# 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. import unittest, random, ../constantine/io/[io_bigints, io_fields], ../constantine/config/curves, ../constantine/config/common, ../constantine/arithmetic/[bigints, finite_fields] randomize(0xDEADBEEF) # Random seed for reproducibility type T = BaseType proc main() = suite "IO - Finite fields": test "Parsing and serializing round-trip on uint64": # 101 --------------------------------- block: # "Little-endian" - 0 let x = BaseType(0) let x_bytes = cast[array[sizeof(BaseType), byte]](x) var f: Fp[Fake101] f.fromUint(x) var r_bytes: array[sizeof(BaseType), byte] exportRawUint(r_bytes, f, littleEndian) check: x_bytes == r_bytes block: # "Little-endian" - 1 let x = BaseType(1) let x_bytes = cast[array[sizeof(BaseType), byte]](x) var f: Fp[Fake101] f.fromUint(x) var r_bytes: array[sizeof(BaseType), byte] exportRawUint(r_bytes, f, littleEndian) check: x_bytes == r_bytes # Mersenne 61 --------------------------------- block: # "Little-endian" - 0 let x = 0'u64 let x_bytes = cast[array[8, byte]](x) var f: Fp[Mersenne61] f.fromUint(x) var r_bytes: array[8, byte] exportRawUint(r_bytes, f, littleEndian) check: x_bytes == r_bytes block: # "Little-endian" - 1 let x = 1'u64 let x_bytes = cast[array[8, byte]](x) var f: Fp[Mersenne61] f.fromUint(x) var r_bytes: array[8, byte] exportRawUint(r_bytes, f, littleEndian) check: x_bytes == r_bytes block: # "Little-endian" - 2^31 let x = 1'u64 shl 31 let x_bytes = cast[array[8, byte]](x) var f: Fp[Mersenne61] f.fromUint(x) var r_bytes: array[8, byte] exportRawUint(r_bytes, f, littleEndian) check: x_bytes == r_bytes block: # "Little-endian" - 2^32 let x = 1'u64 shl 32 let x_bytes = cast[array[8, byte]](x) var f: Fp[Mersenne61] f.fromUint(x) var r_bytes: array[8, byte] exportRawUint(r_bytes, f, littleEndian) check: x_bytes == r_bytes # Mersenne 127 --------------------------------- block: # "Little-endian" - 2^63 let x = 1'u64 shl 63 let x_bytes = cast[array[8, byte]](x) var f: Fp[Mersenne127] f.fromUint(x) var r_bytes: array[16, byte] exportRawUint(r_bytes, f, littleEndian) check: x_bytes == r_bytes[0 ..< 8] block: # "Little-endian" - single random let x = uint64 rand(0..high(int)) let x_bytes = cast[array[8, byte]](x) var f: Fp[Mersenne127] f.fromUint(x) var r_bytes: array[16, byte] exportRawUint(r_bytes, f, littleEndian) check: x_bytes == r_bytes[0 ..< 8] block: # "Little-endian" - 10 random cases for _ in 0 ..< 10: let x = uint64 rand(0..high(int)) let x_bytes = cast[array[8, byte]](x) var f: Fp[Mersenne127] f.fromUint(x) var r_bytes: array[16, byte] exportRawUint(r_bytes, f, littleEndian) check: x_bytes == r_bytes[0 ..< 8] test "Round trip on large constant": block: # 2^126 const p = "0x40000000000000000000000000000000" let x = Fp[Mersenne127].fromBig BigInt[127].fromHex(p) let hex = x.toHex(bigEndian) check: p == hex test "Round trip on prime field of NIST P256 (secp256r1) curve": block: # 2^126 const p = "0x0000000000000000000000000000000040000000000000000000000000000000" let x = Fp[P256].fromBig BigInt[256].fromHex(p) let hex = x.toHex(bigEndian) check: p == hex test "Round trip on prime field of BLS12_381 curve": block: # 2^126 const p = "0x000000000000000000000000000000000000000000000000000000000000000040000000000000000000000000000000" let x = Fp[BLS12_381].fromBig BigInt[381].fromHex(p) let hex = x.toHex(bigEndian) check: p == hex main()