nimbus-eth1/nimbus/evm/blscurve.nim

# Nimbus
# Copyright (c) 2020-2023 Status Research & Development GmbH
# Licensed under either of
#  * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
#    http://www.apache.org/licenses/LICENSE-2.0)
#  * MIT license ([LICENSE-MIT](LICENSE-MIT) or
#    http://opensource.org/licenses/MIT)
# at your option. This file may not be copied, modified, or distributed except
# according to those terms.

import blscurve/bls_backend, stint

when BLS_BACKEND == Miracl:
  import blscurve/miracl/[common, milagro, hash_to_curve, miracl_min_pubkey_sig_core]
  import map_to_curve_g1
  export common
  export miracl_min_pubkey_sig_core.subgroupCheck

  type
    BLS_G1* = ECP_BLS12381
    BLS_G2* = ECP2_BLS12381
    BLS_FP* = BIG_384
    BLS_FP2* = FP2_BLS12381
    BLS_SCALAR* = BIG_384
    BLS_FE* = FP_BLS12381
    BLS_FE2* = FP2_BLS12381
    BLS_ACC* = FP12_BLS12381
    BLS_G1P* = BLS_G1
    BLS_G2P* = BLS_G2

  func pack(g: var BLS_G1, x, y: BLS_FP): bool {.inline.} =
    discard ECP_BLS12381_set(g.addr, x, y)
    let xx = x.nres
    let yy = y.nres
    isOnCurve(xx, yy)

  func unpack(g: BLS_G1, x, y: var BLS_FP): bool {.inline.} =
    discard g.get(x, y)
    true

  func pack(g: var BLS_G2, x0, x1, y0, y1: BLS_FP): bool =
    var x, y: BLS_FP2
    x.fromBigs(x0, x1)
    y.fromBigs(y0, y1)
    discard ECP2_BLS12381_set(g.addr, x.addr, y.addr)
    isOnCurve(x, y)

  func unpack(g: BLS_G2, x0, x1, y0, y1: var BLS_FP): bool =
    var x, y: BLS_FP2
    result = g.get(x, y) <= 0.cint
    FP_BLS12381_redc(x0, addr x.a)
    FP_BLS12381_redc(x1, addr x.b)
    FP_BLS12381_redc(y0, addr y.a)
    FP_BLS12381_redc(y1, addr y.b)

  func mapFPToG1*(fp: BLS_FE): BLS_G1 {.inline.} =
    mapToCurveG1(fp)

  func mapFPToG2*(fp: BLS_FE2): BLS_G2 {.inline.} =
    result = mapToCurveG2(fp)
    result.clearCofactor()

  func millerLoop*(g1: BLS_G1, g2: BLS_G2): BLS_ACC {.inline.} =
    PAIR_BLS12381_ate(result.addr, g2.unsafeAddr, g1.unsafeAddr)

  proc mul*(a: var BLS_ACC, b: BLS_ACC) {.inline.} =
    FP12_BLS12381_mul(a.addr, b.unsafeAddr)

  func check*(x: BLS_ACC): bool {.inline.} =
    PAIR_BLS12381_fexp(x.unsafeAddr)
    FP12_BLS12381_isunity(x.unsafeAddr).int == 1

else:
  import blscurve/blst/[blst_lowlevel]

  type
    BLS_G1* = blst_p1
    BLS_G2* = blst_p2
    BLS_FP* = blst_fp
    BLS_FP2* = blst_fp2
    BLS_SCALAR* = blst_scalar
    BLS_FE* = blst_fp
    BLS_FE2* = blst_fp2
    BLS_ACC* = blst_fp12
    BLS_G1P* = blst_p1_affine
    BLS_G2P* = blst_p2_affine

  func fromBytes*(ret: var BLS_SCALAR, raw: openArray[byte]): bool =
    const L = 32
    if raw.len < L:
      return false
    let pa = cast[ptr array[L, byte]](raw[0].unsafeAddr)
    blst_scalar_from_bendian(ret, pa[])
    true

  func fromBytes(ret: var BLS_FP, raw: openArray[byte]): bool =
    const L = 48
    if raw.len < L:
      return false
    let pa = cast[ptr array[L, byte]](raw[0].unsafeAddr)
    blst_fp_from_bendian(ret, pa[])
    true

  func toBytes(fp: BLS_FP, output: var openArray[byte]): bool =
    const L = 48
    if output.len < L:
      return false
    let pa = cast[ptr array[L, byte]](output[0].unsafeAddr)
    blst_bendian_from_fp(pa[], fp)
    true

  func pack(g: var BLS_G1, x, y: BLS_FP): bool =
    let src = blst_p1_affine(x: x, y: y)
    blst_p1_from_affine(g, src)
    blst_p1_on_curve(g).int == 1

  func unpack(g: BLS_G1, x, y: var BLS_FP): bool =
    var dst: blst_p1_affine
    blst_p1_to_affine(dst, g)
    x = dst.x
    y = dst.y
    true

  func pack(g: var BLS_G2, x0, x1, y0, y1: BLS_FP): bool =
    let src = blst_p2_affine(x: blst_fp2(fp: [x0, x1]), y: blst_fp2(fp: [y0, y1]))
    blst_p2_from_affine(g, src)
    blst_p2_on_curve(g).int == 1

  func unpack(g: BLS_G2, x0, x1, y0, y1: var BLS_FP): bool =
    var dst: blst_p2_affine
    blst_p2_to_affine(dst, g)
    x0 = dst.x.fp[0]
    x1 = dst.x.fp[1]
    y0 = dst.y.fp[0]
    y1 = dst.y.fp[1]
    true

  func nbits(s: BLS_SCALAR): uint =
    var k = sizeof(s.l) - 1
    while k >= 0 and s.l[k] == 0: dec k
    if k < 0: return 0
    var
      bts = k shl 3
      c = s.l[k]

    while c != 0:
      c = c shr 1
      inc bts

    result = bts.uint

  func add*(a: var BLS_G1, b: BLS_G1) {.inline.} =
    blst_p1_add_or_double(a, a, b)

  func mul*(a: var BLS_G1, b: BLS_SCALAR) {.inline.} =
    blst_p1_mult(a, a, b, b.nbits)

  func add*(a: var BLS_G2, b: BLS_G2) {.inline.} =
    blst_p2_add_or_double(a, a, b)

  func mul*(a: var BLS_G2, b: BLS_SCALAR) {.inline.} =
    blst_p2_mult(a, a, b, b.nbits)

  func mapFPToG1*(fp: BLS_FE): BLS_G1 {.inline.} =
    let z: ptr blst_fp = nil
    blst_map_to_g1(result, fp, z[])

  func mapFPToG2*(fp: BLS_FE2): BLS_G2 {.inline.} =
    let z: ptr blst_fp2 = nil
    blst_map_to_g2(result, fp, z[])

  func pack(g: var BLS_G1P, x, y: BLS_FP): bool =
    g = blst_p1_affine(x: x, y: y)
    blst_p1_affine_on_curve(g).int == 1

  func pack(g: var BLS_G2P, x0, x1, y0, y1: BLS_FP): bool =
    g = blst_p2_affine(x: blst_fp2(fp: [x0, x1]), y: blst_fp2(fp: [y0, y1]))
    blst_p2_affine_on_curve(g).int == 1

  func subgroupCheck*(P: BLS_G1P): bool {.inline.} =
    blst_p1_affine_in_g1(P).int == 1

  func subgroupCheck*(P: BLS_G2P): bool {.inline.} =
    blst_p2_affine_in_g2(P).int == 1

  func millerLoop*(P: BLS_G1P, Q: BLS_G2P): BLS_ACC {.inline.} =
    blst_miller_loop(result, Q, P)

  proc mul*(a: var BLS_ACC, b: BLS_ACC) {.inline.} =
    blst_fp12_mul(a, a, b)

  func check*(x: BLS_ACC): bool {.inline.} =
    var ret: BLS_ACC
    ret.blst_final_exp(x)
    ret.blst_fp12_is_one().int == 1

# decodeFieldElement expects 64 byte input with zero top 16 bytes,
# returns lower 48 bytes.
func decodeFieldElement*(res: var BLS_FP, input: openArray[byte]): bool =
  if input.len != 64:
    return false

  # check top bytes
  for i in 0..<16:
    if input[i] != 0.byte:
      return false

  res.fromBytes input.toOpenArray(16, 63)

when BLS_BACKEND == Miracl:
  proc decodeFE*(res: var BLS_FE, input: openArray[byte]): bool =
    var big: BLS_FP
    if not big.decodeFieldElement(input):
      return false
    res = big.nres()
    # fieldModulus > big
    BIG_384_comp(FIELD_Modulus, big).int == 1

  proc decodeFE*(res: var BLS_FE2, input: openArray[byte]): bool =
    if input.len != 128:
      return false

    if res.a.decodeFE(input.toOpenArray(0, 63)) and
       res.b.decodeFE(input.toOpenArray(64, 127)):
       result = true

else:
  func decodeFE*(res: var BLS_FE, input: openArray[byte]): bool =
    const
      fieldModulus = StUint[512].fromHex "0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaaab"
    if not res.decodeFieldElement(input):
      return false
    var z: StUint[512]
    z.initFromBytesBE(input)
    z < fieldModulus

  func decodeFE*(res: var BLS_FE2, input: openArray[byte]): bool =
    if input.len != 128:
      return false

    if res.fp[0].decodeFE(input.toOpenArray(0, 63)) and
       res.fp[1].decodeFE(input.toOpenArray(64, 127)):
       result = true

# DecodePoint given encoded (x, y) coordinates in 128 bytes returns a valid G1 Point.
func decodePoint*(g: var (BLS_G1 | BLS_G1P), data: openArray[byte]): bool =
  if data.len != 128:
    return false

  var x, y: BLS_FP
  if x.decodeFieldElement(data.toOpenArray(0, 63)) and
     y.decodeFieldElement(data.toOpenArray(64, 127)):
     result = g.pack(x, y)

# EncodePoint encodes a point into 128 bytes.
func encodePoint*(g: BLS_G1, output: var openArray[byte]): bool =
  if output.len != 128:
    return false

  var x, y: BLS_FP
  if g.unpack(x, y) and
     x.toBytes(output.toOpenArray(16, 63)) and
     y.toBytes(output.toOpenArray(64+16, 127)):
     result = true

# DecodePoint given encoded (x, y) coordinates in 256 bytes returns a valid G2 Point.
func decodePoint*(g: var (BLS_G2 | BLS_G2P), data: openArray[byte]): bool =
  if data.len != 256:
    return false

  var x0, x1, y0, y1: BLS_FP
  if x0.decodeFieldElement(data.toOpenArray(0, 63)) and
     x1.decodeFieldElement(data.toOpenArray(64, 127)) and
     y0.decodeFieldElement(data.toOpenArray(128, 191)) and
     y1.decodeFieldElement(data.toOpenArray(192, 255)):
     result = g.pack(x0, x1, y0, y1)

# EncodePoint encodes a point into 256 bytes.
func encodePoint*(g: BLS_G2, output: var openArray[byte]): bool =
  if output.len != 256:
    return false

  var x0, x1, y0, y1: BLS_FP
  if g.unpack(x0, x1, y0, y1) and
     x0.toBytes(output.toOpenArray(16, 63)) and
     x1.toBytes(output.toOpenArray(80, 127)) and
     y0.toBytes(output.toOpenArray(144, 192)) and
     y1.toBytes(output.toOpenArray(208, 255)):
     result = true