222 lines
5.4 KiB
C++
222 lines
5.4 KiB
C++
#ifndef FORTUNA_GENERATOR_CPP
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#define FORTUNA_GENERATOR_CPP
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#include "generator.h"
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#include "util.h"
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#include <cryptopp/ccm.h>
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#include <cryptopp/filters.h>
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#include <cryptopp/hex.h>
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#include <cryptopp/serpent.h>
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#include <fmt/core.h>
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#include <algorithm>
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#include <cassert>
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#include <chrono>
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#include <cmath>
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#include <cstdint>
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#include <mutex>
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#include <stdexcept>
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namespace fortuna {
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namespace generator {
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Generator::Generator() /*noexcept*/ {
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try {
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initialize_generator();
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}
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catch (CryptoPP::Exception& e) {
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fmt::print(stderr, "{}\n", e.what());
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exit(1);
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}
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}
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Generator::~Generator() noexcept {}
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void Generator::initialize_generator() {
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std::lock_guard<std::recursive_mutex> lg(mtx);
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try {
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std::memset(G.k, 0x00, G.k.size());
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G.ctr = 0;
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fmt::print("Generator initialized\n");
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}
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catch (CryptoPP::Exception& e) {
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fmt::print(stderr, "{}\n", e.what());
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exit(1);
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}
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}
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auto Generator::get_state() const -> G_state {
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std::lock_guard<std::recursive_mutex> lg(mtx);
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return G;
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}
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auto Generator::time_to_reseed(
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const uint64_t& pool0_len,
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const unsigned int& min_p_size,
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const std::chrono::duration<int64_t, std::ratio<1, 1000>>& time_elapsed,
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const std::chrono::milliseconds& gen_reseed_interval) const -> bool {
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std::lock_guard<std::recursive_mutex> lg(mtx);
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return (pool0_len >= min_p_size && time_elapsed > gen_reseed_interval);
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}
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auto Generator::reseed(const std::string& s) -> void {
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std::lock_guard<std::recursive_mutex> lg(mtx);
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std::unique_lock<std::mutex> ul(reseed_mtx);
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// ref: https://www.cryptopp.com/wiki/SecBlock
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std::string da_key(reinterpret_cast<const char*>(&G.k[0]),
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G.k.SizeInBytes() * 8); // we need the size in bits
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try {
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std::string a{fortuna::Util::do_sha(da_key + s)};
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std::memmove(G.k, a.c_str(), G.k_length);
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++G.ctr;
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fmt::print("[i] generator: reseeded\n");
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}
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catch (std::exception& e) {
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fmt::print("{}", e.what());
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}
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}
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auto Generator::do_crypto() -> std::string {
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/* this function calls the block cipher
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* returns a string of k*(16 bytes);
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* do whatever atm */
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std::lock_guard<std::recursive_mutex> lg(mtx);
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// for the moment loosely based on
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// https://www.cryptopp.com/wiki/CTR_Mode
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// William Shakespeare, Romeo and Juliet
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std::string plain{"Oh, I am fortune's fool!"};
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std::string cipher, encoded_c;
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std::unique_lock<std::mutex> ul(crypt_mtx);
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// in case we need to convert counter to string
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std::string str_ctr{reinterpret_cast<const char*>(&G.ctr)};
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// 16 bytes --> 128bit
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static constexpr const std::size_t ctr_length{16};
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CryptoPP::FixedSizeSecBlock<CryptoPP::byte, ctr_length> ctr;
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std::memmove(ctr, str_ctr.c_str(), ctr_length);
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try {
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CryptoPP::CTR_Mode<CryptoPP::Serpent>::Encryption e;
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e.SetKeyWithIV(G.k, G.k.size(), ctr);
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// The StreamTransformationFilter adds padding as required. ECB and
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// CBC Mode must be padded to the block size of the cipher. CTR
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// mode not.
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// the "true" param - pump all of the data immediately to its
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// attached transformation
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CryptoPP::StringSource str_src1(
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plain,
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true,
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new CryptoPP::StreamTransformationFilter(
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e,
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new CryptoPP::StringSink(cipher)) // StreamTransformationFilter
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); // StringSource
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}
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catch (CryptoPP::Exception& e) {
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fmt::print(stderr, "{}\n", e.what());
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exit(1);
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}
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// Pretty print cipher text
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CryptoPP::StringSource str_src2(
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cipher,
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true,
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new CryptoPP::HexEncoder(
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new CryptoPP::StringSink(encoded_c)) // HexEncoder
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); // StringSource
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return encoded_c;
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}
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auto Generator::generate_blocks(unsigned int k_blocks) -> std::string {
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std::lock_guard<std::recursive_mutex> lg(mtx);
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assert((G.ctr != 0) && "Counter is not 0, generator has been seeded");
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std::string r{""};
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while (k_blocks--) {
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r += Generator::do_crypto();
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++G.ctr;
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}
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return r;
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}
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auto Generator::generate_random_data(const unsigned int& n) -> std::string {
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std::lock_guard<std::recursive_mutex> lg(mtx);
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if (n == 0) {
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// do not do this..?
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const std::string msg{"zero bytes requested, bailing\n"};
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fmt::print("[*] g: error: {}", msg);
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// throw std::invalid_argument(msg);
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// TODO(me): throw or not?
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// perhaps just return prematurely
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return "";
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}
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// pre-computed 2^20
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if (n > 1048576) {
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const std::string msg{"n cannot be > 2^20\n"};
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fmt::print("[*] error: {}", msg);
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throw std::invalid_argument(msg);
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}
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std::string r;
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try {
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/* do magic to compute r
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* r ← first-n-bytes(GenerateBlocks(G, ceil(n/16) )) */
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unsigned int how_many(
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static_cast<unsigned int>(std::ceil(static_cast<double>(n) / 16)));
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std::string rr{generate_blocks(how_many)};
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fmt::print("rr (output from generate_blocks): {}\n", rr);
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// since we're truncating hex, we need to get twice more characters
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r = rr.substr(0, n * 0x02ul);
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rr.clear();
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}
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catch (std::exception& e) {
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fmt::print("{}", e.what());
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}
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/* re-key */
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try {
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std::string nu_G_k{generate_blocks(2)};
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// fmt::print("nu_G_k: {}\n", nu_G_k); // debugging
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std::string dst;
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CryptoPP::HexDecoder decoder;
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decoder.Put(reinterpret_cast<CryptoPP::byte*>(nu_G_k.data()),
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nu_G_k.size());
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decoder.MessageEnd();
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dst.resize(G.k_length);
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decoder.Get(reinterpret_cast<CryptoPP::byte*>(&dst[0]), dst.size());
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nu_G_k.clear();
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/* clear out the old key and set a new one */
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std::memset(G.k, 0x00, G.k_length);
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std::memmove(G.k, dst.c_str(), G.k_length);
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}
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catch (std::exception& e) {
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fmt::print("{}", e.what());
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}
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return r;
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}
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} // namespace generator
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} // namespace fortuna
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#endif
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