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/*! noble-curves - MIT License (c) 2022 Paul Miller (paulmillr.com) */
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// The pairing-friendly Barreto-Lynn-Scott elliptic curve construction allows to:
// - Construct zk-SNARKs at the 128-bit security
// - Use threshold signatures, which allows a user to sign lots of messages with one signature and verify them swiftly in a batch, using Boneh-Lynn-Shacham signature scheme.
// Differences from @noble/bls12-381 1.4:
// - PointG1 -> G1.Point
// - PointG2 -> G2.Point
// - PointG2.fromSignature -> Signature.decode
// - PointG2.toSignature -> Signature.encode
// - Fixed Fp2 ORDER
// - Points now have only two coordinates
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import { sha256 } from '@noble/hashes/sha256' ;
import { randomBytes } from '@noble/hashes/utils' ;
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import { bls , CurveFn } from './abstract/bls.js' ;
import * as mod from './abstract/modular.js' ;
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import {
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concatBytes as concatB ,
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ensureBytes ,
numberToBytesBE ,
bytesToNumberBE ,
bitLen ,
bitSet ,
bitGet ,
Hex ,
bitMask ,
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} from './abstract/utils.js' ;
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// Types
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import {
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ProjPointType ,
ProjConstructor ,
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mapToCurveSimpleSWU ,
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AffinePoint ,
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} from './abstract/weierstrass.js' ;
import { isogenyMap } from './abstract/hash-to-curve.js' ;
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// CURVE FIELDS
// Finite field over p.
const Fp =
mod . Fp (
0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaaab n
) ;
type Fp = bigint ;
// Finite field over r.
// This particular field is not used anywhere in bls12-381, but it is still useful.
const Fr = mod . Fp ( 0x73eda753299d7d483339d80809a1d80553bda402fffe5bfeffffffff00000001 n ) ;
// Fp₂ over complex plane
type BigintTuple = [ bigint , bigint ] ;
type Fp2 = { c0 : bigint ; c1 : bigint } ;
const Fp2Add = ( { c0 , c1 } : Fp2 , { c0 : r0 , c1 : r1 } : Fp2 ) = > ( {
c0 : Fp.add ( c0 , r0 ) ,
c1 : Fp.add ( c1 , r1 ) ,
} ) ;
const Fp2Subtract = ( { c0 , c1 } : Fp2 , { c0 : r0 , c1 : r1 } : Fp2 ) = > ( {
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c0 : Fp.sub ( c0 , r0 ) ,
c1 : Fp.sub ( c1 , r1 ) ,
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} ) ;
const Fp2Multiply = ( { c0 , c1 } : Fp2 , rhs : Fp2 ) = > {
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if ( typeof rhs === 'bigint' ) return { c0 : Fp.mul ( c0 , rhs ) , c1 : Fp.mul ( c1 , rhs ) } ;
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// (a+bi)(c+di) = (ac− bd) + (ad+bc)i
const { c0 : r0 , c1 : r1 } = rhs ;
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let t1 = Fp . mul ( c0 , r0 ) ; // c0 * o0
let t2 = Fp . mul ( c1 , r1 ) ; // c1 * o1
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// (T1 - T2) + ((c0 + c1) * (r0 + r1) - (T1 + T2))*i
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const o0 = Fp . sub ( t1 , t2 ) ;
const o1 = Fp . sub ( Fp . mul ( Fp . add ( c0 , c1 ) , Fp . add ( r0 , r1 ) ) , Fp . add ( t1 , t2 ) ) ;
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return { c0 : o0 , c1 : o1 } ;
} ;
const Fp2Square = ( { c0 , c1 } : Fp2 ) = > {
const a = Fp . add ( c0 , c1 ) ;
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const b = Fp . sub ( c0 , c1 ) ;
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const c = Fp . add ( c0 , c0 ) ;
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return { c0 : Fp.mul ( a , b ) , c1 : Fp.mul ( c , c1 ) } ;
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} ;
type Fp2Utils = {
fromBigTuple : ( tuple : BigintTuple | bigint [ ] ) = > Fp2 ;
reim : ( num : Fp2 ) = > { re : bigint ; im : bigint } ;
mulByNonresidue : ( num : Fp2 ) = > Fp2 ;
multiplyByB : ( num : Fp2 ) = > Fp2 ;
frobeniusMap ( num : Fp2 , power : number ) : Fp2 ;
} ;
// G2 is the order-q subgroup of E2(Fp²) : y² = x³+4(1+√− 1),
// where Fp2 is Fp[√− 1]/(x2+1). #E2(Fp2 ) = h2q, where
// G² - 1
// h2q
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// NOTE: ORDER was wrong!
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const FP2_ORDER =
0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaaab n * *
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2 n ;
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const Fp2 : mod.Field < Fp2 > & Fp2Utils = {
ORDER : FP2_ORDER ,
BITS : bitLen ( FP2_ORDER ) ,
BYTES : Math.ceil ( bitLen ( FP2_ORDER ) / 8 ) ,
MASK : bitMask ( bitLen ( FP2_ORDER ) ) ,
ZERO : { c0 : Fp.ZERO , c1 : Fp.ZERO } ,
ONE : { c0 : Fp.ONE , c1 : Fp.ZERO } ,
create : ( num ) = > num ,
isValid : ( { c0 , c1 } ) = > typeof c0 === 'bigint' && typeof c1 === 'bigint' ,
isZero : ( { c0 , c1 } ) = > Fp . isZero ( c0 ) && Fp . isZero ( c1 ) ,
equals : ( { c0 , c1 } : Fp2 , { c0 : r0 , c1 : r1 } : Fp2 ) = > Fp . equals ( c0 , r0 ) && Fp . equals ( c1 , r1 ) ,
negate : ( { c0 , c1 } ) = > ( { c0 : Fp.negate ( c0 ) , c1 : Fp.negate ( c1 ) } ) ,
pow : ( num , power ) = > mod . FpPow ( Fp2 , num , power ) ,
invertBatch : ( nums ) = > mod . FpInvertBatch ( Fp2 , nums ) ,
// Normalized
add : Fp2Add ,
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sub : Fp2Subtract ,
mul : Fp2Multiply ,
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square : Fp2Square ,
// NonNormalized stuff
addN : Fp2Add ,
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subN : Fp2Subtract ,
mulN : Fp2Multiply ,
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squareN : Fp2Square ,
// Why inversion for bigint inside Fp instead of Fp2? it is even used in that context?
div : ( lhs , rhs ) = >
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Fp2 . mul ( lhs , typeof rhs === 'bigint' ? Fp . invert ( Fp . create ( rhs ) ) : Fp2 . invert ( rhs ) ) ,
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invert : ( { c0 : a , c1 : b } ) = > {
// We wish to find the multiplicative inverse of a nonzero
// element a + bu in Fp2. We leverage an identity
//
// (a + bu)(a - bu) = a² + b²
//
// which holds because u² = -1. This can be rewritten as
//
// (a + bu)(a - bu)/(a² + b²) = 1
//
// because a² + b² = 0 has no nonzero solutions for (a, b).
// This gives that (a - bu)/(a² + b²) is the inverse
// of (a + bu). Importantly, this can be computing using
// only a single inversion in Fp.
const factor = Fp . invert ( Fp . create ( a * a + b * b ) ) ;
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return { c0 : Fp.mul ( factor , Fp . create ( a ) ) , c1 : Fp.mul ( factor , Fp . create ( - b ) ) } ;
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} ,
sqrt : ( num ) = > {
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if ( Fp2 . equals ( num , Fp2 . ZERO ) ) return Fp2 . ZERO ; // Algo doesn't handles this case
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// TODO: Optimize this line. It's extremely slow.
// Speeding this up would boost aggregateSignatures.
// https://eprint.iacr.org/2012/685.pdf applicable?
// https://github.com/zkcrypto/bls12_381/blob/080eaa74ec0e394377caa1ba302c8c121df08b07/src/fp2.rs#L250
// https://github.com/supranational/blst/blob/aae0c7d70b799ac269ff5edf29d8191dbd357876/src/exp2.c#L1
// Inspired by https://github.com/dalek-cryptography/curve25519-dalek/blob/17698df9d4c834204f83a3574143abacb4fc81a5/src/field.rs#L99
const candidateSqrt = Fp2 . pow ( num , ( Fp2 . ORDER + 8 n ) / 16 n ) ;
const check = Fp2 . div ( Fp2 . square ( candidateSqrt ) , num ) ; // candidateSqrt.square().div(this);
const R = FP2_ROOTS_OF_UNITY ;
const divisor = [ R [ 0 ] , R [ 2 ] , R [ 4 ] , R [ 6 ] ] . find ( ( r ) = > Fp2 . equals ( r , check ) ) ;
if ( ! divisor ) throw new Error ( 'No root' ) ;
const index = R . indexOf ( divisor ) ;
const root = R [ index / 2 ] ;
if ( ! root ) throw new Error ( 'Invalid root' ) ;
const x1 = Fp2 . div ( candidateSqrt , root ) ;
const x2 = Fp2 . negate ( x1 ) ;
const { re : re1 , im : im1 } = Fp2 . reim ( x1 ) ;
const { re : re2 , im : im2 } = Fp2 . reim ( x2 ) ;
if ( im1 > im2 || ( im1 === im2 && re1 > re2 ) ) return x1 ;
return x2 ;
} ,
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// Same as sgn0_fp2 in draft-irtf-cfrg-hash-to-curve-16
isOdd : ( x : Fp2 ) = > {
const { re : x0 , im : x1 } = Fp2 . reim ( x ) ;
const sign_0 = x0 % 2 n ;
const zero_0 = x0 === 0 n ;
const sign_1 = x1 % 2 n ;
return BigInt ( sign_0 || ( zero_0 && sign_1 ) ) == 1 n ;
} ,
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// Bytes util
fromBytes ( b : Uint8Array ) : Fp2 {
if ( b . length !== Fp2 . BYTES ) throw new Error ( ` fromBytes wrong length= ${ b . length } ` ) ;
return { c0 : Fp.fromBytes ( b . subarray ( 0 , Fp . BYTES ) ) , c1 : Fp.fromBytes ( b . subarray ( Fp . BYTES ) ) } ;
} ,
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toBytes : ( { c0 , c1 } ) = > concatB ( Fp . toBytes ( c0 ) , Fp . toBytes ( c1 ) ) ,
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cmov : ( { c0 , c1 } , { c0 : r0 , c1 : r1 } , c ) = > ( {
c0 : Fp.cmov ( c0 , r0 , c ) ,
c1 : Fp.cmov ( c1 , r1 , c ) ,
} ) ,
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// Specific utils
// toString() {
// return `Fp2(${this.c0} + ${this.c1}× i)`;
// }
reim : ( { c0 , c1 } ) = > ( { re : c0 , im : c1 } ) ,
// multiply by u + 1
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mulByNonresidue : ( { c0 , c1 } ) = > ( { c0 : Fp.sub ( c0 , c1 ) , c1 : Fp.add ( c0 , c1 ) } ) ,
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multiplyByB : ( { c0 , c1 } ) = > {
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let t0 = Fp . mul ( c0 , 4 n ) ; // 4 * c0
let t1 = Fp . mul ( c1 , 4 n ) ; // 4 * c1
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// (T0-T1) + (T0+T1)*i
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return { c0 : Fp.sub ( t0 , t1 ) , c1 : Fp.add ( t0 , t1 ) } ;
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} ,
fromBigTuple : ( tuple : BigintTuple | bigint [ ] ) = > {
if ( tuple . length !== 2 ) throw new Error ( 'Invalid tuple' ) ;
const fps = tuple . map ( ( n ) = > Fp . create ( n ) ) as [ Fp , Fp ] ;
return { c0 : fps [ 0 ] , c1 : fps [ 1 ] } ;
} ,
frobeniusMap : ( { c0 , c1 } , power : number ) : Fp2 = > ( {
c0 ,
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c1 : Fp.mul ( c1 , FP2_FROBENIUS_COEFFICIENTS [ power % 2 ] ) ,
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} ) ,
} ;
// Finite extension field over irreducible polynominal.
// Fp(u) / (u² - β) where β = -1
const FP2_FROBENIUS_COEFFICIENTS = [
0x1 n ,
0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaaaa n ,
] . map ( ( item ) = > Fp . create ( item ) ) ;
// For Fp2 roots of unity.
const rv1 =
0x6af0e0437ff400b6831e36d6bd17ffe48395dabc2d3435e77f76e17009241c5ee67992f72ec05f4c81084fbede3cc09 n ;
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// const ev1 =
// 0x699be3b8c6870965e5bf892ad5d2cc7b0e85a117402dfd83b7f4a947e02d978498255a2aaec0ac627b5afbdf1bf1c90n;
// const ev2 =
// 0x8157cd83046453f5dd0972b6e3949e4288020b5b8a9cc99ca07e27089a2ce2436d965026adad3ef7baba37f2183e9b5n;
// const ev3 =
// 0xab1c2ffdd6c253ca155231eb3e71ba044fd562f6f72bc5bad5ec46a0b7a3b0247cf08ce6c6317f40edbc653a72dee17n;
// const ev4 =
// 0xaa404866706722864480885d68ad0ccac1967c7544b447873cc37e0181271e006df72162a3d3e0287bf597fbf7f8fc1n;
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// Eighth roots of unity, used for computing square roots in Fp2.
// To verify or re-calculate:
// Array(8).fill(new Fp2([1n, 1n])).map((fp2, k) => fp2.pow(Fp2.ORDER * BigInt(k) / 8n))
const FP2_ROOTS_OF_UNITY = [
[ 1 n , 0 n ] ,
[ rv1 , - rv1 ] ,
[ 0 n , 1 n ] ,
[ rv1 , rv1 ] ,
[ - 1 n , 0 n ] ,
[ - rv1 , rv1 ] ,
[ 0 n , - 1 n ] ,
[ - rv1 , - rv1 ] ,
] . map ( ( pair ) = > Fp2 . fromBigTuple ( pair ) ) ;
// eta values, used for computing sqrt(g(X1(t)))
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// const FP2_ETAs = [
// [ev1, ev2],
// [-ev2, ev1],
// [ev3, ev4],
// [-ev4, ev3],
// ].map((pair) => Fp2.fromBigTuple(pair));
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// Finite extension field over irreducible polynominal.
// Fp2(v) / (v³ - ξ) where ξ = u + 1
type BigintSix = [ bigint , bigint , bigint , bigint , bigint , bigint ] ;
type Fp6 = { c0 : Fp2 ; c1 : Fp2 ; c2 : Fp2 } ;
const Fp6Add = ( { c0 , c1 , c2 } : Fp6 , { c0 : r0 , c1 : r1 , c2 : r2 } : Fp6 ) = > ( {
c0 : Fp2.add ( c0 , r0 ) ,
c1 : Fp2.add ( c1 , r1 ) ,
c2 : Fp2.add ( c2 , r2 ) ,
} ) ;
const Fp6Subtract = ( { c0 , c1 , c2 } : Fp6 , { c0 : r0 , c1 : r1 , c2 : r2 } : Fp6 ) = > ( {
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c0 : Fp2.sub ( c0 , r0 ) ,
c1 : Fp2.sub ( c1 , r1 ) ,
c2 : Fp2.sub ( c2 , r2 ) ,
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} ) ;
const Fp6Multiply = ( { c0 , c1 , c2 } : Fp6 , rhs : Fp6 | bigint ) = > {
if ( typeof rhs === 'bigint' ) {
return {
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c0 : Fp2.mul ( c0 , rhs ) ,
c1 : Fp2.mul ( c1 , rhs ) ,
c2 : Fp2.mul ( c2 , rhs ) ,
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} ;
}
const { c0 : r0 , c1 : r1 , c2 : r2 } = rhs ;
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const t0 = Fp2 . mul ( c0 , r0 ) ; // c0 * o0
const t1 = Fp2 . mul ( c1 , r1 ) ; // c1 * o1
const t2 = Fp2 . mul ( c2 , r2 ) ; // c2 * o2
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return {
// t0 + (c1 + c2) * (r1 * r2) - (T1 + T2) * (u + 1)
c0 : Fp2.add (
t0 ,
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Fp2 . mulByNonresidue ( Fp2 . sub ( Fp2 . mul ( Fp2 . add ( c1 , c2 ) , Fp2 . add ( r1 , r2 ) ) , Fp2 . add ( t1 , t2 ) ) )
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) ,
// (c0 + c1) * (r0 + r1) - (T0 + T1) + T2 * (u + 1)
c1 : Fp2.add (
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Fp2 . sub ( Fp2 . mul ( Fp2 . add ( c0 , c1 ) , Fp2 . add ( r0 , r1 ) ) , Fp2 . add ( t0 , t1 ) ) ,
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Fp2 . mulByNonresidue ( t2 )
) ,
// T1 + (c0 + c2) * (r0 + r2) - T0 + T2
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c2 : Fp2.sub ( Fp2 . add ( t1 , Fp2 . mul ( Fp2 . add ( c0 , c2 ) , Fp2 . add ( r0 , r2 ) ) ) , Fp2 . add ( t0 , t2 ) ) ,
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} ;
} ;
const Fp6Square = ( { c0 , c1 , c2 } : Fp6 ) = > {
let t0 = Fp2 . square ( c0 ) ; // c0²
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let t1 = Fp2 . mul ( Fp2 . mul ( c0 , c1 ) , 2 n ) ; // 2 * c0 * c1
let t3 = Fp2 . mul ( Fp2 . mul ( c1 , c2 ) , 2 n ) ; // 2 * c1 * c2
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let t4 = Fp2 . square ( c2 ) ; // c2²
return {
c0 : Fp2.add ( Fp2 . mulByNonresidue ( t3 ) , t0 ) , // T3 * (u + 1) + T0
c1 : Fp2.add ( Fp2 . mulByNonresidue ( t4 ) , t1 ) , // T4 * (u + 1) + T1
// T1 + (c0 - c1 + c2)² + T3 - T0 - T4
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c2 : Fp2.sub (
Fp2 . sub ( Fp2 . add ( Fp2 . add ( t1 , Fp2 . square ( Fp2 . add ( Fp2 . sub ( c0 , c1 ) , c2 ) ) ) , t3 ) , t0 ) ,
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t4
) ,
} ;
} ;
type Fp6Utils = {
fromBigSix : ( tuple : BigintSix ) = > Fp6 ;
mulByNonresidue : ( num : Fp6 ) = > Fp6 ;
frobeniusMap ( num : Fp6 , power : number ) : Fp6 ;
multiplyBy1 ( num : Fp6 , b1 : Fp2 ) : Fp6 ;
multiplyBy01 ( num : Fp6 , b0 : Fp2 , b1 : Fp2 ) : Fp6 ;
multiplyByFp2 ( lhs : Fp6 , rhs : Fp2 ) : Fp6 ;
} ;
const Fp6 : mod.Field < Fp6 > & Fp6Utils = {
ORDER : Fp2.ORDER , // TODO: unused, but need to verify
BITS : 3 * Fp2 . BITS ,
BYTES : 3 * Fp2 . BYTES ,
MASK : bitMask ( 3 * Fp2 . BITS ) ,
ZERO : { c0 : Fp2.ZERO , c1 : Fp2.ZERO , c2 : Fp2.ZERO } ,
ONE : { c0 : Fp2.ONE , c1 : Fp2.ZERO , c2 : Fp2.ZERO } ,
create : ( num ) = > num ,
isValid : ( { c0 , c1 , c2 } ) = > Fp2 . isValid ( c0 ) && Fp2 . isValid ( c1 ) && Fp2 . isValid ( c2 ) ,
isZero : ( { c0 , c1 , c2 } ) = > Fp2 . isZero ( c0 ) && Fp2 . isZero ( c1 ) && Fp2 . isZero ( c2 ) ,
negate : ( { c0 , c1 , c2 } ) = > ( { c0 : Fp2.negate ( c0 ) , c1 : Fp2.negate ( c1 ) , c2 : Fp2.negate ( c2 ) } ) ,
equals : ( { c0 , c1 , c2 } , { c0 : r0 , c1 : r1 , c2 : r2 } ) = >
Fp2 . equals ( c0 , r0 ) && Fp2 . equals ( c1 , r1 ) && Fp2 . equals ( c2 , r2 ) ,
sqrt : ( ) = > {
throw new Error ( 'Not implemented' ) ;
} ,
// Do we need division by bigint at all? Should be done via order:
div : ( lhs , rhs ) = >
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Fp6 . mul ( lhs , typeof rhs === 'bigint' ? Fp . invert ( Fp . create ( rhs ) ) : Fp6 . invert ( rhs ) ) ,
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pow : ( num , power ) = > mod . FpPow ( Fp6 , num , power ) ,
invertBatch : ( nums ) = > mod . FpInvertBatch ( Fp6 , nums ) ,
// Normalized
add : Fp6Add ,
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sub : Fp6Subtract ,
mul : Fp6Multiply ,
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square : Fp6Square ,
// NonNormalized stuff
addN : Fp6Add ,
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subN : Fp6Subtract ,
mulN : Fp6Multiply ,
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squareN : Fp6Square ,
invert : ( { c0 , c1 , c2 } ) = > {
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let t0 = Fp2 . sub ( Fp2 . square ( c0 ) , Fp2 . mulByNonresidue ( Fp2 . mul ( c2 , c1 ) ) ) ; // c0² - c2 * c1 * (u + 1)
let t1 = Fp2 . sub ( Fp2 . mulByNonresidue ( Fp2 . square ( c2 ) ) , Fp2 . mul ( c0 , c1 ) ) ; // c2² * (u + 1) - c0 * c1
let t2 = Fp2 . sub ( Fp2 . square ( c1 ) , Fp2 . mul ( c0 , c2 ) ) ; // c1² - c0 * c2
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// 1/(((c2 * T1 + c1 * T2) * v) + c0 * T0)
let t4 = Fp2 . invert (
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Fp2 . add ( Fp2 . mulByNonresidue ( Fp2 . add ( Fp2 . mul ( c2 , t1 ) , Fp2 . mul ( c1 , t2 ) ) ) , Fp2 . mul ( c0 , t0 ) )
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) ;
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return { c0 : Fp2.mul ( t4 , t0 ) , c1 : Fp2.mul ( t4 , t1 ) , c2 : Fp2.mul ( t4 , t2 ) } ;
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} ,
// Bytes utils
fromBytes : ( b : Uint8Array ) : Fp6 = > {
if ( b . length !== Fp6 . BYTES ) throw new Error ( ` fromBytes wrong length= ${ b . length } ` ) ;
return {
c0 : Fp2.fromBytes ( b . subarray ( 0 , Fp2 . BYTES ) ) ,
c1 : Fp2.fromBytes ( b . subarray ( Fp2 . BYTES , 2 * Fp2 . BYTES ) ) ,
c2 : Fp2.fromBytes ( b . subarray ( 2 * Fp2 . BYTES ) ) ,
} ;
} ,
toBytes : ( { c0 , c1 , c2 } ) : Uint8Array = >
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concatB ( Fp2 . toBytes ( c0 ) , Fp2 . toBytes ( c1 ) , Fp2 . toBytes ( c2 ) ) ,
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cmov : ( { c0 , c1 , c2 } : Fp6 , { c0 : r0 , c1 : r1 , c2 : r2 } : Fp6 , c ) = > ( {
c0 : Fp2.cmov ( c0 , r0 , c ) ,
c1 : Fp2.cmov ( c1 , r1 , c ) ,
c2 : Fp2.cmov ( c2 , r2 , c ) ,
} ) ,
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// Utils
// fromTriple(triple: [Fp2, Fp2, Fp2]) {
// return new Fp6(...triple);
// }
// toString() {
// return `Fp6(${this.c0} + ${this.c1} * v, ${this.c2} * v^2)`;
// }
fromBigSix : ( t : BigintSix ) : Fp6 = > {
if ( ! Array . isArray ( t ) || t . length !== 6 ) throw new Error ( 'Invalid Fp6 usage' ) ;
return {
c0 : Fp2.fromBigTuple ( t . slice ( 0 , 2 ) ) ,
c1 : Fp2.fromBigTuple ( t . slice ( 2 , 4 ) ) ,
c2 : Fp2.fromBigTuple ( t . slice ( 4 , 6 ) ) ,
} ;
} ,
frobeniusMap : ( { c0 , c1 , c2 } , power : number ) = > ( {
c0 : Fp2.frobeniusMap ( c0 , power ) ,
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c1 : Fp2.mul ( Fp2 . frobeniusMap ( c1 , power ) , FP6_FROBENIUS_COEFFICIENTS_1 [ power % 6 ] ) ,
c2 : Fp2.mul ( Fp2 . frobeniusMap ( c2 , power ) , FP6_FROBENIUS_COEFFICIENTS_2 [ power % 6 ] ) ,
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} ) ,
mulByNonresidue : ( { c0 , c1 , c2 } ) = > ( { c0 : Fp2.mulByNonresidue ( c2 ) , c1 : c0 , c2 : c1 } ) ,
// Sparse multiplication
multiplyBy1 : ( { c0 , c1 , c2 } , b1 : Fp2 ) : Fp6 = > ( {
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c0 : Fp2.mulByNonresidue ( Fp2 . mul ( c2 , b1 ) ) ,
c1 : Fp2.mul ( c0 , b1 ) ,
c2 : Fp2.mul ( c1 , b1 ) ,
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} ) ,
// Sparse multiplication
multiplyBy01 ( { c0 , c1 , c2 } , b0 : Fp2 , b1 : Fp2 ) : Fp6 {
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let t0 = Fp2 . mul ( c0 , b0 ) ; // c0 * b0
let t1 = Fp2 . mul ( c1 , b1 ) ; // c1 * b1
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return {
// ((c1 + c2) * b1 - T1) * (u + 1) + T0
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c0 : Fp2.add ( Fp2 . mulByNonresidue ( Fp2 . sub ( Fp2 . mul ( Fp2 . add ( c1 , c2 ) , b1 ) , t1 ) ) , t0 ) ,
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// (b0 + b1) * (c0 + c1) - T0 - T1
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c1 : Fp2.sub ( Fp2 . sub ( Fp2 . mul ( Fp2 . add ( b0 , b1 ) , Fp2 . add ( c0 , c1 ) ) , t0 ) , t1 ) ,
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// (c0 + c2) * b0 - T0 + T1
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c2 : Fp2.add ( Fp2 . sub ( Fp2 . mul ( Fp2 . add ( c0 , c2 ) , b0 ) , t0 ) , t1 ) ,
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} ;
} ,
multiplyByFp2 : ( { c0 , c1 , c2 } , rhs : Fp2 ) : Fp6 = > ( {
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c0 : Fp2.mul ( c0 , rhs ) ,
c1 : Fp2.mul ( c1 , rhs ) ,
c2 : Fp2.mul ( c2 , rhs ) ,
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} ) ,
} ;
const FP6_FROBENIUS_COEFFICIENTS_1 = [
[ 0x1 n , 0x0 n ] ,
[
0x0 n ,
0x1a0111ea397fe699ec02408663d4de85aa0d857d89759ad4897d29650fb85f9b409427eb4f49fffd8bfd00000000aaac n ,
] ,
[
0x00000000000000005f19672fdf76ce51ba69c6076a0f77eaddb3a93be6f89688de17d813620a00022e01fffffffefffe n ,
0x0 n ,
] ,
[ 0x0 n , 0x1 n ] ,
[
0x1a0111ea397fe699ec02408663d4de85aa0d857d89759ad4897d29650fb85f9b409427eb4f49fffd8bfd00000000aaac n ,
0x0 n ,
] ,
[
0x0 n ,
0x00000000000000005f19672fdf76ce51ba69c6076a0f77eaddb3a93be6f89688de17d813620a00022e01fffffffefffe n ,
] ,
] . map ( ( pair ) = > Fp2 . fromBigTuple ( pair ) ) ;
const FP6_FROBENIUS_COEFFICIENTS_2 = [
[ 0x1 n , 0x0 n ] ,
[
0x1a0111ea397fe699ec02408663d4de85aa0d857d89759ad4897d29650fb85f9b409427eb4f49fffd8bfd00000000aaad n ,
0x0 n ,
] ,
[
0x1a0111ea397fe699ec02408663d4de85aa0d857d89759ad4897d29650fb85f9b409427eb4f49fffd8bfd00000000aaac n ,
0x0 n ,
] ,
[
0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaaaa n ,
0x0 n ,
] ,
[
0x00000000000000005f19672fdf76ce51ba69c6076a0f77eaddb3a93be6f89688de17d813620a00022e01fffffffefffe n ,
0x0 n ,
] ,
[
0x00000000000000005f19672fdf76ce51ba69c6076a0f77eaddb3a93be6f89688de17d813620a00022e01fffffffeffff n ,
0x0 n ,
] ,
] . map ( ( pair ) = > Fp2 . fromBigTuple ( pair ) ) ;
// Finite extension field over irreducible polynominal.
// Fp₁₂ = Fp₆² => Fp₂³
// Fp₆(w) / (w² - γ ) where γ = v
type Fp12 = { c0 : Fp6 ; c1 : Fp6 } ;
// The BLS parameter x for BLS12-381
const BLS_X = 0xd201000000010000 n ;
const BLS_X_LEN = bitLen ( BLS_X ) ;
// prettier-ignore
type BigintTwelve = [
bigint , bigint , bigint , bigint , bigint , bigint ,
bigint , bigint , bigint , bigint , bigint , bigint
] ;
const Fp12Add = ( { c0 , c1 } : Fp12 , { c0 : r0 , c1 : r1 } : Fp12 ) = > ( {
c0 : Fp6.add ( c0 , r0 ) ,
c1 : Fp6.add ( c1 , r1 ) ,
} ) ;
const Fp12Subtract = ( { c0 , c1 } : Fp12 , { c0 : r0 , c1 : r1 } : Fp12 ) = > ( {
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c0 : Fp6.sub ( c0 , r0 ) ,
c1 : Fp6.sub ( c1 , r1 ) ,
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} ) ;
const Fp12Multiply = ( { c0 , c1 } : Fp12 , rhs : Fp12 | bigint ) = > {
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if ( typeof rhs === 'bigint' ) return { c0 : Fp6.mul ( c0 , rhs ) , c1 : Fp6.mul ( c1 , rhs ) } ;
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let { c0 : r0 , c1 : r1 } = rhs ;
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let t1 = Fp6 . mul ( c0 , r0 ) ; // c0 * r0
let t2 = Fp6 . mul ( c1 , r1 ) ; // c1 * r1
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return {
c0 : Fp6.add ( t1 , Fp6 . mulByNonresidue ( t2 ) ) , // T1 + T2 * v
// (c0 + c1) * (r0 + r1) - (T1 + T2)
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c1 : Fp6.sub ( Fp6 . mul ( Fp6 . add ( c0 , c1 ) , Fp6 . add ( r0 , r1 ) ) , Fp6 . add ( t1 , t2 ) ) ,
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} ;
} ;
const Fp12Square = ( { c0 , c1 } : Fp12 ) = > {
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let ab = Fp6 . mul ( c0 , c1 ) ; // c0 * c1
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return {
// (c1 * v + c0) * (c0 + c1) - AB - AB * v
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c0 : Fp6.sub (
Fp6 . sub ( Fp6 . mul ( Fp6 . add ( Fp6 . mulByNonresidue ( c1 ) , c0 ) , Fp6 . add ( c0 , c1 ) ) , ab ) ,
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Fp6 . mulByNonresidue ( ab )
) ,
c1 : Fp6.add ( ab , ab ) ,
} ; // AB + AB
} ;
function Fp4Square ( a : Fp2 , b : Fp2 ) : { first : Fp2 ; second : Fp2 } {
const a2 = Fp2 . square ( a ) ;
const b2 = Fp2 . square ( b ) ;
return {
first : Fp2.add ( Fp2 . mulByNonresidue ( b2 ) , a2 ) , // b² * Nonresidue + a²
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second : Fp2.sub ( Fp2 . sub ( Fp2 . square ( Fp2 . add ( a , b ) ) , a2 ) , b2 ) , // (a + b)² - a² - b²
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} ;
}
type Fp12Utils = {
fromBigTwelve : ( t : BigintTwelve ) = > Fp12 ;
frobeniusMap ( num : Fp12 , power : number ) : Fp12 ;
multiplyBy014 ( num : Fp12 , o0 : Fp2 , o1 : Fp2 , o4 : Fp2 ) : Fp12 ;
multiplyByFp2 ( lhs : Fp12 , rhs : Fp2 ) : Fp12 ;
conjugate ( num : Fp12 ) : Fp12 ;
finalExponentiate ( num : Fp12 ) : Fp12 ;
_cyclotomicSquare ( num : Fp12 ) : Fp12 ;
_cyclotomicExp ( num : Fp12 , n : bigint ) : Fp12 ;
} ;
const Fp12 : mod.Field < Fp12 > & Fp12Utils = {
ORDER : Fp2.ORDER , // TODO: unused, but need to verify
BITS : 2 * Fp2 . BITS ,
BYTES : 2 * Fp2 . BYTES ,
MASK : bitMask ( 2 * Fp2 . BITS ) ,
ZERO : { c0 : Fp6.ZERO , c1 : Fp6.ZERO } ,
ONE : { c0 : Fp6.ONE , c1 : Fp6.ZERO } ,
create : ( num ) = > num ,
isValid : ( { c0 , c1 } ) = > Fp6 . isValid ( c0 ) && Fp6 . isValid ( c1 ) ,
isZero : ( { c0 , c1 } ) = > Fp6 . isZero ( c0 ) && Fp6 . isZero ( c1 ) ,
negate : ( { c0 , c1 } ) = > ( { c0 : Fp6.negate ( c0 ) , c1 : Fp6.negate ( c1 ) } ) ,
equals : ( { c0 , c1 } , { c0 : r0 , c1 : r1 } ) = > Fp6 . equals ( c0 , r0 ) && Fp6 . equals ( c1 , r1 ) ,
sqrt : ( ) = > {
throw new Error ( 'Not implemented' ) ;
} ,
invert : ( { c0 , c1 } ) = > {
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let t = Fp6 . invert ( Fp6 . sub ( Fp6 . square ( c0 ) , Fp6 . mulByNonresidue ( Fp6 . square ( c1 ) ) ) ) ; // 1 / (c0² - c1² * v)
return { c0 : Fp6.mul ( c0 , t ) , c1 : Fp6.negate ( Fp6 . mul ( c1 , t ) ) } ; // ((C0 * T) * T) + (-C1 * T) * w
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} ,
div : ( lhs , rhs ) = >
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Fp12 . mul ( lhs , typeof rhs === 'bigint' ? Fp . invert ( Fp . create ( rhs ) ) : Fp12 . invert ( rhs ) ) ,
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pow : ( num , power ) = > mod . FpPow ( Fp12 , num , power ) ,
invertBatch : ( nums ) = > mod . FpInvertBatch ( Fp12 , nums ) ,
// Normalized
add : Fp12Add ,
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sub : Fp12Subtract ,
mul : Fp12Multiply ,
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square : Fp12Square ,
// NonNormalized stuff
addN : Fp12Add ,
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subN : Fp12Subtract ,
mulN : Fp12Multiply ,
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squareN : Fp12Square ,
// Bytes utils
fromBytes : ( b : Uint8Array ) : Fp12 = > {
if ( b . length !== Fp12 . BYTES ) throw new Error ( ` fromBytes wrong length= ${ b . length } ` ) ;
return {
c0 : Fp6.fromBytes ( b . subarray ( 0 , Fp6 . BYTES ) ) ,
c1 : Fp6.fromBytes ( b . subarray ( Fp6 . BYTES ) ) ,
} ;
} ,
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toBytes : ( { c0 , c1 } ) : Uint8Array = > concatB ( Fp6 . toBytes ( c0 ) , Fp6 . toBytes ( c1 ) ) ,
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cmov : ( { c0 , c1 } , { c0 : r0 , c1 : r1 } , c ) = > ( {
c0 : Fp6.cmov ( c0 , r0 , c ) ,
c1 : Fp6.cmov ( c1 , r1 , c ) ,
} ) ,
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// Utils
// toString() {
// return `Fp12(${this.c0} + ${this.c1} * w)`;
// },
// fromTuple(c: [Fp6, Fp6]) {
// return new Fp12(...c);
// }
fromBigTwelve : ( t : BigintTwelve ) : Fp12 = > ( {
c0 : Fp6.fromBigSix ( t . slice ( 0 , 6 ) as BigintSix ) ,
c1 : Fp6.fromBigSix ( t . slice ( 6 , 12 ) as BigintSix ) ,
} ) ,
// Raises to q**i -th power
frobeniusMap ( lhs , power : number ) {
const r0 = Fp6 . frobeniusMap ( lhs . c0 , power ) ;
const { c0 , c1 , c2 } = Fp6 . frobeniusMap ( lhs . c1 , power ) ;
const coeff = FP12_FROBENIUS_COEFFICIENTS [ power % 12 ] ;
return {
c0 : r0 ,
c1 : Fp6.create ( {
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c0 : Fp2.mul ( c0 , coeff ) ,
c1 : Fp2.mul ( c1 , coeff ) ,
c2 : Fp2.mul ( c2 , coeff ) ,
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} ) ,
} ;
} ,
// Sparse multiplication
multiplyBy014 : ( { c0 , c1 } , o0 : Fp2 , o1 : Fp2 , o4 : Fp2 ) = > {
let t0 = Fp6 . multiplyBy01 ( c0 , o0 , o1 ) ;
let t1 = Fp6 . multiplyBy1 ( c1 , o4 ) ;
return {
c0 : Fp6.add ( Fp6 . mulByNonresidue ( t1 ) , t0 ) , // T1 * v + T0
// (c1 + c0) * [o0, o1+o4] - T0 - T1
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c1 : Fp6.sub ( Fp6 . sub ( Fp6 . multiplyBy01 ( Fp6 . add ( c1 , c0 ) , o0 , Fp2 . add ( o1 , o4 ) ) , t0 ) , t1 ) ,
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} ;
} ,
multiplyByFp2 : ( { c0 , c1 } , rhs : Fp2 ) : Fp12 = > ( {
c0 : Fp6.multiplyByFp2 ( c0 , rhs ) ,
c1 : Fp6.multiplyByFp2 ( c1 , rhs ) ,
} ) ,
conjugate : ( { c0 , c1 } ) : Fp12 = > ( { c0 , c1 : Fp6.negate ( c1 ) } ) ,
// A cyclotomic group is a subgroup of Fp^n defined by
// GΦₙ(p) = {α ∈ Fpⁿ : α ^Φₙ(p) = 1}
// The result of any pairing is in a cyclotomic subgroup
// https://eprint.iacr.org/2009/565.pdf
_cyclotomicSquare : ( { c0 , c1 } ) : Fp12 = > {
const { c0 : c0c0 , c1 : c0c1 , c2 : c0c2 } = c0 ;
const { c0 : c1c0 , c1 : c1c1 , c2 : c1c2 } = c1 ;
const { first : t3 , second : t4 } = Fp4Square ( c0c0 , c1c1 ) ;
const { first : t5 , second : t6 } = Fp4Square ( c1c0 , c0c2 ) ;
const { first : t7 , second : t8 } = Fp4Square ( c0c1 , c1c2 ) ;
let t9 = Fp2 . mulByNonresidue ( t8 ) ; // T8 * (u + 1)
return {
c0 : Fp6.create ( {
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c0 : Fp2.add ( Fp2 . mul ( Fp2 . sub ( t3 , c0c0 ) , 2 n ) , t3 ) , // 2 * (T3 - c0c0) + T3
c1 : Fp2.add ( Fp2 . mul ( Fp2 . sub ( t5 , c0c1 ) , 2 n ) , t5 ) , // 2 * (T5 - c0c1) + T5
c2 : Fp2.add ( Fp2 . mul ( Fp2 . sub ( t7 , c0c2 ) , 2 n ) , t7 ) ,
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} ) , // 2 * (T7 - c0c2) + T7
c1 : Fp6.create ( {
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c0 : Fp2.add ( Fp2 . mul ( Fp2 . add ( t9 , c1c0 ) , 2 n ) , t9 ) , // 2 * (T9 + c1c0) + T9
c1 : Fp2.add ( Fp2 . mul ( Fp2 . add ( t4 , c1c1 ) , 2 n ) , t4 ) , // 2 * (T4 + c1c1) + T4
c2 : Fp2.add ( Fp2 . mul ( Fp2 . add ( t6 , c1c2 ) , 2 n ) , t6 ) ,
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} ) ,
} ; // 2 * (T6 + c1c2) + T6
} ,
_cyclotomicExp ( num , n ) {
let z = Fp12 . ONE ;
for ( let i = BLS_X_LEN - 1 ; i >= 0 ; i -- ) {
z = Fp12 . _cyclotomicSquare ( z ) ;
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if ( bitGet ( n , i ) ) z = Fp12 . mul ( z , num ) ;
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}
return z ;
} ,
// https://eprint.iacr.org/2010/354.pdf
// https://eprint.iacr.org/2009/565.pdf
finalExponentiate : ( num ) = > {
const x = BLS_X ;
// this^(q⁶) / this
const t0 = Fp12 . div ( Fp12 . frobeniusMap ( num , 6 ) , num ) ;
// t0^(q²) * t0
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const t1 = Fp12 . mul ( Fp12 . frobeniusMap ( t0 , 2 ) , t0 ) ;
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const t2 = Fp12 . conjugate ( Fp12 . _cyclotomicExp ( t1 , x ) ) ;
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const t3 = Fp12 . mul ( Fp12 . conjugate ( Fp12 . _cyclotomicSquare ( t1 ) ) , t2 ) ;
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const t4 = Fp12 . conjugate ( Fp12 . _cyclotomicExp ( t3 , x ) ) ;
const t5 = Fp12 . conjugate ( Fp12 . _cyclotomicExp ( t4 , x ) ) ;
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const t6 = Fp12 . mul ( Fp12 . conjugate ( Fp12 . _cyclotomicExp ( t5 , x ) ) , Fp12 . _cyclotomicSquare ( t2 ) ) ;
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const t7 = Fp12 . conjugate ( Fp12 . _cyclotomicExp ( t6 , x ) ) ;
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const t2_t5_pow_q2 = Fp12 . frobeniusMap ( Fp12 . mul ( t2 , t5 ) , 2 ) ;
const t4_t1_pow_q3 = Fp12 . frobeniusMap ( Fp12 . mul ( t4 , t1 ) , 3 ) ;
const t6_t1c_pow_q1 = Fp12 . frobeniusMap ( Fp12 . mul ( t6 , Fp12 . conjugate ( t1 ) ) , 1 ) ;
const t7_t3c_t1 = Fp12 . mul ( Fp12 . mul ( t7 , Fp12 . conjugate ( t3 ) ) , t1 ) ;
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// (t2 * t5)^(q²) * (t4 * t1)^(q³) * (t6 * t1.conj)^(q^1) * t7 * t3.conj * t1
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return Fp12 . mul ( Fp12 . mul ( Fp12 . mul ( t2_t5_pow_q2 , t4_t1_pow_q3 ) , t6_t1c_pow_q1 ) , t7_t3c_t1 ) ;
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} ,
} ;
const FP12_FROBENIUS_COEFFICIENTS = [
[ 0x1 n , 0x0 n ] ,
[
0x1904d3bf02bb0667c231beb4202c0d1f0fd603fd3cbd5f4f7b2443d784bab9c4f67ea53d63e7813d8d0775ed92235fb8 n ,
0x00fc3e2b36c4e03288e9e902231f9fb854a14787b6c7b36fec0c8ec971f63c5f282d5ac14d6c7ec22cf78a126ddc4af3 n ,
] ,
[
0x00000000000000005f19672fdf76ce51ba69c6076a0f77eaddb3a93be6f89688de17d813620a00022e01fffffffeffff n ,
0x0 n ,
] ,
[
0x135203e60180a68ee2e9c448d77a2cd91c3dedd930b1cf60ef396489f61eb45e304466cf3e67fa0af1ee7b04121bdea2 n ,
0x06af0e0437ff400b6831e36d6bd17ffe48395dabc2d3435e77f76e17009241c5ee67992f72ec05f4c81084fbede3cc09 n ,
] ,
[
0x00000000000000005f19672fdf76ce51ba69c6076a0f77eaddb3a93be6f89688de17d813620a00022e01fffffffefffe n ,
0x0 n ,
] ,
[
0x144e4211384586c16bd3ad4afa99cc9170df3560e77982d0db45f3536814f0bd5871c1908bd478cd1ee605167ff82995 n ,
0x05b2cfd9013a5fd8df47fa6b48b1e045f39816240c0b8fee8beadf4d8e9c0566c63a3e6e257f87329b18fae980078116 n ,
] ,
[
0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaaaa n ,
0x0 n ,
] ,
[
0x00fc3e2b36c4e03288e9e902231f9fb854a14787b6c7b36fec0c8ec971f63c5f282d5ac14d6c7ec22cf78a126ddc4af3 n ,
0x1904d3bf02bb0667c231beb4202c0d1f0fd603fd3cbd5f4f7b2443d784bab9c4f67ea53d63e7813d8d0775ed92235fb8 n ,
] ,
[
0x1a0111ea397fe699ec02408663d4de85aa0d857d89759ad4897d29650fb85f9b409427eb4f49fffd8bfd00000000aaac n ,
0x0 n ,
] ,
[
0x06af0e0437ff400b6831e36d6bd17ffe48395dabc2d3435e77f76e17009241c5ee67992f72ec05f4c81084fbede3cc09 n ,
0x135203e60180a68ee2e9c448d77a2cd91c3dedd930b1cf60ef396489f61eb45e304466cf3e67fa0af1ee7b04121bdea2 n ,
] ,
[
0x1a0111ea397fe699ec02408663d4de85aa0d857d89759ad4897d29650fb85f9b409427eb4f49fffd8bfd00000000aaad n ,
0x0 n ,
] ,
[
0x05b2cfd9013a5fd8df47fa6b48b1e045f39816240c0b8fee8beadf4d8e9c0566c63a3e6e257f87329b18fae980078116 n ,
0x144e4211384586c16bd3ad4afa99cc9170df3560e77982d0db45f3536814f0bd5871c1908bd478cd1ee605167ff82995 n ,
] ,
] . map ( ( n ) = > Fp2 . fromBigTuple ( n ) ) ;
// END OF CURVE FIELDS
// HashToCurve
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// 3-isogeny map from E' to E
// https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-hash-to-curve-11#appendix-E.3
const isogenyMapG2 = isogenyMap (
Fp2 ,
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[
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// xNum
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[
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[
'0x5c759507e8e333ebb5b7a9a47d7ed8532c52d39fd3a042a88b58423c50ae15d5c2638e343d9c71c6238aaaaaaaa97d6' ,
'0x5c759507e8e333ebb5b7a9a47d7ed8532c52d39fd3a042a88b58423c50ae15d5c2638e343d9c71c6238aaaaaaaa97d6' ,
] ,
[
'0x0' ,
'0x11560bf17baa99bc32126fced787c88f984f87adf7ae0c7f9a208c6b4f20a4181472aaa9cb8d555526a9ffffffffc71a' ,
] ,
[
'0x11560bf17baa99bc32126fced787c88f984f87adf7ae0c7f9a208c6b4f20a4181472aaa9cb8d555526a9ffffffffc71e' ,
'0x8ab05f8bdd54cde190937e76bc3e447cc27c3d6fbd7063fcd104635a790520c0a395554e5c6aaaa9354ffffffffe38d' ,
] ,
[
'0x171d6541fa38ccfaed6dea691f5fb614cb14b4e7f4e810aa22d6108f142b85757098e38d0f671c7188e2aaaaaaaa5ed1' ,
'0x0' ,
] ,
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] ,
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// xDen
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[
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[
'0x0' ,
'0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaa63' ,
] ,
[
'0xc' ,
'0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaa9f' ,
] ,
[ '0x1' , '0x0' ] , // LAST 1
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] ,
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// yNum
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[
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[
'0x1530477c7ab4113b59a4c18b076d11930f7da5d4a07f649bf54439d87d27e500fc8c25ebf8c92f6812cfc71c71c6d706' ,
'0x1530477c7ab4113b59a4c18b076d11930f7da5d4a07f649bf54439d87d27e500fc8c25ebf8c92f6812cfc71c71c6d706' ,
] ,
[
'0x0' ,
'0x5c759507e8e333ebb5b7a9a47d7ed8532c52d39fd3a042a88b58423c50ae15d5c2638e343d9c71c6238aaaaaaaa97be' ,
] ,
[
'0x11560bf17baa99bc32126fced787c88f984f87adf7ae0c7f9a208c6b4f20a4181472aaa9cb8d555526a9ffffffffc71c' ,
'0x8ab05f8bdd54cde190937e76bc3e447cc27c3d6fbd7063fcd104635a790520c0a395554e5c6aaaa9354ffffffffe38f' ,
] ,
[
'0x124c9ad43b6cf79bfbf7043de3811ad0761b0f37a1e26286b0e977c69aa274524e79097a56dc4bd9e1b371c71c718b10' ,
'0x0' ,
] ,
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] ,
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// yDen
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[
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[
'0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffa8fb' ,
'0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffa8fb' ,
] ,
[
'0x0' ,
'0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffa9d3' ,
] ,
[
'0x12' ,
'0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaa99' ,
] ,
[ '0x1' , '0x0' ] , // LAST 1
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] ,
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] . map ( ( i ) = > i . map ( ( pair ) = > Fp2 . fromBigTuple ( pair . map ( BigInt ) ) ) ) as [ Fp2 [ ] , Fp2 [ ] , Fp2 [ ] , Fp2 [ ] ]
) ;
// 11-isogeny map from E' to E
const isogenyMapG1 = isogenyMap (
Fp ,
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[
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// xNum
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[
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'0x11a05f2b1e833340b809101dd99815856b303e88a2d7005ff2627b56cdb4e2c85610c2d5f2e62d6eaeac1662734649b7' ,
'0x17294ed3e943ab2f0588bab22147a81c7c17e75b2f6a8417f565e33c70d1e86b4838f2a6f318c356e834eef1b3cb83bb' ,
'0xd54005db97678ec1d1048c5d10a9a1bce032473295983e56878e501ec68e25c958c3e3d2a09729fe0179f9dac9edcb0' ,
'0x1778e7166fcc6db74e0609d307e55412d7f5e4656a8dbf25f1b33289f1b330835336e25ce3107193c5b388641d9b6861' ,
'0xe99726a3199f4436642b4b3e4118e5499db995a1257fb3f086eeb65982fac18985a286f301e77c451154ce9ac8895d9' ,
'0x1630c3250d7313ff01d1201bf7a74ab5db3cb17dd952799b9ed3ab9097e68f90a0870d2dcae73d19cd13c1c66f652983' ,
'0xd6ed6553fe44d296a3726c38ae652bfb11586264f0f8ce19008e218f9c86b2a8da25128c1052ecaddd7f225a139ed84' ,
'0x17b81e7701abdbe2e8743884d1117e53356de5ab275b4db1a682c62ef0f2753339b7c8f8c8f475af9ccb5618e3f0c88e' ,
'0x80d3cf1f9a78fc47b90b33563be990dc43b756ce79f5574a2c596c928c5d1de4fa295f296b74e956d71986a8497e317' ,
'0x169b1f8e1bcfa7c42e0c37515d138f22dd2ecb803a0c5c99676314baf4bb1b7fa3190b2edc0327797f241067be390c9e' ,
'0x10321da079ce07e272d8ec09d2565b0dfa7dccdde6787f96d50af36003b14866f69b771f8c285decca67df3f1605fb7b' ,
'0x6e08c248e260e70bd1e962381edee3d31d79d7e22c837bc23c0bf1bc24c6b68c24b1b80b64d391fa9c8ba2e8ba2d229' ,
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] ,
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// xDen
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[
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'0x8ca8d548cff19ae18b2e62f4bd3fa6f01d5ef4ba35b48ba9c9588617fc8ac62b558d681be343df8993cf9fa40d21b1c' ,
'0x12561a5deb559c4348b4711298e536367041e8ca0cf0800c0126c2588c48bf5713daa8846cb026e9e5c8276ec82b3bff' ,
'0xb2962fe57a3225e8137e629bff2991f6f89416f5a718cd1fca64e00b11aceacd6a3d0967c94fedcfcc239ba5cb83e19' ,
'0x3425581a58ae2fec83aafef7c40eb545b08243f16b1655154cca8abc28d6fd04976d5243eecf5c4130de8938dc62cd8' ,
'0x13a8e162022914a80a6f1d5f43e7a07dffdfc759a12062bb8d6b44e833b306da9bd29ba81f35781d539d395b3532a21e' ,
'0xe7355f8e4e667b955390f7f0506c6e9395735e9ce9cad4d0a43bcef24b8982f7400d24bc4228f11c02df9a29f6304a5' ,
'0x772caacf16936190f3e0c63e0596721570f5799af53a1894e2e073062aede9cea73b3538f0de06cec2574496ee84a3a' ,
'0x14a7ac2a9d64a8b230b3f5b074cf01996e7f63c21bca68a81996e1cdf9822c580fa5b9489d11e2d311f7d99bbdcc5a5e' ,
'0xa10ecf6ada54f825e920b3dafc7a3cce07f8d1d7161366b74100da67f39883503826692abba43704776ec3a79a1d641' ,
'0x95fc13ab9e92ad4476d6e3eb3a56680f682b4ee96f7d03776df533978f31c1593174e4b4b7865002d6384d168ecdd0a' ,
'0x000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001' , // LAST 1
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] ,
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// yNum
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[
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'0x90d97c81ba24ee0259d1f094980dcfa11ad138e48a869522b52af6c956543d3cd0c7aee9b3ba3c2be9845719707bb33' ,
'0x134996a104ee5811d51036d776fb46831223e96c254f383d0f906343eb67ad34d6c56711962fa8bfe097e75a2e41c696' ,
'0xcc786baa966e66f4a384c86a3b49942552e2d658a31ce2c344be4b91400da7d26d521628b00523b8dfe240c72de1f6' ,
'0x1f86376e8981c217898751ad8746757d42aa7b90eeb791c09e4a3ec03251cf9de405aba9ec61deca6355c77b0e5f4cb' ,
'0x8cc03fdefe0ff135caf4fe2a21529c4195536fbe3ce50b879833fd221351adc2ee7f8dc099040a841b6daecf2e8fedb' ,
'0x16603fca40634b6a2211e11db8f0a6a074a7d0d4afadb7bd76505c3d3ad5544e203f6326c95a807299b23ab13633a5f0' ,
'0x4ab0b9bcfac1bbcb2c977d027796b3ce75bb8ca2be184cb5231413c4d634f3747a87ac2460f415ec961f8855fe9d6f2' ,
'0x987c8d5333ab86fde9926bd2ca6c674170a05bfe3bdd81ffd038da6c26c842642f64550fedfe935a15e4ca31870fb29' ,
'0x9fc4018bd96684be88c9e221e4da1bb8f3abd16679dc26c1e8b6e6a1f20cabe69d65201c78607a360370e577bdba587' ,
'0xe1bba7a1186bdb5223abde7ada14a23c42a0ca7915af6fe06985e7ed1e4d43b9b3f7055dd4eba6f2bafaaebca731c30' ,
'0x19713e47937cd1be0dfd0b8f1d43fb93cd2fcbcb6caf493fd1183e416389e61031bf3a5cce3fbafce813711ad011c132' ,
'0x18b46a908f36f6deb918c143fed2edcc523559b8aaf0c2462e6bfe7f911f643249d9cdf41b44d606ce07c8a4d0074d8e' ,
'0xb182cac101b9399d155096004f53f447aa7b12a3426b08ec02710e807b4633f06c851c1919211f20d4c04f00b971ef8' ,
'0x245a394ad1eca9b72fc00ae7be315dc757b3b080d4c158013e6632d3c40659cc6cf90ad1c232a6442d9d3f5db980133' ,
'0x5c129645e44cf1102a159f748c4a3fc5e673d81d7e86568d9ab0f5d396a7ce46ba1049b6579afb7866b1e715475224b' ,
'0x15e6be4e990f03ce4ea50b3b42df2eb5cb181d8f84965a3957add4fa95af01b2b665027efec01c7704b456be69c8b604' ,
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] ,
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// yDen
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[
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'0x16112c4c3a9c98b252181140fad0eae9601a6de578980be6eec3232b5be72e7a07f3688ef60c206d01479253b03663c1' ,
'0x1962d75c2381201e1a0cbd6c43c348b885c84ff731c4d59ca4a10356f453e01f78a4260763529e3532f6102c2e49a03d' ,
'0x58df3306640da276faaae7d6e8eb15778c4855551ae7f310c35a5dd279cd2eca6757cd636f96f891e2538b53dbf67f2' ,
'0x16b7d288798e5395f20d23bf89edb4d1d115c5dbddbcd30e123da489e726af41727364f2c28297ada8d26d98445f5416' ,
'0xbe0e079545f43e4b00cc912f8228ddcc6d19c9f0f69bbb0542eda0fc9dec916a20b15dc0fd2ededda39142311a5001d' ,
'0x8d9e5297186db2d9fb266eaac783182b70152c65550d881c5ecd87b6f0f5a6449f38db9dfa9cce202c6477faaf9b7ac' ,
'0x166007c08a99db2fc3ba8734ace9824b5eecfdfa8d0cf8ef5dd365bc400a0051d5fa9c01a58b1fb93d1a1399126a775c' ,
'0x16a3ef08be3ea7ea03bcddfabba6ff6ee5a4375efa1f4fd7feb34fd206357132b920f5b00801dee460ee415a15812ed9' ,
'0x1866c8ed336c61231a1be54fd1d74cc4f9fb0ce4c6af5920abc5750c4bf39b4852cfe2f7bb9248836b233d9d55535d4a' ,
'0x167a55cda70a6e1cea820597d94a84903216f763e13d87bb5308592e7ea7d4fbc7385ea3d529b35e346ef48bb8913f55' ,
'0x4d2f259eea405bd48f010a01ad2911d9c6dd039bb61a6290e591b36e636a5c871a5c29f4f83060400f8b49cba8f6aa8' ,
'0xaccbb67481d033ff5852c1e48c50c477f94ff8aefce42d28c0f9a88cea7913516f968986f7ebbea9684b529e2561092' ,
'0xad6b9514c767fe3c3613144b45f1496543346d98adf02267d5ceef9a00d9b8693000763e3b90ac11e99b138573345cc' ,
'0x2660400eb2e4f3b628bdd0d53cd76f2bf565b94e72927c1cb748df27942480e420517bd8714cc80d1fadc1326ed06f7' ,
'0xe0fa1d816ddc03e6b24255e0d7819c171c40f65e273b853324efcd6356caa205ca2f570f13497804415473a1d634b8f' ,
'0x000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001' , // LAST 1
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] ,
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] . map ( ( i ) = > i . map ( ( j ) = > BigInt ( j ) ) ) as [ Fp [ ] , Fp [ ] , Fp [ ] , Fp [ ] ]
) ;
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// SWU Map - Fp2 to G2': y² = x³ + 240i * x + 1012 + 1012i
const G2_SWU = mapToCurveSimpleSWU ( Fp2 , {
A : Fp2.create ( { c0 : Fp.create ( 0 n ) , c1 : Fp.create ( 240 n ) } ) , // A' = 240 * I
B : Fp2.create ( { c0 : Fp.create ( 1012 n ) , c1 : Fp.create ( 1012 n ) } ) , // B' = 1012 * (1 + I)
Z : Fp2.create ( { c0 : Fp.create ( - 2 n ) , c1 : Fp.create ( - 1 n ) } ) , // Z: -(2 + I)
} ) ;
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// Optimized SWU Map - Fp to G1
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const G1_SWU = mapToCurveSimpleSWU ( Fp , {
A : Fp.create (
0x144698a3b8e9433d693a02c96d4982b0ea985383ee66a8d8e8981aefd881ac98936f8da0e0f97f5cf428082d584c1d n
) ,
B : Fp.create (
0x12e2908d11688030018b12e8753eee3b2016c1f0f24f4070a0b9c14fcef35ef55a23215a316ceaa5d1cc48e98e172be0 n
) ,
Z : Fp.create ( 11 n ) ,
} ) ;
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// Endomorphisms (for fast cofactor clearing)
// Ψ(P) endomorphism
const ut_root = Fp6 . create ( { c0 : Fp2.ZERO , c1 : Fp2.ONE , c2 : Fp2.ZERO } ) ;
const wsq = Fp12 . create ( { c0 : ut_root , c1 : Fp6.ZERO } ) ;
const wcu = Fp12 . create ( { c0 : Fp6.ZERO , c1 : ut_root } ) ;
const [ wsq_inv , wcu_inv ] = Fp12 . invertBatch ( [ wsq , wcu ] ) ;
function psi ( x : Fp2 , y : Fp2 ) : [ Fp2 , Fp2 ] {
// Untwist Fp2->Fp12 && frobenius(1) && twist back
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const x2 = Fp12 . mul ( Fp12 . frobeniusMap ( Fp12 . multiplyByFp2 ( wsq_inv , x ) , 1 ) , wsq ) . c0 . c0 ;
const y2 = Fp12 . mul ( Fp12 . frobeniusMap ( Fp12 . multiplyByFp2 ( wcu_inv , y ) , 1 ) , wcu ) . c0 . c0 ;
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return [ x2 , y2 ] ;
}
// Ψ endomorphism
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function G2psi ( c : ProjConstructor < Fp2 > , P : ProjPointType < Fp2 > ) {
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const affine = P . toAffine ( ) ;
const p = psi ( affine . x , affine . y ) ;
return new c ( p [ 0 ] , p [ 1 ] , Fp2 . ONE ) ;
}
// Ψ²(P) endomorphism
// 1 / F2(2)^((p-1)/3) in GF(p²)
const PSI2_C1 =
0x1a0111ea397fe699ec02408663d4de85aa0d857d89759ad4897d29650fb85f9b409427eb4f49fffd8bfd00000000aaac n ;
function psi2 ( x : Fp2 , y : Fp2 ) : [ Fp2 , Fp2 ] {
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return [ Fp2 . mul ( x , PSI2_C1 ) , Fp2 . negate ( y ) ] ;
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}
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function G2psi2 ( c : ProjConstructor < Fp2 > , P : ProjPointType < Fp2 > ) {
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const affine = P . toAffine ( ) ;
const p = psi2 ( affine . x , affine . y ) ;
return new c ( p [ 0 ] , p [ 1 ] , Fp2 . ONE ) ;
}
// Default hash_to_field options are for hash to G2.
//
// Parameter definitions are in section 5.3 of the spec unless otherwise noted.
// Parameter values come from section 8.8.2 of the spec.
// https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-hash-to-curve-11#section-8.8.2
//
// Base field F is GF(p^m)
// p = 0x1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaaab
// m = 2 (or 1 for G1 see section 8.8.1)
// k = 128
const htfDefaults = {
// DST: a domain separation tag
// defined in section 2.2.5
// Use utils.getDSTLabel(), utils.setDSTLabel(value)
DST : 'BLS_SIG_BLS12381G2_XMD:SHA-256_SSWU_RO_NUL_' ,
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encodeDST : 'BLS_SIG_BLS12381G2_XMD:SHA-256_SSWU_RO_NUL_' ,
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// p: the characteristic of F
// where F is a finite field of characteristic p and order q = p^m
p : Fp.ORDER ,
// m: the extension degree of F, m >= 1
// where F is a finite field of characteristic p and order q = p^m
m : 2 ,
// k: the target security level for the suite in bits
// defined in section 5.1
k : 128 ,
// option to use a message that has already been processed by
// expand_message_xmd
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expand : 'xmd' ,
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// Hash functions for: expand_message_xmd is appropriate for use with a
// wide range of hash functions, including SHA-2, SHA-3, BLAKE2, and others.
// BBS+ uses blake2: https://github.com/hyperledger/aries-framework-go/issues/2247
hash : sha256 ,
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} as const ;
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// Encoding utils
// Point on G1 curve: (x, y)
const C_BIT_POS = Fp . BITS ; // C_bit, compression bit for serialization flag
const I_BIT_POS = Fp . BITS + 1 ; // I_bit, point-at-infinity bit for serialization flag
const S_BIT_POS = Fp . BITS + 2 ; // S_bit, sign bit for serialization flag
// Compressed point of infinity
const COMPRESSED_ZERO = Fp . toBytes ( bitSet ( bitSet ( 0 n , I_BIT_POS , true ) , S_BIT_POS , true ) ) ; // set compressed & point-at-infinity bits
// To verify curve parameters, see pairing-friendly-curves spec:
// https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-pairing-friendly-curves-09
// Basic math is done over finite fields over p.
// More complicated math is done over polynominal extension fields.
// To simplify calculations in Fp12, we construct extension tower:
// Fp₁₂ = Fp₆² => Fp₂³
// Fp(u) / (u² - β) where β = -1
// Fp₂(v) / (v³ - ξ) where ξ = u + 1
// Fp₆(w) / (w² - γ ) where γ = v
// Here goes constants && point encoding format
export const bls12_381 : CurveFn < Fp , Fp2 , Fp6 , Fp12 > = bls ( {
// Fields
Fr ,
Fp ,
Fp2 ,
Fp6 ,
Fp12 ,
// order; z⁴ − z² + 1
r : Fr.ORDER , // Same as N in other curves
// G1 is the order-q subgroup of E1(Fp) : y² = x³ + 4, #E1(Fp) = h1q, where
// characteristic; z + (z⁴ - z² + 1)(z - 1)²/3
G1 : {
Fp ,
// cofactor; (z - 1)²/3
h : 0x396c8c005555e1568c00aaab0000aaabn ,
// generator's coordinates
// x = 3685416753713387016781088315183077757961620795782546409894578378688607592378376318836054947676345821548104185464507
// y = 1339506544944476473020471379941921221584933875938349620426543736416511423956333506472724655353366534992391756441569
Gx : 0x17f1d3a73197d7942695638c4fa9ac0fc3688c4f9774b905a14e3a3f171bac586c55e83ff97a1aeffb3af00adb22c6bbn ,
Gy : 0x08b3f481e3aaa0f1a09e30ed741d8ae4fcf5e095d5d00af600db18cb2c04b3edd03cc744a2888ae40caa232946c5e7e1n ,
a : Fp.ZERO ,
b : 4n ,
htfDefaults : { . . . htfDefaults , m : 1 } ,
wrapPrivateKey : true ,
allowInfinityPoint : true ,
// Checks is the point resides in prime-order subgroup.
// point.isTorsionFree() should return true for valid points
// It returns false for shitty points.
// https://eprint.iacr.org/2021/1130.pdf
isTorsionFree : ( c , point ) : boolean = > {
// φ endomorphism
const cubicRootOfUnityModP =
0x5f19672fdf76ce51ba69c6076a0f77eaddb3a93be6f89688de17d813620a00022e01fffffffefffe n ;
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const phi = new c ( Fp . mul ( point . px , cubicRootOfUnityModP ) , point . py , point . pz ) ;
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// todo: unroll
const xP = point . multiplyUnsafe ( bls12_381 . CURVE . x ) . negate ( ) ; // [x]P
const u2P = xP . multiplyUnsafe ( bls12_381 . CURVE . x ) ; // [u2]P
return u2P . equals ( phi ) ;
// https://eprint.iacr.org/2019/814.pdf
// (z² − 1)/3
// const c1 = 0x396c8c005555e1560000000055555555n;
// const P = this;
// const S = P.sigma();
// const Q = S.double();
// const S2 = S.sigma();
// // [(z² − 1)/3](2σ (P) − P − σ²(P)) − σ²(P) = O
// const left = Q.subtract(P).subtract(S2).multiplyUnsafe(c1);
// const C = left.subtract(S2);
// return C.isZero();
} ,
// Clear cofactor of G1
// https://eprint.iacr.org/2019/403
clearCofactor : ( c , point ) = > {
// return this.multiplyUnsafe(CURVE.h);
return point . multiplyUnsafe ( bls12_381 . CURVE . x ) . add ( point ) ; // x*P + P
} ,
mapToCurve : ( scalars : bigint [ ] ) = > {
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const { x , y } = G1_SWU ( Fp . create ( scalars [ 0 ] ) ) ;
return isogenyMapG1 ( x , y ) ;
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} ,
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fromBytes : ( bytes : Uint8Array ) : AffinePoint < Fp > = > {
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if ( bytes . length === 48 ) {
const P = Fp . ORDER ;
const compressedValue = bytesToNumberBE ( bytes ) ;
const bflag = bitGet ( compressedValue , I_BIT_POS ) ;
// Zero
if ( bflag === 1 n ) return { x : 0n , y : 0n } ;
const x = Fp . create ( compressedValue & Fp . MASK ) ;
const right = Fp . add ( Fp . pow ( x , 3 n ) , Fp . create ( bls12_381 . CURVE . G1 . b ) ) ; // y² = x³ + b
let y = Fp . sqrt ( right ) ;
if ( ! y ) throw new Error ( 'Invalid compressed G1 point' ) ;
const aflag = bitGet ( compressedValue , C_BIT_POS ) ;
if ( ( y * 2 n ) / P !== aflag ) y = Fp . negate ( y ) ;
return { x : Fp.create ( x ) , y : Fp.create ( y ) } ;
} else if ( bytes . length === 96 ) {
// Check if the infinity flag is set
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if ( ( bytes [ 0 ] & ( 1 << 6 ) ) !== 0 ) return bls12_381 . G1 . ProjectivePoint . ZERO . toAffine ( ) ;
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const x = bytesToNumberBE ( bytes . slice ( 0 , Fp . BYTES ) ) ;
const y = bytesToNumberBE ( bytes . slice ( Fp . BYTES ) ) ;
return { x : Fp.create ( x ) , y : Fp.create ( y ) } ;
} else {
throw new Error ( 'Invalid point G1, expected 48/96 bytes' ) ;
}
} ,
toBytes : ( c , point , isCompressed ) = > {
const isZero = point . equals ( c . ZERO ) ;
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const { x , y } = point . toAffine ( ) ;
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if ( isCompressed ) {
if ( isZero ) return COMPRESSED_ZERO . slice ( ) ;
const P = Fp . ORDER ;
let num ;
num = bitSet ( x , C_BIT_POS , Boolean ( ( y * 2 n ) / P ) ) ; // set aflag
num = bitSet ( num , S_BIT_POS , true ) ;
return numberToBytesBE ( num , Fp . BYTES ) ;
} else {
if ( isZero ) {
// 2x PUBLIC_KEY_LENGTH
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const x = concatB ( new Uint8Array ( [ 0x40 ] ) , new Uint8Array ( 2 * Fp . BYTES - 1 ) ) ;
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return x ;
} else {
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return concatB ( numberToBytesBE ( x , Fp . BYTES ) , numberToBytesBE ( y , Fp . BYTES ) ) ;
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}
}
} ,
} ,
// G2 is the order-q subgroup of E2(Fp²) : y² = x³+4(1+√− 1),
// where Fp2 is Fp[√− 1]/(x2+1). #E2(Fp2 ) = h2q, where
// G² - 1
// h2q
G2 : {
Fp : Fp2 ,
// cofactor
h : 0x5d543a95414e7f1091d50792876a202cd91de4547085abaa68a205b2e5a7ddfa628f1cb4d9e82ef21537e293a6691ae1616ec6e786f0c70cf1c38e31c7238e5n ,
Gx : Fp2.fromBigTuple ( [
0x024aa2b2f08f0a91260805272dc51051c6e47ad4fa403b02b4510b647ae3d1770bac0326a805bbefd48056c8c121bdb8 n ,
0x13e02b6052719f607dacd3a088274f65596bd0d09920b61ab5da61bbdc7f5049334cf11213945d57e5ac7d055d042b7e n ,
] ) ,
// y =
// 927553665492332455747201965776037880757740193453592970025027978793976877002675564980949289727957565575433344219582,
// 1985150602287291935568054521177171638300868978215655730859378665066344726373823718423869104263333984641494340347905
Gy : Fp2.fromBigTuple ( [
0x0ce5d527727d6e118cc9cdc6da2e351aadfd9baa8cbdd3a76d429a695160d12c923ac9cc3baca289e193548608b82801 n ,
0x0606c4a02ea734cc32acd2b02bc28b99cb3e287e85a763af267492ab572e99ab3f370d275cec1da1aaa9075ff05f79be n ,
] ) ,
a : Fp2.ZERO ,
b : Fp2.fromBigTuple ( [ 4 n , 4 n ] ) ,
hEff : 0xbc69f08f2ee75b3584c6a0ea91b352888e2a8e9145ad7689986ff031508ffe1329c2f178731db956d82bf015d1212b02ec0ec69d7477c1ae954cbc06689f6a359894c0adebbf6b4e8020005aaa95551n ,
htfDefaults : { . . . htfDefaults } ,
wrapPrivateKey : true ,
allowInfinityPoint : true ,
mapToCurve : ( scalars : bigint [ ] ) = > {
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const { x , y } = G2_SWU ( Fp2 . fromBigTuple ( scalars ) ) ;
return isogenyMapG2 ( x , y ) ;
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} ,
// Checks is the point resides in prime-order subgroup.
// point.isTorsionFree() should return true for valid points
// It returns false for shitty points.
// https://eprint.iacr.org/2021/1130.pdf
isTorsionFree : ( c , P ) : boolean = > {
return P . multiplyUnsafe ( bls12_381 . CURVE . x ) . negate ( ) . equals ( G2psi ( c , P ) ) ; // ψ(P) == [u](P)
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// Older version: https://eprint.iacr.org/2019/814.pdf
// Ψ²(P) => Ψ³(P) => [z]Ψ³(P) where z = -x => [z]Ψ³(P) - Ψ²(P) + P == O
// return P.psi2().psi().mulNegX().subtract(psi2).add(P).isZero();
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} ,
// Maps the point into the prime-order subgroup G2.
// clear_cofactor_bls12381_g2 from cfrg-hash-to-curve-11
// https://eprint.iacr.org/2017/419.pdf
// prettier-ignore
clearCofactor : ( c , P ) = > {
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const { x } = bls12_381 . CURVE ;
let t1 = P . multiplyUnsafe ( x ) . negate ( ) ; // [-x]P
let t2 = G2psi ( c , P ) ; // Ψ(P)
let t3 = P . double ( ) ; // 2P
t3 = G2psi2 ( c , t3 ) ; // Ψ²(2P)
t3 = t3 . subtract ( t2 ) ; // Ψ²(2P) - Ψ(P)
t2 = t1 . add ( t2 ) ; // [-x]P + Ψ(P)
t2 = t2 . multiplyUnsafe ( x ) . negate ( ) ; // [x²]P - [x]Ψ(P)
t3 = t3 . add ( t2 ) ; // Ψ²(2P) - Ψ(P) + [x²]P - [x]Ψ(P)
t3 = t3 . subtract ( t1 ) ; // Ψ²(2P) - Ψ(P) + [x²]P - [x]Ψ(P) + [x]P
const Q = t3 . subtract ( P ) ; // Ψ²(2P) - Ψ(P) + [x²]P - [x]Ψ(P) + [x]P - 1P
return Q ; // [x²-x-1]P + [x-1]Ψ(P) + Ψ²(2P)
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} ,
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fromBytes : ( bytes : Uint8Array ) : AffinePoint < Fp2 > = > {
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const m_byte = bytes [ 0 ] & 0xe0 ;
if ( m_byte === 0x20 || m_byte === 0x60 || m_byte === 0xe0 ) {
throw new Error ( 'Invalid encoding flag: ' + m_byte ) ;
}
const bitC = m_byte & 0x80 ; // compression bit
const bitI = m_byte & 0x40 ; // point at infinity bit
const bitS = m_byte & 0x20 ; // sign bit
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const L = Fp . BYTES ;
const slc = ( b : Uint8Array , from : number , to? : number ) = > bytesToNumberBE ( b . slice ( from , to ) ) ;
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if ( bytes . length === 96 && bitC ) {
const { b } = bls12_381 . CURVE . G2 ;
const P = Fp . ORDER ;
bytes [ 0 ] = bytes [ 0 ] & 0x1f ; // clear flags
if ( bitI ) {
// check that all bytes are 0
if ( bytes . reduce ( ( p , c ) = > ( p !== 0 ? c + 1 : c ) , 0 ) > 0 ) {
throw new Error ( 'Invalid compressed G2 point' ) ;
}
return { x : Fp2.ZERO , y : Fp2.ZERO } ;
}
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const x_1 = slc ( bytes , 0 , L ) ;
const x_0 = slc ( bytes , L , 2 * L ) ;
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const x = Fp2 . create ( { c0 : Fp.create ( x_0 ) , c1 : Fp.create ( x_1 ) } ) ;
const right = Fp2 . add ( Fp2 . pow ( x , 3 n ) , b ) ; // y² = x³ + 4 * (u+1) = x³ + b
let y = Fp2 . sqrt ( right ) ;
const Y_bit = y . c1 === 0 n ? ( y . c0 * 2 n ) / P : ( y . c1 * 2 n ) / P ? 1n : 0n ;
y = bitS > 0 && Y_bit > 0 ? y : Fp2.negate ( y ) ;
return { x , y } ;
} else if ( bytes . length === 192 && ! bitC ) {
// Check if the infinity flag is set
if ( ( bytes [ 0 ] & ( 1 << 6 ) ) !== 0 ) {
return { x : Fp2.ZERO , y : Fp2.ZERO } ;
}
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const x1 = slc ( bytes , 0 , L ) ;
const x0 = slc ( bytes , L , 2 * L ) ;
const y1 = slc ( bytes , 2 * L , 3 * L ) ;
const y0 = slc ( bytes , 3 * L , 4 * L ) ;
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return { x : Fp2.fromBigTuple ( [ x0 , x1 ] ) , y : Fp2.fromBigTuple ( [ y0 , y1 ] ) } ;
} else {
throw new Error ( 'Invalid point G2, expected 96/192 bytes' ) ;
}
} ,
toBytes : ( c , point , isCompressed ) = > {
const isZero = point . equals ( c . ZERO ) ;
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const { x , y } = point . toAffine ( ) ;
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if ( isCompressed ) {
const P = Fp . ORDER ;
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if ( isZero ) return concatB ( COMPRESSED_ZERO , numberToBytesBE ( 0 n , Fp . BYTES ) ) ;
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const flag = Boolean ( y . c1 === 0 n ? ( y . c0 * 2 n ) / P : ( y . c1 * 2 n ) / P ) ;
// set compressed & sign bits (looks like different offsets than for G1/Fp?)
let x_1 = bitSet ( x . c1 , C_BIT_POS , flag ) ;
x_1 = bitSet ( x_1 , S_BIT_POS , true ) ;
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return concatB ( numberToBytesBE ( x_1 , Fp . BYTES ) , numberToBytesBE ( x . c0 , Fp . BYTES ) ) ;
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} else {
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if ( isZero ) return concatB ( new Uint8Array ( [ 0x40 ] ) , new Uint8Array ( 4 * Fp . BYTES - 1 ) ) ; // bytes[0] |= 1 << 6;
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const { re : x0 , im : x1 } = Fp2 . reim ( x ) ;
const { re : y0 , im : y1 } = Fp2 . reim ( y ) ;
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return concatB (
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numberToBytesBE ( x1 , Fp . BYTES ) ,
numberToBytesBE ( x0 , Fp . BYTES ) ,
numberToBytesBE ( y1 , Fp . BYTES ) ,
numberToBytesBE ( y0 , Fp . BYTES )
) ;
}
} ,
Signature : {
// TODO: Optimize, it's very slow because of sqrt.
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decode ( hex : Hex ) : ProjPointType < Fp2 > {
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hex = ensureBytes ( hex ) ;
const P = Fp . ORDER ;
const half = hex . length / 2 ;
if ( half !== 48 && half !== 96 )
throw new Error ( 'Invalid compressed signature length, must be 96 or 192' ) ;
const z1 = bytesToNumberBE ( hex . slice ( 0 , half ) ) ;
const z2 = bytesToNumberBE ( hex . slice ( half ) ) ;
// Indicates the infinity point
const bflag1 = bitGet ( z1 , I_BIT_POS ) ;
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if ( bflag1 === 1 n ) return bls12_381 . G2 . ProjectivePoint . ZERO ;
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const x1 = Fp . create ( z1 & Fp . MASK ) ;
const x2 = Fp . create ( z2 ) ;
const x = Fp2 . create ( { c0 : x2 , c1 : x1 } ) ;
const y2 = Fp2 . add ( Fp2 . pow ( x , 3 n ) , bls12_381 . CURVE . G2 . b ) ; // y² = x³ + 4
// The slow part
let y = Fp2 . sqrt ( y2 ) ;
if ( ! y ) throw new Error ( 'Failed to find a square root' ) ;
// Choose the y whose leftmost bit of the imaginary part is equal to the a_flag1
// If y1 happens to be zero, then use the bit of y0
const { re : y0 , im : y1 } = Fp2 . reim ( y ) ;
const aflag1 = bitGet ( z1 , 381 ) ;
const isGreater = y1 > 0 n && ( y1 * 2 n ) / P !== aflag1 ;
const isZero = y1 === 0 n && ( y0 * 2 n ) / P !== aflag1 ;
if ( isGreater || isZero ) y = Fp2 . negate ( y ) ;
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const point = bls12_381 . G2 . ProjectivePoint . fromAffine ( { x , y } ) ;
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// console.log('Signature.decode', point);
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point . assertValidity ( ) ;
return point ;
} ,
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encode ( point : ProjPointType < Fp2 > ) {
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// NOTE: by some reasons it was missed in bls12-381, looks like bug
point . assertValidity ( ) ;
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if ( point . equals ( bls12_381 . G2 . ProjectivePoint . ZERO ) )
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return concatB ( COMPRESSED_ZERO , numberToBytesBE ( 0 n , Fp . BYTES ) ) ;
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const a = point . toAffine ( ) ;
const { re : x0 , im : x1 } = Fp2 . reim ( a . x ) ;
const { re : y0 , im : y1 } = Fp2 . reim ( a . y ) ;
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const tmp = y1 > 0 n ? y1 * 2n : y0 * 2 n ;
const aflag1 = Boolean ( ( tmp / Fp . ORDER ) & 1 n ) ;
const z1 = bitSet ( bitSet ( x1 , 381 , aflag1 ) , S_BIT_POS , true ) ;
const z2 = x0 ;
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return concatB ( numberToBytesBE ( z1 , Fp . BYTES ) , numberToBytesBE ( z2 , Fp . BYTES ) ) ;
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} ,
} ,
} ,
// The BLS parameter x for BLS12-381
x : BLS_X ,
htfDefaults ,
hash : sha256 ,
randomBytes ,
} ) ;