mirror of
https://github.com/cheat/cheat.git
synced 2024-11-25 15:31:36 +01:00
80c91cbdee
Integrate `go-git` into the application, and use it to `git clone` cheatsheets when the installer runs. Previously, the installer required that `git` be installed on the system `PATH`, so this change has to big advantages: 1. It removes that system dependency on `git` 2. It paves the way for implementing the `--update` command Additionally, `cheat` now performs a `--depth=1` clone when installing cheatsheets, which should at least somewhat improve installation times (especially on slow network connections).
139 lines
3.0 KiB
Go
139 lines
3.0 KiB
Go
package goldilocks
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import (
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"crypto/subtle"
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"math/bits"
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"github.com/cloudflare/circl/internal/conv"
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"github.com/cloudflare/circl/math"
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fp "github.com/cloudflare/circl/math/fp448"
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)
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// twistCurve is -x^2+y^2=1-39082x^2y^2 and is 4-isogeneous to Goldilocks.
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type twistCurve struct{}
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// Identity returns the identity point.
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func (twistCurve) Identity() *twistPoint {
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return &twistPoint{
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y: fp.One(),
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z: fp.One(),
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}
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}
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// subYDiv16 update x = (x - y) / 16.
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func subYDiv16(x *scalar64, y int64) {
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s := uint64(y >> 63)
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x0, b0 := bits.Sub64((*x)[0], uint64(y), 0)
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x1, b1 := bits.Sub64((*x)[1], s, b0)
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x2, b2 := bits.Sub64((*x)[2], s, b1)
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x3, b3 := bits.Sub64((*x)[3], s, b2)
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x4, b4 := bits.Sub64((*x)[4], s, b3)
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x5, b5 := bits.Sub64((*x)[5], s, b4)
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x6, _ := bits.Sub64((*x)[6], s, b5)
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x[0] = (x0 >> 4) | (x1 << 60)
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x[1] = (x1 >> 4) | (x2 << 60)
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x[2] = (x2 >> 4) | (x3 << 60)
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x[3] = (x3 >> 4) | (x4 << 60)
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x[4] = (x4 >> 4) | (x5 << 60)
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x[5] = (x5 >> 4) | (x6 << 60)
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x[6] = (x6 >> 4)
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}
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func recodeScalar(d *[113]int8, k *Scalar) {
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var k64 scalar64
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k64.fromScalar(k)
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for i := 0; i < 112; i++ {
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d[i] = int8((k64[0] & 0x1f) - 16)
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subYDiv16(&k64, int64(d[i]))
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}
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d[112] = int8(k64[0])
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}
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// ScalarMult returns kP.
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func (e twistCurve) ScalarMult(k *Scalar, P *twistPoint) *twistPoint {
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var TabP [8]preTwistPointProy
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var S preTwistPointProy
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var d [113]int8
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var isZero int
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if k.IsZero() {
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isZero = 1
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}
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subtle.ConstantTimeCopy(isZero, k[:], order[:])
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minusK := *k
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isEven := 1 - int(k[0]&0x1)
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minusK.Neg()
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subtle.ConstantTimeCopy(isEven, k[:], minusK[:])
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recodeScalar(&d, k)
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P.oddMultiples(TabP[:])
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Q := e.Identity()
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for i := 112; i >= 0; i-- {
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Q.Double()
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Q.Double()
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Q.Double()
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Q.Double()
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mask := d[i] >> 7
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absDi := (d[i] + mask) ^ mask
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inx := int32((absDi - 1) >> 1)
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sig := int((d[i] >> 7) & 0x1)
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for j := range TabP {
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S.cmov(&TabP[j], uint(subtle.ConstantTimeEq(inx, int32(j))))
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}
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S.cneg(sig)
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Q.mixAdd(&S)
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}
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Q.cneg(uint(isEven))
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return Q
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}
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const (
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omegaFix = 7
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omegaVar = 5
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)
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// CombinedMult returns mG+nP.
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func (e twistCurve) CombinedMult(m, n *Scalar, P *twistPoint) *twistPoint {
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nafFix := math.OmegaNAF(conv.BytesLe2BigInt(m[:]), omegaFix)
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nafVar := math.OmegaNAF(conv.BytesLe2BigInt(n[:]), omegaVar)
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if len(nafFix) > len(nafVar) {
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nafVar = append(nafVar, make([]int32, len(nafFix)-len(nafVar))...)
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} else if len(nafFix) < len(nafVar) {
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nafFix = append(nafFix, make([]int32, len(nafVar)-len(nafFix))...)
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}
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var TabQ [1 << (omegaVar - 2)]preTwistPointProy
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P.oddMultiples(TabQ[:])
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Q := e.Identity()
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for i := len(nafFix) - 1; i >= 0; i-- {
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Q.Double()
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// Generator point
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if nafFix[i] != 0 {
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idxM := absolute(nafFix[i]) >> 1
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R := tabVerif[idxM]
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if nafFix[i] < 0 {
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R.neg()
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}
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Q.mixAddZ1(&R)
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}
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// Variable input point
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if nafVar[i] != 0 {
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idxN := absolute(nafVar[i]) >> 1
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S := TabQ[idxN]
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if nafVar[i] < 0 {
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S.neg()
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}
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Q.mixAdd(&S)
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}
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}
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return Q
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}
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// absolute returns always a positive value.
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func absolute(x int32) int32 {
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mask := x >> 31
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return (x + mask) ^ mask
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}
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