// Copyright (c) 2015-2020 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #ifndef BITCOIN_TEST_UTIL_SETUP_COMMON_H #define BITCOIN_TEST_UTIL_SETUP_COMMON_H #include #include #include #include #include #include #include #include #include #include #include #include /** This is connected to the logger. Can be used to redirect logs to any other log */ extern const std::function G_TEST_LOG_FUN; // Enable BOOST_CHECK_EQUAL for enum class types template std::ostream& operator<<(typename std::enable_if::value, std::ostream>::type& stream, const T& e) { return stream << static_cast::type>(e); } /** * This global and the helpers that use it are not thread-safe. * * If thread-safety is needed, the global could be made thread_local (given * that thread_local is supported on all architectures we support) or a * per-thread instance could be used in the multi-threaded test. */ extern FastRandomContext g_insecure_rand_ctx; /** * Flag to make GetRand in random.h return the same number */ extern bool g_mock_deterministic_tests; enum class SeedRand { ZEROS, //!< Seed with a compile time constant of zeros SEED, //!< Call the Seed() helper }; /** Seed the given random ctx or use the seed passed in via an environment var */ void Seed(FastRandomContext& ctx); static inline void SeedInsecureRand(SeedRand seed = SeedRand::SEED) { if (seed == SeedRand::ZEROS) { g_insecure_rand_ctx = FastRandomContext(/* deterministic */ true); } else { Seed(g_insecure_rand_ctx); } } static inline uint32_t InsecureRand32() { return g_insecure_rand_ctx.rand32(); } static inline uint256 InsecureRand256() { return g_insecure_rand_ctx.rand256(); } static inline uint64_t InsecureRandBits(int bits) { return g_insecure_rand_ctx.randbits(bits); } static inline uint64_t InsecureRandRange(uint64_t range) { return g_insecure_rand_ctx.randrange(range); } static inline bool InsecureRandBool() { return g_insecure_rand_ctx.randbool(); } static constexpr CAmount CENT{1000000}; /** Basic testing setup. * This just configures logging, data dir and chain parameters. */ struct BasicTestingSetup { ECCVerifyHandle globalVerifyHandle; NodeContext m_node; explicit BasicTestingSetup(const std::string& chainName = CBaseChainParams::MAIN, const std::vector& extra_args = {}); ~BasicTestingSetup(); private: const fs::path m_path_root; }; /** Testing setup that performs all steps up until right before * ChainstateManager gets initialized. Meant for testing ChainstateManager * initialization behaviour. */ struct ChainTestingSetup : public BasicTestingSetup { explicit ChainTestingSetup(const std::string& chainName = CBaseChainParams::MAIN, const std::vector& extra_args = {}); ~ChainTestingSetup(); }; /** Testing setup that configures a complete environment. */ struct TestingSetup : public ChainTestingSetup { explicit TestingSetup(const std::string& chainName = CBaseChainParams::MAIN, const std::vector& extra_args = {}); }; /** Identical to TestingSetup, but chain set to regtest */ struct RegTestingSetup : public TestingSetup { RegTestingSetup() : TestingSetup{CBaseChainParams::REGTEST} {} }; class CBlock; struct CMutableTransaction; class CScript; /** * Testing fixture that pre-creates a 100-block REGTEST-mode block chain */ struct TestChain100Setup : public RegTestingSetup { TestChain100Setup(); /** * Create a new block with just given transactions, coinbase paying to * scriptPubKey, and try to add it to the current chain. */ CBlock CreateAndProcessBlock(const std::vector& txns, const CScript& scriptPubKey); ~TestChain100Setup(); std::vector m_coinbase_txns; // For convenience, coinbase transactions CKey coinbaseKey; // private/public key needed to spend coinbase transactions }; class CTxMemPoolEntry; struct TestMemPoolEntryHelper { // Default values CAmount nFee; int64_t nTime; unsigned int nHeight; bool spendsCoinbase; unsigned int sigOpCost; LockPoints lp; TestMemPoolEntryHelper() : nFee(0), nTime(0), nHeight(1), spendsCoinbase(false), sigOpCost(4) { } CTxMemPoolEntry FromTx(const CMutableTransaction& tx) const; CTxMemPoolEntry FromTx(const CTransactionRef& tx) const; // Change the default value TestMemPoolEntryHelper &Fee(CAmount _fee) { nFee = _fee; return *this; } TestMemPoolEntryHelper &Time(int64_t _time) { nTime = _time; return *this; } TestMemPoolEntryHelper &Height(unsigned int _height) { nHeight = _height; return *this; } TestMemPoolEntryHelper &SpendsCoinbase(bool _flag) { spendsCoinbase = _flag; return *this; } TestMemPoolEntryHelper &SigOpsCost(unsigned int _sigopsCost) { sigOpCost = _sigopsCost; return *this; } }; CBlock getBlock13b8a(); // define an implicit conversion here so that uint256 may be used directly in BOOST_CHECK_* std::ostream& operator<<(std::ostream& os, const uint256& num); /** * BOOST_CHECK_EXCEPTION predicates to check the specific validation error. * Use as * BOOST_CHECK_EXCEPTION(code that throws, exception type, HasReason("foo")); */ class HasReason { public: explicit HasReason(const std::string& reason) : m_reason(reason) {} bool operator()(const std::exception& e) const { return std::string(e.what()).find(m_reason) != std::string::npos; }; private: const std::string m_reason; }; #endif