github.com/shogo82148/std@v1.22.1-0.20240327122250-4e474527810c/crypto/internal/nistec/fiat/p384_fiat64.go

github.com/shogo82148/std@v1.22.1-0.20240327122250-4e474527810c/crypto/internal/nistec/fiat/p384_fiat64.go (about)

     1  // Code generated by Fiat Cryptography. DO NOT EDIT.
     2  //
     3  // Autogenerated: word_by_word_montgomery --lang Go --no-wide-int --cmovznz-by-mul --relax-primitive-carry-to-bitwidth 32,64 --internal-static --public-function-case camelCase --public-type-case camelCase --private-function-case camelCase --private-type-case camelCase --doc-text-before-function-name '' --doc-newline-before-package-declaration --doc-prepend-header 'Code generated by Fiat Cryptography. DO NOT EDIT.' --package-name fiat --no-prefix-fiat p384 64 '2^384 - 2^128 - 2^96 + 2^32 - 1' mul square add sub one from_montgomery to_montgomery selectznz to_bytes from_bytes
     4  //
     5  // curve description: p384
     6  //
     7  // machine_wordsize = 64 (from "64")
     8  //
     9  // requested operations: mul, square, add, sub, one, from_montgomery, to_montgomery, selectznz, to_bytes, from_bytes
    10  //
    11  // m = 0xfffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffeffffffff0000000000000000ffffffff (from "2^384 - 2^128 - 2^96 + 2^32 - 1")
    12  //
    13  //
    14  //
    15  // NOTE: In addition to the bounds specified above each function, all
    16  //
    17  //   functions synthesized for this Montgomery arithmetic require the
    18  //
    19  //   input to be strictly less than the prime modulus (m), and also
    20  //
    21  //   require the input to be in the unique saturated representation.
    22  //
    23  //   All functions also ensure that these two properties are true of
    24  //
    25  //   return values.
    26  //
    27  //
    28  //
    29  // Computed values:
    30  //
    31  //   eval z = z[0] + (z[1] << 64) + (z[2] << 128) + (z[3] << 192) + (z[4] << 256) + (z[5] << 0x140)
    32  //
    33  //   bytes_eval z = z[0] + (z[1] << 8) + (z[2] << 16) + (z[3] << 24) + (z[4] << 32) + (z[5] << 40) + (z[6] << 48) + (z[7] << 56) + (z[8] << 64) + (z[9] << 72) + (z[10] << 80) + (z[11] << 88) + (z[12] << 96) + (z[13] << 104) + (z[14] << 112) + (z[15] << 120) + (z[16] << 128) + (z[17] << 136) + (z[18] << 144) + (z[19] << 152) + (z[20] << 160) + (z[21] << 168) + (z[22] << 176) + (z[23] << 184) + (z[24] << 192) + (z[25] << 200) + (z[26] << 208) + (z[27] << 216) + (z[28] << 224) + (z[29] << 232) + (z[30] << 240) + (z[31] << 248) + (z[32] << 256) + (z[33] << 0x108) + (z[34] << 0x110) + (z[35] << 0x118) + (z[36] << 0x120) + (z[37] << 0x128) + (z[38] << 0x130) + (z[39] << 0x138) + (z[40] << 0x140) + (z[41] << 0x148) + (z[42] << 0x150) + (z[43] << 0x158) + (z[44] << 0x160) + (z[45] << 0x168) + (z[46] << 0x170) + (z[47] << 0x178)
    34  //
    35  //   twos_complement_eval z = let x1 := z[0] + (z[1] << 64) + (z[2] << 128) + (z[3] << 192) + (z[4] << 256) + (z[5] << 0x140) in
    36  //
    37  //                            if x1 & (2^384-1) < 2^383 then x1 & (2^384-1) else (x1 & (2^384-1)) - 2^384
    38  
    39  package fiat