a portable and fast pairing-based cryptography library
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mcl/readme.md

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[![Build Status](https://travis-ci.org/herumi/mcl.png)](https://travis-ci.org/herumi/mcl)
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# mcl
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A generic and fast pairing-based cryptography library.
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# Abstract
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mcl is a library for pairing-based cryptography.
The current version supports the optimal Ate pairing over BN curves.
# Support architecture
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* x86-64 Windows + Visual Studio
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* x86, x86-64 Linux + gcc/clang
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* ARM Linux
* ARM64 Linux
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* (maybe any platform to be supported by LLVM)
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# Installation Requirements
* [GMP](https://gmplib.org/) and OpenSSL
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```
apt install libgmp-dev libssl-dev
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```
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Create a working directory (e.g., work) and clone the following repositories.
```
mkdir work
cd work
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git clone git://github.com/herumi/mcl
git clone git://github.com/herumi/cybozulib
git clone git://github.com/herumi/xbyak ; for only x86/x64
git clone git://github.com/herumi/cybozulib_ext ; for only Windows
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```
* Cybozulib_ext is a prerequisite for running OpenSSL and GMP on VC (Visual C++).
# Build and test on x86-64 Linux, macOS, ARM and ARM64 Linux
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To make lib/libmcl.a and test it:
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```
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cod work/mcl
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make test
```
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To benchmark a pairing:
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```
bin/bn_test.exe
```
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To make sample programs:
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```
make sample
```
if you want to change compiler options for optimization, then set `CFLAGS_OPT_USER`.
```
make CLFAGS_OPT_USER="-O2"
```
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## Build for 32-bit Linux
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Build openssl and gmp for 32-bit mode and install `<lib32>`
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```
make ARCH=x86 CFLAGS_USER="-I <lib32>/include" LDFLAGS_USER="-L <lib32>/lib -Wl,-rpath,<lib32>/lib"
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```
## Build for 64-bit Windows
1) make library
```
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mklib.bat
```
2) make exe binary of sample\pairing.cpp
```
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mk sample\pairing.cpp
bin/bn_test.exe
```
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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
```
### SELinux
mcl uses Xbyak JIT engine if it is available on x64 architecture,
otherwise mcl uses a little slower functions generated by LLVM.
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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
* libmcl.a ; static C++ library of mcl
* libmcl_dy.so ; shared C++ library of mcl
* libbn256.a ; static C library for `mcl/bn256f.h`
* libbn256_dy.so ; shared C library
If you want to remove '_dy` of so files, then `makeSHARE_BASENAME_SUF=`.
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# How to initialize pairing library
Call `mcl::bn256::bn256init` before calling any operations.
```
#include <mcl/bn256.hpp>
mcl::bn::CurveParam cp = mcl::bn::CurveFp254BNb; // or mcl::bn::CurveSNARK1
mcl::bn256::bn256init(cp);
mcl::bn256::G1 P(...);
mcl::bn256::G2 Q(...);
mcl::bn256::Fp12 e;
mcl::bn256::BN::pairing(e, P, Q);
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```
1. (CurveFp254BNb) a BN curve over the 254-bit prime p = 36z^4 + 36z^3 + 24z^2 + 6z + 1 where z = -(2^62 + 2^55 + 1).
2. (CurveSNARK1) a BN curve over a 254-bit prime p such that n := p + 1 - t has high 2-adicity.
See [test/bn_test.cpp](https://github.com/herumi/mcl/blob/master/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.
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## 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 }
## 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
* BN::mapToG1(G1& P, const Fp& x);
* BN::mapToG2(G2& P, const Fp2& x);
These functions maps x into Gi according to [_Faster hashing to G2_].
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## String format of G1 and G2
G1 and G2 have three elements of Fp (x, y, z) for Jacobi coordinate.
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normalize() method normalizes it to affine coordinate (x, y, 1) or (0, 0, 0).
getStr() method gets
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* `0` ; infinity
* `1 <x> <y>` ; not compressed format
* `2 <x>` ; compressed format for even y
* `3 <x>` ; compressed format for odd y
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## Verify an element in G2
`G2::isValid()` checks that the element is in the curve of G2 and the order of it is r.
`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::setOrder(0)`.
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# Benchmark
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A benchmark of a BN curve CurveFp254BNb(2016/12/25).
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* x64, x86 ; Inte Core i7-6700 3.4GHz(Skylake) upto 4GHz on Ubuntu 16.04.
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* `sudo cpufreq-set -g performance`
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* arm ; 900MHz quad-core ARM Cortex-A7 on Raspberry Pi2, Linux 4.4.11-v7+
* arm64 ; 1.2GHz ARM Cortex-A53 [HiKey](http://www.96boards.org/product/hikey/)
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software | x64| x86| arm|arm64(msec)
---------------------------------------------------------|------|-----|----|-----
[ate-pairing](https://github.com/herumi/ate-pairing) | 0.21 | - | - | -
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mcl | 0.31 | 1.6 |22.6| 4.0
[TEPLA](http://www.cipher.risk.tsukuba.ac.jp/tepla/) | 1.76 | 3.7 | 37 | 17.9
[RELIC](https://github.com/relic-toolkit/relic) PRIME=254| 0.30 | 3.5 | 36 | -
[MIRACL](https://github.com/miracl/MIRACL) ake12bnx | 4.2 | - | 78 | -
[NEONabe](http://sandia.cs.cinvestav.mx/Site/NEONabe) | - | - | 16 | -
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* compile option for RELIC
```
cmake -DARITH=x64-asm-254 -DFP_PRIME=254 -DFPX_METHD="INTEG;INTEG;LAZYR" -DPP_METHD="LAZYR;OATEP"
```
# 384-bit curve (experimental)
see `test/bn384_test.cpp`
Benchmark on Skylake(3.4GHz)
```
# mcl::bn::CurveFp382_1 ; -(2^94 + 2^76 + 2^72 + 1)
pairing 3.163Mclk ; 0.93msec
# mcl::bn::CurveFp382_2 ; -(2^94 + 2^78 + 2^67 + 2^64 + 2^48 + 1)
pairing 3.261Mclk ; 0.96msec
```
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# How to make asm files (optional)
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The asm files generated by this way are already put in `src/asm`, then it is not necessary to do this.
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Install [LLVM](http://llvm.org/).
```
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
```
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# Java API
See [java.md](https://github.com/herumi/mcl/blob/master/java/java.md)
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# License
modified new BSD License
http://opensource.org/licenses/BSD-3-Clause
The original source of the followings are https://github.com/aistcrypt/Lifted-ElGamal .
These files are licensed by BSD-3-Clause and are used for only tests.
```
include/mcl/elgamal.hpp
include/mcl/window_method.hpp
test/elgamal_test.cpp
test/window_method_test.cpp
sample/vote.cpp
```
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This library contains [mie](https://github.com/herumi/mie/) and [Lifted-ElGamal](https://github.com/aistcrypt/Lifted-ElGamal/).
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# References
* [ate-pairing](https://github.com/herumi/ate-pairing/)
* [_Faster Explicit Formulas for Computing Pairings over Ordinary Curves_](http://dx.doi.org/10.1007/978-3-642-20465-4_5),
D.F. Aranha, K. Karabina, P. Longa, C.H. Gebotys, J. Lopez,
EUROCRYPTO 2011, ([preprint](http://eprint.iacr.org/2010/526))
* [_High-Speed Software Implementation of the Optimal Ate Pairing over Barreto-Naehrig Curves_](http://dx.doi.org/10.1007/978-3-642-17455-1_2),
Jean-Luc Beuchat, Jorge Enrique González Díaz, Shigeo Mitsunari, Eiji Okamoto, Francisco Rodríguez-Henríquez, Tadanori Teruya,
Pairing 2010, ([preprint](http://eprint.iacr.org/2010/354))
* [_Faster hashing to G2_](http://dx.doi.org/10.1007/978-3-642-28496-0_25),Laura Fuentes-Castañeda, Edward Knapp, Francisco Rodríguez-Henríquez,
SAC 2011, ([preprint](https://eprint.iacr.org/2008/530))
* [_Skew Frobenius Map and Efficient Scalar Multiplication for Pairing–Based Cryptography_](https://www.researchgate.net/publication/221282560_Skew_Frobenius_Map_and_Efficient_Scalar_Multiplication_for_Pairing-Based_Cryptography),
Y. Sakemi, Y. Nogami, K. Okeya, Y. Morikawa, CANS 2008.
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# Author
光成滋生 MITSUNARI Shigeo(herumi@nifty.com)