#include #include #include #include #include #include #include #include "json.hpp" #include "string_helpers.h" #include "time_helpers.h" using namespace std; using nlohmann::json; using namespace BareMinimumCrypto; struct ExpiringSignature { string cert_s; vector sig; // C++ nonsense bool operator == (const ExpiringSignature & o) const { return cert_s == o.cert_s && sig == o.sig ; } bool operator != (const ExpiringSignature & o) const { return ! (*this == o); } }; void try_sodium_init () { if (sodium_init () < 0) { throw std::runtime_error ("Can't initialize libsodium"); } } struct VerifiedData { vector payload; string purpose; }; optional try_verify_signed_data ( const ExpiringSignature & sig, int64_t now, const vector & pubkey ) { try_sodium_init (); if (pubkey.size () != crypto_sign_PUBLICKEYBYTES) { return nullopt; } if (crypto_sign_verify_detached ( sig.sig.data (), (const uint8_t *)sig.cert_s.data (), sig.cert_s.size (), pubkey.data () ) != 0) { return nullopt; } const json j = json::parse (sig.cert_s); const int64_t not_before = j ["not_before"]; const int64_t not_after = j ["not_after"]; if (now < not_before) { return nullopt; } if (now > not_after) { return nullopt; } const string purpose = j ["purpose"]; const string payload_b64 = j ["payload_b64"]; const auto payload = std::move (*base64_decode (payload_b64)); return VerifiedData { payload, purpose }; } optional verify_signed_data ( const ExpiringSignature & sig, int64_t now, const vector & pubkey ) { try { return try_verify_signed_data (sig, now, pubkey); } catch (json::exception &) { return nullopt; } } class SigningKey { vector pk; vector sk; public: SigningKey () { try_sodium_init (); pk.resize (crypto_sign_PUBLICKEYBYTES); sk.resize (crypto_sign_SECRETKEYBYTES); crypto_sign_keypair (pk.data (), sk.data ()); } vector pubkey () const { return pk; } string pub_to_base64 () const { return base64_encode (pk); } optional sign_base64 ( const string & payload_b64, string purpose, int64_t now, int64_t duration ) const { try_sodium_init (); if (duration > about_1_year) { return nullopt; } const auto not_after = now + duration; const json j { {"not_before", now}, {"not_after", not_after}, {"purpose", purpose}, {"payload_b64", payload_b64}, }; const auto cert_s = j.dump (); vector sig; sig.resize (crypto_sign_BYTES); crypto_sign_detached (sig.data (), nullptr, (const uint8_t *)cert_s.data (), cert_s.size (), sk.data ()); return ExpiringSignature { cert_s, sig, }; } optional sign_key (const SigningKey & k, int64_t now) const { return sign_base64 (k.pub_to_base64 (), "4QHAB7O5 trusted public key", now, about_3_months); } optional sign_data (const vector & v, int64_t now) const { return sign_base64 (base64_encode (v), "MS7WL26L signed data", now, about_1_week); } }; int happy_path () { // We generate a root key and keep it somewhere safe // (offline, hopefully) SigningKey root_key; cerr << "Root pub key " << root_key.pub_to_base64 () << endl; if (test_time () != 0) { return 1; } // The server generates a signing key SigningKey signing_key; cerr << "Signing key " << signing_key.pub_to_base64 () << endl; const auto now = get_seconds_since_epoch (); // That signing key signs some important data const auto important_data = copy_to_bytes ("Nikolai, Anna, Ivan, Mikhail, Ivan, Nikolai, Anna. 7 4 1 4 3 5 7 4"); const ExpiringSignature signed_data = std::move (*signing_key.sign_data (important_data, now)); // The server signs our temporary signing key const ExpiringSignature cert = std::move (*root_key.sign_key (signing_key, now)); { // Check that a different time results in a different cert const auto cert_2 = std::move (*root_key.sign_key (signing_key, now)); const auto cert_3 = std::move (*root_key.sign_key (signing_key, now + 1)); if (cert != cert_2) { cerr << "Certs should have been identical" << endl; return 1; } if (cert == cert_3) { cerr << "Certs should have been different" << endl; return 1; } if (cert == cert_3) { cerr << "Signatures should have been different" << endl; return 1; } } { cerr << "Cert:" << endl; cerr << cert.cert_s << endl; cerr << base64_encode (cert.sig) << endl; } // The client knows our root public key const auto root_pubkey = root_key.pubkey (); { auto verified_opt = verify_signed_data (cert, now, root_pubkey); if (! verified_opt) { cerr << "Couldn't verify cert" << endl; return 1; } const auto verified = std::move (*verified_opt); if (verified.purpose != "4QHAB7O5 trusted public key") { cerr << "Purpose did not match" << endl; return 1; } if (verified.payload != signing_key.pubkey ()) { cerr << "Pubkey payload did not match" << endl; return 1; } } { auto verified_opt = verify_signed_data (signed_data, now, signing_key.pubkey ()); if (! verified_opt) { cerr << "Couldn't verify cert" << endl; return 1; } const auto verified = std::move (*verified_opt); if (verified.purpose != "MS7WL26L signed data") { cerr << "Purpose did not match" << endl; return 1; } if (verified.payload != important_data) { cerr << "Pubkey payload did not match" << endl; return 1; } } return 0; } int main () { if (test_base64 () != 0) { return 1; } if (happy_path () != 0) { return 1; } cerr << "All good." << endl; return 0; }