From 1906ddfb5d3887edeedaf8e07d14ad89abbd214d Mon Sep 17 00:00:00 2001 From: Giulio Cesare Solaroli Date: Sun, 21 Apr 2013 15:54:15 +0000 Subject: Aborted attempt to factor out the Crypto library on its own module --- (limited to 'frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField') diff --git a/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/Curve.js b/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/Curve.js deleted file mode 100644 index 9c61bab..0000000 --- a/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/Curve.js +++ b/dev/null @@ -1,545 +0,0 @@ -/* - -Copyright 2008-2013 Clipperz Srl - -This file is part of Clipperz, the online password manager. -For further information about its features and functionalities please -refer to http://www.clipperz.com. - -* Clipperz is free software: you can redistribute it and/or modify it - under the terms of the GNU Affero General Public License as published - by the Free Software Foundation, either version 3 of the License, or - (at your option) any later version. - -* Clipperz is distributed in the hope that it will be useful, but - WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. - See the GNU Affero General Public License for more details. - -* You should have received a copy of the GNU Affero General Public - License along with Clipperz. If not, see http://www.gnu.org/licenses/. - -*/ - -//try { if (typeof(Clipperz.ByteArray) == 'undefined') { throw ""; }} catch (e) { -// throw "Clipperz.Crypto.ECC depends on Clipperz.ByteArray!"; -//} -if (typeof(Clipperz.Crypto.ECC) == 'undefined') { Clipperz.Crypto.ECC = {}; } -if (typeof(Clipperz.Crypto.ECC.BinaryField) == 'undefined') { Clipperz.Crypto.ECC.BinaryField = {}; } - -Clipperz.Crypto.ECC.BinaryField.Curve = function(args) { - args = args || {}; - - this._modulus = args.modulus; - - this._a = args.a; - this._b = args.b; - this._G = args.G; - this._r = args.r; - this._h = args.h; - - this._finiteField = null; - - return this; -} - -Clipperz.Crypto.ECC.BinaryField.Curve.prototype = MochiKit.Base.update(null, { - - 'asString': function() { - return "Clipperz.Crypto.ECC.BinaryField.Curve"; - }, - - //----------------------------------------------------------------------------- - - 'modulus': function() { - return this._modulus; - }, - - 'a': function() { - return this._a; - }, - - 'b': function() { - return this._b; - }, - - 'G': function() { - return this._G; - }, - - 'r': function() { - return this._r; - }, - - 'h': function() { - return this._h; - }, - - //----------------------------------------------------------------------------- - - 'finiteField': function() { - if (this._finiteField == null) { - this._finiteField = new Clipperz.Crypto.ECC.BinaryField.FiniteField({modulus:this.modulus()}) - } - - return this._finiteField; - }, - - //----------------------------------------------------------------------------- - - 'negate': function(aPointA) { - var result; - - result = new Clipperz.Crypto.ECC.Point({x:aPointA.x(), y:this.finiteField().add(aPointA.y(), aPointA.x())}) - - return result; - }, - - //----------------------------------------------------------------------------- - - 'add': function(aPointA, aPointB) { - var result; - -//console.log(">>> ECC.BinaryField.Curve.add"); - if (aPointA.isZero()) { -//console.log("--- pointA == zero"); - result = aPointB; - } else if (aPointB.isZero()) { -//console.log("--- pointB == zero"); - result = aPointA; - } else if ( (aPointA.x().compare(aPointB.x()) == 0) && ((aPointA.y().compare(aPointB.y()) != 0) || aPointB.x().isZero())) { -//console.log("compare A.x - B.x: ", aPointA.x().compare(aPointB.x())); -//console.log("compare A.y - B.y: ", (aPointA.y().compare(aPointB.y()) != 0)); -//console.log("compare B.x.isZero(): ", aPointB.x().isZero()); - -//console.log("--- result = zero"); - result = new Clipperz.Crypto.ECC.BinaryField.Point({x:Clipperz.Crypto.ECC.BinaryField.Value.O, y:Clipperz.Crypto.ECC.BinaryField.Value.O}); - } else { -//console.log("--- result = ELSE"); - var f2m; - var x, y; - var lambda; - var aX, aY, bX, bY; - - aX = aPointA.x()._value; - aY = aPointA.y()._value; - bX = aPointB.x()._value; - bY = aPointB.y()._value; - - f2m = this.finiteField(); - - if (aPointA.x().compare(aPointB.x()) != 0) { -//console.log(" a.x != b.x"); - lambda = f2m._fastMultiply( - f2m._add(aY, bY), - f2m._inverse(f2m._add(aX, bX)) - ); - x = f2m._add(this.a()._value, f2m._square(lambda)); - f2m._overwriteAdd(x, lambda); - f2m._overwriteAdd(x, aX); - f2m._overwriteAdd(x, bX); - } else { -//console.log(" a.x == b.x"); - lambda = f2m._add(bX, f2m._fastMultiply(bY, f2m._inverse(bX))); -//console.log(" lambda: " + lambda.asString(16)); - x = f2m._add(this.a()._value, f2m._square(lambda)); -//console.log(" x (step 1): " + x.asString(16)); - f2m._overwriteAdd(x, lambda); -//console.log(" x (step 2): " + x.asString(16)); - } - - y = f2m._fastMultiply(f2m._add(bX, x), lambda); -//console.log(" y (step 1): " + y.asString(16)); - f2m._overwriteAdd(y, x); -//console.log(" y (step 2): " + y.asString(16)); - f2m._overwriteAdd(y, bY); -//console.log(" y (step 3): " + y.asString(16)); - - result = new Clipperz.Crypto.ECC.BinaryField.Point({x:new Clipperz.Crypto.ECC.BinaryField.Value(x), y:new Clipperz.Crypto.ECC.BinaryField.Value(y)}) - } -//console.log("<<< ECC.BinaryField.Curve.add"); - - return result; - }, - - //----------------------------------------------------------------------------- - - 'addTwice': function(aPointA) { - return this.add(aPointA, aPointA); - }, - - //----------------------------------------------------------------------------- - - 'overwriteAdd': function(aPointA, aPointB) { - if (aPointA.isZero()) { -// result = aPointB; - aPointA._x._value = aPointB._x._value; - aPointA._y._value = aPointB._y._value; - } else if (aPointB.isZero()) { -// result = aPointA; - } else if ( (aPointA.x().compare(aPointB.x()) == 0) && ((aPointA.y().compare(aPointB.y()) != 0) || aPointB.x().isZero())) { -// result = new Clipperz.Crypto.ECC.BinaryField.Point({x:Clipperz.Crypto.ECC.BinaryField.Value.O, y:Clipperz.Crypto.ECC.BinaryField.Value.O}); - aPointA._x = Clipperz.Crypto.ECC.BinaryField.Value.O; - aPointA._y = Clipperz.Crypto.ECC.BinaryField.Value.O; - } else { - var f2m; - var x, y; - var lambda; - var aX, aY, bX, bY; - - aX = aPointA.x()._value; - aY = aPointA.y()._value; - bX = aPointB.x()._value; - bY = aPointB.y()._value; - - f2m = this.finiteField(); - - if (aPointA.x().compare(aPointB.x()) != 0) { -//console.log(" a.x != b.x"); - lambda = f2m._fastMultiply( - f2m._add(aY, bY), - f2m._inverse(f2m._add(aX, bX)) - ); - x = f2m._add(this.a()._value, f2m._square(lambda)); - f2m._overwriteAdd(x, lambda); - f2m._overwriteAdd(x, aX); - f2m._overwriteAdd(x, bX); - } else { -//console.log(" a.x == b.x"); - lambda = f2m._add(bX, f2m._fastMultiply(bY, f2m._inverse(bX))); -//console.log(" lambda: " + lambda.asString(16)); - x = f2m._add(this.a()._value, f2m._square(lambda)); -//console.log(" x (step 1): " + x.asString(16)); - f2m._overwriteAdd(x, lambda); -//console.log(" x (step 2): " + x.asString(16)); - } - - y = f2m._fastMultiply(f2m._add(bX, x), lambda); -//console.log(" y (step 1): " + y.asString(16)); - f2m._overwriteAdd(y, x); -//console.log(" y (step 2): " + y.asString(16)); - f2m._overwriteAdd(y, bY); -//console.log(" y (step 3): " + y.asString(16)); - -// result = new Clipperz.Crypto.ECC.BinaryField.Point({x:new Clipperz.Crypto.ECC.BinaryField.Value(x), y:new Clipperz.Crypto.ECC.BinaryField.Value(y)}) - aPointA._x._value = x; - aPointA._y._value = y; - - } -//console.log("<<< ECC.BinaryField.Curve.add"); - - return result; - }, - - //----------------------------------------------------------------------------- - - 'multiply': function(aValue, aPoint) { - var result; - -//console.profile(); - result = new Clipperz.Crypto.ECC.BinaryField.Point({x:Clipperz.Crypto.ECC.BinaryField.Value.O, y:Clipperz.Crypto.ECC.BinaryField.Value.O}); - - if (aValue.isZero() == false) { - var k, Q; - var i; - var countIndex; countIndex = 0; - - if (aValue.compare(Clipperz.Crypto.ECC.BinaryField.Value.O) > 0) { - k = aValue; - Q = aPoint; - } else { -MochiKit.Logging.logError("The Clipperz.Crypto.ECC.BinaryFields.Value does not work with negative values!!!!"); - k = aValue.negate(); - Q = this.negate(aPoint); - } - -//console.log("k: " + k.toString(16)); -//console.log("k.bitSize: " + k.bitSize()); - for (i=k.bitSize()-1; i>=0; i--) { - result = this.add(result, result); -// this.overwriteAdd(result, result); - if (k.isBitSet(i)) { - result = this.add(result, Q); -// this.overwriteAdd(result, Q); - } - -// if (countIndex==100) {console.log("multiply.break"); break;} else countIndex++; - } - } -//console.profileEnd(); - - return result; - }, - - //----------------------------------------------------------------------------- - - 'deferredMultiply': function(aValue, aPoint) { - var deferredResult; - var result; - -MochiKit.Logging.logDebug(">>> deferredMultiply - value: " + aValue + ", point: " + aPoint); -//console.profile("ECC.Curve.multiply"); - deferredResult = new MochiKit.Async.Deferred(); -//deferredResult.addCallback(function(res) {console.profile("ECC.Curve.deferredMultiply"); return res;} ); -//deferredResult.addBoth(function(res) {MochiKit.Logging.logDebug("# 1: " + res); return res;}); - - result = new Clipperz.Crypto.ECC.BinaryField.Point({x:Clipperz.Crypto.ECC.BinaryField.Value.O, y:Clipperz.Crypto.ECC.BinaryField.Value.O}); -//deferredResult.addBoth(function(res) {MochiKit.Logging.logDebug("# 2: " + res); return res;}); - - if (aValue.isZero() == false) { - var k, Q; - var i; - var countIndex; countIndex = 0; - - if (aValue.compare(Clipperz.Crypto.ECC.BinaryField.Value.O) > 0) { - k = aValue; - Q = aPoint; - } else { -MochiKit.Logging.logError("The Clipperz.Crypto.ECC.BinaryFields.Value does not work with negative values!!!!"); - k = aValue.negate(); - Q = this.negate(aPoint); - } - -//console.log("k: " + k.toString(16)); -//console.log("k.bitSize: " + k.bitSize()); - -//deferredResult.addBoth(function(res) {MochiKit.Logging.logDebug("# 3: " + res); return res;}); - for (i=k.bitSize()-1; i>=0; i--) { -//MochiKit.Logging.logDebug("====> " + i); -//deferredResult.addBoth(function(res) {MochiKit.Logging.logDebug("# 4 > i = " + i + ": " + res); return res;}); - deferredResult.addMethod(this, "addTwice"); -//# result = this.add(result, result); -// this.overwriteAdd(result, result); - if (k.isBitSet(i)) { - deferredResult.addMethod(this, "add", Q); -//# result = this.add(result, Q); -// this.overwriteAdd(result, Q); - } - if (i%20 == 0) {deferredResult.addCallback(MochiKit.Async.wait, 0.1);} - -// if (countIndex==100) {console.log("multiply.break"); break;} else countIndex++; -//deferredResult.addBoth(function(res) {MochiKit.Logging.logDebug("# 4 < i = " + i + ": " + res); return res;}); - } -//deferredResult.addBoth(function(res) {MochiKit.Logging.logDebug("# 4: " + res); return res;}); - } -//#console.profileEnd(); -//deferredResult.addBoth(function(res) {MochiKit.Logging.logDebug("# 5: " + res); return res;}); -//deferredResult.addBoth(function(res) {console.profileEnd(); return res;}); -//deferredResult.addBoth(function(res) {MochiKit.Logging.logDebug("# 6: " + res); return res;}); - deferredResult.callback(result); - -//# return result; - return deferredResult; - }, - - //----------------------------------------------------------------------------- - __syntaxFix__: "syntax fix" -}); - - -//############################################################################# - -Clipperz.Crypto.ECC.StandardCurves = {}; - -MochiKit.Base.update(Clipperz.Crypto.ECC.StandardCurves, { -/* - '_K571': null, - 'K571': function() { - if (Clipperz.Crypto.ECC.StandardCurves._K571 == null) { - Clipperz.Crypto.ECC.StandardCurves._K571 = new Clipperz.Crypto.ECC.BinaryField.Curve({ - modulus: new Clipperz.Crypto.ECC.BinaryField.Value('08000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000425', 16), - a: new Clipperz.Crypto.ECC.BinaryField.Value('0', 16), - b: new Clipperz.Crypto.ECC.BinaryField.Value('1', 16), - G: new Clipperz.Crypto.ECC.BinaryField.Point({ - x: new Clipperz.Crypto.ECC.BinaryField.Value('026eb7a8 59923fbc 82189631 f8103fe4 ac9ca297 0012d5d4 60248048 01841ca4 43709584 93b205e6 47da304d b4ceb08c bbd1ba39 494776fb 988b4717 4dca88c7 e2945283 a01c8972', 16), - y: new Clipperz.Crypto.ECC.BinaryField.Value('0349dc80 7f4fbf37 4f4aeade 3bca9531 4dd58cec 9f307a54 ffc61efc 006d8a2c 9d4979c0 ac44aea7 4fbebbb9 f772aedc b620b01a 7ba7af1b 320430c8 591984f6 01cd4c14 3ef1c7a3', 16) - }), - r: new Clipperz.Crypto.ECC.BinaryField.Value('02000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 131850e1 f19a63e4 b391a8db 917f4138 b630d84b e5d63938 1e91deb4 5cfe778f 637c1001', 16), - h: new Clipperz.Crypto.ECC.BinaryField.Value('4', 16) - }); - } - - return Clipperz.Crypto.ECC.StandardCurves._K571; - }, - - - - '_K283': null, - 'K283': function() { // f(z) = z^283 + z^12 + z^7 + z^5 + 1 - if (Clipperz.Crypto.ECC.StandardCurves._K283 == null) { - Clipperz.Crypto.ECC.StandardCurves._K283 = new Clipperz.Crypto.ECC.BinaryField.Curve({ - modulus: new Clipperz.Crypto.ECC.BinaryField.Value('08000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 000010a1', 16), - a: new Clipperz.Crypto.ECC.BinaryField.Value('0', 16), - b: new Clipperz.Crypto.ECC.BinaryField.Value('1', 16), - G: new Clipperz.Crypto.ECC.BinaryField.Point({ - x: new Clipperz.Crypto.ECC.BinaryField.Value('0503213f 78ca4488 3f1a3b81 62f188e5 53cd265f 23c1567a 16876913 b0c2ac24 58492836', 16), - y: new Clipperz.Crypto.ECC.BinaryField.Value('01ccda38 0f1c9e31 8d90f95d 07e5426f e87e45c0 e8184698 e4596236 4e341161 77dd2259', 16) - }), - r: new Clipperz.Crypto.ECC.BinaryField.Value('01ffffff ffffffff ffffffff ffffffff ffffe9ae 2ed07577 265dff7f 94451e06 1e163c61', 16), - h: new Clipperz.Crypto.ECC.BinaryField.Value('4', 16) - }); - } - - return Clipperz.Crypto.ECC.StandardCurves._K283; - }, -*/ - //----------------------------------------------------------------------------- - - '_B571': null, - 'B571': function() { // f(z) = z^571 + z^10 + z^5 + z^2 + 1 - if (Clipperz.Crypto.ECC.StandardCurves._B571 == null) { - Clipperz.Crypto.ECC.StandardCurves._B571 = new Clipperz.Crypto.ECC.BinaryField.Curve({ - modulus: new Clipperz.Crypto.ECC.BinaryField.Value('80000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000425', 16), - a: new Clipperz.Crypto.ECC.BinaryField.Value('1', 16), - b: new Clipperz.Crypto.ECC.BinaryField.Value('02f40e7e2221f295de297117b7f3d62f5c6a97ffcb8ceff1cd6ba8ce4a9a18ad84ffabbd8efa59332be7ad6756a66e294afd185a78ff12aa520e4de739baca0c7ffeff7f2955727a', 16), - G: new Clipperz.Crypto.ECC.BinaryField.Point({ - x: new Clipperz.Crypto.ECC.BinaryField.Value('0303001d 34b85629 6c16c0d4 0d3cd775 0a93d1d2 955fa80a a5f40fc8 db7b2abd bde53950 f4c0d293 cdd711a3 5b67fb14 99ae6003 8614f139 4abfa3b4 c850d927 e1e7769c 8eec2d19', 16), - y: new Clipperz.Crypto.ECC.BinaryField.Value('037bf273 42da639b 6dccfffe b73d69d7 8c6c27a6 009cbbca 1980f853 3921e8a6 84423e43 bab08a57 6291af8f 461bb2a8 b3531d2f 0485c19b 16e2f151 6e23dd3c 1a4827af 1b8ac15b', 16) - }), - r: new Clipperz.Crypto.ECC.BinaryField.Value('03ffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff e661ce18 ff559873 08059b18 6823851e c7dd9ca1 161de93d 5174d66e 8382e9bb 2fe84e47', 16), - h: new Clipperz.Crypto.ECC.BinaryField.Value('2', 16) - -// S: new Clipperz.Crypto.ECC.BinaryField.Value('2aa058f73a0e33ab486b0f610410c53a7f132310', 10), -// n: new Clipperz.Crypto.ECC.BinaryField.Value('03ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffe661ce18ff55987308059b186823851ec7dd9ca1161de93d5174d66e8382e9bb2fe84e47', 16) - }); - - //----------------------------------------------------------------------------- - // - // Guide to Elliptic Curve Cryptography - // Darrel Hankerson, Alfred Menezes, Scott Vanstone - // - Pag: 56, Alorithm 2.45 (with a typo!!!) - // - //----------------------------------------------------------------------------- - // - // http://www.milw0rm.com/papers/136 - // - // ------------------------------------------------------------------------- - // Polynomial Reduction Algorithm Modulo f571 - // ------------------------------------------------------------------------- - // - // Input: Polynomial p(x) of degree 1140 or less, stored as - // an array of 2T machinewords. - // Output: p(x) mod f571(x) - // - // FOR i = T-1, ..., 0 DO - // SET X := P[i+T] - // P[i] := P[i] ^ (X<<5) ^ (X<<7) ^ (X<<10) ^ (X<<15) - // P[i+1] := P[i+1] ^ (X>>17) ^ (X>>22) ^ (X>>25) ^ (X>>27) - // - // SET X := P[T-1] >> 27 - // P[0] := P[0] ^ X ^ (X<<2) ^ (X<<5) ^ (X<<10) - // P[T-1] := P[T-1] & 0x07ffffff - // - // RETURN P[T-1],...,P[0] - // - // ------------------------------------------------------------------------- - // - Clipperz.Crypto.ECC.StandardCurves._B571.finiteField().slowModule = Clipperz.Crypto.ECC.StandardCurves._B571.finiteField().module; - Clipperz.Crypto.ECC.StandardCurves._B571.finiteField().module = function(aValue) { - var result; - - if (aValue.bitSize() > 1140) { - MochiKit.Logging.logWarning("ECC.StandarCurves.B571.finiteField().module: falling back to default implementation"); - result = Clipperz.Crypto.ECC.StandardCurves._B571.finiteField().slowModule(aValue); - } else { - var C, T; - var i; - -//console.log(">>> binaryField.finiteField.(improved)module"); -// C = aValue.value().slice(0); - C = aValue._value.slice(0); - for (i=35; i>=18; i--) { - T = C[i]; - C[i-18] = (((C[i-18] ^ (T<<5) ^ (T<<7) ^ (T<<10) ^ (T<<15)) & 0xffffffff) >>> 0); - C[i-17] = ((C[i-17] ^ (T>>>27) ^ (T>>>25) ^ (T>>>22) ^ (T>>>17)) >>> 0); - } - T = (C[17] >>> 27); - C[0] = ((C[0] ^ T ^ ((T<<2) ^ (T<<5) ^ (T<<10)) & 0xffffffff) >>> 0); - C[17] = (C[17] & 0x07ffffff); - - for(i=18; i<=35; i++) { - C[i] = 0; - } - - result = new Clipperz.Crypto.ECC.BinaryField.Value(C); -//console.log("<<< binaryField.finiteField.(improved)module"); - } - - return result; - }; - } - - return Clipperz.Crypto.ECC.StandardCurves._B571; - }, - - //----------------------------------------------------------------------------- - - '_B283': null, - 'B283': function() { // f(z) = z^283 + z^12 + z^7 + z^5 + 1 - if (Clipperz.Crypto.ECC.StandardCurves._B283 == null) { - Clipperz.Crypto.ECC.StandardCurves._B283 = new Clipperz.Crypto.ECC.BinaryField.Curve({ -// modulus: new Clipperz.Crypto.ECC.BinaryField.Value('10000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 000010a1', 16), - modulus: new Clipperz.Crypto.ECC.BinaryField.Value('08000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 000010a1', 16), - a: new Clipperz.Crypto.ECC.BinaryField.Value('1', 16), - b: new Clipperz.Crypto.ECC.BinaryField.Value('027b680a c8b8596d a5a4af8a 19a0303f ca97fd76 45309fa2 a581485a f6263e31 3b79a2f5', 16), - G: new Clipperz.Crypto.ECC.BinaryField.Point({ - x: new Clipperz.Crypto.ECC.BinaryField.Value('05f93925 8db7dd90 e1934f8c 70b0dfec 2eed25b8 557eac9c 80e2e198 f8cdbecd 86b12053', 16), - y: new Clipperz.Crypto.ECC.BinaryField.Value('03676854 fe24141c b98fe6d4 b20d02b4 516ff702 350eddb0 826779c8 13f0df45 be8112f4', 16) - }), - r: new Clipperz.Crypto.ECC.BinaryField.Value('03ffffff ffffffff ffffffff ffffffff ffffef90 399660fc 938a9016 5b042a7c efadb307', 16), - h: new Clipperz.Crypto.ECC.BinaryField.Value('2', 16) - -// S: new Clipperz.Crypto.ECC.BinaryField.Value('2aa058f73a0e33ab486b0f610410c53a7f132310', 10), -// n: new Clipperz.Crypto.ECC.BinaryField.Value('03ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffe661ce18ff55987308059b186823851ec7dd9ca1161de93d5174d66e8382e9bb2fe84e47', 16) - }); - - //----------------------------------------------------------------------------- - // - // Guide to Elliptic Curve Cryptography - // Darrel Hankerson, Alfred Menezes, Scott Vanstone - // - Pag: 56, Alorithm 2.43 - // - //----------------------------------------------------------------------------- - Clipperz.Crypto.ECC.StandardCurves._B283.finiteField().slowModule = Clipperz.Crypto.ECC.StandardCurves._B283.finiteField().module; - Clipperz.Crypto.ECC.StandardCurves._B283.finiteField().module = function(aValue) { - var result; - - if (aValue.bitSize() > 564) { - MochiKit.Logging.logWarning("ECC.StandarCurves.B283.finiteField().module: falling back to default implementation"); - result = Clipperz.Crypto.ECC.StandardCurves._B283.finiteField().slowModule(aValue); - } else { - var C, T; - var i; - -//console.log(">>> binaryField.finiteField.(improved)module"); - C = aValue._value.slice(0); - for (i=17; i>=9; i--) { - T = C[i]; - C[i-9] = (((C[i-9] ^ (T<<5) ^ (T<<10) ^ (T<<12) ^ (T<<17)) & 0xffffffff) >>> 0); - C[i-8] = ((C[i-8] ^ (T>>>27) ^ (T>>>22) ^ (T>>>20) ^ (T>>>15)) >>> 0); - } - T = (C[8] >>> 27); - C[0] = ((C[0] ^ T ^ ((T<<5) ^ (T<<7) ^ (T<<12)) & 0xffffffff) >>> 0); - C[8] = (C[8] & 0x07ffffff); - - for(i=9; i<=17; i++) { - C[i] = 0; - } - - result = new Clipperz.Crypto.ECC.BinaryField.Value(C); -//console.log("<<< binaryField.finiteField.(improved)module"); - } - - return result; - }; - } - - return Clipperz.Crypto.ECC.StandardCurves._B283; - }, - - //----------------------------------------------------------------------------- - __syntaxFix__: "syntax fix" -}); - -//############################################################################# - diff --git a/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/FiniteField.js b/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/FiniteField.js deleted file mode 100644 index 4d1ca67..0000000 --- a/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/FiniteField.js +++ b/dev/null @@ -1,521 +0,0 @@ -/* - -Copyright 2008-2013 Clipperz Srl - -This file is part of Clipperz, the online password manager. -For further information about its features and functionalities please -refer to http://www.clipperz.com. - -* Clipperz is free software: you can redistribute it and/or modify it - under the terms of the GNU Affero General Public License as published - by the Free Software Foundation, either version 3 of the License, or - (at your option) any later version. - -* Clipperz is distributed in the hope that it will be useful, but - WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. - See the GNU Affero General Public License for more details. - -* You should have received a copy of the GNU Affero General Public - License along with Clipperz. If not, see http://www.gnu.org/licenses/. - -*/ - -//try { if (typeof(Clipperz.ByteArray) == 'undefined') { throw ""; }} catch (e) { -// throw "Clipperz.Crypto.ECC depends on Clipperz.ByteArray!"; -//} -if (typeof(Clipperz.Crypto.ECC) == 'undefined') { Clipperz.Crypto.ECC = {}; } -if (typeof(Clipperz.Crypto.ECC.BinaryField) == 'undefined') { Clipperz.Crypto.ECC.BinaryField = {}; } - -Clipperz.Crypto.ECC.BinaryField.FiniteField = function(args) { - args = args || {}; - this._modulus = args.modulus; - - return this; -} - -Clipperz.Crypto.ECC.BinaryField.FiniteField.prototype = MochiKit.Base.update(null, { - - 'asString': function() { - return "Clipperz.Crypto.ECC.BinaryField.FiniteField (" + this.modulus().asString() + ")"; - }, - - //----------------------------------------------------------------------------- - - 'modulus': function() { - return this._modulus; - }, - - //----------------------------------------------------------------------------- - - '_module': function(aValue) { - var result; - var modulusComparison; -//console.log(">>> binaryField.finiteField.(standard)module"); - - modulusComparison = Clipperz.Crypto.ECC.BinaryField.Value._compare(aValue, this.modulus()._value); - - if (modulusComparison < 0) { - result = aValue; - } else if (modulusComparison == 0) { - result = [0]; - } else { - var modulusBitSize; - var resultBitSize; - - result = aValue; - - modulusBitSize = this.modulus().bitSize(); - resultBitSize = Clipperz.Crypto.ECC.BinaryField.Value._bitSize(result); - while (resultBitSize >= modulusBitSize) { - Clipperz.Crypto.ECC.BinaryField.Value._overwriteXor(result, Clipperz.Crypto.ECC.BinaryField.Value._shiftLeft(this.modulus()._value, resultBitSize - modulusBitSize)); - resultBitSize = Clipperz.Crypto.ECC.BinaryField.Value._bitSize(result); - } - } -//console.log("<<< binaryField.finiteField.(standard)module"); - - return result; - }, - - 'module': function(aValue) { - return new Clipperz.Crypto.ECC.BinaryField.Value(this._module(aValue._value.slice(0))); - }, - - //----------------------------------------------------------------------------- - - '_add': function(a, b) { - return Clipperz.Crypto.ECC.BinaryField.Value._xor(a, b); - }, - - '_overwriteAdd': function(a, b) { - Clipperz.Crypto.ECC.BinaryField.Value._overwriteXor(a, b); - }, - - 'add': function(a, b) { - return new Clipperz.Crypto.ECC.BinaryField.Value(this._add(a._value, b._value)); - }, - - //----------------------------------------------------------------------------- - - 'negate': function(aValue) { - return aValue.clone(); - }, - - //----------------------------------------------------------------------------- - - '_multiply': function(a, b) { - var result; - var valueToXor; - var i,c; - - result = [0]; - valueToXor = b; - c = Clipperz.Crypto.ECC.BinaryField.Value._bitSize(a); - for (i=0; i>> i) & 0x01) == 1) { - Clipperz.Crypto.ECC.BinaryField.Value._overwriteXor(result, B, ii); - } - } - - if (i < (c-1)) { - B = Clipperz.Crypto.ECC.BinaryField.Value._overwriteShiftLeft(B, 1); - } - } - result = this._module(result); - - return result; - }, - - 'fastMultiply': function(a, b) { - return new Clipperz.Crypto.ECC.BinaryField.Value(this._fastMultiply(a._value, b._value)); - }, - - //----------------------------------------------------------------------------- - // - // Guide to Elliptic Curve Cryptography - // Darrel Hankerson, Alfred Menezes, Scott Vanstone - // - Pag: 49, Alorithm 2.34 - // - //----------------------------------------------------------------------------- - - '_square': function(aValue) { - var result; - var value; - var c,i; - var precomputedValues; - - value = aValue; - result = new Array(value.length * 2); - precomputedValues = Clipperz.Crypto.ECC.BinaryField.FiniteField.squarePrecomputedBytes; - - c = value.length; - for (i=0; i>> 8]) << 16); - - result[i*2 + 1] = precomputedValues[(value[i] & 0x00ff0000) >>> 16]; - result[i*2 + 1] |= ((precomputedValues[(value[i] & 0xff000000) >>> 24]) << 16); - } - - return this._module(result); - }, - - 'square': function(aValue) { - return new Clipperz.Crypto.ECC.BinaryField.Value(this._square(aValue._value)); - }, - - //----------------------------------------------------------------------------- - - '_inverse': function(aValue) { - var result; - var b, c; - var u, v; - -// b = Clipperz.Crypto.ECC.BinaryField.Value.I._value; - b = [1]; -// c = Clipperz.Crypto.ECC.BinaryField.Value.O._value; - c = [0]; - u = this._module(aValue); - v = this.modulus()._value.slice(0); - - while (Clipperz.Crypto.ECC.BinaryField.Value._bitSize(u) > 1) { - var bitDifferenceSize; - - bitDifferenceSize = Clipperz.Crypto.ECC.BinaryField.Value._bitSize(u) - Clipperz.Crypto.ECC.BinaryField.Value._bitSize(v); - if (bitDifferenceSize < 0) { - var swap; - - swap = u; - u = v; - v = swap; - - swap = c; - c = b; - b = swap; - - bitDifferenceSize = -bitDifferenceSize; - } - - u = this._add(u, Clipperz.Crypto.ECC.BinaryField.Value._shiftLeft(v, bitDifferenceSize)); - b = this._add(b, Clipperz.Crypto.ECC.BinaryField.Value._shiftLeft(c, bitDifferenceSize)); -// this._overwriteAdd(u, Clipperz.Crypto.ECC.BinaryField.Value._shiftLeft(v, bitDifferenceSize)); -// this._overwriteAdd(b, Clipperz.Crypto.ECC.BinaryField.Value._shiftLeft(c, bitDifferenceSize)); - } - - result = this._module(b); - - return result; - }, - - 'inverse': function(aValue) { - return new Clipperz.Crypto.ECC.BinaryField.Value(this._inverse(aValue._value)); - }, - - //----------------------------------------------------------------------------- - __syntaxFix__: "syntax fix" -}); - - -Clipperz.Crypto.ECC.BinaryField.FiniteField.squarePrecomputedBytes = [ - 0x0000, // 0 = 0000 0000 -> 0000 0000 0000 0000 - 0x0001, // 1 = 0000 0001 -> 0000 0000 0000 0001 - 0x0004, // 2 = 0000 0010 -> 0000 0000 0000 0100 - 0x0005, // 3 = 0000 0011 -> 0000 0000 0000 0101 - 0x0010, // 4 = 0000 0100 -> 0000 0000 0001 0000 - 0x0011, // 5 = 0000 0101 -> 0000 0000 0001 0001 - 0x0014, // 6 = 0000 0110 -> 0000 0000 0001 0100 - 0x0015, // 7 = 0000 0111 -> 0000 0000 0001 0101 - 0x0040, // 8 = 0000 1000 -> 0000 0000 0100 0000 - 0x0041, // 9 = 0000 1001 -> 0000 0000 0100 0001 - 0x0044, // 10 = 0000 1010 -> 0000 0000 0100 0100 - 0x0045, // 11 = 0000 1011 -> 0000 0000 0100 0101 - 0x0050, // 12 = 0000 1100 -> 0000 0000 0101 0000 - 0x0051, // 13 = 0000 1101 -> 0000 0000 0101 0001 - 0x0054, // 14 = 0000 1110 -> 0000 0000 0101 0100 - 0x0055, // 15 = 0000 1111 -> 0000 0000 0101 0101 - - 0x0100, // 16 = 0001 0000 -> 0000 0001 0000 0000 - 0x0101, // 17 = 0001 0001 -> 0000 0001 0000 0001 - 0x0104, // 18 = 0001 0010 -> 0000 0001 0000 0100 - 0x0105, // 19 = 0001 0011 -> 0000 0001 0000 0101 - 0x0110, // 20 = 0001 0100 -> 0000 0001 0001 0000 - 0x0111, // 21 = 0001 0101 -> 0000 0001 0001 0001 - 0x0114, // 22 = 0001 0110 -> 0000 0001 0001 0100 - 0x0115, // 23 = 0001 0111 -> 0000 0001 0001 0101 - 0x0140, // 24 = 0001 1000 -> 0000 0001 0100 0000 - 0x0141, // 25 = 0001 1001 -> 0000 0001 0100 0001 - 0x0144, // 26 = 0001 1010 -> 0000 0001 0100 0100 - 0x0145, // 27 = 0001 1011 -> 0000 0001 0100 0101 - 0x0150, // 28 = 0001 1100 -> 0000 0001 0101 0000 - 0x0151, // 28 = 0001 1101 -> 0000 0001 0101 0001 - 0x0154, // 30 = 0001 1110 -> 0000 0001 0101 0100 - 0x0155, // 31 = 0001 1111 -> 0000 0001 0101 0101 - - 0x0400, // 32 = 0010 0000 -> 0000 0100 0000 0000 - 0x0401, // 33 = 0010 0001 -> 0000 0100 0000 0001 - 0x0404, // 34 = 0010 0010 -> 0000 0100 0000 0100 - 0x0405, // 35 = 0010 0011 -> 0000 0100 0000 0101 - 0x0410, // 36 = 0010 0100 -> 0000 0100 0001 0000 - 0x0411, // 37 = 0010 0101 -> 0000 0100 0001 0001 - 0x0414, // 38 = 0010 0110 -> 0000 0100 0001 0100 - 0x0415, // 39 = 0010 0111 -> 0000 0100 0001 0101 - 0x0440, // 40 = 0010 1000 -> 0000 0100 0100 0000 - 0x0441, // 41 = 0010 1001 -> 0000 0100 0100 0001 - 0x0444, // 42 = 0010 1010 -> 0000 0100 0100 0100 - 0x0445, // 43 = 0010 1011 -> 0000 0100 0100 0101 - 0x0450, // 44 = 0010 1100 -> 0000 0100 0101 0000 - 0x0451, // 45 = 0010 1101 -> 0000 0100 0101 0001 - 0x0454, // 46 = 0010 1110 -> 0000 0100 0101 0100 - 0x0455, // 47 = 0010 1111 -> 0000 0100 0101 0101 - - 0x0500, // 48 = 0011 0000 -> 0000 0101 0000 0000 - 0x0501, // 49 = 0011 0001 -> 0000 0101 0000 0001 - 0x0504, // 50 = 0011 0010 -> 0000 0101 0000 0100 - 0x0505, // 51 = 0011 0011 -> 0000 0101 0000 0101 - 0x0510, // 52 = 0011 0100 -> 0000 0101 0001 0000 - 0x0511, // 53 = 0011 0101 -> 0000 0101 0001 0001 - 0x0514, // 54 = 0011 0110 -> 0000 0101 0001 0100 - 0x0515, // 55 = 0011 0111 -> 0000 0101 0001 0101 - 0x0540, // 56 = 0011 1000 -> 0000 0101 0100 0000 - 0x0541, // 57 = 0011 1001 -> 0000 0101 0100 0001 - 0x0544, // 58 = 0011 1010 -> 0000 0101 0100 0100 - 0x0545, // 59 = 0011 1011 -> 0000 0101 0100 0101 - 0x0550, // 60 = 0011 1100 -> 0000 0101 0101 0000 - 0x0551, // 61 = 0011 1101 -> 0000 0101 0101 0001 - 0x0554, // 62 = 0011 1110 -> 0000 0101 0101 0100 - 0x0555, // 63 = 0011 1111 -> 0000 0101 0101 0101 - - 0x1000, // 64 = 0100 0000 -> 0001 0000 0000 0000 - 0x1001, // 65 = 0100 0001 -> 0001 0000 0000 0001 - 0x1004, // 66 = 0100 0010 -> 0001 0000 0000 0100 - 0x1005, // 67 = 0100 0011 -> 0001 0000 0000 0101 - 0x1010, // 68 = 0100 0100 -> 0001 0000 0001 0000 - 0x1011, // 69 = 0100 0101 -> 0001 0000 0001 0001 - 0x1014, // 70 = 0100 0110 -> 0001 0000 0001 0100 - 0x1015, // 71 = 0100 0111 -> 0001 0000 0001 0101 - 0x1040, // 72 = 0100 1000 -> 0001 0000 0100 0000 - 0x1041, // 73 = 0100 1001 -> 0001 0000 0100 0001 - 0x1044, // 74 = 0100 1010 -> 0001 0000 0100 0100 - 0x1045, // 75 = 0100 1011 -> 0001 0000 0100 0101 - 0x1050, // 76 = 0100 1100 -> 0001 0000 0101 0000 - 0x1051, // 77 = 0100 1101 -> 0001 0000 0101 0001 - 0x1054, // 78 = 0100 1110 -> 0001 0000 0101 0100 - 0x1055, // 79 = 0100 1111 -> 0001 0000 0101 0101 - - 0x1100, // 80 = 0101 0000 -> 0001 0001 0000 0000 - 0x1101, // 81 = 0101 0001 -> 0001 0001 0000 0001 - 0x1104, // 82 = 0101 0010 -> 0001 0001 0000 0100 - 0x1105, // 83 = 0101 0011 -> 0001 0001 0000 0101 - 0x1110, // 84 = 0101 0100 -> 0001 0001 0001 0000 - 0x1111, // 85 = 0101 0101 -> 0001 0001 0001 0001 - 0x1114, // 86 = 0101 0110 -> 0001 0001 0001 0100 - 0x1115, // 87 = 0101 0111 -> 0001 0001 0001 0101 - 0x1140, // 88 = 0101 1000 -> 0001 0001 0100 0000 - 0x1141, // 89 = 0101 1001 -> 0001 0001 0100 0001 - 0x1144, // 90 = 0101 1010 -> 0001 0001 0100 0100 - 0x1145, // 91 = 0101 1011 -> 0001 0001 0100 0101 - 0x1150, // 92 = 0101 1100 -> 0001 0001 0101 0000 - 0x1151, // 93 = 0101 1101 -> 0001 0001 0101 0001 - 0x1154, // 94 = 0101 1110 -> 0001 0001 0101 0100 - 0x1155, // 95 = 0101 1111 -> 0001 0001 0101 0101 - - 0x1400, // 96 = 0110 0000 -> 0001 0100 0000 0000 - 0x1401, // 97 = 0110 0001 -> 0001 0100 0000 0001 - 0x1404, // 98 = 0110 0010 -> 0001 0100 0000 0100 - 0x1405, // 99 = 0110 0011 -> 0001 0100 0000 0101 - 0x1410, // 100 = 0110 0100 -> 0001 0100 0001 0000 - 0x1411, // 101 = 0110 0101 -> 0001 0100 0001 0001 - 0x1414, // 102 = 0110 0110 -> 0001 0100 0001 0100 - 0x1415, // 103 = 0110 0111 -> 0001 0100 0001 0101 - 0x1440, // 104 = 0110 1000 -> 0001 0100 0100 0000 - 0x1441, // 105 = 0110 1001 -> 0001 0100 0100 0001 - 0x1444, // 106 = 0110 1010 -> 0001 0100 0100 0100 - 0x1445, // 107 = 0110 1011 -> 0001 0100 0100 0101 - 0x1450, // 108 = 0110 1100 -> 0001 0100 0101 0000 - 0x1451, // 109 = 0110 1101 -> 0001 0100 0101 0001 - 0x1454, // 110 = 0110 1110 -> 0001 0100 0101 0100 - 0x1455, // 111 = 0110 1111 -> 0001 0100 0101 0101 - - 0x1500, // 112 = 0111 0000 -> 0001 0101 0000 0000 - 0x1501, // 113 = 0111 0001 -> 0001 0101 0000 0001 - 0x1504, // 114 = 0111 0010 -> 0001 0101 0000 0100 - 0x1505, // 115 = 0111 0011 -> 0001 0101 0000 0101 - 0x1510, // 116 = 0111 0100 -> 0001 0101 0001 0000 - 0x1511, // 117 = 0111 0101 -> 0001 0101 0001 0001 - 0x1514, // 118 = 0111 0110 -> 0001 0101 0001 0100 - 0x1515, // 119 = 0111 0111 -> 0001 0101 0001 0101 - 0x1540, // 120 = 0111 1000 -> 0001 0101 0100 0000 - 0x1541, // 121 = 0111 1001 -> 0001 0101 0100 0001 - 0x1544, // 122 = 0111 1010 -> 0001 0101 0100 0100 - 0x1545, // 123 = 0111 1011 -> 0001 0101 0100 0101 - 0x1550, // 124 = 0111 1100 -> 0001 0101 0101 0000 - 0x1551, // 125 = 0111 1101 -> 0001 0101 0101 0001 - 0x1554, // 126 = 0111 1110 -> 0001 0101 0101 0100 - 0x1555, // 127 = 0111 1111 -> 0001 0101 0101 0101 - - 0x4000, // 128 = 1000 0000 -> 0100 0000 0000 0000 - 0x4001, // 129 = 1000 0001 -> 0100 0000 0000 0001 - 0x4004, // 130 = 1000 0010 -> 0100 0000 0000 0100 - 0x4005, // 131 = 1000 0011 -> 0100 0000 0000 0101 - 0x4010, // 132 = 1000 0100 -> 0100 0000 0001 0000 - 0x4011, // 133 = 1000 0101 -> 0100 0000 0001 0001 - 0x4014, // 134 = 1000 0110 -> 0100 0000 0001 0100 - 0x4015, // 135 = 1000 0111 -> 0100 0000 0001 0101 - 0x4040, // 136 = 1000 1000 -> 0100 0000 0100 0000 - 0x4041, // 137 = 1000 1001 -> 0100 0000 0100 0001 - 0x4044, // 138 = 1000 1010 -> 0100 0000 0100 0100 - 0x4045, // 139 = 1000 1011 -> 0100 0000 0100 0101 - 0x4050, // 140 = 1000 1100 -> 0100 0000 0101 0000 - 0x4051, // 141 = 1000 1101 -> 0100 0000 0101 0001 - 0x4054, // 142 = 1000 1110 -> 0100 0000 0101 0100 - 0x4055, // 143 = 1000 1111 -> 0100 0000 0101 0101 - - 0x4100, // 144 = 1001 0000 -> 0100 0001 0000 0000 - 0x4101, // 145 = 1001 0001 -> 0100 0001 0000 0001 - 0x4104, // 146 = 1001 0010 -> 0100 0001 0000 0100 - 0x4105, // 147 = 1001 0011 -> 0100 0001 0000 0101 - 0x4110, // 148 = 1001 0100 -> 0100 0001 0001 0000 - 0x4111, // 149 = 1001 0101 -> 0100 0001 0001 0001 - 0x4114, // 150 = 1001 0110 -> 0100 0001 0001 0100 - 0x4115, // 151 = 1001 0111 -> 0100 0001 0001 0101 - 0x4140, // 152 = 1001 1000 -> 0100 0001 0100 0000 - 0x4141, // 153 = 1001 1001 -> 0100 0001 0100 0001 - 0x4144, // 154 = 1001 1010 -> 0100 0001 0100 0100 - 0x4145, // 155 = 1001 1011 -> 0100 0001 0100 0101 - 0x4150, // 156 = 1001 1100 -> 0100 0001 0101 0000 - 0x4151, // 157 = 1001 1101 -> 0100 0001 0101 0001 - 0x4154, // 158 = 1001 1110 -> 0100 0001 0101 0100 - 0x4155, // 159 = 1001 1111 -> 0100 0001 0101 0101 - - 0x4400, // 160 = 1010 0000 -> 0100 0100 0000 0000 - 0x4401, // 161 = 1010 0001 -> 0100 0100 0000 0001 - 0x4404, // 162 = 1010 0010 -> 0100 0100 0000 0100 - 0x4405, // 163 = 1010 0011 -> 0100 0100 0000 0101 - 0x4410, // 164 = 1010 0100 -> 0100 0100 0001 0000 - 0x4411, // 165 = 1010 0101 -> 0100 0100 0001 0001 - 0x4414, // 166 = 1010 0110 -> 0100 0100 0001 0100 - 0x4415, // 167 = 1010 0111 -> 0100 0100 0001 0101 - 0x4440, // 168 = 1010 1000 -> 0100 0100 0100 0000 - 0x4441, // 169 = 1010 1001 -> 0100 0100 0100 0001 - 0x4444, // 170 = 1010 1010 -> 0100 0100 0100 0100 - 0x4445, // 171 = 1010 1011 -> 0100 0100 0100 0101 - 0x4450, // 172 = 1010 1100 -> 0100 0100 0101 0000 - 0x4451, // 173 = 1010 1101 -> 0100 0100 0101 0001 - 0x4454, // 174 = 1010 1110 -> 0100 0100 0101 0100 - 0x4455, // 175 = 1010 1111 -> 0100 0100 0101 0101 - - 0x4500, // 176 = 1011 0000 -> 0100 0101 0000 0000 - 0x4501, // 177 = 1011 0001 -> 0100 0101 0000 0001 - 0x4504, // 178 = 1011 0010 -> 0100 0101 0000 0100 - 0x4505, // 179 = 1011 0011 -> 0100 0101 0000 0101 - 0x4510, // 180 = 1011 0100 -> 0100 0101 0001 0000 - 0x4511, // 181 = 1011 0101 -> 0100 0101 0001 0001 - 0x4514, // 182 = 1011 0110 -> 0100 0101 0001 0100 - 0x4515, // 183 = 1011 0111 -> 0100 0101 0001 0101 - 0x4540, // 184 = 1011 1000 -> 0100 0101 0100 0000 - 0x4541, // 185 = 1011 1001 -> 0100 0101 0100 0001 - 0x4544, // 186 = 1011 1010 -> 0100 0101 0100 0100 - 0x4545, // 187 = 1011 1011 -> 0100 0101 0100 0101 - 0x4550, // 188 = 1011 1100 -> 0100 0101 0101 0000 - 0x4551, // 189 = 1011 1101 -> 0100 0101 0101 0001 - 0x4554, // 190 = 1011 1110 -> 0100 0101 0101 0100 - 0x4555, // 191 = 1011 1111 -> 0100 0101 0101 0101 - - 0x5000, // 192 = 1100 0000 -> 0101 0000 0000 0000 - 0x5001, // 193 = 1100 0001 -> 0101 0000 0000 0001 - 0x5004, // 194 = 1100 0010 -> 0101 0000 0000 0100 - 0x5005, // 195 = 1100 0011 -> 0101 0000 0000 0101 - 0x5010, // 196 = 1100 0100 -> 0101 0000 0001 0000 - 0x5011, // 197 = 1100 0101 -> 0101 0000 0001 0001 - 0x5014, // 198 = 1100 0110 -> 0101 0000 0001 0100 - 0x5015, // 199 = 1100 0111 -> 0101 0000 0001 0101 - 0x5040, // 200 = 1100 1000 -> 0101 0000 0100 0000 - 0x5041, // 201 = 1100 1001 -> 0101 0000 0100 0001 - 0x5044, // 202 = 1100 1010 -> 0101 0000 0100 0100 - 0x5045, // 203 = 1100 1011 -> 0101 0000 0100 0101 - 0x5050, // 204 = 1100 1100 -> 0101 0000 0101 0000 - 0x5051, // 205 = 1100 1101 -> 0101 0000 0101 0001 - 0x5054, // 206 = 1100 1110 -> 0101 0000 0101 0100 - 0x5055, // 207 = 1100 1111 -> 0101 0000 0101 0101 - - 0x5100, // 208 = 1101 0000 -> 0101 0001 0000 0000 - 0x5101, // 209 = 1101 0001 -> 0101 0001 0000 0001 - 0x5104, // 210 = 1101 0010 -> 0101 0001 0000 0100 - 0x5105, // 211 = 1101 0011 -> 0101 0001 0000 0101 - 0x5110, // 212 = 1101 0100 -> 0101 0001 0001 0000 - 0x5111, // 213 = 1101 0101 -> 0101 0001 0001 0001 - 0x5114, // 214 = 1101 0110 -> 0101 0001 0001 0100 - 0x5115, // 215 = 1101 0111 -> 0101 0001 0001 0101 - 0x5140, // 216 = 1101 1000 -> 0101 0001 0100 0000 - 0x5141, // 217 = 1101 1001 -> 0101 0001 0100 0001 - 0x5144, // 218 = 1101 1010 -> 0101 0001 0100 0100 - 0x5145, // 219 = 1101 1011 -> 0101 0001 0100 0101 - 0x5150, // 220 = 1101 1100 -> 0101 0001 0101 0000 - 0x5151, // 221 = 1101 1101 -> 0101 0001 0101 0001 - 0x5154, // 222 = 1101 1110 -> 0101 0001 0101 0100 - 0x5155, // 223 = 1101 1111 -> 0101 0001 0101 0101 - - 0x5400, // 224 = 1110 0000 -> 0101 0100 0000 0000 - 0x5401, // 225 = 1110 0001 -> 0101 0100 0000 0001 - 0x5404, // 226 = 1110 0010 -> 0101 0100 0000 0100 - 0x5405, // 227 = 1110 0011 -> 0101 0100 0000 0101 - 0x5410, // 228 = 1110 0100 -> 0101 0100 0001 0000 - 0x5411, // 229 = 1110 0101 -> 0101 0100 0001 0001 - 0x5414, // 230 = 1110 0110 -> 0101 0100 0001 0100 - 0x5415, // 231 = 1110 0111 -> 0101 0100 0001 0101 - 0x5440, // 232 = 1110 1000 -> 0101 0100 0100 0000 - 0x5441, // 233 = 1110 1001 -> 0101 0100 0100 0001 - 0x5444, // 234 = 1110 1010 -> 0101 0100 0100 0100 - 0x5445, // 235 = 1110 1011 -> 0101 0100 0100 0101 - 0x5450, // 236 = 1110 1100 -> 0101 0100 0101 0000 - 0x5451, // 237 = 1110 1101 -> 0101 0100 0101 0001 - 0x5454, // 238 = 1110 1110 -> 0101 0100 0101 0100 - 0x5455, // 239 = 1110 1111 -> 0101 0100 0101 0101 - - 0x5500, // 240 = 1111 0000 -> 0101 0101 0000 0000 - 0x5501, // 241 = 1111 0001 -> 0101 0101 0000 0001 - 0x5504, // 242 = 1111 0010 -> 0101 0101 0000 0100 - 0x5505, // 243 = 1111 0011 -> 0101 0101 0000 0101 - 0x5510, // 244 = 1111 0100 -> 0101 0101 0001 0000 - 0x5511, // 245 = 1111 0101 -> 0101 0101 0001 0001 - 0x5514, // 246 = 1111 0110 -> 0101 0101 0001 0100 - 0x5515, // 247 = 1111 0111 -> 0101 0101 0001 0101 - 0x5540, // 248 = 1111 1000 -> 0101 0101 0100 0000 - 0x5541, // 249 = 1111 1001 -> 0101 0101 0100 0001 - 0x5544, // 250 = 1111 1010 -> 0101 0101 0100 0100 - 0x5545, // 251 = 1111 1011 -> 0101 0101 0100 0101 - 0x5550, // 252 = 1111 1100 -> 0101 0101 0101 0000 - 0x5551, // 253 = 1111 1101 -> 0101 0101 0101 0001 - 0x5554, // 254 = 1111 1110 -> 0101 0101 0101 0100 - 0x5555 // 255 = 1111 1111 -> 0101 0101 0101 0101 - -] diff --git a/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/Point.js b/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/Point.js deleted file mode 100644 index fef3220..0000000 --- a/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/Point.js +++ b/dev/null @@ -1,62 +0,0 @@ -/* - -Copyright 2008-2013 Clipperz Srl - -This file is part of Clipperz, the online password manager. -For further information about its features and functionalities please -refer to http://www.clipperz.com. - -* Clipperz is free software: you can redistribute it and/or modify it - under the terms of the GNU Affero General Public License as published - by the Free Software Foundation, either version 3 of the License, or - (at your option) any later version. - -* Clipperz is distributed in the hope that it will be useful, but - WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. - See the GNU Affero General Public License for more details. - -* You should have received a copy of the GNU Affero General Public - License along with Clipperz. If not, see http://www.gnu.org/licenses/. - -*/ - -//try { if (typeof(Clipperz.ByteArray) == 'undefined') { throw ""; }} catch (e) { -// throw "Clipperz.Crypto.ECC depends on Clipperz.ByteArray!"; -//} -if (typeof(Clipperz.Crypto.ECC) == 'undefined') { Clipperz.Crypto.ECC = {}; } -if (typeof(Clipperz.Crypto.ECC.BinaryField) == 'undefined') { Clipperz.Crypto.ECC.BinaryField = {}; } - -Clipperz.Crypto.ECC.BinaryField.Point = function(args) { - args = args || {}; - this._x = args.x; - this._y = args.y; - - return this; -} - -Clipperz.Crypto.ECC.BinaryField.Point.prototype = MochiKit.Base.update(null, { - - 'asString': function() { - return "Clipperz.Crypto.ECC.BinaryField.Point (" + this.x() + ", " + this.y() + ")"; - }, - - //----------------------------------------------------------------------------- - - 'x': function() { - return this._x; - }, - - 'y': function() { - return this._y; - }, - - //----------------------------------------------------------------------------- - - 'isZero': function() { - return (this.x().isZero() && this.y().isZero()) - }, - - //----------------------------------------------------------------------------- - __syntaxFix__: "syntax fix" -}); diff --git a/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/Value.js b/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/Value.js deleted file mode 100644 index b046039..0000000 --- a/frontend/gamma/js/ClipperzCryptoLibrary/ECC/BinaryField/Value.js +++ b/dev/null @@ -1,381 +0,0 @@ -/* - -Copyright 2008-2013 Clipperz Srl - -This file is part of Clipperz, the online password manager. -For further information about its features and functionalities please -refer to http://www.clipperz.com. - -* Clipperz is free software: you can redistribute it and/or modify it - under the terms of the GNU Affero General Public License as published - by the Free Software Foundation, either version 3 of the License, or - (at your option) any later version. - -* Clipperz is distributed in the hope that it will be useful, but - WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. - See the GNU Affero General Public License for more details. - -* You should have received a copy of the GNU Affero General Public - License along with Clipperz. If not, see http://www.gnu.org/licenses/. - -*/ - -//try { if (typeof(Clipperz.ByteArray) == 'undefined') { throw ""; }} catch (e) { -// throw "Clipperz.Crypto.ECC depends on Clipperz.ByteArray!"; -//} -if (typeof(Clipperz) == 'undefined') { Clipperz = {}; } -if (typeof(Clipperz.Crypto) == 'undefined') { Clipperz.Crypto = {}; } -if (typeof(Clipperz.Crypto.ECC) == 'undefined') { Clipperz.Crypto.ECC = {}; } -if (typeof(Clipperz.Crypto.ECC.BinaryField) == 'undefined') { Clipperz.Crypto.ECC.BinaryField = {}; } - -Clipperz.Crypto.ECC.BinaryField.Value = function(aValue, aBase, aBitSize) { - if (aValue.constructor == String) { - var value; - var stringLength; - var numberOfWords; - var i,c; - - if (aBase != 16) { - throw Clipperz.Crypto.ECC.BinaryField.Value.exception.UnsupportedBase; - } - - value = aValue.replace(/ /g, ''); - stringLength = value.length; - numberOfWords = Math.ceil(stringLength / 8); - this._value = new Array(numberOfWords); - - c = numberOfWords; - for (i=0; i>> 0); - } - - return result; -}; - -Clipperz.Crypto.ECC.BinaryField.Value._overwriteXor = function(a, b, aFirstItemOffset) { - var i,c; - var firstItemOffset; - - firstItemOffset = aFirstItemOffset || 0; - - c = Math.max((a.length - firstItemOffset), b.length) + firstItemOffset; - for (i=firstItemOffset; i>> 0); - } -}; - -Clipperz.Crypto.ECC.BinaryField.Value._shiftLeft = function(aWordArray, aNumberOfBitsToShift) { - var numberOfWordsToShift; - var numberOfBitsToShift; - var result; - var overflowValue; - var nextOverflowValue; - var i,c; - - numberOfWordsToShift = Math.floor(aNumberOfBitsToShift / 32); - numberOfBitsToShift = aNumberOfBitsToShift % 32; - - result = new Array(aWordArray.length + numberOfWordsToShift); - - c = numberOfWordsToShift; - for (i=0; i 0) { - nextOverflowValue = (value >>> (32 - numberOfBitsToShift)); - value = value & (0xffffffff >>> numberOfBitsToShift); - resultWord = (((value << numberOfBitsToShift) | overflowValue) >>> 0); - } else { - resultWord = value; - } - - result[i+numberOfWordsToShift] = resultWord; - overflowValue = nextOverflowValue; - } - - if (overflowValue != 0) { - result[aWordArray.length + numberOfWordsToShift] = overflowValue; - } - - return result; -}; - -Clipperz.Crypto.ECC.BinaryField.Value._overwriteShiftLeft = function(aWordArray, aNumberOfBitsToShift) { - var numberOfWordsToShift; - var numberOfBitsToShift; - var result; - var overflowValue; - var i,c; - - numberOfWordsToShift = Math.floor(aNumberOfBitsToShift / 32); - numberOfBitsToShift = aNumberOfBitsToShift % 32; - - result = new Array(aWordArray.length + numberOfWordsToShift); - - c = numberOfWordsToShift; - for (i=0; i 0) { - var nextOverflowValue; - - nextOverflowValue = (value >>> (32 - numberOfBitsToShift)); - value = value & (0xffffffff >>> numberOfBitsToShift); - resultWord = (((value << numberOfBitsToShift) | overflowValue) >>> 0); - } else { - resultWord = value; - } - - result[i+numberOfWordsToShift] = resultWord; - overflowValue = nextOverflowValue; - } - - if (overflowValue != 0) { - result[aWordArray.length + numberOfWordsToShift] = overflowValue; - } - - return result; -}; - -Clipperz.Crypto.ECC.BinaryField.Value._bitSize = function(aWordArray) { - var result; - var notNullElements; - var mostValuableWord; - var matchingBitsInMostImportantWord; - var mask; - var i,c; - - notNullElements = aWordArray.length; - - if ((aWordArray.length == 1) && (aWordArray[0] == 0)) { - result = 0; - } else { - notNullElements --; - while((notNullElements > 0) && (aWordArray[notNullElements] == 0)) { - notNullElements --; - } - - result = notNullElements * 32; - mostValuableWord = aWordArray[notNullElements]; - - matchingBits = 32; - mask = 0x80000000; - - while ((matchingBits > 0) && ((mostValuableWord & mask) == 0)) { - matchingBits --; - mask >>>= 1; - } - - result += matchingBits; - } - - return result; -}; - -Clipperz.Crypto.ECC.BinaryField.Value._isBitSet = function(aWordArray, aBitPosition) { - var result; - var byteIndex; - var bitIndexInSelectedByte; - - byteIndex = Math.floor(aBitPosition / 32); - bitIndexInSelectedByte = aBitPosition % 32; - - if (byteIndex <= aWordArray.length) { - result = ((aWordArray[byteIndex] & (1 << bitIndexInSelectedByte)) != 0); - } else { - result = false; - } - - return result; -}; - -Clipperz.Crypto.ECC.BinaryField.Value._compare = function(a,b) { - var result; - var i,c; - - result = MochiKit.Base.compare(a.length, b.length); - - c = a.length; - for (i=0; (i