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nobs/dh/sidh/internal/p434/curve_test.go

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2020-05-14 01:02:32 +01:00
// Code generated by go generate; DO NOT EDIT.
// This file was generated by robots.
package p434
import (
"bytes"
"testing"
. "github.com/henrydcase/nobs/dh/sidh/internal/common"
)
func vartimeEqProjFp2(lhs, rhs *ProjectivePoint) bool {
var t0, t1 Fp2
mul(&t0, &lhs.X, &rhs.Z)
mul(&t1, &lhs.Z, &rhs.X)
return vartimeEqFp2(&t0, &t1)
}
func toAffine(point *ProjectivePoint) *Fp2 {
var affineX Fp2
inv(&affineX, &point.Z)
mul(&affineX, &affineX, &point.X)
return &affineX
}
func Test_jInvariant(t *testing.T) {
var curve = ProjectiveCurveParameters{A: curveA, C: curveC}
var jbufRes = make([]byte, params.SharedSecretSize)
var jbufExp = make([]byte, params.SharedSecretSize)
var jInv Fp2
Jinvariant(&curve, &jInv)
FromMontgomery(&jInv, &jInv)
Fp2ToBytes(jbufRes, &jInv, params.Bytelen)
jInv = expectedJ
FromMontgomery(&jInv, &jInv)
Fp2ToBytes(jbufExp, &jInv, params.Bytelen)
if !bytes.Equal(jbufRes[:], jbufExp[:]) {
t.Error("Computed incorrect j-invariant: found\n", jbufRes, "\nexpected\n", jbufExp)
}
}
func TestProjectivePointVartimeEq(t *testing.T) {
var xP ProjectivePoint
xP = ProjectivePoint{X: affineXP, Z: params.OneFp2}
xQ := xP
// Scale xQ, which results in the same projective point
mul(&xQ.X, &xQ.X, &curveA)
mul(&xQ.Z, &xQ.Z, &curveA)
if !vartimeEqProjFp2(&xP, &xQ) {
t.Error("Expected the scaled point to be equal to the original")
}
}
func TestPointMulVersusSage(t *testing.T) {
var curve = ProjectiveCurveParameters{A: curveA, C: curveC}
var cparams = CalcCurveParamsEquiv4(&curve)
var xP ProjectivePoint
// x 2
xP = ProjectivePoint{X: affineXP, Z: params.OneFp2}
Pow2k(&xP, &cparams, 1)
afxQ := toAffine(&xP)
if !vartimeEqFp2(afxQ, &affineXP2) {
t.Error("\nExpected\n", affineXP2, "\nfound\n", afxQ)
}
// x 4
xP = ProjectivePoint{X: affineXP, Z: params.OneFp2}
Pow2k(&xP, &cparams, 2)
afxQ = toAffine(&xP)
if !vartimeEqFp2(afxQ, &affineXP4) {
t.Error("\nExpected\n", affineXP4, "\nfound\n", afxQ)
}
}
func TestPointMul9VersusSage(t *testing.T) {
var curve = ProjectiveCurveParameters{A: curveA, C: curveC}
var cparams = CalcCurveParamsEquiv3(&curve)
var xP ProjectivePoint
xP = ProjectivePoint{X: affineXP, Z: params.OneFp2}
Pow3k(&xP, &cparams, 2)
afxQ := toAffine(&xP)
if !vartimeEqFp2(afxQ, &affineXP9) {
t.Error("\nExpected\n", affineXP9, "\nfound\n", afxQ)
}
}
func BenchmarkThreePointLadder(b *testing.B) {
var curve = ProjectiveCurveParameters{A: curveA, C: curveC}
for n := 0; n < b.N; n++ {
ScalarMul3Pt(&curve, &threePointLadderInputs[0], &threePointLadderInputs[1], &threePointLadderInputs[2], uint(len(scalar3Pt)*8), scalar3Pt[:])
}
}