elliptic-curve-solidity
is an open source implementation of Elliptic Curve arithmetic operations written in Solidity.
DISCLAIMER: This is experimental software. Use it at your own risk!
The solidity contracts have been generalized in order to support any elliptic curve based on prime numbers up to 256 bits.
elliptic-curve-solidity
has been designed as a library with only pure functions aiming at decreasing gas consumption as much as possible. Additionally, gas consumption comparison can be found in the benchmark section. This library does not check whether the points passed as arguments to the library belong to the curve. However, the library exposes a method called isOnCurve
that can be utilized before using the library functions.
It contains 2 solidity libraries:
EllipticCurve.sol
: provides main elliptic curve operations in affine and Jacobian coordinates.FastEcMul.sol
: provides a fast elliptic curve multiplication by using scalar decomposition and wNAF scalar representation.
EllipticCurve
library provides functions for:
- Modular
- inverse
- exponentiation
- Jacobian coordinates
- addition
- double
- multiplication
- Affine coordinates
- inverse
- addition
- subtraction
- multiplication
- Auxiliary
- conversion to affine coordinates
- derive coordinate Y from compressed EC point
- check if EC point is on curve
FastEcMul
library provides support for:
- Scalar decomposition
- Simultaneous multiplication (computes 2 EC multiplications using wNAF scalar representation)
The elliptic-curve-solidity
contract supports up to 256-bit curves. However, it has been extensively tested for the following curves:
secp256k1
secp224k1
secp192k1
secp256r1
(aka P256)secp192r1
(aka P192)secp224r1
(aka P224)
Known limitations:
deriveY
function do not work with the curvessecp224r1
andsecp224k1
because of the selected derivation algorithm. The computations for this curve are done with a modulo primep
such thatp mod 4 = 1
, thus a more complex algorithm is required (e.g. Tonelli-Shanks algorithm). Note thatderiveY
is just an auxiliary function, and thus does not limit the functionality of curve arithmetic operations.- the library only supports elliptic curves with
cofactor = 1
(all supported curves have acofactor = 1
).
EllipticCurve.sol
library can be used directly by importing it.
The Secp256k1 example depicts how to use the library by providing a function to derive a public key from a secret key:
pragma solidity 0.6.12;
import "elliptic-curve-solidity/contracts/EllipticCurve.sol";
contract Secp256k1 {
uint256 public constant GX = 0x79BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F81798;
uint256 public constant GY = 0x483ADA7726A3C4655DA4FBFC0E1108A8FD17B448A68554199C47D08FFB10D4B8;
uint256 public constant AA = 0;
uint256 public constant BB = 7;
uint256 public constant PP = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F;
function derivePubKey(uint256 privKey) public pure returns(uint256 qx, uint256 qy) {
(qx, qy) = EllipticCurve.ecMul(
privKey,
GX,
GY,
AA,
PP
);
}
}
The cost of a key derivation operation in Secp256k1 is around 550k gas.
·--------------------------------------------------|--------------------------·
| Gas · Block limit: 6721975 gas │
···················································|···························
| · 100 gwei/gas · 592.30 usd/eth │
··················|··········|··········|··········|············|··············
| Method · Min · Max · Avg · # calls · usd (avg) │
··················|··········|··········|··········|············|··············
| derivePubKey · 476146 · 518863 · 499884 · 18 · 29.61 │
··················|··········|··········|··········|············|··············
The cost of a simultaneous multiplication (using wNAF) consumes around 35% of the gas required by 2 EC multiplications.
Gas consumption and USD price estimation with a gas price of 100 Gwei, derived from ETH Gas Station:
·----------------------------------------|---------------------------|-------------|----------------------------·
| Solc version: 0.6.12+commit.27d51765 · Optimizer enabled: true · Runs: 200 · Block limit: 6718946 gas │
·········································|···························|·············|·····························
| Methods · 100 gwei/gas · 613.52 usd/eth │
··················|······················|·············|·············|·············|··············|··············
| Contract · Method · Min · Max · Avg · # calls · usd (avg) │
··················|······················|·············|·············|·············|··············|··············
| EllipticCurve · decomposeScalar · 55811 · 65399 · 61939 · 134 · 3.80 │
··················|······················|·············|·············|·············|··············|··············
| EllipticCurve · deriveY · 45275 · 55545 · 50410 · 4 · 3.09 │
··················|······················|·············|·············|·············|··············|··············
| EllipticCurve · ecAdd · 24305 · 56323 · 49119 · 472 · 3.01 │
··················|······················|·············|·············|·············|··············|··············
| EllipticCurve · ecInv · 22906 · 23074 · 22990 · 2 · 1.41 │
··················|······················|·············|·············|·············|··············|··············
| EllipticCurve · ecMul · 24911 · 623087 · 350939 · 561 · 21.53 │
··················|······················|·············|·············|·············|··············|··············
| EllipticCurve · ecSimMul · 76465 · 488165 · 243763 · 125 · 14.96 │
··················|······················|·············|·············|·············|··············|··············
| EllipticCurve · ecSub · 42634 · 56236 · 49717 · 228 · 3.05 │
··················|······················|·············|·············|·············|··············|··············
| EllipticCurve · invMod · 22153 · 49255 · 39627 · 12 · 2.43 │
··················|······················|·············|·············|·············|··············|··············
| EllipticCurve · isOnCurve · 23400 · 24071 · 23623 · 16 · 1.45 │
··················|······················|·············|·············|·············|··············|··············
| EllipticCurve · toAffine · 50145 · 50850 · 50498 · 4 · 3.10 │
·----------------------------------------|-------------|-------------|-------------|--------------|-------------·
Some functions of the contract are based on:
- Comparatively Study of ECC and Jacobian Elliptic Curve Cryptography by Anagha P. Zele and Avinash P. Wadhe
Numerology
by NuCyphersolidity-arithmetic
by Gnosisecsol
written by Jordi Baylinastandard contracts
written by Andreas Olofsson
elliptic-curve-solidity
is published under the MIT license.