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base: gulliver:1a0ad2dc90d8ba2191ed7707d381753fb59a1fb2
Branches Tags
gulliver:main
gulliver:feature/add_crypto
gulliver:gh-pages
gulliver:feature/extend_documentation
...
compare: gulliver:2a33e4137679331f6b8d65d3f14e2f99cffb0628
Branches Tags
gulliver:main
gulliver:feature/add_crypto
gulliver:gh-pages
gulliver:feature/extend_documentation

4 Commits
1a0ad2dc90 ... 2a33e41376

Author SHA1 Message Date
Gulliver
2a33e41376 removed cryptopp, openssl shall be used instead for blinding (but not implemented yet) 2024-07-14 15:38:55 +02:00
Gulliver
96d25a0a9a added test_crypto.cpp with first code for rsa blinding 2024-07-14 15:38:02 +02:00
Gulliver
f385ad9757 included crypto++ lib 2024-07-14 15:38:02 +02:00
Gulliver
76965de11f updated github flow with asio for newer crowcpp 2024-07-14 15:29:40 +02:00
5 changed files with 305 additions and 24 deletions
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35
.github/workflows/cmake.yaml vendored
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@ -19,28 +19,29 @@ jobs:
strategy:
fail-fast: false
matrix:
os: [ubuntu-latest, macos-latest, windows-latest]
os: [ubuntu-latest,
macos-latest,
windows-latest]
steps:
- uses: actions/checkout@v3
- name: Prepare dependencies
run: |
if [ "$RUNNER_OS" == "Linux" ]; then
sudo apt-get update && \
sudo apt-get install -yq \
libboost-system-dev \
libboost-date-time-dev \
cmake \
graphviz doxygen
elif [ "$RUNNER_OS" == "Windows" ]; then
choco install boost-msvc-14.3 graphviz doxygen.install
elif [ "$RUNNER_OS" == "macOS" ]; then
brew install boost graphviz doxygen
else
echo "$RUNNER_OS not supported"
exit 1
fi
shell: bash
if [ "$RUNNER_OS" == "Linux" ]; then
sudo apt-get update && \
sudo apt-get install -yq \
libasio-dev \
libssl-dev zlib1g-dev \
cmake graphviz doxygen
elif [ "$RUNNER_OS" == "Windows" ]; then
VCPKG_DEFAULT_TRIPLET=x64-windows vcpkg install
elif [ "$RUNNER_OS" == "macOS" ]; then
brew install asio openssl zlib doxygen graphviz
else
echo "$RUNNER_OS not supported"
exit 1
fi
shell: bash
- name: Configure CMake
run: cmake -B build
shell: bash

33
CMakeLists.txt
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@ -1,9 +1,13 @@
cmake_minimum_required(VERSION 3.1.3)
cmake_minimum_required(VERSION 3.15.0 FATAL_ERROR)
project(oc-issuer VERSION 0.0.2 LANGUAGES CXX)
enable_language(C)
enable_language(CXX)
set(CMAKE_CXX_STANDARD 17)
set(CMAKE_EXPORT_COMPILE_COMMANDS On)
set(CMAKE_POLICY_DEFAULT_CMP0077 NEW)
if(POLICY CMP0077)
cmake_policy(SET CMP0077 NEW)
endif()
@ -14,7 +18,8 @@ else()
add_compile_options(-Wall -Wextra -pedantic)
endif()
project(oc-issuer VERSION 0.0.2 LANGUAGES CXX)
set(CMAKE_EXPORT_COMPILE_COMMANDS ON)
include(FetchContent)
@ -25,11 +30,12 @@ set(CROW_BUILD_EXAMPLES Off)
set(CROW_BUILD_TOOLS Off)
set(CROW_BUILD_TESTS Off)
set(CROW_BUILD_DOCS Off)
set(CROW_FEATURES "ssl;compression")
# add crow project to the build
FetchContent_Declare(crow
GIT_REPOSITORY https://github.com/CrowCpp/Crow.git
GIT_TAG v1.0+5
GIT_TAG v1.2.0
)
if(NOT crow_POPULATED)
@ -46,6 +52,18 @@ if(NOT expected_POPULATED)
FetchContent_Populate(expected)
endif(NOT expected_POPULATED)
# add crypt++ (+cmake) library
#set(CRYPTOPP_BUILD_TESTING Off)
#set(CRYPTOPP_INSTALL Off)
#if(NOT cryptopp_POPULATED)
# FetchContent_Declare(cryptopp
# GIT_REPOSITORY https://github.com/abdes/cryptopp-cmake.git
# GIT_TAG CRYPTOPP_8_7_0_1)
# FetchContent_Populate(cryptopp)
# add_subdirectory(${cryptopp_SOURCE_DIR} ${cryptopp_BINARY_DIR})
#endif(NOT cryptopp_POPULATED)
include(CTest)
enable_testing()
@ -54,7 +72,7 @@ set(CATCH_INSTALL_EXTRAS Off)
FetchContent_Declare(
Catch2
GIT_REPOSITORY https://github.com/catchorg/Catch2.git
GIT_TAG v3.3.1
GIT_TAG v3.6.0
)
FetchContent_MakeAvailable(Catch2)
@ -77,14 +95,17 @@ set(LIB_SOURCES
src/big_int.hpp src/big_int.cpp )
add_library(oc-mint-lib ${LIB_SOURCES})
target_link_libraries(oc-mint-lib PUBLIC Crow::Crow)
target_link_libraries(oc-mint-lib PUBLIC Crow::Crow) # cryptopp::cryptopp)
target_include_directories(oc-mint-lib PUBLIC ${expected_SOURCE_DIR}/include src)
add_executable(${PROJECT_NAME} src/main.cpp)
target_link_libraries(${PROJECT_NAME} PRIVATE oc-mint-lib INTERFACE tl::expected::expected)
## these are unittests that can be run on any platform
add_executable(tests test/test_big_int.cpp test/test.cpp)
add_executable(tests test/test_big_int.cpp
test/test_json_s8n.cpp
test/test_crypto.cpp)
target_link_libraries(tests
oc-mint-lib
Catch2::Catch2WithMain)

250
test/test_crypto.cpp Normal file
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@ -0,0 +1,250 @@
#include <catch2/catch_test_macros.hpp>
//#include "cryptlib.h"
//#include "integer.h"
//#include "nbtheory.h"
//#include "osrng.h"
//#include "rsa.h"
//#include "sha.h"
#include <iostream>
#include <stdexcept>
/*
CryptoPP::Integer blind_signature(const CryptoPP::SecByteBlock &orig,
const CryptoPP::Integer &r,
const CryptoPP::RSA::PublicKey &pub_key,
const CryptoPP::RSA::PrivateKey &priv_key) {
using namespace CryptoPP;
using std::cout;
using std::endl;
// Convenience
const Integer &n = pub_key.GetModulus();
const Integer &e = pub_key.GetPublicExponent();
// const Integer &d = priv_key.GetPrivateExponent();
// For sizing the hashed message buffer. This should be SHA256 size.
const size_t sig_size = UnsignedMin(SHA256::BLOCKSIZE, n.ByteCount());
// Scratch
SecByteBlock buff_1, buff_2, buff_3;
Integer m(orig.data(), orig.size());
cout << "Message: " << std::hex << m << endl;
// Hash message per Rabin (1979)
buff_1.resize(sig_size);
SHA256 hash_1;
hash_1.CalculateTruncatedDigest(buff_1, buff_1.size(), orig, orig.size());
// H(m) as Integer
Integer hm(buff_1.data(), buff_1.size());
cout << "H(m): " << std::hex << hm << endl;
// Blinding factor
Integer b = a_exp_b_mod_c(r, e, n);
cout << "Random: " << std::hex << b << endl;
// Alice blinded message
Integer mm = a_times_b_mod_c(hm, b, n);
cout << "Blind msg: " << std::hex << mm << endl;
AutoSeededRandomPool prng;
// Bob sign
Integer ss = priv_key.CalculateInverse(prng, mm);
cout << "Blind sign: " << ss << endl;
return ss;
}
CryptoPP::Integer unblind_signature(const CryptoPP::Integer &ss,
const CryptoPP::Integer &r,
const CryptoPP::RSA::PublicKey &pub_key) {
const CryptoPP::Integer &n = pub_key.GetModulus();
CryptoPP::Integer s = a_times_b_mod_c(ss, r.InverseMod(n), n);
return s;
}
CryptoPP::Integer verify(CryptoPP::Integer const &ss,
const CryptoPP::Integer &r,
const CryptoPP::RSA::PublicKey &pub_key) {
CryptoPP::Integer s = unblind_signature(ss, r, pub_key);
CryptoPP::Integer v = pub_key.ApplyFunction(s);
return v;
}
TEST_CASE("cryptopp1", "[crypto]") {
using namespace CryptoPP;
using std::cout;
using std::endl;
using std::runtime_error;
// Bob artificially small key pair
AutoSeededRandomPool prng;
RSA::PrivateKey priv_key;
priv_key.GenerateRandomWithKeySize(prng, 64U);
RSA::PublicKey pub_key(priv_key);
// Convenience
const Integer &n = pub_key.GetModulus();
const Integer &e = pub_key.GetPublicExponent();
const Integer &d = priv_key.GetPrivateExponent();
// Print params
cout << "Pub mod: " << std::hex << pub_key.GetModulus() << endl;
cout << "Pub exp: " << std::hex << e << endl;
cout << "Priv mod: " << std::hex << priv_key.GetModulus() << endl;
cout << "Priv exp: " << std::hex << d << endl;
const char *MESSAGE = "secret";
SecByteBlock orig((const byte *) MESSAGE, 6U);
// Alice blinding
Integer r;
do {
r.Randomize(prng, Integer::One(), n - Integer::One());
} while (!RelativelyPrime(r, n));
CryptoPP::Integer ss = blind_signature(orig,
r,
pub_key,
priv_key);
// Alice checks s(s'(x)) = x. This is from Chaum's paper
Integer c = pub_key.ApplyFunction(ss);
cout << "Check sign: " << c << endl;
//if (c != mm) {
// throw runtime_error("Alice cross-check failed");
// }
// Alice remove blinding
Integer s = unblind_signature(ss, r, pub_key);
cout << "Unblind sign: " << s << endl;
// Eve verifies
Integer v = verify(ss, r, pub_key);
cout << "Verify: " << std::hex << v << endl;
// Scratch
SecByteBlock buff_2, buff_3;
// Convert to a string
size_t req = v.MinEncodedSize();
buff_2.resize(req);
v.Encode(&buff_2[0], buff_2.size());
// Hash message per Rabin (1979)
const size_t sig_size = UnsignedMin(SHA256::BLOCKSIZE, n.ByteCount());
buff_3.resize(sig_size);
SHA256 hash_2;
hash_2.CalculateTruncatedDigest(buff_3, buff_3.size(), orig, orig.size());
// Constant time compare
bool equal = buff_2.size() == buff_3.size() &&
VerifyBufsEqual(buff_2.data(), buff_3.data(), buff_3.size());
if (!equal) {
throw runtime_error("Eve verified failed");
}
cout << "Verified signature" << endl;
}
*/
/*
TEST_CASE("cryptopp", "[crypto]") {
using namespace CryptoPP;
using std::cout;
using std::endl;
using std::runtime_error;
// Bob artificially small key pair
AutoSeededRandomPool prng;
RSA::PrivateKey priv_key;
priv_key.GenerateRandomWithKeySize(prng, 64U);
RSA::PublicKey pub_key(priv_key);
// Convenience
const Integer &n = pub_key.GetModulus();
const Integer &e = pub_key.GetPublicExponent();
const Integer &d = priv_key.GetPrivateExponent();
// Print params
cout << "Pub mod: " << std::hex << pub_key.GetModulus() << endl;
cout << "Pub exp: " << std::hex << e << endl;
cout << "Priv mod: " << std::hex << priv_key.GetModulus() << endl;
cout << "Priv exp: " << std::hex << d << endl;
// For sizing the hashed message buffer. This should be SHA256 size.
const size_t sig_size = UnsignedMin(SHA256::BLOCKSIZE, n.ByteCount());
// Scratch
SecByteBlock buff_1, buff_2, buff_3;
// Alice original message to be signed by Bob
SecByteBlock orig((const byte *) "secret", 6U);
Integer m(orig.data(), orig.size());
cout << "Message: " << std::hex << m << endl;
// Hash message per Rabin (1979)
buff_1.resize(sig_size);
SHA256 hash_1;
hash_1.CalculateTruncatedDigest(buff_1, buff_1.size(), orig, orig.size());
// H(m) as Integer
Integer hm(buff_1.data(), buff_1.size());
cout << "H(m): " << std::hex << hm << endl;
// Alice blinding
Integer r;
do {
r.Randomize(prng, Integer::One(), n - Integer::One());
} while (!RelativelyPrime(r, n));
// Blinding factor
Integer b = a_exp_b_mod_c(r, e, n);
cout << "Random: " << std::hex << b << endl;
// Alice blinded message
Integer mm = a_times_b_mod_c(hm, b, n);
cout << "Blind msg: " << std::hex << mm << endl;
// Bob sign
Integer ss = priv_key.CalculateInverse(prng, mm);
cout << "Blind sign: " << ss << endl;
// Alice checks s(s'(x)) = x. This is from Chaum's paper
Integer c = pub_key.ApplyFunction(ss);
cout << "Check sign: " << c << endl;
if (c != mm) {
throw runtime_error("Alice cross-check failed");
}
// Alice remove blinding
Integer s = a_times_b_mod_c(ss, r.InverseMod(n), n);
cout << "Unblind sign: " << s << endl;
// Eve verifies
Integer v = pub_key.ApplyFunction(s);
cout << "Verify: " << std::hex << v << endl;
// Convert to a string
size_t req = v.MinEncodedSize();
buff_2.resize(req);
v.Encode(&buff_2[0], buff_2.size());
// Hash message per Rabin (1979)
buff_3.resize(sig_size);
SHA256 hash_2;
hash_2.CalculateTruncatedDigest(buff_3, buff_3.size(), orig, orig.size());
// Constant time compare
bool equal = buff_2.size() == buff_3.size() &&
VerifyBufsEqual(buff_2.data(), buff_3.data(), buff_3.size());
if (!equal) {
throw runtime_error("Eve verified failed");
}
cout << "Verified signature" << endl;
}
*/

2
test/test.cpp → test/test_json_s8n.cpp
View File

@ -12,7 +12,7 @@ TEST_CASE( "PublicKey::to_json", "[to_json]" ) {
REQUIRE( json["modulus"].dump() == "\"" + k.modulus.to_string() + "\"" );
REQUIRE( json["public_exponent"].dump() == "\"" + k.public_exponent.to_string()+"\"" );
REQUIRE( json["type"].dump() == "\"rsa public key\"" );
REQUIRE( json.keys().size() == 3 );
REQUIRE( json.keys().size() == 3U );
}
TEST_CASE("RequestCDDCSerial::from_string", "[from_string]") {

9
vcpkg.json Normal file
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@ -0,0 +1,9 @@
{
"name": "crow",
"version-string": "master",
"dependencies": [
"asio",
"openssl",
"zlib"
]
}