145 lines
4.5 KiB
Markdown
145 lines
4.5 KiB
Markdown
# EIP-4844 -- Polynomial Commitments
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## Table of contents
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<!-- TOC -->
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<!-- START doctoc generated TOC please keep comment here to allow auto update -->
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<!-- DON'T EDIT THIS SECTION, INSTEAD RE-RUN doctoc TO UPDATE -->
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- [Introduction](#introduction)
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- [Custom types](#custom-types)
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- [Constants](#constants)
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- [Preset](#preset)
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- [Trusted setup](#trusted-setup)
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- [Helper functions](#helper-functions)
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- [BLS12-381 helpers](#bls12-381-helpers)
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- [`bls_modular_inverse`](#bls_modular_inverse)
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- [`div`](#div)
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- [`lincomb`](#lincomb)
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- [KZG](#kzg)
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- [`blob_to_kzg`](#blob_to_kzg)
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- [`verify_kzg_proof`](#verify_kzg_proof)
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- [Polynomials](#polynomials)
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- [`evaluate_polynomial_in_evaluation_form`](#evaluate_polynomial_in_evaluation_form)
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<!-- END doctoc generated TOC please keep comment here to allow auto update -->
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<!-- /TOC -->
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## Introduction
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This document specifies basic polynomial operations and KZG polynomial commitment operations as they are needed for the EIP-4844 specification. The implementations are not optimized for performance, but readability. All practical implementations should optimize the polynomial operations.
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## Custom types
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| Name | SSZ equivalent | Description |
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| - | - | - |
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| `BLSFieldElement` | `uint256` | `x < BLS_MODULUS` |
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| `KZGCommitment` | `Bytes48` | Same as BLS standard "is valid pubkey" check but also allows `0x00..00` for point-at-infinity |
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| `KZGProof` | `Bytes48` | Same as for `KZGCommitment` |
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## Constants
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| Name | Value | Notes |
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| - | - | - |
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| `BLS_MODULUS` | `52435875175126190479447740508185965837690552500527637822603658699938581184513` | Scalar field modulus of BLS12-381 |
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| `ROOTS_OF_UNITY` | `Vector[BLSFieldElement, FIELD_ELEMENTS_PER_BLOB]` | Roots of unity of order FIELD_ELEMENTS_PER_BLOB over the BLS12-381 field |
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## Preset
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### Trusted setup
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The trusted setup is part of the preset: during testing a `minimal` insecure variant may be used,
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but reusing the `mainnet` settings in public networks is a critical security requirement.
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| Name | Value |
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| - | - |
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| `KZG_SETUP_G2` | `Vector[G2Point, FIELD_ELEMENTS_PER_BLOB]`, contents TBD |
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| `KZG_SETUP_LAGRANGE` | `Vector[KZGCommitment, FIELD_ELEMENTS_PER_BLOB]`, contents TBD |
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## Helper functions
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### BLS12-381 helpers
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#### `bls_modular_inverse`
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```python
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def bls_modular_inverse(x: BLSFieldElement) -> BLSFieldElement:
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"""
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Compute the modular inverse of x
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i.e. return y such that x * y % BLS_MODULUS == 1 and return 0 for x == 0
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"""
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return pow(x, -1, BLS_MODULUS) if x != 0 else 0
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```
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#### `div`
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```python
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def div(x, y):
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"""Divide two field elements: `x` by `y`"""
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return x * inv(y) % BLS_MODULUS
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```
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#### `lincomb`
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```python
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def lincomb(points: List[KZGCommitment], scalars: List[BLSFieldElement]) -> KZGCommitment:
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"""
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BLS multiscalar multiplication. This function can be optimized using Pippenger's algorithm and variants.
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"""
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r = bls.Z1
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for x, a in zip(points, scalars):
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r = bls.add(r, bls.multiply(x, a))
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return r
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```
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### KZG
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KZG core functions. These are also defined in EIP-4844 execution specs.
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#### `blob_to_kzg`
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```python
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def blob_to_kzg(blob: Blob) -> KZGCommitment:
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return lincomb(KZG_SETUP_LAGRANGE, blob)
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```
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#### `verify_kzg_proof`
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```python
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def verify_kzg_proof(polynomial_kzg: KZGCommitment,
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x: BLSFieldElement,
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y: BLSFieldElement,
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quotient_kzg: KZGProof) -> bool:
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"""Verify KZG proof that `p(x) == y` where `p(x)` is the polynomial represented by `polynomial_kzg`"""
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# Verify: P - y = Q * (X - x)
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X_minus_x = bls.add(KZG_SETUP_G2[1], bls.multiply(bls.G2, BLS_MODULUS - x))
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P_minus_y = bls.add(polynomial_kzg, bls.multiply(bls.G1, BLS_MODULUS - y))
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return bls.pairing_check([
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[P_minus_y, bls.neg(bls.G2)],
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[quotient_kzg, X_minus_x]
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])
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```
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### Polynomials
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#### `evaluate_polynomial_in_evaluation_form`
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```python
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def evaluate_polynomial_in_evaluation_form(poly: List[BLSFieldElement], x: BLSFieldElement) -> BLSFieldElement:
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"""
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Evaluate a polynomial (in evaluation form) at an arbitrary point `x`
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Uses the barycentric formula:
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f(x) = (1 - x**WIDTH) / WIDTH * sum_(i=0)^WIDTH (f(DOMAIN[i]) * DOMAIN[i]) / (x - DOMAIN[i])
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"""
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width = len(poly)
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assert width == FIELD_ELEMENTS_PER_BLOB
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inverse_width = bls_modular_inverse(width)
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for i in range(width):
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r += div(poly[i] * ROOTS_OF_UNITY[i], (x - ROOTS_OF_UNITY[i]) )
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r = r * (pow(x, width, BLS_MODULUS) - 1) * inverse_width % BLS_MODULUS
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return r
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```
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