2019-11-24 03:39:35 +00:00
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package csidh
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import (
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"math/bits"
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"golang.org/x/sys/cpu"
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)
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// CPU Capabilities. Those flags are referred by assembly code. According to
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// https://github.com/golang/go/issues/28230, variables referred from the
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// assembly must be in the same package.
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// We declare variables not constants, in order to facilitate testing.
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var (
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// Signals support for BMI2 (MULX)
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2020-05-14 00:48:43 +01:00
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hasBMI2 = cpu.X86.HasBMI2 //nolint
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2019-11-24 03:39:35 +00:00
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// Signals support for ADX and BMI2
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hasADXandBMI2 = cpu.X86.HasBMI2 && cpu.X86.HasADX
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)
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// Constant time select.
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// if pick == 0xFF..FF (out = in1)
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// if pick == 0 (out = in2)
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2020-05-14 00:48:43 +01:00
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// else out is undefined.
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2019-11-24 03:39:35 +00:00
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func ctPick64(which uint64, in1, in2 uint64) uint64 {
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return (in1 & which) | (in2 & ^which)
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}
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// ctIsNonZero64 returns 0 in case i == 0, otherwise it returns 1.
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// Constant-time.
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func ctIsNonZero64(i uint64) int {
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// In case i==0 then i-1 will set MSB. Only in such case (i OR ~(i-1))
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// will result in MSB being not set (logical implication: (i-1)=>i is
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// false iff (i-1)==0 and i==non-zero). In every other case MSB is
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// set and hence function returns 1.
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return int((i | (^(i - 1))) >> 63)
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}
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func mulGeneric(r, x, y *fp) {
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var s fp // keeps intermediate results
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var t1, t2 [9]uint64
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var c, q uint64
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for i := 0; i < numWords-1; i++ {
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q = ((x[i] * y[0]) + s[0]) * pNegInv[0]
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mul576(&t1, &p, q)
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mul576(&t2, y, x[i])
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// x[i]*y + q_i*p
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t1[0], c = bits.Add64(t1[0], t2[0], 0)
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t1[1], c = bits.Add64(t1[1], t2[1], c)
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t1[2], c = bits.Add64(t1[2], t2[2], c)
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t1[3], c = bits.Add64(t1[3], t2[3], c)
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t1[4], c = bits.Add64(t1[4], t2[4], c)
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t1[5], c = bits.Add64(t1[5], t2[5], c)
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t1[6], c = bits.Add64(t1[6], t2[6], c)
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t1[7], c = bits.Add64(t1[7], t2[7], c)
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t1[8], _ = bits.Add64(t1[8], t2[8], c)
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// s = (s + x[i]*y + q_i * p) / R
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_, c = bits.Add64(t1[0], s[0], 0)
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s[0], c = bits.Add64(t1[1], s[1], c)
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s[1], c = bits.Add64(t1[2], s[2], c)
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s[2], c = bits.Add64(t1[3], s[3], c)
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s[3], c = bits.Add64(t1[4], s[4], c)
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s[4], c = bits.Add64(t1[5], s[5], c)
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s[5], c = bits.Add64(t1[6], s[6], c)
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s[6], c = bits.Add64(t1[7], s[7], c)
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s[7], _ = bits.Add64(t1[8], 0, c)
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}
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// last iteration stores result in r
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q = ((x[numWords-1] * y[0]) + s[0]) * pNegInv[0]
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mul576(&t1, &p, q)
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mul576(&t2, y, x[numWords-1])
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t1[0], c = bits.Add64(t1[0], t2[0], c)
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t1[1], c = bits.Add64(t1[1], t2[1], c)
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t1[2], c = bits.Add64(t1[2], t2[2], c)
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t1[3], c = bits.Add64(t1[3], t2[3], c)
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t1[4], c = bits.Add64(t1[4], t2[4], c)
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t1[5], c = bits.Add64(t1[5], t2[5], c)
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t1[6], c = bits.Add64(t1[6], t2[6], c)
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t1[7], c = bits.Add64(t1[7], t2[7], c)
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t1[8], _ = bits.Add64(t1[8], t2[8], c)
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_, c = bits.Add64(t1[0], s[0], 0)
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r[0], c = bits.Add64(t1[1], s[1], c)
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r[1], c = bits.Add64(t1[2], s[2], c)
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r[2], c = bits.Add64(t1[3], s[3], c)
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r[3], c = bits.Add64(t1[4], s[4], c)
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r[4], c = bits.Add64(t1[5], s[5], c)
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r[5], c = bits.Add64(t1[6], s[6], c)
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r[6], c = bits.Add64(t1[7], s[7], c)
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r[7], _ = bits.Add64(t1[8], 0, c)
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}
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// Returns result of x<y operation.
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func isLess(x, y *fp) bool {
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for i := numWords - 1; i >= 0; i-- {
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v, c := bits.Sub64(y[i], x[i], 0)
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if c != 0 {
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return false
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}
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if v != 0 {
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return true
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}
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}
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// x == y
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return false
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}
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// r = x + y mod p.
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func addRdc(r, x, y *fp) {
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var c uint64
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var t fp
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r[0], c = bits.Add64(x[0], y[0], 0)
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r[1], c = bits.Add64(x[1], y[1], c)
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r[2], c = bits.Add64(x[2], y[2], c)
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r[3], c = bits.Add64(x[3], y[3], c)
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r[4], c = bits.Add64(x[4], y[4], c)
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r[5], c = bits.Add64(x[5], y[5], c)
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r[6], c = bits.Add64(x[6], y[6], c)
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r[7], _ = bits.Add64(x[7], y[7], c)
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t[0], c = bits.Sub64(r[0], p[0], 0)
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t[1], c = bits.Sub64(r[1], p[1], c)
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t[2], c = bits.Sub64(r[2], p[2], c)
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t[3], c = bits.Sub64(r[3], p[3], c)
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t[4], c = bits.Sub64(r[4], p[4], c)
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t[5], c = bits.Sub64(r[5], p[5], c)
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t[6], c = bits.Sub64(r[6], p[6], c)
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t[7], c = bits.Sub64(r[7], p[7], c)
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var w = 0 - c
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r[0] = ctPick64(w, r[0], t[0])
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r[1] = ctPick64(w, r[1], t[1])
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r[2] = ctPick64(w, r[2], t[2])
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r[3] = ctPick64(w, r[3], t[3])
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r[4] = ctPick64(w, r[4], t[4])
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r[5] = ctPick64(w, r[5], t[5])
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r[6] = ctPick64(w, r[6], t[6])
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r[7] = ctPick64(w, r[7], t[7])
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}
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2020-05-14 00:48:43 +01:00
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// r = x - y.
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2019-11-24 03:39:35 +00:00
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func sub512(r, x, y *fp) uint64 {
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var c uint64
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r[0], c = bits.Sub64(x[0], y[0], 0)
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r[1], c = bits.Sub64(x[1], y[1], c)
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r[2], c = bits.Sub64(x[2], y[2], c)
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r[3], c = bits.Sub64(x[3], y[3], c)
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r[4], c = bits.Sub64(x[4], y[4], c)
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r[5], c = bits.Sub64(x[5], y[5], c)
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r[6], c = bits.Sub64(x[6], y[6], c)
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r[7], c = bits.Sub64(x[7], y[7], c)
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return c
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}
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// r = x - y mod p.
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func subRdc(r, x, y *fp) {
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var c uint64
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// Same as sub512(r,x,y). Unfortunately
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// compiler is not able to inline it.
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r[0], c = bits.Sub64(x[0], y[0], 0)
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r[1], c = bits.Sub64(x[1], y[1], c)
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r[2], c = bits.Sub64(x[2], y[2], c)
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r[3], c = bits.Sub64(x[3], y[3], c)
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r[4], c = bits.Sub64(x[4], y[4], c)
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r[5], c = bits.Sub64(x[5], y[5], c)
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r[6], c = bits.Sub64(x[6], y[6], c)
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r[7], c = bits.Sub64(x[7], y[7], c)
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// if x<y => r=x-y+p
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var w = 0 - c
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r[0], c = bits.Add64(r[0], ctPick64(w, p[0], 0), 0)
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r[1], c = bits.Add64(r[1], ctPick64(w, p[1], 0), c)
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r[2], c = bits.Add64(r[2], ctPick64(w, p[2], 0), c)
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r[3], c = bits.Add64(r[3], ctPick64(w, p[3], 0), c)
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r[4], c = bits.Add64(r[4], ctPick64(w, p[4], 0), c)
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r[5], c = bits.Add64(r[5], ctPick64(w, p[5], 0), c)
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r[6], c = bits.Add64(r[6], ctPick64(w, p[6], 0), c)
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r[7], _ = bits.Add64(r[7], ctPick64(w, p[7], 0), c)
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}
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// Fixed-window mod exp for fpBitLen bit value with 4 bit window. Returned
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// result is a number in montgomery domain.
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// r = b ^ e (mod p).
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// Constant time.
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func modExpRdcCommon(r, b, e *fp, fpBitLen int) {
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var precomp [16]fp
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var t fp
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var c uint64
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// Precompute step, computes an array of small powers of 'b'. As this
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// algorithm implements 4-bit window, we need 2^4=16 of such values.
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// b^0 = 1, which is equal to R from REDC.
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precomp[0] = one // b ^ 0
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precomp[1] = *b // b ^ 1
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for i := 2; i < 16; i = i + 2 {
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2020-05-14 00:48:43 +01:00
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// OPTIMIZE: implement fast squering. Then interleaving fast squaring
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2019-11-24 03:39:35 +00:00
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// with multiplication should improve performance.
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mulRdc(&precomp[i], &precomp[i/2], &precomp[i/2]) // sqr
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mulRdc(&precomp[i+1], &precomp[i], b)
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}
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*r = one
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for i := fpBitLen/4 - 1; i >= 0; i-- {
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for j := 0; j < 4; j++ {
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mulRdc(r, r, r)
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}
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// note: non resistant to cache SCA
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idx := (e[i/16] >> uint((i%16)*4)) & 15
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mulRdc(r, r, &precomp[idx])
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}
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// if p <= r < 2p then r = r-p
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t[0], c = bits.Sub64(r[0], p[0], 0)
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t[1], c = bits.Sub64(r[1], p[1], c)
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t[2], c = bits.Sub64(r[2], p[2], c)
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t[3], c = bits.Sub64(r[3], p[3], c)
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t[4], c = bits.Sub64(r[4], p[4], c)
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t[5], c = bits.Sub64(r[5], p[5], c)
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t[6], c = bits.Sub64(r[6], p[6], c)
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t[7], c = bits.Sub64(r[7], p[7], c)
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var w = 0 - c
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r[0] = ctPick64(w, r[0], t[0])
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r[1] = ctPick64(w, r[1], t[1])
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r[2] = ctPick64(w, r[2], t[2])
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r[3] = ctPick64(w, r[3], t[3])
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r[4] = ctPick64(w, r[4], t[4])
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r[5] = ctPick64(w, r[5], t[5])
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r[6] = ctPick64(w, r[6], t[6])
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r[7] = ctPick64(w, r[7], t[7])
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}
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// modExpRdc does modular exponentation of 512-bit number.
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// Constant-time.
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func modExpRdc512(r, b, e *fp) {
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modExpRdcCommon(r, b, e, 512)
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}
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// modExpRdc does modular exponentation of 64-bit number.
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// Constant-time.
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func modExpRdc64(r, b *fp, e uint64) {
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modExpRdcCommon(r, b, &fp{e}, 64)
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}
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// isNonQuadRes checks whether value v is quadratic residue.
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// Implementation uses Fermat's little theorem (or
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// Euler's criterion)
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// a^(p-1) == 1, hence
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// (a^2) ((p-1)/2) == 1
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// Which means v is a quadratic residue iff v^((p-1)/2) == 1.
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// Caller provided v must be in montgomery domain.
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// Returns 0 in case v is quadratic residue or 1 in case
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// v is quadratic non-residue.
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func (v *fp) isNonQuadRes() int {
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var res fp
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var b uint64
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modExpRdc512(&res, v, &pMin1By2)
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for i := range res {
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b |= res[i] ^ one[i]
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}
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return ctIsNonZero64(b)
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}
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// isZero returns false in case v is equal to 0, otherwise
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// true. Constant time.
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func (v *fp) isZero() bool {
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var r uint64
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for i := 0; i < numWords; i++ {
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r |= v[i]
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}
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return ctIsNonZero64(r) == 0
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}
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2020-05-14 00:48:43 +01:00
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// equal checks if v is equal to in. Constant time.
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2019-11-24 03:39:35 +00:00
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func (v *fp) equal(in *fp) bool {
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var r uint64
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for i := range v {
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r |= v[i] ^ in[i]
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}
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return ctIsNonZero64(r) == 0
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}
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