# Constantine # Copyright (c) 2018-2019 Status Research & Development GmbH # Copyright (c) 2020-Present Mamy André-Ratsimbazafy # Licensed and distributed under either of # * MIT license (license terms in the root directory or at http://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at http://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. # ############################################################ # # Template tests for towered extension fields # # ############################################################ import # Standard library std/[unittest, times], # Internals ../constantine/towers, ../constantine/config/[common, curves], ../constantine/arithmetic, ../constantine/isogeny/frobenius, # Test utilities ../helpers/[prng_unsafe, static_for] echo "\n------------------------------------------------------\n" template ExtField(degree: static int, curve: static Curve): untyped = when degree == 2: Fp2[curve] elif degree == 4: Fp4[curve] elif degree == 6: Fp6[curve] elif degree == 12: Fp12[curve] else: {.error: "Unconfigured extension degree".} type RandomGen = enum Uniform HighHammingWeight Long01Sequence func random_elem(rng: var RngState, F: typedesc, gen: RandomGen): F {.inline, noInit.} = if gen == Uniform: result = rng.random_unsafe(F) elif gen == HighHammingWeight: result = rng.random_highHammingWeight(F) else: result = rng.random_long01Seq(F) proc runFrobeniusTowerTests*[N]( ExtDegree: static int, Iters: static int, TestCurves: static array[N, Curve], moduleName: string, testSuiteDesc: string ) = # Random seed for reproducibility var rng: RngState let seed = uint32(getTime().toUnix() and (1'i64 shl 32 - 1)) # unixTime mod 2^32 rng.seed(seed) echo moduleName, " xoshiro512** seed: ", seed suite testSuiteDesc & " [" & $WordBitwidth & "-bit mode]": test "Frobenius(a) = a^p (mod p^" & $ExtDegree & ")": proc test(Field: typedesc, Iters: static int, gen: RandomGen) = for _ in 0 ..< Iters: var a = rng.random_elem(Field, gen) var fa {.noInit.}: typeof(a) fa.frobenius_map(a, k = 1) a.powUnsafeExponent(Field.C.Mod, window = 3) check: bool(a == fa) staticFor(curve, TestCurves): test(ExtField(ExtDegree, curve), Iters, gen = Uniform) test(ExtField(ExtDegree, curve), Iters, gen = HighHammingWeight) test(ExtField(ExtDegree, curve), Iters, gen = Long01Sequence) test "Frobenius(a, 2) = a^(p^2) (mod p^" & $ExtDegree & ")": proc test(Field: typedesc, Iters: static int, gen: RandomGen) = for _ in 0 ..< Iters: var a = rng.random_elem(Field, gen) var fa {.noInit.}: typeof(a) fa.frobenius_map(a, k = 2) a.powUnsafeExponent(Field.C.Mod, window = 3) a.powUnsafeExponent(Field.C.Mod, window = 3) check: bool(a == fa) staticFor(curve, TestCurves): test(ExtField(ExtDegree, curve), Iters, gen = Uniform) test(ExtField(ExtDegree, curve), Iters, gen = HighHammingWeight) test(ExtField(ExtDegree, curve), Iters, gen = Long01Sequence) test "Frobenius(a, 3) = a^(p^3) (mod p^" & $ExtDegree & ")": proc test(Field: typedesc, Iters: static int, gen: RandomGen) = for _ in 0 ..< Iters: var a = rng.random_elem(Field, gen) var fa {.noInit.}: typeof(a) fa.frobenius_map(a, k = 3) a.powUnsafeExponent(Field.C.Mod, window = 3) a.powUnsafeExponent(Field.C.Mod, window = 3) a.powUnsafeExponent(Field.C.Mod, window = 3) check: bool(a == fa) staticFor(curve, TestCurves): test(ExtField(ExtDegree, curve), Iters, gen = Uniform) test(ExtField(ExtDegree, curve), Iters, gen = HighHammingWeight) test(ExtField(ExtDegree, curve), Iters, gen = Long01Sequence)