// Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2021 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_WALLET_DB_H #define BITCOIN_WALLET_DB_H #include #include #include #include #include #include #include #include class ArgsManager; struct bilingual_str; namespace wallet { // BytePrefix compares equality with other byte spans that begin with the same prefix. struct BytePrefix { Span prefix; }; bool operator<(BytePrefix a, Span b); bool operator<(Span a, BytePrefix b); class DatabaseCursor { public: explicit DatabaseCursor() {} virtual ~DatabaseCursor() {} DatabaseCursor(const DatabaseCursor&) = delete; DatabaseCursor& operator=(const DatabaseCursor&) = delete; enum class Status { FAIL, MORE, DONE, }; virtual Status Next(DataStream& key, DataStream& value) { return Status::FAIL; } }; /** RAII class that provides access to a WalletDatabase */ class DatabaseBatch { private: virtual bool ReadKey(DataStream&& key, DataStream& value) = 0; virtual bool WriteKey(DataStream&& key, DataStream&& value, bool overwrite = true) = 0; virtual bool EraseKey(DataStream&& key) = 0; virtual bool HasKey(DataStream&& key) = 0; public: explicit DatabaseBatch() {} virtual ~DatabaseBatch() {} DatabaseBatch(const DatabaseBatch&) = delete; DatabaseBatch& operator=(const DatabaseBatch&) = delete; virtual void Flush() = 0; virtual void Close() = 0; template bool Read(const K& key, T& value) { DataStream ssKey{}; ssKey.reserve(1000); ssKey << key; DataStream ssValue{}; if (!ReadKey(std::move(ssKey), ssValue)) return false; try { ssValue >> value; return true; } catch (const std::exception&) { return false; } } template bool Write(const K& key, const T& value, bool fOverwrite = true) { DataStream ssKey{}; ssKey.reserve(1000); ssKey << key; DataStream ssValue{}; ssValue.reserve(10000); ssValue << value; return WriteKey(std::move(ssKey), std::move(ssValue), fOverwrite); } template bool Erase(const K& key) { DataStream ssKey{}; ssKey.reserve(1000); ssKey << key; return EraseKey(std::move(ssKey)); } template bool Exists(const K& key) { DataStream ssKey{}; ssKey.reserve(1000); ssKey << key; return HasKey(std::move(ssKey)); } virtual bool ErasePrefix(Span prefix) = 0; virtual std::unique_ptr GetNewCursor() = 0; virtual std::unique_ptr GetNewPrefixCursor(Span prefix) = 0; virtual bool TxnBegin() = 0; virtual bool TxnCommit() = 0; virtual bool TxnAbort() = 0; }; /** An instance of this class represents one database. **/ class WalletDatabase { public: /** Create dummy DB handle */ WalletDatabase() : nUpdateCounter(0) {} virtual ~WalletDatabase() {}; /** Open the database if it is not already opened. */ virtual void Open() = 0; //! Counts the number of active database users to be sure that the database is not closed while someone is using it std::atomic m_refcount{0}; /** Indicate the a new database user has began using the database. Increments m_refcount */ virtual void AddRef() = 0; /** Indicate that database user has stopped using the database and that it could be flushed or closed. Decrement m_refcount */ virtual void RemoveRef() = 0; /** Rewrite the entire database on disk, with the exception of key pszSkip if non-zero */ virtual bool Rewrite(const char* pszSkip=nullptr) = 0; /** Back up the entire database to a file. */ virtual bool Backup(const std::string& strDest) const = 0; /** Make sure all changes are flushed to database file. */ virtual void Flush() = 0; /** Flush to the database file and close the database. * Also close the environment if no other databases are open in it. */ virtual void Close() = 0; /* flush the wallet passively (TRY_LOCK) ideal to be called periodically */ virtual bool PeriodicFlush() = 0; virtual void IncrementUpdateCounter() = 0; virtual void ReloadDbEnv() = 0; /** Return path to main database file for logs and error messages. */ virtual std::string Filename() = 0; virtual std::string Format() = 0; std::atomic nUpdateCounter; unsigned int nLastSeen{0}; unsigned int nLastFlushed{0}; int64_t nLastWalletUpdate{0}; /** Make a DatabaseBatch connected to this database */ virtual std::unique_ptr MakeBatch(bool flush_on_close = true) = 0; }; enum class DatabaseFormat { BERKELEY, SQLITE, BERKELEY_RO, BERKELEY_SWAP, }; struct DatabaseOptions { bool require_existing = false; bool require_create = false; std::optional require_format; uint64_t create_flags = 0; SecureString create_passphrase; // Specialized options. Not every option is supported by every backend. bool verify = true; //!< Check data integrity on load. bool use_unsafe_sync = false; //!< Disable file sync for faster performance. bool use_shared_memory = false; //!< Let other processes access the database. int64_t max_log_mb = 100; //!< Max log size to allow before consolidating. }; enum class DatabaseStatus { SUCCESS, FAILED_BAD_PATH, FAILED_BAD_FORMAT, FAILED_ALREADY_LOADED, FAILED_ALREADY_EXISTS, FAILED_NOT_FOUND, FAILED_CREATE, FAILED_LOAD, FAILED_VERIFY, FAILED_ENCRYPT, FAILED_INVALID_BACKUP_FILE, }; /** Recursively list database paths in directory. */ std::vector ListDatabases(const fs::path& path); void ReadDatabaseArgs(const ArgsManager& args, DatabaseOptions& options); std::unique_ptr MakeDatabase(const fs::path& path, const DatabaseOptions& options, DatabaseStatus& status, bilingual_str& error); fs::path BDBDataFile(const fs::path& path); fs::path SQLiteDataFile(const fs::path& path); bool IsBDBFile(const fs::path& path); bool IsSQLiteFile(const fs::path& path); } // namespace wallet #endif // BITCOIN_WALLET_DB_H