ECIES is a public-key authenticated encryption scheme, which uses a KDF (key-derivation function) for deriving separate MAC key and symmetric encryption key from the ECDH shared secret.
- OpenSSL. See the OpenSSL Installation Instructions
- Protocol Buffers. See the Protocol Buffers Installation Instructions
- crypto-bn-cpp. See the crypto-bn-cpp Installation Instructions
- crypto-hash-cpp. See the crypto-hash-cpp Installation Instructions
- crypto-encode-cpp. See the crypto-encode-cpp Installation Instructions
- crypto-curve-cpp. See the crypto-curve-cpp Installation Instructions
Linux and Mac are supported now. After obtaining the Source, have a look at the installation script.
git clone https://github.com/safeheron/crypto-ecies-cpp.git
cd crypto-ecies-cpp
mkdir build && cd build
# Run "cmake .. -DOPENSSL_ROOT_DIR=Your-Root-Directory-of-OPENSSL" instead of the command below on Mac OS.
cmake ..
# Add the path to the LD_LIBRARY_PATH environment variable on Mac OS; Ignore it on Linux
export LIBRARY_PATH=$LIBRARY_PATH:/usr/local/lib/
make
make test
sudo make install
More platforms such as Windows would be supported soon.
CMake is your best option. It supports building on Linux, MacOS and Windows (soon) but also has a good chance of working on other platforms (no promises!). cmake has good support for crosscompiling and can be used for targeting the Android platform.
To build crypto-ecies-cpp from source, follow the BUILDING guide.
The canonical way to discover dependencies in CMake is the find_package command.
find_package(PkgConfig REQUIRED)
pkg_search_module(PROTOBUF REQUIRED protobuf) # this looks for *.pc file
include_directories(${PROTOBUF_INCLUDE_DIRS})
find_package(OpenSSL REQUIRED)
find_package(CryptoECIES REQUIRED)
add_executable(example example.cpp)
target_include_directories(example PUBLIC
${OPENSSL_INCLUDE_DIR}
${CryptoECIES_INCLUDE_DIRS}
/usr/local/include # for Mac os
)
target_link_directories(example PUBLIC /usr/local/lib) # for Mac os
target_link_libraries(example PUBLIC
CryptoECIES
OpenSSL::Crypto
pthread )
#include <cstring>
#include "crypto-bn/rand.h"
#include "crypto-curve/curve.h"
#include "crypto-encode/hex.h"
#include "crypto-ecies/ecies.h"
#include "crypto-ecies/auth_enc.h"
using safeheron::bignum::BN;
using safeheron::curve::Curve;
using safeheron::curve::CurvePoint;
using safeheron::curve::CurveType;
using safeheron::ecies::ECIES;
using safeheron::ecies::AuthEnc;
int main(int argc, char **argv) {
bool ok = true;
std::string str;
std::string data;
const Curve *curv = GetCurveParam(CurveType::P256);
std::string message = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 17, 18};
std::string plain;
std::string cypher;
std::string iv;
// private key
BN priv = safeheron::rand::RandomBNLt(curv->n);
priv.ToBytes32BE(data);
std::cout << "priv: " << safeheron::encode::hex::EncodeToHex(data) << std::endl;
// public key(in full format)
CurvePoint pub = curv->g * priv;
uint8_t buf65[65];
pub.EncodeFull(buf65);
std::cout << "pub(full format): " << safeheron::encode::hex::EncodeToHex(buf65, 65) << std::endl;
// ecies encryption
ECIES enc;
enc.set_curve_type(CurveType::P256);
ok = enc.Encrypt(pub, message, iv, cypher);
std::cout << "succeed to encrypt: " << ok << std::endl;
std::cout << "iv: " << safeheron::encode::hex::EncodeToHex(iv) << std::endl;
std::cout << "cypher: " << safeheron::encode::hex::EncodeToHex(cypher) << std::endl;
// ecies decryption
ok = enc.Decrypt(priv, cypher, iv, plain);
std::cout << "succeed to encrypt: " << ok << std::endl;
std::cout << "plain: " << safeheron::encode::hex::EncodeToHex(plain) << std::endl;
// comparison
bool is_same = true;
for(size_t i = 0; i < message.length(); i ++){
if(message[i] != plain[i]){
is_same = false;
break;
}
}
std::cout << "compare: " << is_same << std::endl;
return 0;
}
- Compile:
cmake .. -DOPENSSL_ROOT_DIR=/opt/homebrew/opt/openssl@1.1 -DENABLE_TESTS=ON
make
- Run:
./example
priv: c8f9d6f833664e41b9c4fa7ee812554472eb2f4e08da44f148b989ad433f3d53
pub(full format): 0461f92e2f41ccecd99bbe8c772c807c933d8b9929f34b8e90f4b77fcd25b2994067580b47a1ce50a5af2a5dd43cccf2cf97a8344639cc0c736802cb4f76dd2c8e
succeed to encrypt: 1
iv: 6286107cb65bd0e31ea944d5e9c88d18
cypher: 045a8ec0ac293719d1e6c53b3b38e525e4feefeab03277830a67a3d877863f3593942bdd8174701b7fd570be4bf61a08bc0ae2a3715d0db86e8efc007b2b35f991f122c014b7b5d845dfd518a2215e0ee8afe5e7b34176ebdf19a79607e8794a8b22b0d2f2a4b81ea5b0b6b77fce6d57d327ff39df211790ee50e6b33ab6690a956d539739ab3ada9976ac025feaa9d27ce498e8c0f01edc80200024e1a60d463f
succeed to encrypt: 1
plain: 000102030405060708090a0b0c0d0e0f1112
compare: 1
This library is maintained by Safeheron. Contributions are highly welcomed! Besides GitHub issues and PRs, feel free to reach out by mail.