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@polygon-hermez/vm

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import { BN } from 'ethereumjs-util' import { PrecompileInput } from './types' import { VmErrorResult, ExecResult, OOGResult } from '../evm' import { ERROR, VmError } from '../../exceptions' const assert = require('assert') const { BLS12_381_ToG1Point, BLS12_381_FromG1Point, BLS12_381_ToFrPoint, } = require('./util/bls12_381') export default async function (opts: PrecompileInput): Promise<ExecResult> { assert(opts.data) const mcl = opts._VM._mcl const inputData = opts.data // note: the gas used is constant; even if the input is incorrect. const gasUsed = new BN(opts._common.paramByEIP('gasPrices', 'Bls12381G1MulGas', 2537)) if (opts.gasLimit.lt(gasUsed)) { return OOGResult(opts.gasLimit) } if (inputData.length != 160) { return VmErrorResult(new VmError(ERROR.BLS_12_381_INVALID_INPUT_LENGTH), opts.gasLimit) } // check if some parts of input are zero bytes. const zeroBytes16 = Buffer.alloc(16, 0) const zeroByteCheck = [ [0, 16], [64, 80], ] for (const index in zeroByteCheck) { const slicedBuffer = opts.data.slice(zeroByteCheck[index][0], zeroByteCheck[index][1]) if (!slicedBuffer.equals(zeroBytes16)) { return VmErrorResult(new VmError(ERROR.BLS_12_381_POINT_NOT_ON_CURVE), opts.gasLimit) } } // convert input to mcl G1 points, add them, and convert the output to a Buffer. let mclPoint try { mclPoint = BLS12_381_ToG1Point(opts.data.slice(0, 128), mcl) } catch (e: any) { return VmErrorResult(e, opts.gasLimit) } const frPoint = BLS12_381_ToFrPoint(opts.data.slice(128, 160), mcl) const result = mcl.mul(mclPoint, frPoint) const returnValue = BLS12_381_FromG1Point(result) return { gasUsed, returnValue: returnValue, } }