220 lines
5.8 KiB
Nim
220 lines
5.8 KiB
Nim
# Constantine
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# Copyright (c) 2018-2019 Status Research & Development GmbH
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# Copyright (c) 2020-Present Mamy André-Ratsimbazafy
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# Licensed and distributed under either of
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# * MIT license (license terms in the root directory or at http://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at http://www.apache.org/licenses/LICENSE-2.0).
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# at your option. This file may not be copied, modified, or distributed except according to those terms.
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import
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# Standard library
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std/[tables, unittest, times],
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# Internals
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../constantine/config/common,
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../constantine/[arithmetic, primitives],
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../constantine/towers,
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../constantine/config/curves,
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../constantine/io/io_towers,
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# Test utilities
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../helpers/[prng_unsafe, static_for]
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const
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Iters = 2
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TestCurves = [
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BN254_Snarks,
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BLS12_381
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]
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type
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RandomGen = enum
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Uniform
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HighHammingWeight
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Long01Sequence
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var rng: RngState
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let seed = uint32(getTime().toUnix() and (1'i64 shl 32 - 1)) # unixTime mod 2^32
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rng.seed(seed)
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echo "\n------------------------------------------------------\n"
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echo "test_fp12_exponentiation xoshiro512** seed: ", seed
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func random_elem(rng: var RngState, F: typedesc, gen: RandomGen): F {.inline, noInit.} =
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if gen == Uniform:
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result = rng.random_unsafe(F)
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elif gen == HighHammingWeight:
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result = rng.random_highHammingWeight(F)
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else:
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result = rng.random_long01Seq(F)
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proc test_sameBaseProduct(C: static Curve, gen: RandomGen) =
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## xᴬ xᴮ = xᴬ⁺ᴮ - product of power
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let x = rng.random_elem(Fp12[C], gen)
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var a = rng.random_elem(BigInt[128], gen)
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var b = rng.random_elem(BigInt[128], gen)
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# div by 2 to ensure their sum doesn't overflow
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# 128 bits
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a.div2()
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b.div2()
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var xa = x
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xa.powUnsafeExponent(a, window = 3)
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var xb = x
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xb.powUnsafeExponent(b, window = 3)
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var xapb = x
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var apb: BigInt[128]
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discard apb.sum(a, b)
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xapb.powUnsafeExponent(apb, window = 3)
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xa *= xb
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doAssert: bool(xa == xapb)
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proc test_powpow(C: static Curve, gen: RandomGen) =
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## (xᴬ)ᴮ = xᴬᴮ - power of power
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var x = rng.random_elem(Fp12[C], gen)
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var a = rng.random_elem(BigInt[128], gen)
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var b = rng.random_elem(BigInt[128], gen)
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var ab: BigInt[256]
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ab.prod(a, b)
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var y = x
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x.powUnsafeExponent(a, window = 3)
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x.powUnsafeExponent(b, window = 3)
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y.powUnsafeExponent(ab, window = 3)
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doAssert: bool(x == y)
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proc test_powprod(C: static Curve, gen: RandomGen) =
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## (xy)ᴬ = xᴬyᴬ - power of product
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var x = rng.random_elem(Fp12[C], gen)
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var y = rng.random_elem(Fp12[C], gen)
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let a = rng.random_elem(BigInt[128], gen)
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var xy{.noInit.}: Fp12[C]
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xy.prod(x, y)
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xy.powUnsafeExponent(a, window=3)
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x.powUnsafeExponent(a, window=3)
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y.powUnsafeExponent(a, window=3)
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x *= y
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doAssert: bool(x == xy)
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proc test_pow0(C: static Curve, gen: RandomGen) =
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## x⁰ = 1
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var x = rng.random_elem(Fp12[C], gen)
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var a: BigInt[128] # 0-init
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x.powUnsafeExponent(a, window=3)
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doAssert: bool x.isOne()
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proc test_0pow0(C: static Curve, gen: RandomGen) =
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## 0⁰ = 1
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var x: Fp12[C] # 0-init
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var a: BigInt[128] # 0-init
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x.powUnsafeExponent(a, window=3)
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doAssert: bool x.isOne()
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proc test_powinv(C: static Curve, gen: RandomGen) =
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## xᴬ / xᴮ = xᴬ⁻ᴮ - quotient of power
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let x = rng.random_elem(Fp12[C], gen)
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var a = rng.random_elem(BigInt[128], gen)
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var b = rng.random_elem(BigInt[128], gen)
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# div by 2 to ensure their sum doesn't overflow
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# 128 bits
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a.div2()
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b.div2()
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# Ensure a > b
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cswap(a, b, a < b)
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var xa = x
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xa.powUnsafeExponent(a, window = 3)
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var xb = x
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xb.powUnsafeExponent(b, window = 3)
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xb.inv()
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xa *= xb
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var xamb = x
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var amb: BigInt[128]
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discard amb.diff(a, b)
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xamb.powUnsafeExponent(amb, window = 3)
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doAssert: bool(xa == xamb)
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proc test_invpow(C: static Curve, gen: RandomGen) =
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## (x / y)ᴬ = xᴬ / yᴬ - power of quotient
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let x = rng.random_elem(Fp12[C], gen)
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let y = rng.random_elem(Fp12[C], gen)
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var a = rng.random_elem(BigInt[128], gen)
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var xa = x
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xa.powUnsafeExponent(a, window = 3)
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var ya = y
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ya.powUnsafeExponent(a, window = 3)
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ya.inv()
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xa *= ya
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var xqya = x
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var invy = y
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invy.inv()
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xqya *= invy
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xqya.powUnsafeExponent(a, window = 3)
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doAssert: bool(xa == xqya)
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suite "Exponentiation in 𝔽p12" & " [" & $WordBitwidth & "-bit mode]":
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staticFor(curve, TestCurves):
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test "xᴬ xᴮ = xᴬ⁺ᴮ on " & $curve:
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test_sameBaseProduct(curve, gen = Uniform)
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test_sameBaseProduct(curve, gen = HighHammingWeight)
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test_sameBaseProduct(curve, gen = Long01Sequence)
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staticFor(curve, TestCurves):
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test "(xᴬ)ᴮ = xᴬᴮ on " & $curve:
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test_powpow(curve, gen = Uniform)
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test_powpow(curve, gen = HighHammingWeight)
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test_powpow(curve, gen = Long01Sequence)
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staticFor(curve, TestCurves):
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test "(xy)ᴬ = xᴬyᴬ on " & $curve:
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test_powprod(curve, gen = Uniform)
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test_powprod(curve, gen = HighHammingWeight)
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test_powprod(curve, gen = Long01Sequence)
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staticFor(curve, TestCurves):
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test "x⁰ = 1 on " & $curve:
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test_pow0(curve, gen = Uniform)
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test_pow0(curve, gen = HighHammingWeight)
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test_pow0(curve, gen = Long01Sequence)
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staticFor(curve, TestCurves):
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test "0⁰ = 1 on " & $curve:
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test_0pow0(curve, gen = Uniform)
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test_0pow0(curve, gen = HighHammingWeight)
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test_0pow0(curve, gen = Long01Sequence)
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staticFor(curve, TestCurves):
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test "xᴬ / xᴮ = xᴬ⁻ᴮ on " & $curve:
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test_powinv(curve, gen = Uniform)
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test_powinv(curve, gen = HighHammingWeight)
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test_powinv(curve, gen = Long01Sequence)
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staticFor(curve, TestCurves):
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test "(x / y)ᴬ = xᴬ / yᴬ on " & $curve:
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test_invpow(curve, gen = Uniform)
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test_invpow(curve, gen = HighHammingWeight)
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test_invpow(curve, gen = Long01Sequence)
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