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204 lines
5 KiB
Go
204 lines
5 KiB
Go
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package goldilocks
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import (
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"encoding/binary"
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"math/bits"
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)
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// ScalarSize is the size (in bytes) of scalars.
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const ScalarSize = 56 // 448 / 8
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// _N is the number of 64-bit words to store scalars.
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const _N = 7 // 448 / 64
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// Scalar represents a positive integer stored in little-endian order.
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type Scalar [ScalarSize]byte
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type scalar64 [_N]uint64
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func (z *scalar64) fromScalar(x *Scalar) {
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z[0] = binary.LittleEndian.Uint64(x[0*8 : 1*8])
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z[1] = binary.LittleEndian.Uint64(x[1*8 : 2*8])
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z[2] = binary.LittleEndian.Uint64(x[2*8 : 3*8])
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z[3] = binary.LittleEndian.Uint64(x[3*8 : 4*8])
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z[4] = binary.LittleEndian.Uint64(x[4*8 : 5*8])
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z[5] = binary.LittleEndian.Uint64(x[5*8 : 6*8])
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z[6] = binary.LittleEndian.Uint64(x[6*8 : 7*8])
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}
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func (z *scalar64) toScalar(x *Scalar) {
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binary.LittleEndian.PutUint64(x[0*8:1*8], z[0])
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binary.LittleEndian.PutUint64(x[1*8:2*8], z[1])
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binary.LittleEndian.PutUint64(x[2*8:3*8], z[2])
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binary.LittleEndian.PutUint64(x[3*8:4*8], z[3])
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binary.LittleEndian.PutUint64(x[4*8:5*8], z[4])
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binary.LittleEndian.PutUint64(x[5*8:6*8], z[5])
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binary.LittleEndian.PutUint64(x[6*8:7*8], z[6])
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}
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// add calculates z = x + y. Assumes len(z) > max(len(x),len(y)).
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func add(z, x, y []uint64) uint64 {
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l, L, zz := len(x), len(y), y
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if l > L {
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l, L, zz = L, l, x
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}
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c := uint64(0)
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for i := 0; i < l; i++ {
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z[i], c = bits.Add64(x[i], y[i], c)
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}
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for i := l; i < L; i++ {
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z[i], c = bits.Add64(zz[i], 0, c)
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}
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return c
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}
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// sub calculates z = x - y. Assumes len(z) > max(len(x),len(y)).
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func sub(z, x, y []uint64) uint64 {
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l, L, zz := len(x), len(y), y
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if l > L {
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l, L, zz = L, l, x
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}
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c := uint64(0)
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for i := 0; i < l; i++ {
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z[i], c = bits.Sub64(x[i], y[i], c)
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}
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for i := l; i < L; i++ {
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z[i], c = bits.Sub64(zz[i], 0, c)
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}
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return c
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}
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// mulWord calculates z = x * y. Assumes len(z) >= len(x)+1.
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func mulWord(z, x []uint64, y uint64) {
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for i := range z {
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z[i] = 0
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}
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carry := uint64(0)
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for i := range x {
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hi, lo := bits.Mul64(x[i], y)
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lo, cc := bits.Add64(lo, z[i], 0)
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hi, _ = bits.Add64(hi, 0, cc)
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z[i], cc = bits.Add64(lo, carry, 0)
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carry, _ = bits.Add64(hi, 0, cc)
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}
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z[len(x)] = carry
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}
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// Cmov moves x into z if b=1.
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func (z *scalar64) Cmov(b uint64, x *scalar64) {
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m := uint64(0) - b
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for i := range z {
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z[i] = (z[i] &^ m) | (x[i] & m)
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}
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}
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// leftShift shifts to the left the words of z returning the more significant word.
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func (z *scalar64) leftShift(low uint64) uint64 {
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high := z[_N-1]
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for i := _N - 1; i > 0; i-- {
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z[i] = z[i-1]
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}
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z[0] = low
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return high
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}
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// reduceOneWord calculates z = z + 2^448*x such that the result fits in a Scalar.
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func (z *scalar64) reduceOneWord(x uint64) {
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prod := (&scalar64{})[:]
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mulWord(prod, residue448[:], x)
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cc := add(z[:], z[:], prod)
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mulWord(prod, residue448[:], cc)
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add(z[:], z[:], prod)
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}
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// modOrder reduces z mod order.
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func (z *scalar64) modOrder() {
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var o64, x scalar64
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o64.fromScalar(&order)
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// Performs: while (z >= order) { z = z-order }
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// At most 8 (eight) iterations reduce 3 bits by subtracting.
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for i := 0; i < 8; i++ {
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c := sub(x[:], z[:], o64[:]) // (c || x) = z-order
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z.Cmov(1-c, &x) // if c != 0 { z = x }
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}
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}
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// FromBytes stores z = x mod order, where x is a number stored in little-endian order.
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func (z *Scalar) FromBytes(x []byte) {
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n := len(x)
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nCeil := (n + 7) >> 3
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for i := range z {
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z[i] = 0
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}
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if nCeil < _N {
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copy(z[:], x)
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return
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}
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copy(z[:], x[8*(nCeil-_N):])
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var z64 scalar64
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z64.fromScalar(z)
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for i := nCeil - _N - 1; i >= 0; i-- {
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low := binary.LittleEndian.Uint64(x[8*i:])
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high := z64.leftShift(low)
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z64.reduceOneWord(high)
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}
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z64.modOrder()
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z64.toScalar(z)
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}
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// divBy4 calculates z = x/4 mod order.
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func (z *Scalar) divBy4(x *Scalar) { z.Mul(x, &invFour) }
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// Red reduces z mod order.
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func (z *Scalar) Red() { var t scalar64; t.fromScalar(z); t.modOrder(); t.toScalar(z) }
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// Neg calculates z = -z mod order.
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func (z *Scalar) Neg() { z.Sub(&order, z) }
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// Add calculates z = x+y mod order.
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func (z *Scalar) Add(x, y *Scalar) {
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var z64, x64, y64, t scalar64
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x64.fromScalar(x)
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y64.fromScalar(y)
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c := add(z64[:], x64[:], y64[:])
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add(t[:], z64[:], residue448[:])
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z64.Cmov(c, &t)
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z64.modOrder()
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z64.toScalar(z)
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}
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// Sub calculates z = x-y mod order.
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func (z *Scalar) Sub(x, y *Scalar) {
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var z64, x64, y64, t scalar64
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x64.fromScalar(x)
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y64.fromScalar(y)
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c := sub(z64[:], x64[:], y64[:])
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sub(t[:], z64[:], residue448[:])
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z64.Cmov(c, &t)
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z64.modOrder()
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z64.toScalar(z)
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}
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// Mul calculates z = x*y mod order.
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func (z *Scalar) Mul(x, y *Scalar) {
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var z64, x64, y64 scalar64
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prod := (&[_N + 1]uint64{})[:]
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x64.fromScalar(x)
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y64.fromScalar(y)
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mulWord(prod, x64[:], y64[_N-1])
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copy(z64[:], prod[:_N])
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z64.reduceOneWord(prod[_N])
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for i := _N - 2; i >= 0; i-- {
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h := z64.leftShift(0)
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z64.reduceOneWord(h)
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mulWord(prod, x64[:], y64[i])
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c := add(z64[:], z64[:], prod[:_N])
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z64.reduceOneWord(prod[_N] + c)
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}
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z64.modOrder()
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z64.toScalar(z)
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}
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// IsZero returns true if z=0.
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func (z *Scalar) IsZero() bool { z.Red(); return *z == Scalar{} }
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