MITSUNARI Shigeo
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readme.md
mcl
A portable and fast pairing-based cryptography library.
Abstract
mcl is a library for pairing-based cryptography. The current version supports the optimal Ate pairing over BN curves and BLS12-381 curves.
News
- mclBn_setETHserialization(true) (de)serialize acoording to ETH2.0 serialization of BLS12-381 when BLS12-381 is used.
- (Break backward compatibility) libmcl_dy.a is renamed to libmcl.a
- The option SHARE_BASENAME_SUF is removed
- 2nd argument of
mclBn_init
is changed frommaxUnitSize
tocompiledTimeVar
, which must beMCLBN_COMPILED_TIME_VAR
. - break backward compatibility of mapToGi for BLS12. A map-to-function for BN is used.
If
MCL_USE_OLD_MAPTO_FOR_BLS12
is defined, then the old function is used, but this will be removed in the future.
Support architecture
- x86-64 Windows + Visual Studio
- x86, x86-64 Linux + gcc/clang
- ARM Linux
- ARM64 Linux
- (maybe any platform to be supported by LLVM)
- WebAssembly
Support curves
p(z) = 36z^4 + 36z^3 + 24z^2 + 6z + 1.
- BN254 ; a BN curve over the 254-bit prime p(z) where z = -(2^62 + 2^55 + 1).
- BN_SNARK1 ; a BN curve over a 254-bit prime p such that n := p + 1 - t has high 2-adicity.
- BN381_1 ; a BN curve over the 381-bit prime p(z) where z = -(2^94 + 2^76 + 2^72 + 1).
- BN462 ; a BN curve over the 462-bit prime p(z) where z = 2^114 + 2^101 - 2^14 - 1.
- BLS12_381 ; a BLS12-381 curve
Benchmark
The latest benchmark(2018/11/7)
Intel Core i7-6700 3.4GHz(Skylake), Ubuntu 18.04.1 LTS
curveType | binary | clang-6.0.0 | gcc-7.3.0 |
---|---|---|---|
BN254 | bin/bn_test.exe | 882Kclk | 933Kclk |
BLS12-381 | bin/bls12_test.exe | 2290Kclk | 2630Kclk |
Intel Core i7-7700 3.6GHz(Kaby Lake), Ubuntu 18.04.1 LTS on Windows 10 Vmware
curveType | binary | clang-6.0.0 | gcc-7.3.0 |
---|---|---|---|
BN254 | bin/bn_test.exe | 900Kclk | 954Kclk |
BLS12-381 | bin/bls12_test.exe | 2340Kclk | 2680Kclk |
- now investigating the reason why gcc is slower than clang.
Higher-bit BN curve benchmark
For JavaScript(WebAssembly), see ID based encryption demo.
paramter | x64 | Firefox on x64 | Safari on iPhone7 |
---|---|---|---|
BN254 | 0.25 | 2.48 | 4.78 |
BN381_1 | 0.95 | 7.91 | 11.74 |
BN462 | 2.16 | 14.73 | 22.77 |
- x64 : 'Kaby Lake Core i7-7700(3.6GHz)'.
- Firefox : 64-bit version 58.
- iPhone7 : iOS 11.2.1.
- BN254 is by
test/bn_test.cpp
. - BN381_1 and BN462 are by
test/bn512_test.cpp
. - All the timings are given in ms(milliseconds).
The other benchmark results are bench.txt.
An old benchmark of a BN curve BN254(2016/12/25).
- x64, x86 ; Inte Core i7-6700 3.4GHz(Skylake) upto 4GHz on Ubuntu 16.04.
sudo cpufreq-set -g performance
- arm ; 900MHz quad-core ARM Cortex-A7 on Raspberry Pi2, Linux 4.4.11-v7+
- arm64 ; 1.2GHz ARM Cortex-A53 HiKey
software | x64 | x86 | arm | arm64(msec) |
---|---|---|---|---|
ate-pairing | 0.21 | - | - | - |
mcl | 0.31 | 1.6 | 22.6 | 3.9 |
TEPLA | 1.76 | 3.7 | 37 | 17.9 |
RELIC PRIME=254 | 0.30 | 3.5 | 36 | - |
MIRACL ake12bnx | 4.2 | - | 78 | - |
NEONabe | - | - | 16 | - |
- compile option for RELIC
cmake -DARITH=x64-asm-254 -DFP_PRIME=254 -DFPX_METHD="INTEG;INTEG;LAZYR" -DPP_METHD="LAZYR;OATEP"
Installation Requirements
- GMP and OpenSSL
apt install libgmp-dev libssl-dev
Create a working directory (e.g., work) and clone the following repositories.
mkdir work
cd work
git clone git://github.com/herumi/mcl
git clone git://github.com/herumi/cybozulib_ext ; for only Windows
- Cybozulib_ext is a prerequisite for running OpenSSL and GMP on VC (Visual C++).
(Option) Without GMP
make MCL_USE_GMP=0
Define MCL_USE_VINT
before including bn.hpp
(Option) Without Openssl
make MCL_USE_OPENSSL=0
Define MCL_DONT_USE_OPENSSL
before including bn.hpp
Build and test on x86-64 Linux, macOS, ARM and ARM64 Linux
To make lib/libmcl.a and test it:
cd work/mcl
make test
To benchmark a pairing:
bin/bn_test.exe
To make sample programs:
make sample
if you want to change compiler options for optimization, then set CFLAGS_OPT_USER
.
make CLFAGS_OPT_USER="-O2"
Build for 32-bit Linux
Build openssl and gmp for 32-bit mode and install <lib32>
make ARCH=x86 CFLAGS_USER="-I <lib32>/include" LDFLAGS_USER="-L <lib32>/lib -Wl,-rpath,<lib32>/lib"
Build for 64-bit Windows
- make static library and use it
mklib
mk -s test\bn_c256_test.cpp
bin\bn_c256_test.exe
- make dynamic library and use it
mklib dll
mk -d test\bn_c256_test.cpp
bin\bn_c256_test.exe
open mcl.sln and build or if you have msbuild.exe
msbuild /p:Configuration=Release
Build with cmake
For Linux,
mkdir build
cd build
cmake ..
make
For Visual Studio,
mkdir build
cd build
cmake .. -A x64
msbuild mcl.sln /p:Configuration=Release /m
Build for wasm(WebAssembly)
mcl supports emcc (Emscripten) and test/bn_test.cpp
runs on browers such as Firefox, Chrome and Edge.
The timing of a pairing on BN254
is 2.8msec on 64-bit Firefox with Skylake 3.4GHz.
Node.js
- mcl-wasm pairing library
- bls-wasm BLS signature library
- she-wasm 2 Level Homomorphic Encryption library
SELinux
mcl uses Xbyak JIT engine if it is available on x64 architecture, otherwise mcl uses a little slower functions generated by LLVM. The default mode enables SELinux security policy on CentOS, then JIT is disabled.
% sudo setenforce 1
% getenforce
Enforcing
% bin/bn_test.exe
JIT 0
pairing 1.496Mclk
finalExp 581.081Kclk
% sudo setenforce 0
% getenforce
Permissive
% bin/bn_test.exe
JIT 1
pairing 1.394Mclk
finalExp 546.259Kclk
Libraries
- G1 and G2 is defined over Fp
- The order of G1 and G2 is r.
- Use
bn256.hpp
if only BN254 is used.
C++ library
- libmcl.a ; static C++ library of mcl
- libmcl.so ; shared C++ library of mcl
- the default parameter of curveType is BN254
header | support curveType | sizeof Fr | sizeof Fp |
---|---|---|---|
bn256.hpp | BN254 | 32 | 32 |
bls12_381.hpp | BLS12_381, BN254 | 32 | 48 |
bn384.hpp | BN381_1, BLS12_381, BN254 | 48 | 48 |
C library
- Define
MCLBN_FR_UNIT_SIZE
andMCLBN_FP_UNIT_SIZE
and include bn.h - set
MCLBN_FR_UNIT_SIZE = MCLBN_FP_UNIT_SIZE
unlessMCLBN_FR_UNIT_SIZE
is defined
library | MCLBN_FR_UNIT_SIZE | MCLBN_FP_UNIT_SIZE |
---|---|---|
sizeof | Fr | Fp |
libmclbn256.a | 4 | 4 |
libmclbn384_256.a | 4 | 6 |
libmclbn384.a | 6 | 6 |
- libmclbn*.a ; static C library
- libmclbn*.so ; shared C library
2nd argument of mclBn_init
Specify MCLBN_COMPILED_TIME_VAR
to 2nd argument of mclBn_init
, which
is defined as MCLBN_FR_UNIT_SIZE * 10 + MCLBN_FP_UNIT_SIZE
.
This parameter is used to make sure that the values are the same when the library is built and used.
How to initialize pairing library
Call mcl::bn256::initPairing
before calling any operations.
#include <mcl/bn256.hpp>
mcl::bn::CurveParam cp = mcl::BN254; // or mcl::BN_SNARK1
mcl::bn256::initPairing(cp);
mcl::bn256::G1 P(...);
mcl::bn256::G2 Q(...);
mcl::bn256::Fp12 e;
mcl::bn256::pairing(e, P, Q);
- (BN254) a BN curve over the 254-bit prime p = p(z) where z = -(2^62 + 2^55 + 1).
- (BN_SNARK1) a BN curve over a 254-bit prime p such that n := p + 1 - t has high 2-adicity.
- BN381_1 with
mcl/bn384.hpp
. - BN462 with
mcl/bn512.hpp
.
See test/bn_test.cpp.
Default constructor of Fp, Ec, etc.
A default constructor does not initialize the instance. Set a valid value before reffering it.
Definition of groups
The curve equation for a BN curve is:
E/Fp: y^2 = x^3 + b .
- the cyclic group G1 is instantiated as E(Fp)[n] where n := p + 1 - t;
- the cyclic group G2 is instantiated as the inverse image of E'(Fp^2)[n] under a twisting isomorphism phi from E' to E; and
- the pairing e: G1 x G2 -> Fp12 is the optimal ate pairing.
The field Fp12 is constructed via the following tower:
- Fp2 = Fp[u] / (u^2 + 1)
- Fp6 = Fp2[v] / (v^3 - Xi) where Xi = u + 1
- Fp12 = Fp6[w] / (w^2 - v)
- GT = { x in Fp12 | x^r = 1 }
Curve Parameter
r = |G1| = |G2| = |GT|
curveType | hexadecimal number |
---|---|
BN254 r | 2523648240000001ba344d8000000007ff9f800000000010a10000000000000d |
BN254 p | 2523648240000001ba344d80000000086121000000000013a700000000000013 |
BN381 r | 240026400f3d82b2e42de125b00158405b710818ac000007e0042f008e3e00000000001080046200000000000000000d |
BN381 p | 240026400f3d82b2e42de125b00158405b710818ac00000840046200950400000000001380052e000000000000000013 |
BN462 r | 240480360120023ffffffffff6ff0cf6b7d9bfca0000000000d812908ee1c201f7fffffffff6ff66fc7bf717f7c0000000002401b007e010800d |
BN462 r | 240480360120023ffffffffff6ff0cf6b7d9bfca0000000000d812908f41c8020ffffffffff6ff66fc6ff687f640000000002401b00840138013 |
BLS12-381 r | 73eda753299d7d483339d80809a1d80553bda402fffe5bfeffffffff00000001 |
BLS12-381 r | 1a0111ea397fe69a4b1ba7b6434bacd764774b84f38512bf6730d2a0f6b0f6241eabfffeb153ffffb9feffffffffaaab |
Arithmetic operations
G1 and G2 is additive group and has the following operations:
- T::add(T& z, const T& x, const T& y); // z = x + y
- T::sub(T& z, const T& x, const T& y); // z = x - y
- T::neg(T& y, const T& x); // y = -x
- T::mul(T& z, const T& x, const INT& y); // z = y times scalar multiplication of x
Remark: &z == &x or &y are allowed. INT means integer type such as Fr, int and mpz_class.
T::mul
uses GLV method then G2::mul
returns wrong value if x is not in G2.
Use T::mulGeneric(T& z, const T& x, const INT& y)
for x in phi^-1(E'(Fp^2)) - G2.
Fp, Fp2, Fp6 and Fp12 have the following operations:
- T::add(T& z, const T& x, const T& y); // z = x + y
- T::sub(T& z, const T& x, const T& y); // z = x - y
- T::mul(T& z, const T& x, const T& y); // z = x * y
- T::div(T& z, const T& x, const T& y); // z = x / y
- T::neg(T& y, const T& x); // y = -x
- T::inv(T& y, const T& x); // y = 1/x
- T::pow(T& z, const T& x, const INT& y); // z = x^y
- Fp12::unitaryInv(T& y, const T& x); // y = conjugate of x
Remark: Fp12::mul
uses GLV method then returns wrong value if x is not in GT.
Use Fp12::mulGeneric
for x in Fp12 - GT.
Map To points
Use these functions to make a point of G1 and G2.
- mapToG1(G1& P, const Fp& x); // assume x != 0
- mapToG2(G2& P, const Fp2& x);
- hashAndMapToG1(G1& P, const void *buf, size_t bufSize); // set P by the hash value of [buf, bufSize)
- hashAndMapToG2(G2& P, const void *buf, size_t bufSize);
These functions maps x into Gi according to [[Faster hashing to G2]].
String format of G1 and G2
G1 and G2 have three elements of Fp (x, y, z) for Jacobi coordinate. normalize() method normalizes it to affine coordinate (x, y, 1) or (0, 0, 0).
getStr() method gets
0
; infinity1 <x> <y>
; not compressed format2 <x>
; compressed format for even y3 <x>
; compressed format for odd y
Generator of G1 and G2
If you want to use the same generators of BLS12-381 with zkcrypto then,
// G1 P
P.setStr('1 3685416753713387016781088315183077757961620795782546409894578378688607592378376318836054947676345821548104185464507 1339506544944476473020471379941921221584933875938349620426543736416511423956333506472724655353366534992391756441569')
// G2 Q
Q.setStr('1 352701069587466618187139116011060144890029952792775240219908644239793785735715026873347600343865175952761926303160 3059144344244213709971259814753781636986470325476647558659373206291635324768958432433509563104347017837885763365758 1985150602287291935568054521177171638300868978215655730859378665066344726373823718423869104263333984641494340347905 927553665492332455747201965776037880757740193453592970025027978793976877002675564980949289727957565575433344219582')
Serialization format of G1 and G2
pseudo-code to serialize of p
if bit-length(p) % 8 != 0:
size = Fp::getByteSize()
if p is zero:
return [0] * size
else:
s = x.serialize()
# x in Fp2 is odd <=> x.a is odd
if y is odd:
s[byte-length(s) - 1] |= 0x80
return s
else:
size = Fp::getByteSize() + 1
if p is zero:
return [0] * size
else:
s = x.serialize()
if y is odd:
return 2:s
else:
return 3:s
Verify an element in G2
G2::isValid()
checks that the element is in the curve of G2 and the order of it is r for subgroup attack.
G2::set()
, G2::setStr
and operator<<
also check the order.
If you check it out of the library, then you can stop the verification by calling G2::verifyOrderG2(false)
.
How to make asm files (optional)
The asm files generated by this way are already put in src/asm
, then it is not necessary to do this.
Install LLVM.
make MCL_USE_LLVM=1 LLVM_VER=<llvm-version> UPDATE_ASM=1
For example, specify -3.8
for <llvm-version>
if opt-3.8
and llc-3.8
are installed.
If you want to use Fp with 1024-bit prime on x86-64, then
make MCL_USE_LLVM=1 LLVM_VER=<llvm-version> UPDATE_ASM=1 MCL_MAX_BIT_SIZE=1024
API for Two level homomorphic encryption
- Efficient Two-level Homomorphic Encryption in Prime-order Bilinear Groups and A Fast Implementation in WebAssembly, N. Attrapadung, G. Hanaoka, S. Mitsunari, Y. Sakai, K. Shimizu, and T. Teruya. ASIACCS 2018
- she-api
- she-api(Japanese)
Java API
See java.md
License
modified new BSD License http://opensource.org/licenses/BSD-3-Clause
This library contains some part of the followings software licensed by BSD-3-Clause.
References
- ate-pairing
- Faster Explicit Formulas for Computing Pairings over Ordinary Curves, D.F. Aranha, K. Karabina, P. Longa, C.H. Gebotys, J. Lopez, EUROCRYPTO 2011, (preprint)
- High-Speed Software Implementation of the Optimal Ate Pairing over Barreto-Naehrig Curves, Jean-Luc Beuchat, Jorge Enrique González Díaz, Shigeo Mitsunari, Eiji Okamoto, Francisco Rodríguez-Henríquez, Tadanori Teruya, Pairing 2010, (preprint)
- Faster hashing to G2,Laura Fuentes-Castañeda, Edward Knapp, Francisco Rodríguez-Henríquez, SAC 2011, (preprint)
- Skew Frobenius Map and Efficient Scalar Multiplication for Pairing–Based Cryptography, Y. Sakemi, Y. Nogami, K. Okeya, Y. Morikawa, CANS 2008.
History
- 2019/Apr/29 v0.94 mclBn_setETHserialization supports ETH2.0 serialization of BLS12-381
- 2019/Apr/24 v0.93 support ios
- 2019/Mar/22 v0.92 shortcut for Ec::mul(Px, P, x) if P = 0
- 2019/Mar/21 python binding of she256 for Linux/Mac/Windows
- 2019/Mar/14 v0.91 modp supports mcl-wasm
- 2019/Mar/12 v0.90 fix Vint::setArray(x) for x == this
- 2019/Mar/07 add mclBnFr_setLittleEndianMod, mclBnFp_setLittleEndianMod
- 2019/Feb/20 LagrangeInterpolation sets out = yVec[0] if k = 1
- 2019/Jan/31 add mclBnFp_mapToG1, mclBnFp2_mapToG2
- 2019/Jan/31 fix crash on x64-CPU without AVX (thanks to mortdeus)
Author
光成滋生 MITSUNARI Shigeo(herumi@nifty.com)