#ifndef C_TOXCORE_TOXCORE_CRYPTO_CORE_TEST_UTIL_H #define C_TOXCORE_TOXCORE_CRYPTO_CORE_TEST_UTIL_H #include #include #include #include #include "crypto_core.h" #include "test_util.hh" struct Random_Class { static Random_Funcs const vtable; Random const self; operator Random const *() const { return &self; } Random_Class(Random_Class const &) = default; Random_Class() : self{&vtable, this} { } virtual ~Random_Class(); virtual crypto_random_bytes_cb random_bytes = 0; virtual crypto_random_uniform_cb random_uniform = 0; }; /** * A very simple, fast, and deterministic PRNG just for testing. * * We generally don't want to use system_random(), since it's a * cryptographically secure PRNG and we don't need that in unit tests. */ class Test_Random : public Random_Class { std::minstd_rand lcg; void random_bytes(void *obj, uint8_t *bytes, size_t length) override; uint32_t random_uniform(void *obj, uint32_t upper_bound) override; }; struct PublicKey : private std::array { using Base = std::array; using Base::begin; using Base::data; using Base::end; using Base::size; using Base::operator[]; PublicKey() = default; explicit PublicKey(uint8_t const (&arr)[CRYPTO_PUBLIC_KEY_SIZE]) : PublicKey(to_array(arr)) { } explicit PublicKey(std::array const &arr) { std::copy(arr.begin(), arr.end(), begin()); } PublicKey(std::initializer_list const &arr) { std::copy(arr.begin(), arr.end(), begin()); } Base const &base() const { return *this; } }; inline bool operator!=(PublicKey const &pk1, PublicKey const &pk2) { return pk1.base() != pk2.base(); } inline bool operator==(PublicKey const &pk1, PublicKey const &pk2) { return pk1.base() == pk2.base(); } inline bool operator==(PublicKey::Base const &pk1, PublicKey const &pk2) { return pk1 == pk2.base(); } std::ostream &operator<<(std::ostream &out, PublicKey const &pk); PublicKey random_pk(const Random *rng); #endif // C_TOXCORE_TOXCORE_CRYPTO_CORE_TEST_UTIL_H