c.edS.Set(c.E)
c.edS.Sub(c.edS, c.D)
c.pos(c.edS)
- c.t.SetUint64(4)
- c.t.ModInverse(c.t, c.P)
- c.edS.Mul(c.edS, c.t)
+ var t big.Int
+ t.SetUint64(4)
+ t.ModInverse(&t, c.P)
+ c.edS.Mul(c.edS, &t)
c.edS.Mod(c.edS, c.P)
c.edT = big.NewInt(0)
c.edT.Set(c.E)
c.edT.Add(c.edT, c.D)
- c.t.SetUint64(6)
- c.t.ModInverse(c.t, c.P)
- c.edT.Mul(c.edT, c.t)
+ t.SetUint64(6)
+ t.ModInverse(&t, c.P)
+ c.edT.Mul(c.edT, &t)
c.edT.Mod(c.edT, c.P)
return c.edS, c.edT
}
// Convert Weierstrass X,Y coordinates to twisted Edwards U,V
-func XY2UV(curve *Curve, x, y *big.Int) (*big.Int, *big.Int) {
- if !curve.IsEdwards() {
+func XY2UV(c *Curve, x, y *big.Int) (*big.Int, *big.Int) {
+ if !c.IsEdwards() {
panic("non twisted Edwards curve")
}
- edS, edT := curve.EdwardsST()
- curve.t.Sub(x, edT)
- curve.pos(curve.t)
+ edS, edT := c.EdwardsST()
+ var t big.Int
+ t.Sub(x, edT)
+ c.pos(&t)
u := big.NewInt(0)
- u.ModInverse(y, curve.P)
- u.Mul(u, curve.t)
- u.Mod(u, curve.P)
- v := big.NewInt(0).Set(curve.t)
+ u.ModInverse(y, c.P)
+ u.Mul(u, &t)
+ u.Mod(u, c.P)
+ v := big.NewInt(0).Set(&t)
v.Sub(v, edS)
- curve.pos(v)
- curve.t.Add(curve.t, edS)
- curve.t.ModInverse(curve.t, curve.P)
- v.Mul(v, curve.t)
- v.Mod(v, curve.P)
+ c.pos(v)
+ t.Add(&t, edS)
+ t.ModInverse(&t, c.P)
+ v.Mul(v, &t)
+ v.Mod(v, c.P)
return u, v
}
// Convert twisted Edwards U,V coordinates to Weierstrass X,Y
-func UV2XY(curve *Curve, u, v *big.Int) (*big.Int, *big.Int) {
- if !curve.IsEdwards() {
+func UV2XY(c *Curve, u, v *big.Int) (*big.Int, *big.Int) {
+ if !c.IsEdwards() {
panic("non twisted Edwards curve")
}
- edS, edT := curve.EdwardsST()
- curve.tx.Add(bigInt1, v)
- curve.tx.Mul(curve.tx, edS)
- curve.tx.Mod(curve.tx, curve.P)
- curve.ty.Sub(bigInt1, v)
- curve.pos(curve.ty)
+ edS, edT := c.EdwardsST()
+ var tx, ty big.Int
+ tx.Add(bigInt1, v)
+ tx.Mul(&tx, edS)
+ tx.Mod(&tx, c.P)
+ ty.Sub(bigInt1, v)
+ c.pos(&ty)
x := big.NewInt(0)
- x.ModInverse(curve.ty, curve.P)
- x.Mul(x, curve.tx)
+ x.ModInverse(&ty, c.P)
+ x.Mul(x, &tx)
x.Add(x, edT)
- x.Mod(x, curve.P)
+ x.Mod(x, c.P)
y := big.NewInt(0)
- y.Mul(u, curve.ty)
- y.ModInverse(y, curve.P)
- y.Mul(y, curve.tx)
- y.Mod(y, curve.P)
+ y.Mul(u, &ty)
+ y.ModInverse(y, c.P)
+ y.Mul(y, &tx)
+ y.Mod(y, c.P)
return x, y
}