constantine/README.md

316 lines
15 KiB
Markdown
Raw Normal View History

2020-02-11 23:20:31 +00:00
# Constantine - Constant Time Elliptic Curve Cryptography
[![License: Apache](https://img.shields.io/badge/License-Apache%202.0-blue.svg)](https://opensource.org/licenses/Apache-2.0)
[![License: MIT](https://img.shields.io/badge/License-MIT-blue.svg)](https://opensource.org/licenses/MIT)
![Stability: experimental](https://img.shields.io/badge/stability-experimental-orange.svg)\
![Github Actions CI](https://github.com/mratsim/constantine/workflows/Constantine%20CI/badge.svg)\
[![Build Status: Travis](https://img.shields.io/travis/com/mratsim/constantine/master?label=Travis%20%28Linux%20x86_64%2FARM64%2FPowerPC64,%20MacOS%20x86_64%29)](https://travis-ci.com/mratsim/constantine)\
2020-08-31 21:04:41 +00:00
[![Build Status: Azure](https://img.shields.io/azure-devops/build/numforge/07a2a7a5-995a-45d3-acd5-f5456fe7b04d/4?label=Azure%20%28Linux%2032%2F64-bit%2C%20Windows%2032%2F64-bit%2C%20MacOS%2064-bit%29)](https://dev.azure.com/numforge/Constantine/_build?definitionId=4&branchName=master)
2020-02-11 23:20:31 +00:00
This library provides constant-time implementation of elliptic curve cryptography.
2020-02-11 23:20:31 +00:00
> Warning ⚠️: The library is in development state and cannot be used at the moment
> except as a showcase or to start a discussion on modular big integers internals.
2018-07-24 14:52:18 +00:00
## Installation
You can install the developement version of the library through nimble with the following command
```
nimble install https://github.com/mratsim/constantine@#master
2018-07-24 14:52:18 +00:00
```
For speed it is recommended to prefer Clang, MSVC or ICC over GCC (see [Compiler-caveats](#Compiler-caveats)).
Internals refactor + renewed focus on perf (#17) * Lay out the refactoring objectives and tradeoffs * Refactor the 32 and 64-bit primitives [skip ci] * BigInts and Modular BigInts compile * Make the bigints test compile * Fix modular reduction * Fix reduction tests vs GMP * Implement montegomery mul, pow, inverse, WIP finite field compilation * Make FiniteField compile * Fix exponentiation compilation * Fix Montgomery magic constant computation for 2^64 words * Fix typo in non-optimized CIOS - passing finite fields IO tests * Add limbs comparisons [skip ci] * Fix on precomputation of the Montgomery magic constant * Passing all tests including 𝔽p2 * modular addition, the test for mersenne prime was wrong * update benches * Fix "nimble test" + typo on out-of-place field addition * bigint division, normalization is needed: https://travis-ci.com/github/mratsim/constantine/jobs/298359743 * missing conversion in subborrow non-x86 fallback - https://travis-ci.com/github/mratsim/constantine/jobs/298359744 * Fix little-endian serialization * Constantine32 flag to run 32-bit constantine on 64-bit machines * IO Field test, ensure that BaseType is used instead of uint64 when the prime can field in uint32 * Implement proper addcarry and subborrow fallback for the compile-time VM * Fix export issue when the logical wordbitwidth == physical wordbitwidth - passes all tests (32-bit and 64-bit) * Fix uint128 on ARM * Fix C++ conditional copy and ARM addcarry/subborrow * Add investigation for SIGFPE in Travis * Fix debug display for unsafeDiv2n1n * multiplexer typo * moveMem bug in glibc of Ubuntu 16.04? * Was probably missing an early clobbered register annotation on conditional mov * Note on Montgomery-friendly moduli * Strongly suspect a GCC before GCC 7 codegen bug (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=87139) * hex conversion was (for debugging) not taking requested order into account + inlining comment * Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug? * Revert "Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug?" This reverts commit 087f9aa7fb40bbd058d05cbd8eec7fc082911f49. * Fix subborrow fallback for non-x86 (need to maks the borrow)
2020-03-16 15:33:51 +00:00
Further if using GCC, GCC 7 at minimum is required, previous versions
generated incorrect add-with-carry code.
On x86-64, inline assembly is used to workaround compilers having issues optimizing large integer arithmetic,
and also ensure constant-time code.
This can be deactivated with `"-d:ConstantineASM=false"`:
- at a significant performance cost with GCC (~50% slower than Clang).
- at misssed opportunity on recent CPUs that support MULX/ADCX/ADOX instructions (~60% faster than Clang).
- There is a 2.4x perf ratio between using plain GCC vs GCC with inline assembly.
2020-02-11 23:20:31 +00:00
## Target audience
The library aims to be a portable, compact and hardened library for elliptic curve cryptography needs, in particular for blockchain protocols and zero-knowledge proofs system.
The library focuses on following properties:
- constant-time (not leaking secret data via side-channels)
- performance
Internals refactor + renewed focus on perf (#17) * Lay out the refactoring objectives and tradeoffs * Refactor the 32 and 64-bit primitives [skip ci] * BigInts and Modular BigInts compile * Make the bigints test compile * Fix modular reduction * Fix reduction tests vs GMP * Implement montegomery mul, pow, inverse, WIP finite field compilation * Make FiniteField compile * Fix exponentiation compilation * Fix Montgomery magic constant computation for 2^64 words * Fix typo in non-optimized CIOS - passing finite fields IO tests * Add limbs comparisons [skip ci] * Fix on precomputation of the Montgomery magic constant * Passing all tests including 𝔽p2 * modular addition, the test for mersenne prime was wrong * update benches * Fix "nimble test" + typo on out-of-place field addition * bigint division, normalization is needed: https://travis-ci.com/github/mratsim/constantine/jobs/298359743 * missing conversion in subborrow non-x86 fallback - https://travis-ci.com/github/mratsim/constantine/jobs/298359744 * Fix little-endian serialization * Constantine32 flag to run 32-bit constantine on 64-bit machines * IO Field test, ensure that BaseType is used instead of uint64 when the prime can field in uint32 * Implement proper addcarry and subborrow fallback for the compile-time VM * Fix export issue when the logical wordbitwidth == physical wordbitwidth - passes all tests (32-bit and 64-bit) * Fix uint128 on ARM * Fix C++ conditional copy and ARM addcarry/subborrow * Add investigation for SIGFPE in Travis * Fix debug display for unsafeDiv2n1n * multiplexer typo * moveMem bug in glibc of Ubuntu 16.04? * Was probably missing an early clobbered register annotation on conditional mov * Note on Montgomery-friendly moduli * Strongly suspect a GCC before GCC 7 codegen bug (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=87139) * hex conversion was (for debugging) not taking requested order into account + inlining comment * Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug? * Revert "Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug?" This reverts commit 087f9aa7fb40bbd058d05cbd8eec7fc082911f49. * Fix subborrow fallback for non-x86 (need to maks the borrow)
2020-03-16 15:33:51 +00:00
- generated code size, datatype size and stack usage
2020-02-11 23:20:31 +00:00
in this order
## Curves supported
At the moment the following curves are supported, adding a new curve only requires adding the prime modulus
and its bitsize in [constantine/config/curves.nim](constantine/config/curves_declaration.nim).
The following curves are configured:
> Note: At the moment, finite field arithmetic is fully supported
> but elliptic curve arithmetic is work-in-progress.
### ECDH / ECDSA curves
- NIST P-224
- Curve25519
- NIST P-256 / Secp256r1
- Secp256k1 (Bitcoin, Ethereum 1)
### Pairing-Friendly curves
Families:
- BN: Barreto-Naerig
- BLS: Barreto-Lynn-Scott
- FKM: Fotiadis-Konstantinou-Martindale
Curves:
- BN254_Nogami
- BN254_Snarks (Zero-Knowledge Proofs, Snarks, Starks, Zcash, Ethereum 1)
- BLS12-377 (Zexe)
- BLS12-381 (Algorand, Chia Networks, Dfinity, Ethereum 2, Filecoin, Zcash Sapling)
- BN446
- FKM12-447
- BLS12-461
- BN462
2020-02-11 23:20:31 +00:00
## Security
Hardening an implementation against all existing and upcoming attack vectors is an extremely complex task.
The library is provided as is, without any guarantees at least until:
- it gets audited
- formal proofs of correctness are produced
- formal verification of constant-time implementation is possible
Defense against common attack vectors are provided on a best effort basis.
Attackers may go to great lengths to retrieve secret data including:
2020-02-11 23:20:31 +00:00
- Timing the time taken to multiply on an elliptic curve
- Analysing the power usage of embedded devices
- Detecting cache misses when using lookup tables
- Memory attacks like page-faults, allocators, memory retention attacks
This is would be incomplete without mentioning that the hardware, OS and compiler
actively hinder you by:
- Hardware: sometimes not implementing multiplication in constant-time.
- OS: not providing a way to prevent memory paging to disk, core dumps, a debugger attaching to your process or a context switch (coroutines) leaking register data.
- Compiler: optimizing away your carefully crafted branchless code and leaking server secrets or optimizing away your secure erasure routine which is "useless" because at the end of the function the data is not used anymore.
A growing number of attack vectors is being collected for your viewing pleasure
at https://github.com/mratsim/constantine/wiki/Constant-time-arithmetics
### Disclaimer
Constantine's authors do their utmost to implement a secure cryptographic library
in particular against remote attack vectors like timing attacks.
Please note that Constantine is provided as-is without guarantees.
Use at your own risks.
Thorough evaluation of your threat model, the security of any cryptographic library you are considering,
and the secrets you put in jeopardy is strongly advised before putting data at risk.
The author would like to remind users that the best code can only mitigate
but not protect against human failures which are the weakest link and largest
backdoors to secrets exploited today.
### Security disclosure
TODO
Internals refactor + renewed focus on perf (#17) * Lay out the refactoring objectives and tradeoffs * Refactor the 32 and 64-bit primitives [skip ci] * BigInts and Modular BigInts compile * Make the bigints test compile * Fix modular reduction * Fix reduction tests vs GMP * Implement montegomery mul, pow, inverse, WIP finite field compilation * Make FiniteField compile * Fix exponentiation compilation * Fix Montgomery magic constant computation for 2^64 words * Fix typo in non-optimized CIOS - passing finite fields IO tests * Add limbs comparisons [skip ci] * Fix on precomputation of the Montgomery magic constant * Passing all tests including 𝔽p2 * modular addition, the test for mersenne prime was wrong * update benches * Fix "nimble test" + typo on out-of-place field addition * bigint division, normalization is needed: https://travis-ci.com/github/mratsim/constantine/jobs/298359743 * missing conversion in subborrow non-x86 fallback - https://travis-ci.com/github/mratsim/constantine/jobs/298359744 * Fix little-endian serialization * Constantine32 flag to run 32-bit constantine on 64-bit machines * IO Field test, ensure that BaseType is used instead of uint64 when the prime can field in uint32 * Implement proper addcarry and subborrow fallback for the compile-time VM * Fix export issue when the logical wordbitwidth == physical wordbitwidth - passes all tests (32-bit and 64-bit) * Fix uint128 on ARM * Fix C++ conditional copy and ARM addcarry/subborrow * Add investigation for SIGFPE in Travis * Fix debug display for unsafeDiv2n1n * multiplexer typo * moveMem bug in glibc of Ubuntu 16.04? * Was probably missing an early clobbered register annotation on conditional mov * Note on Montgomery-friendly moduli * Strongly suspect a GCC before GCC 7 codegen bug (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=87139) * hex conversion was (for debugging) not taking requested order into account + inlining comment * Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug? * Revert "Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug?" This reverts commit 087f9aa7fb40bbd058d05cbd8eec7fc082911f49. * Fix subborrow fallback for non-x86 (need to maks the borrow)
2020-03-16 15:33:51 +00:00
## Performance
High-performance is a sought out property.
Note that security and side-channel resistance takes priority over performance.
New applications of elliptic curve cryptography like zero-knowledge proofs or
proof-of-stake based blockchain protocols are bottlenecked by cryptography.
### In blockchain
Ethereum 2 clients spent or use to spend anywhere between 30% to 99% of their processing time verifying the signatures of block validators on R&D testnets
Assuming we want nodes to handle a thousand peers, if a cryptographic pairing takes 1ms, that represents 1s of cryptography per block to sign with a target
block frequency of 1 every 6 seconds.
### In zero-knowledge proofs
According to https://medium.com/loopring-protocol/zksnark-prover-optimizations-3e9a3e5578c0
a 16-core CPU can prove 20 transfers/second or 10 transactions/second.
The previous implementation was 15x slower and one of the key optimizations
was changing the elliptic curve cryptography backend.
It had a direct implication on hardware cost and/or cloud computing resources required.
## Measuring performance
To measure the performance of Constantine
```bash
git clone https://github.com/mratsim/constantine
nimble bench_fp # Using Assembly (+ GCC)
nimble bench_fp_clang # Using Clang only
nimble bench_fp_gcc # Using Clang only (very slow)
nimble bench_fp2
# ...
nimble bench_ec_g1
nimble bench_ec_g2
```
As mentioned in the [Compiler caveats](#compiler-caveats) section, GCC is up to 2x slower than Clang due to mishandling of carries and register usage.
On my machine, for selected benchmarks on the prime field for popular pairing-friendly curves.
```
Compiled with GCC
Optimization level =>
no optimization: false
release: true
danger: true
inline assembly: true
Using Constantine with 64-bit limbs
Running on Intel(R) Core(TM) i9-9980XE CPU @ 3.00GHz
⚠️ Cycles measurements are approximate and use the CPU nominal clock: Turbo-Boost and overclocking will skew them.
i.e. a 20% overclock will be about 20% off (assuming no dynamic frequency scaling)
=================================================================================================================
-------------------------------------------------------------------------------------------------------------------------------------------------
Addition Fp[BN254_Snarks] 333333333.333 ops/s 3 ns/op 9 CPU cycles (approx)
Substraction Fp[BN254_Snarks] 500000000.000 ops/s 2 ns/op 8 CPU cycles (approx)
Negation Fp[BN254_Snarks] 1000000000.000 ops/s 1 ns/op 3 CPU cycles (approx)
Multiplication Fp[BN254_Snarks] 71428571.429 ops/s 14 ns/op 44 CPU cycles (approx)
Squaring Fp[BN254_Snarks] 71428571.429 ops/s 14 ns/op 44 CPU cycles (approx)
Inversion (constant-time Euclid) Fp[BN254_Snarks] 122579.063 ops/s 8158 ns/op 24474 CPU cycles (approx)
Inversion via exponentiation p-2 (Little Fermat) Fp[BN254_Snarks] 153822.489 ops/s 6501 ns/op 19504 CPU cycles (approx)
Square Root + square check (constant-time) Fp[BN254_Snarks] 153491.942 ops/s 6515 ns/op 19545 CPU cycles (approx)
Exp curve order (constant-time) - 254-bit Fp[BN254_Snarks] 104580.632 ops/s 9562 ns/op 28687 CPU cycles (approx)
Exp curve order (Leak exponent bits) - 254-bit Fp[BN254_Snarks] 153798.831 ops/s 6502 ns/op 19506 CPU cycles (approx)
-------------------------------------------------------------------------------------------------------------------------------------------------
Addition Fp[BLS12_381] 250000000.000 ops/s 4 ns/op 14 CPU cycles (approx)
Substraction Fp[BLS12_381] 250000000.000 ops/s 4 ns/op 13 CPU cycles (approx)
Negation Fp[BLS12_381] 1000000000.000 ops/s 1 ns/op 4 CPU cycles (approx)
Multiplication Fp[BLS12_381] 35714285.714 ops/s 28 ns/op 84 CPU cycles (approx)
Squaring Fp[BLS12_381] 35714285.714 ops/s 28 ns/op 85 CPU cycles (approx)
Inversion (constant-time Euclid) Fp[BLS12_381] 43763.676 ops/s 22850 ns/op 68552 CPU cycles (approx)
Inversion via exponentiation p-2 (Little Fermat) Fp[BLS12_381] 63983.620 ops/s 15629 ns/op 46889 CPU cycles (approx)
Square Root + square check (constant-time) Fp[BLS12_381] 63856.960 ops/s 15660 ns/op 46982 CPU cycles (approx)
Exp curve order (constant-time) - 255-bit Fp[BLS12_381] 68535.399 ops/s 14591 ns/op 43775 CPU cycles (approx)
Exp curve order (Leak exponent bits) - 255-bit Fp[BLS12_381] 93222.709 ops/s 10727 ns/op 32181 CPU cycles (approx)
-------------------------------------------------------------------------------------------------------------------------------------------------
Notes:
- Compilers:
Compilers are severely limited on multiprecision arithmetic.
Inline Assembly is used by default (nimble bench_fp).
Bench without assembly can use "nimble bench_fp_gcc" or "nimble bench_fp_clang".
GCC is significantly slower than Clang on multiprecision arithmetic due to catastrophic handling of carries.
- The simplest operations might be optimized away by the compiler.
- Fast Squaring and Fast Multiplication are possible if there are spare bits in the prime representation (i.e. the prime uses 254 bits out of 256 bits)
```
Internals refactor + renewed focus on perf (#17) * Lay out the refactoring objectives and tradeoffs * Refactor the 32 and 64-bit primitives [skip ci] * BigInts and Modular BigInts compile * Make the bigints test compile * Fix modular reduction * Fix reduction tests vs GMP * Implement montegomery mul, pow, inverse, WIP finite field compilation * Make FiniteField compile * Fix exponentiation compilation * Fix Montgomery magic constant computation for 2^64 words * Fix typo in non-optimized CIOS - passing finite fields IO tests * Add limbs comparisons [skip ci] * Fix on precomputation of the Montgomery magic constant * Passing all tests including 𝔽p2 * modular addition, the test for mersenne prime was wrong * update benches * Fix "nimble test" + typo on out-of-place field addition * bigint division, normalization is needed: https://travis-ci.com/github/mratsim/constantine/jobs/298359743 * missing conversion in subborrow non-x86 fallback - https://travis-ci.com/github/mratsim/constantine/jobs/298359744 * Fix little-endian serialization * Constantine32 flag to run 32-bit constantine on 64-bit machines * IO Field test, ensure that BaseType is used instead of uint64 when the prime can field in uint32 * Implement proper addcarry and subborrow fallback for the compile-time VM * Fix export issue when the logical wordbitwidth == physical wordbitwidth - passes all tests (32-bit and 64-bit) * Fix uint128 on ARM * Fix C++ conditional copy and ARM addcarry/subborrow * Add investigation for SIGFPE in Travis * Fix debug display for unsafeDiv2n1n * multiplexer typo * moveMem bug in glibc of Ubuntu 16.04? * Was probably missing an early clobbered register annotation on conditional mov * Note on Montgomery-friendly moduli * Strongly suspect a GCC before GCC 7 codegen bug (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=87139) * hex conversion was (for debugging) not taking requested order into account + inlining comment * Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug? * Revert "Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug?" This reverts commit 087f9aa7fb40bbd058d05cbd8eec7fc082911f49. * Fix subborrow fallback for non-x86 (need to maks the borrow)
2020-03-16 15:33:51 +00:00
### Compiler caveats
Unfortunately compilers and in particular GCC are not very good at optimizing big integers and/or cryptographic code even when using intrinsics like `addcarry_u64`.
Compilers with proper support of `addcarry_u64` like Clang, MSVC and ICC
may generate code up to 20~25% faster than GCC.
This is explained by the GMP team: https://gmplib.org/manual/Assembly-Carry-Propagation.html
and can be reproduced with the following C code.
See https://gcc.godbolt.org/z/2h768y
```C
#include <stdint.h>
#include <x86intrin.h>
void add256(uint64_t a[4], uint64_t b[4]){
uint8_t carry = 0;
for (int i = 0; i < 4; ++i)
carry = _addcarry_u64(carry, a[i], b[i], &a[i]);
}
```
GCC
```asm
add256:
movq (%rsi), %rax
addq (%rdi), %rax
setc %dl
movq %rax, (%rdi)
movq 8(%rdi), %rax
addb $-1, %dl
adcq 8(%rsi), %rax
setc %dl
movq %rax, 8(%rdi)
movq 16(%rdi), %rax
addb $-1, %dl
adcq 16(%rsi), %rax
setc %dl
movq %rax, 16(%rdi)
movq 24(%rsi), %rax
addb $-1, %dl
adcq %rax, 24(%rdi)
ret
```
Clang
```asm
add256:
movq (%rsi), %rax
addq %rax, (%rdi)
movq 8(%rsi), %rax
adcq %rax, 8(%rdi)
movq 16(%rsi), %rax
adcq %rax, 16(%rdi)
movq 24(%rsi), %rax
adcq %rax, 24(%rdi)
retq
```
As a workaround key procedures use inline assembly.
Internals refactor + renewed focus on perf (#17) * Lay out the refactoring objectives and tradeoffs * Refactor the 32 and 64-bit primitives [skip ci] * BigInts and Modular BigInts compile * Make the bigints test compile * Fix modular reduction * Fix reduction tests vs GMP * Implement montegomery mul, pow, inverse, WIP finite field compilation * Make FiniteField compile * Fix exponentiation compilation * Fix Montgomery magic constant computation for 2^64 words * Fix typo in non-optimized CIOS - passing finite fields IO tests * Add limbs comparisons [skip ci] * Fix on precomputation of the Montgomery magic constant * Passing all tests including 𝔽p2 * modular addition, the test for mersenne prime was wrong * update benches * Fix "nimble test" + typo on out-of-place field addition * bigint division, normalization is needed: https://travis-ci.com/github/mratsim/constantine/jobs/298359743 * missing conversion in subborrow non-x86 fallback - https://travis-ci.com/github/mratsim/constantine/jobs/298359744 * Fix little-endian serialization * Constantine32 flag to run 32-bit constantine on 64-bit machines * IO Field test, ensure that BaseType is used instead of uint64 when the prime can field in uint32 * Implement proper addcarry and subborrow fallback for the compile-time VM * Fix export issue when the logical wordbitwidth == physical wordbitwidth - passes all tests (32-bit and 64-bit) * Fix uint128 on ARM * Fix C++ conditional copy and ARM addcarry/subborrow * Add investigation for SIGFPE in Travis * Fix debug display for unsafeDiv2n1n * multiplexer typo * moveMem bug in glibc of Ubuntu 16.04? * Was probably missing an early clobbered register annotation on conditional mov * Note on Montgomery-friendly moduli * Strongly suspect a GCC before GCC 7 codegen bug (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=87139) * hex conversion was (for debugging) not taking requested order into account + inlining comment * Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug? * Revert "Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug?" This reverts commit 087f9aa7fb40bbd058d05cbd8eec7fc082911f49. * Fix subborrow fallback for non-x86 (need to maks the borrow)
2020-03-16 15:33:51 +00:00
### Inline assembly
Internals refactor + renewed focus on perf (#17) * Lay out the refactoring objectives and tradeoffs * Refactor the 32 and 64-bit primitives [skip ci] * BigInts and Modular BigInts compile * Make the bigints test compile * Fix modular reduction * Fix reduction tests vs GMP * Implement montegomery mul, pow, inverse, WIP finite field compilation * Make FiniteField compile * Fix exponentiation compilation * Fix Montgomery magic constant computation for 2^64 words * Fix typo in non-optimized CIOS - passing finite fields IO tests * Add limbs comparisons [skip ci] * Fix on precomputation of the Montgomery magic constant * Passing all tests including 𝔽p2 * modular addition, the test for mersenne prime was wrong * update benches * Fix "nimble test" + typo on out-of-place field addition * bigint division, normalization is needed: https://travis-ci.com/github/mratsim/constantine/jobs/298359743 * missing conversion in subborrow non-x86 fallback - https://travis-ci.com/github/mratsim/constantine/jobs/298359744 * Fix little-endian serialization * Constantine32 flag to run 32-bit constantine on 64-bit machines * IO Field test, ensure that BaseType is used instead of uint64 when the prime can field in uint32 * Implement proper addcarry and subborrow fallback for the compile-time VM * Fix export issue when the logical wordbitwidth == physical wordbitwidth - passes all tests (32-bit and 64-bit) * Fix uint128 on ARM * Fix C++ conditional copy and ARM addcarry/subborrow * Add investigation for SIGFPE in Travis * Fix debug display for unsafeDiv2n1n * multiplexer typo * moveMem bug in glibc of Ubuntu 16.04? * Was probably missing an early clobbered register annotation on conditional mov * Note on Montgomery-friendly moduli * Strongly suspect a GCC before GCC 7 codegen bug (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=87139) * hex conversion was (for debugging) not taking requested order into account + inlining comment * Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug? * Revert "Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug?" This reverts commit 087f9aa7fb40bbd058d05cbd8eec7fc082911f49. * Fix subborrow fallback for non-x86 (need to maks the borrow)
2020-03-16 15:33:51 +00:00
While using intrinsics significantly improve code readability, portability, auditability and maintainability,
Constantine use inline assembly on x86-64 to ensure performance portability despite poor optimization (for GCC)
and also to use dedicated large integer instructions MULX, ADCX, ADOX that compilers cannot generate.
Internals refactor + renewed focus on perf (#17) * Lay out the refactoring objectives and tradeoffs * Refactor the 32 and 64-bit primitives [skip ci] * BigInts and Modular BigInts compile * Make the bigints test compile * Fix modular reduction * Fix reduction tests vs GMP * Implement montegomery mul, pow, inverse, WIP finite field compilation * Make FiniteField compile * Fix exponentiation compilation * Fix Montgomery magic constant computation for 2^64 words * Fix typo in non-optimized CIOS - passing finite fields IO tests * Add limbs comparisons [skip ci] * Fix on precomputation of the Montgomery magic constant * Passing all tests including 𝔽p2 * modular addition, the test for mersenne prime was wrong * update benches * Fix "nimble test" + typo on out-of-place field addition * bigint division, normalization is needed: https://travis-ci.com/github/mratsim/constantine/jobs/298359743 * missing conversion in subborrow non-x86 fallback - https://travis-ci.com/github/mratsim/constantine/jobs/298359744 * Fix little-endian serialization * Constantine32 flag to run 32-bit constantine on 64-bit machines * IO Field test, ensure that BaseType is used instead of uint64 when the prime can field in uint32 * Implement proper addcarry and subborrow fallback for the compile-time VM * Fix export issue when the logical wordbitwidth == physical wordbitwidth - passes all tests (32-bit and 64-bit) * Fix uint128 on ARM * Fix C++ conditional copy and ARM addcarry/subborrow * Add investigation for SIGFPE in Travis * Fix debug display for unsafeDiv2n1n * multiplexer typo * moveMem bug in glibc of Ubuntu 16.04? * Was probably missing an early clobbered register annotation on conditional mov * Note on Montgomery-friendly moduli * Strongly suspect a GCC before GCC 7 codegen bug (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=87139) * hex conversion was (for debugging) not taking requested order into account + inlining comment * Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug? * Revert "Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug?" This reverts commit 087f9aa7fb40bbd058d05cbd8eec7fc082911f49. * Fix subborrow fallback for non-x86 (need to maks the borrow)
2020-03-16 15:33:51 +00:00
The speed improvement on finite field arithmetic is up 60% with MULX, ADCX, ADOX on BLS12-381 (6 limbs).
Internals refactor + renewed focus on perf (#17) * Lay out the refactoring objectives and tradeoffs * Refactor the 32 and 64-bit primitives [skip ci] * BigInts and Modular BigInts compile * Make the bigints test compile * Fix modular reduction * Fix reduction tests vs GMP * Implement montegomery mul, pow, inverse, WIP finite field compilation * Make FiniteField compile * Fix exponentiation compilation * Fix Montgomery magic constant computation for 2^64 words * Fix typo in non-optimized CIOS - passing finite fields IO tests * Add limbs comparisons [skip ci] * Fix on precomputation of the Montgomery magic constant * Passing all tests including 𝔽p2 * modular addition, the test for mersenne prime was wrong * update benches * Fix "nimble test" + typo on out-of-place field addition * bigint division, normalization is needed: https://travis-ci.com/github/mratsim/constantine/jobs/298359743 * missing conversion in subborrow non-x86 fallback - https://travis-ci.com/github/mratsim/constantine/jobs/298359744 * Fix little-endian serialization * Constantine32 flag to run 32-bit constantine on 64-bit machines * IO Field test, ensure that BaseType is used instead of uint64 when the prime can field in uint32 * Implement proper addcarry and subborrow fallback for the compile-time VM * Fix export issue when the logical wordbitwidth == physical wordbitwidth - passes all tests (32-bit and 64-bit) * Fix uint128 on ARM * Fix C++ conditional copy and ARM addcarry/subborrow * Add investigation for SIGFPE in Travis * Fix debug display for unsafeDiv2n1n * multiplexer typo * moveMem bug in glibc of Ubuntu 16.04? * Was probably missing an early clobbered register annotation on conditional mov * Note on Montgomery-friendly moduli * Strongly suspect a GCC before GCC 7 codegen bug (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=87139) * hex conversion was (for debugging) not taking requested order into account + inlining comment * Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug? * Revert "Use 32-bit limbs on ARM64, uint128 builtin __udivti4 bug?" This reverts commit 087f9aa7fb40bbd058d05cbd8eec7fc082911f49. * Fix subborrow fallback for non-x86 (need to maks the borrow)
2020-03-16 15:33:51 +00:00
## Sizes: code size, stack usage
Thanks to 10x smaller key sizes for the same security level as RSA, elliptic curve cryptography
is widely used on resource-constrained devices.
Constantine is actively optimize for code-size and stack usage.
Constantine does not use heap allocation.
At the moment Constantine is optimized for 32-bit and 64-bit CPUs.
When performance and code size conflicts, a careful and informed default is chosen.
In the future, a compile-time flag that goes beyond the compiler `-Os` might be provided.
### Example tradeoff
Unrolling Montgomery Multiplication brings about 15% performance improvement
which translate to ~15% on all operations in Constantine as field multiplication bottlenecks
all cryptographic primitives.
This is considered a worthwhile tradeoff on all but the most constrained CPUs
with those CPUs probably being 8-bit or 16-bit.
2018-07-24 14:52:18 +00:00
## License
2018-09-05 18:47:55 +00:00
Licensed and distributed under either of
* MIT license: [LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT
2019-01-02 14:09:55 +00:00
or
* Apache License, Version 2.0, ([LICENSE-APACHEv2](LICENSE-APACHEv2) or http://www.apache.org/licenses/LICENSE-2.0)
2018-07-24 14:52:18 +00:00
2019-01-02 14:09:55 +00:00
at your option. This file may not be copied, modified, or distributed except according to those terms.
This library has **no external dependencies**.
In particular GMP is used only for testing and differential fuzzing
and is not linked in the library.