| /* |
| Licensed to the Apache Software Foundation (ASF) under one |
| or more contributor license agreements. See the NOTICE file |
| distributed with this work for additional information |
| regarding copyright ownership. The ASF licenses this file |
| to you under the Apache License, Version 2.0 (the |
| "License"); you may not use this file except in compliance |
| with the License. You may obtain a copy of the License at |
| |
| http://www.apache.org/licenses/LICENSE-2.0 |
| |
| Unless required by applicable law or agreed to in writing, |
| software distributed under the License is distributed on an |
| "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY |
| KIND, either express or implied. See the License for the |
| specific language governing permissions and limitations |
| under the License. |
| */ |
| |
| /* Test FP4 ARITHMETICS - test driver and function exerciser for FP4 API Functions */ |
| |
| var chai = require('chai'); |
| |
| var CTX = require("../index"); |
| |
| var expect = chai.expect; |
| |
| var pf_curves = ['BN254', 'BN254CX', 'BLS381', 'BLS383', 'BLS461', 'FP256BN', 'FP512BN', 'BLS24', 'BLS48']; |
| |
| var readBIG = function(string, ctx) { |
| while (string.length != ctx.BIG.MODBYTES*2){string = "00"+string;} |
| return ctx.BIG.fromBytes(Buffer.from(string, "hex")); |
| } |
| |
| var readFP2 = function(string, ctx) { |
| string = string.split(","); |
| var cox = string[0].slice(1); |
| var coy = string[1].slice(0,-1); |
| |
| var x = readBIG(cox,ctx); |
| var y = readBIG(coy,ctx); |
| |
| return new ctx.FP2(x,y);; |
| } |
| |
| var readFP4 = function(string, ctx) { |
| var X, Y; |
| |
| string = string.split("],["); |
| var cox = string[0].slice(1) + "]"; |
| var coy = "[" + string[1].slice(0,-1); |
| |
| X = readFP2(cox,ctx); |
| Y = readFP2(coy,ctx); |
| |
| return new ctx.FP4(X,Y); |
| } |
| |
| describe('TEST FP4 ARITHMETIC', function() { |
| |
| pf_curves.forEach(function(curve){ |
| |
| it('test '+ curve, function(done) { |
| this.timeout(0); |
| |
| var ctx = new CTX(curve); |
| var vectors = require('../testVectors/fp4/'+curve+'.json'); |
| var i=0; |
| |
| var a1 = new ctx.FP4(1), |
| a2 = new ctx.FP4(0), |
| one = new ctx.FP4(1), |
| zero = new ctx.FP4(0), |
| fp2one = new ctx.FP2(1), |
| fp2zero = new ctx.FP2(0); |
| |
| // Test iszilch and isunity |
| expect(zero.iszilch()).to.be.true; |
| expect(one.iszilch()).to.be.false; |
| expect(zero.isunity()).to.be.false; |
| expect(one.isunity()).to.be.true; |
| |
| // Test real/isreal |
| expect(one.isreal()).to.be.true; |
| expect(one.real().toString()).to.be.equal(fp2one.toString()); |
| one.times_i(); |
| expect(one.isreal()).to.be.false; |
| expect(one.real().toString()).to.be.equal(fp2zero.toString()); |
| |
| // Test set using FP2 |
| one.set(fp2one,fp2zero); |
| expect(one.isunity()).to.be.true; |
| one.seta(fp2one); |
| expect(one.isunity()).to.be.true; |
| |
| // Test handling sqrt 0,1 |
| a1.zero(); |
| expect(a1.sqrt()).to.be.true; |
| expect(a1.toString()).to.equal(zero.toString()); |
| a1.one(); |
| expect(a1.sqrt()).to.be.true; |
| expect(a1.toString()).to.equal(one.toString()); |
| |
| vectors.forEach(function(vector){ |
| |
| // test commutativity of addition |
| var fp41 = readFP4(vector.FP41,ctx); |
| var fp42 = readFP4(vector.FP42,ctx); |
| var fp4add = readFP4(vector.FP4add,ctx); |
| |
| a1.copy(fp41); |
| a1.add(fp42); |
| expect(a1.toString()).to.equal(fp4add.toString()); |
| a2.copy(fp42); |
| a2.add(fp41); |
| expect(a2.toString()).to.equal(fp4add.toString()); |
| |
| // test associativity of addition |
| a2.add(fp4add); |
| a1.copy(fp41); |
| a1.add(fp4add); |
| a1.add(fp42); |
| expect(a1.toString()).to.equal(a2.toString()); |
| |
| // test subtraction |
| var fp4sub = readFP4(vector.FP4sub, ctx); |
| a1.copy(fp41); |
| a1.sub(fp42); |
| expect(a1.toString()).to.equal(fp4sub.toString()); |
| |
| // test negative of a FP4 |
| var fp4neg = readFP4(vector.FP4neg, ctx); |
| a1.copy(fp41); |
| a1.neg(); |
| expect(a1.toString()).to.equal(fp4neg.toString()); |
| |
| // test conjugate of a FP4 |
| var fp4conj = readFP4(vector.FP4conj, ctx); |
| a1.copy(fp41); |
| a1.conj(); |
| expect(a1.toString()).to.equal(fp4conj.toString()); |
| |
| // test negative conjugate of a FP4 |
| var fp4nconj = readFP4(vector.FP4nconj, ctx); |
| a1.copy(fp41); |
| a1.nconj(); |
| expect(a1.toString()).to.equal(fp4nconj.toString()); |
| |
| // test multiplication by FP2 |
| var fp4pmul = readFP4(vector.FP4pmul, ctx); |
| var fp2sc = readFP2(vector.FP2sc, ctx); |
| a1.copy(fp41); |
| a1.pmul(fp2sc); |
| expect(a1.toString()).to.equal(fp4pmul.toString()); |
| |
| // test small scalar multiplication |
| var fp4imul = readFP4(vector.FP4imul, ctx); |
| a1.copy(fp41); |
| a1.imul(i); |
| expect(a1.toString()).to.equal(fp4imul.toString()); |
| i++; |
| |
| // test square |
| var fp4sqr = readFP4(vector.FP4sqr, ctx); |
| a1.copy(fp41); |
| a1.sqr(); |
| expect(a1.toString()).to.equal(fp4sqr.toString()); |
| |
| // test multiplication |
| var fp4mul = readFP4(vector.FP4mul, ctx); |
| a1.copy(fp41); |
| a1.mul(fp42); |
| expect(a1.toString()).to.equal(fp4mul.toString()); |
| |
| // test power |
| var fp4pow = readFP4(vector.FP4pow, ctx); |
| var BIGsc1 = readBIG(vector.BIGsc1, ctx); |
| a1 = fp41.pow(BIGsc1); |
| expect(a1.toString()).to.equal(fp4pow.toString()); |
| |
| // test inverse |
| var fp4inv = readFP4(vector.FP4inv, ctx); |
| a1.copy(fp41); |
| a1.inverse(); |
| expect(a1.toString()).to.equal(fp4inv.toString()); |
| |
| // test multiplication by sqrt(1+sqrt(-1)) |
| var fp4mulj = readFP4(vector.FP4mulj, ctx); |
| a1.copy(fp41); |
| a1.times_i(); |
| expect(a1.toString()).to.equal(fp4mulj.toString()); |
| |
| // // test the XTR addition function r=w*x-conj(x)*y+z |
| var fp4xtrA = readFP4(vector.FP4xtrA, ctx); |
| a1.copy(fp42); |
| a1.xtr_A(fp41,fp4add,fp4sub); |
| expect(a1.toString()).to.equal(fp4xtrA.toString()); |
| |
| // test the XTR addition function r=w*x-conj(x)*y+z |
| var fp4xtrD = readFP4(vector.FP4xtrD, ctx); |
| a1.copy(fp41); |
| a1.xtr_D(); |
| expect(a1.toString()).to.equal(fp4xtrD.toString()); |
| |
| // test the XTR single power r=Tr(x^e) |
| var fp4xtrpow = readFP4(vector.FP4xtrpow, ctx); |
| var fp121 = readFP4(vector.FP121, ctx); |
| a1 = fp121.xtr_pow(BIGsc1); |
| expect(a1.toString()).to.equal(fp4xtrpow.toString()); |
| |
| // test the XTR double power r=Tr(x^e) |
| var fp4xtrpow2 = readFP4(vector.FP4xtrpow2, ctx); |
| var fp122 = readFP4(vector.FP122, ctx); |
| var fp123 = readFP4(vector.FP123, ctx); |
| var fp124 = readFP4(vector.FP124, ctx); |
| var BIGsc2 = readBIG(vector.BIGsc2, ctx); |
| a1 = fp121.xtr_pow2(fp122,fp123,fp124,BIGsc2,BIGsc1); |
| expect(a1.toString()).to.equal(fp4xtrpow2.toString()); |
| |
| if (ctx.ECP.AESKEY > 16) { |
| // Test division by 2 |
| var fp4div2 = readFP4(vector.FP4div2, ctx); |
| a1.copy(fp41); |
| a1.div2(); |
| expect(a1.toString()).to.equal(fp4div2.toString()); |
| |
| // Test division by i |
| var fp4divi = readFP4(vector.FP4divi, ctx); |
| a1.copy(fp41); |
| a1.div_i(); |
| expect(a1.toString()).to.equal(fp4divi.toString()) |
| |
| // Test division by 2i |
| var fp4div2i = readFP4(vector.FP4div2i, ctx); |
| a1.copy(fp41); |
| a1.div_2i(); |
| expect(a1.toString()).to.equal(fp4div2i.toString()) |
| |
| // Test square root |
| var fp4sqrt = readFP4(vector.FP4sqrt, ctx); |
| a1.copy(fp41); |
| expect(a1.sqrt()).to.equal(true); |
| expect(a1).to.satisfy(function(p) { |
| if(fp4sqrt.toString() === p.toString()) { |
| return true; |
| } else { |
| fp4sqrt.neg(); |
| } |
| return fp4sqrt.toString() === p.toString(); |
| }); |
| } |
| }); |
| done(); |
| }); |
| }); |
| }); |
