N; i++) {
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// 1 - prepare message schedule 'W'
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for (var t=0; t<16; t++) W[t] = M[i][t];
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for (var t=16; t<80; t++) W[t] = ROTL(W[t-3] ^ W[t-8] ^ W[t-14] ^ W[t-16], 1);
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// 2 - initialise five working variables a, b, c, d, e with previous hash value
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a = H0; b = H1; c = H2; d = H3; e = H4;
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// 3 - main loop
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for (var t=0; t<80; t++) {
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var s = Math.floor(t/20); // seq for blocks of 'f' functions and 'K' constants
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var T = (ROTL(a,5) + f(s,b,c,d) + e + K[s] + W[t]) & 0xffffffff;
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e = d;
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d = c;
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c = ROTL(b, 30);
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b = a;
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a = T;
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}
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// 4 - compute the new intermediate hash value
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H0 = (H0+a) & 0xffffffff; // note 'addition modulo 2^32'
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H1 = (H1+b) & 0xffffffff;
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H2 = (H2+c) & 0xffffffff;
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H3 = (H3+d) & 0xffffffff;
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H4 = (H4+e) & 0xffffffff;
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}
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return H0.toHexStr() + H1.toHexStr() + H2.toHexStr() + H3.toHexStr() + H4.toHexStr();
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}
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//
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// function 'f' [§4.1.1]
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//
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function f(s, x, y, z)
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{
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switch (s) {
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case 0: return (x & y) ^ (~x & z); // Ch()
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case 1: return x ^ y ^ z; // Parity()
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case 2: return (x & y) ^ (x & z) ^ (y & z); // Maj()
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case 3: return x ^ y ^ z; // Parity()
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}
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}
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//
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// rotate left (circular left shift) value x by n positions [§3.2.5]
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//
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function ROTL(x, n)
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{
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return (x<<n) | (x>>>(32-n));
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}
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//
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// extend Number class with a tailored hex-string method
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// (note toString(16) is implementation-dependant, and
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// in IE returns signed numbers when used on full words)
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//
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Number.prototype.toHexStr = function()
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{
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var s="", v;
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for (var i=7; i>=0; i--) { v = (this>>>(i*4)) & 0xf; s += v.toString(16); }
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return s;
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}
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/* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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