// Copyright 2023 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . //go:build ckzg && !nacl && !js && !wasip1 && cgo && !gofuzz package kzg4844 import ( "encoding/json" "errors" "sync" gokzg4844 "github.com/crate-crypto/go-eth-kzg" ckzg4844 "github.com/ethereum/c-kzg-4844/v2/bindings/go" "github.com/ethereum/go-ethereum/common/hexutil" ) // ckzgAvailable signals whether the library was compiled into Geth. const ckzgAvailable = true // ckzgIniter ensures that we initialize the KZG library once before using it. var ckzgIniter sync.Once // ckzgInit initializes the KZG library with the provided trusted setup. func ckzgInit() { config, err := content.ReadFile("trusted_setup.json") if err != nil { panic(err) } params := new(gokzg4844.JSONTrustedSetup) if err = json.Unmarshal(config, params); err != nil { panic(err) } if err = gokzg4844.CheckTrustedSetupIsWellFormed(params); err != nil { panic(err) } g1Lag := make([]byte, len(params.SetupG1Lagrange)*(len(params.SetupG1Lagrange[0])-2)/2) for i, g1 := range params.SetupG1Lagrange { copy(g1Lag[i*(len(g1)-2)/2:], hexutil.MustDecode(g1)) } g1s := make([]byte, len(params.SetupG1Monomial)*(len(params.SetupG1Monomial[0])-2)/2) for i, g1 := range params.SetupG1Monomial { copy(g1s[i*(len(g1)-2)/2:], hexutil.MustDecode(g1)) } g2s := make([]byte, len(params.SetupG2)*(len(params.SetupG2[0])-2)/2) for i, g2 := range params.SetupG2 { copy(g2s[i*(len(g2)-2)/2:], hexutil.MustDecode(g2)) } // The last parameter determines the multiplication table, see https://notes.ethereum.org/@jtraglia/windowed_multiplications // I think 6 is an decent compromise between size and speed if err = ckzg4844.LoadTrustedSetup(g1s, g1Lag, g2s, 6); err != nil { panic(err) } } // ckzgBlobToCommitment creates a small commitment out of a data blob. func ckzgBlobToCommitment(blob *Blob) (Commitment, error) { ckzgIniter.Do(ckzgInit) commitment, err := ckzg4844.BlobToKZGCommitment((*ckzg4844.Blob)(blob)) if err != nil { return Commitment{}, err } return (Commitment)(commitment), nil } // ckzgComputeProof computes the KZG proof at the given point for the polynomial // represented by the blob. func ckzgComputeProof(blob *Blob, point Point) (Proof, Claim, error) { ckzgIniter.Do(ckzgInit) proof, claim, err := ckzg4844.ComputeKZGProof((*ckzg4844.Blob)(blob), (ckzg4844.Bytes32)(point)) if err != nil { return Proof{}, Claim{}, err } return (Proof)(proof), (Claim)(claim), nil } // ckzgVerifyProof verifies the KZG proof that the polynomial represented by the blob // evaluated at the given point is the claimed value. func ckzgVerifyProof(commitment Commitment, point Point, claim Claim, proof Proof) error { ckzgIniter.Do(ckzgInit) valid, err := ckzg4844.VerifyKZGProof((ckzg4844.Bytes48)(commitment), (ckzg4844.Bytes32)(point), (ckzg4844.Bytes32)(claim), (ckzg4844.Bytes48)(proof)) if err != nil { return err } if !valid { return errors.New("invalid proof") } return nil } // ckzgComputeBlobProof returns the KZG proof that is used to verify the blob against // the commitment. // // This method does not verify that the commitment is correct with respect to blob. func ckzgComputeBlobProof(blob *Blob, commitment Commitment) (Proof, error) { ckzgIniter.Do(ckzgInit) proof, err := ckzg4844.ComputeBlobKZGProof((*ckzg4844.Blob)(blob), (ckzg4844.Bytes48)(commitment)) if err != nil { return Proof{}, err } return (Proof)(proof), nil } // ckzgVerifyBlobProof verifies that the blob data corresponds to the provided commitment. func ckzgVerifyBlobProof(blob *Blob, commitment Commitment, proof Proof) error { ckzgIniter.Do(ckzgInit) valid, err := ckzg4844.VerifyBlobKZGProof((*ckzg4844.Blob)(blob), (ckzg4844.Bytes48)(commitment), (ckzg4844.Bytes48)(proof)) if err != nil { return err } if !valid { return errors.New("invalid proof") } return nil } // ckzgComputeCellProofs returns the KZG cell proofs that are used to verify the blob against // the commitment. // // This method does not verify that the commitment is correct with respect to blob. func ckzgComputeCellProofs(blob *Blob) ([]Proof, error) { ckzgIniter.Do(ckzgInit) _, proofs, err := ckzg4844.ComputeCellsAndKZGProofs((*ckzg4844.Blob)(blob)) if err != nil { return []Proof{}, err } p := make([]Proof, len(proofs)) for i, proof := range proofs { p[i] = (Proof)(proof) } return p, nil } // ckzgVerifyCellProofBatch verifies that the blob data corresponds to the provided commitment. func ckzgVerifyCellProofBatch(blobs []Blob, commitments []Commitment, cellProofs []Proof) error { ckzgIniter.Do(ckzgInit) var ( proofs = make([]ckzg4844.Bytes48, len(cellProofs)) commits = make([]ckzg4844.Bytes48, 0, len(cellProofs)) cellIndices = make([]uint64, 0, len(cellProofs)) cells = make([]ckzg4844.Cell, 0, len(cellProofs)) ) // Copy over the cell proofs for i, proof := range cellProofs { proofs[i] = (ckzg4844.Bytes48)(proof) } // Blow up the commitments to be the same length as the proofs for _, commitment := range commitments { for range gokzg4844.CellsPerExtBlob { commits = append(commits, (ckzg4844.Bytes48)(commitment)) } } // Compute the cells and cell indices for i := range blobs { cellsI, err := ckzg4844.ComputeCells((*ckzg4844.Blob)(&blobs[i])) if err != nil { return err } cells = append(cells, cellsI[:]...) for idx := range len(cellsI) { cellIndices = append(cellIndices, uint64(idx)) } } valid, err := ckzg4844.VerifyCellKZGProofBatch(commits, cellIndices, cells, proofs) if err != nil { return err } if !valid { return errors.New("invalid proof") } return nil }