Libraries with ECC support
Popular libraries with at least some ECC support, that ECTester does not yet support:
- NSS
- LibreSSL
- Nettle
- BearSSL
- cryptlib
- OpenSSL (FIPS mode)
- Microsoft .NET crypto
- Linux kernel, test via libkcapi
Supported libraries
Libraries that ECTester can test.
- BouncyCastle
- Java
- Works with the short Weierstrass curve model.
- Works with coordinates:
- Affine
- Projective(Homogenous)
- Jacobian
- Jacobian-Chudnovsky
- Jacobian-Modified
- Lambda-Affine?
- Lambda-Projective?
- Skewed?
- Multiple scalar multiplication algorithms implemented and used:
- Double-and-add always (DoubleAddMultiplier)
- Fixed point comb (FixedPointCombMultiplier)
- GLV (Gallant-Lambert-Vanstone) using endomorphisms (GLVMultiplier): Faster point multiplication on elliptic curves with efficient endomorphisms. <– default, if available
- Binary NAF right-to-left multiplication(mixed coordinates) (MixedNafR2LMultiplier)
- Montgomery ladder (MontgomeryLadderMultiplier)
- Binary NAF right-to-left multiplication (NafR2LMultiplier)
- Binary NAF left-to-right multiplication (NafL2RMultiplier)
- Double-and-add reference implementation (ReferenceMultiplier)
- Window NAF left-to-right multiplication (WNafL2RMultiplier) <– default
- Window Tau-NAF multiplication (WTauNafMultiplier): Improved Algorithms for Arithmetic on Anomalous Binary Curves
- Zeroless signed digit binary right-to-left multiplication (ZSignedDigitR2LMultiplier)
- Zeroless signed digit binary left-to-right multiplication (ZSignedDigitL2RMultiplier)
- Has custom field and point arithmetic for:
- Curve25519 (transformed into short Weierstrass model)
- SMP2 curves
- SECG curves
- Sun EC
- Java + C
- Uses the short Weierstrass curve model.
- For prime field curves:
- Uses 5-bit window NAF, Uses mixed Modified-Jacobian coordinates for doubling and Chudnovsky Jacobian coordinates for additions (ecp_jm.c). From: Brown, Hankerson, Lopez, Menezes: Software Implementation of the NIST Elliptic Curves Over Prime Fields.
- Contains an implementation of scalar multiplication with 4-bit sliding window, using Jacobian coordinates (ecp_jac.c)
- Contains an implementation of IEEE P1363 algorithm A.10.3 using affine coordinates (ecp_aff.c)
- For binary field curves:
- Uses Lopez-Dahab (Montgomery) ladder, XZ coordinates (ec2_mont.c): Fast multiplication on elliptic curves over GF(2^m) without precomputation (Algorithm 2P)
- Contains an implementation of IEEE P1363 algorithm A.10.3 using affine coordinates (ec2_aff.c)
- Has some custom arithmetic for some of the NIST primes.
- WolfCrypt(WolfSSL)
- C + Java
- Prime field curves only.
- Jacobian coordinates:
- Uses sliding window scalar multiplication, (discards
b
parameter of curve), but validates points.
- Uses sliding window scalar multiplication, (discards
- OpenSSL
- C
- For prime field curves:
- Uses Jacobian coordinates, and Montgomery ladder, also uses wNAF-based interleaving multi-exponentiation method(ec_mult.c): http://www.bmoeller.de/pdf/TI-01-08.multiexp.pdf
- Also uses multiplication with precomputation by wNAF splitting(ec_mult.c)
- For binary field curves:
- Uses Jacobian coordinates, and Lopez-Dahab ladder, also uses wNAF-based interleaving multi-exponentiation method(ec2_smpl.c)
- BoringSSL
- C
- Supports prime field curves only:
- Use Jacobian coordinates, and Montgomery ladder, also uses optimized arithmetic on NIST P-224, P-256.
- Bundled as a git submodule in
ext/boringssl
. To build and use run:cd ext/boringssl mkdir build && cd build cmake -DBUILD_SHARED_LIBS=1 -GNinja .. ninja
- Crypto++
- C++
- For prime field curves:
- Uses projective coordinates and sliding window scalar multiplication algorithm.
- For binary field curves:
- Uses affine coordinates and sliding window scalar multiplication algorithm.
- libtomcrypt
- C
- Uses Jacobian coordinates.
- Sliding window scalar multiplication algorithm.
- libgcrypt
- C
- Only supports prime field curves.
- Uses short Weierstrass, Montgomery and Twisted Edwards models.
- Uses left-to-right double-and-add always scalar multiplication and Jacobian coordinates in short Weierstrass form.
- Uses Montgomery ladder and X-only in Montgomery form.
- Uses left-to-right double-and-add always scalar multiplication in Twisted Edwards form.
- Botan
- C++
- Uses blinded(randomized) Montgomery ladder.
- https://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-3.html#addition-add-1998-cmo-2
- https://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-3.html#doubling-dbl-1986-cc
- https://eprint.iacr.org/2015/657
- ECTester supports v2.4.0 and up.
- Microsoft CNG
- C API.
Closed source.Not any more: https://github.com/Microsoft/SymCrypt.- For prime field curves(only supports):
- Uses Short Weierstrass model.
- Uses Twisted Edwards model.
- Uses Montgomery model.
- Uses fixed window scalar multiplication.
- Uses Wnaf multi-scalar multiplication with interleaving.
- Uses Montgomery ladder.
- mbedTLS
- C
- Only supports prime field curves.
- Uses short Weierstrass and Montgomery models.
- Uses comb method for short Weierstrass curves, using (randomized) Jacobian coordinates.
- http://www.hyperelliptic.org/EFD/g1p/auto-shortw-jacobian.html#doubling-dbl-1998-cmo-2
- Uses Montgomery ladder with xz coordinates for Montgomery curves.
- MatrixSSL
- C
- Only supports prime field curves.
- Uses 4 bit sliding window.
- Uses projective coordinates.
- Intel Performance Primitives
- C
- Only supports prime field curves.
- Uses 5-bit window NAF.
- Uses Jacobian coordinates.
- https://github.com/intel/ipp-crypto