mirror of
https://github.com/42wim/matterbridge.git
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130 lines
3.7 KiB
Go
130 lines
3.7 KiB
Go
// Copyright (c) 2019 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package edwards25519
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import (
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"crypto/subtle"
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)
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// A dynamic lookup table for variable-base, constant-time scalar muls.
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type projLookupTable struct {
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points [8]projCached
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}
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// A precomputed lookup table for fixed-base, constant-time scalar muls.
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type affineLookupTable struct {
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points [8]affineCached
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}
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// A dynamic lookup table for variable-base, variable-time scalar muls.
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type nafLookupTable5 struct {
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points [8]projCached
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}
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// A precomputed lookup table for fixed-base, variable-time scalar muls.
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type nafLookupTable8 struct {
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points [64]affineCached
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}
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// Constructors.
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// Builds a lookup table at runtime. Fast.
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func (v *projLookupTable) FromP3(q *Point) {
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// Goal: v.points[i] = (i+1)*Q, i.e., Q, 2Q, ..., 8Q
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// This allows lookup of -8Q, ..., -Q, 0, Q, ..., 8Q
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v.points[0].FromP3(q)
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tmpP3 := Point{}
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tmpP1xP1 := projP1xP1{}
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for i := 0; i < 7; i++ {
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// Compute (i+1)*Q as Q + i*Q and convert to a ProjCached
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// This is needlessly complicated because the API has explicit
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// recievers instead of creating stack objects and relying on RVO
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v.points[i+1].FromP3(tmpP3.fromP1xP1(tmpP1xP1.Add(q, &v.points[i])))
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}
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}
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// This is not optimised for speed; fixed-base tables should be precomputed.
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func (v *affineLookupTable) FromP3(q *Point) {
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// Goal: v.points[i] = (i+1)*Q, i.e., Q, 2Q, ..., 8Q
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// This allows lookup of -8Q, ..., -Q, 0, Q, ..., 8Q
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v.points[0].FromP3(q)
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tmpP3 := Point{}
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tmpP1xP1 := projP1xP1{}
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for i := 0; i < 7; i++ {
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// Compute (i+1)*Q as Q + i*Q and convert to AffineCached
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v.points[i+1].FromP3(tmpP3.fromP1xP1(tmpP1xP1.AddAffine(q, &v.points[i])))
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}
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}
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// Builds a lookup table at runtime. Fast.
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func (v *nafLookupTable5) FromP3(q *Point) {
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// Goal: v.points[i] = (2*i+1)*Q, i.e., Q, 3Q, 5Q, ..., 15Q
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// This allows lookup of -15Q, ..., -3Q, -Q, 0, Q, 3Q, ..., 15Q
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v.points[0].FromP3(q)
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q2 := Point{}
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q2.Add(q, q)
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tmpP3 := Point{}
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tmpP1xP1 := projP1xP1{}
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for i := 0; i < 7; i++ {
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v.points[i+1].FromP3(tmpP3.fromP1xP1(tmpP1xP1.Add(&q2, &v.points[i])))
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}
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}
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// This is not optimised for speed; fixed-base tables should be precomputed.
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func (v *nafLookupTable8) FromP3(q *Point) {
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v.points[0].FromP3(q)
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q2 := Point{}
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q2.Add(q, q)
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tmpP3 := Point{}
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tmpP1xP1 := projP1xP1{}
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for i := 0; i < 63; i++ {
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v.points[i+1].FromP3(tmpP3.fromP1xP1(tmpP1xP1.AddAffine(&q2, &v.points[i])))
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}
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}
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// Selectors.
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// Set dest to x*Q, where -8 <= x <= 8, in constant time.
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func (v *projLookupTable) SelectInto(dest *projCached, x int8) {
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// Compute xabs = |x|
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xmask := x >> 7
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xabs := uint8((x + xmask) ^ xmask)
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dest.Zero()
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for j := 1; j <= 8; j++ {
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// Set dest = j*Q if |x| = j
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cond := subtle.ConstantTimeByteEq(xabs, uint8(j))
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dest.Select(&v.points[j-1], dest, cond)
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}
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// Now dest = |x|*Q, conditionally negate to get x*Q
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dest.CondNeg(int(xmask & 1))
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}
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// Set dest to x*Q, where -8 <= x <= 8, in constant time.
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func (v *affineLookupTable) SelectInto(dest *affineCached, x int8) {
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// Compute xabs = |x|
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xmask := x >> 7
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xabs := uint8((x + xmask) ^ xmask)
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dest.Zero()
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for j := 1; j <= 8; j++ {
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// Set dest = j*Q if |x| = j
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cond := subtle.ConstantTimeByteEq(xabs, uint8(j))
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dest.Select(&v.points[j-1], dest, cond)
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}
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// Now dest = |x|*Q, conditionally negate to get x*Q
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dest.CondNeg(int(xmask & 1))
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}
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// Given odd x with 0 < x < 2^4, return x*Q (in variable time).
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func (v *nafLookupTable5) SelectInto(dest *projCached, x int8) {
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*dest = v.points[x/2]
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}
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// Given odd x with 0 < x < 2^7, return x*Q (in variable time).
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func (v *nafLookupTable8) SelectInto(dest *affineCached, x int8) {
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*dest = v.points[x/2]
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}
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