// Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2020 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include #include #include #include #include #ifndef WIN32 #include #endif namespace { //! Make sure database has a unique fileid within the environment. If it //! doesn't, throw an error. BDB caches do not work properly when more than one //! open database has the same fileid (values written to one database may show //! up in reads to other databases). //! //! BerkeleyDB generates unique fileids by default //! (https://docs.oracle.com/cd/E17275_01/html/programmer_reference/program_copy.html), //! so bitcoin should never create different databases with the same fileid, but //! this error can be triggered if users manually copy database files. void CheckUniqueFileid(const BerkeleyEnvironment& env, const std::string& filename, Db& db, WalletDatabaseFileId& fileid) { if (env.IsMock()) return; int ret = db.get_mpf()->get_fileid(fileid.value); if (ret != 0) { throw std::runtime_error(strprintf("BerkeleyBatch: Can't open database %s (get_fileid failed with %d)", filename, ret)); } for (const auto& item : env.m_fileids) { if (fileid == item.second && &fileid != &item.second) { throw std::runtime_error(strprintf("BerkeleyBatch: Can't open database %s (duplicates fileid %s from %s)", filename, HexStr(std::begin(item.second.value), std::end(item.second.value)), item.first)); } } } RecursiveMutex cs_db; std::map> g_dbenvs GUARDED_BY(cs_db); //!< Map from directory name to db environment. } // namespace bool WalletDatabaseFileId::operator==(const WalletDatabaseFileId& rhs) const { return memcmp(value, &rhs.value, sizeof(value)) == 0; } bool IsBDBWalletLoaded(const fs::path& wallet_path) { fs::path env_directory; std::string database_filename; SplitWalletPath(wallet_path, env_directory, database_filename); LOCK(cs_db); auto env = g_dbenvs.find(env_directory.string()); if (env == g_dbenvs.end()) return false; auto database = env->second.lock(); return database && database->IsDatabaseLoaded(database_filename); } /** * @param[in] wallet_path Path to wallet directory. Or (for backwards compatibility only) a path to a berkeley btree data file inside a wallet directory. * @param[out] database_filename Filename of berkeley btree data file inside the wallet directory. * @return A shared pointer to the BerkeleyEnvironment object for the wallet directory, never empty because ~BerkeleyEnvironment * erases the weak pointer from the g_dbenvs map. * @post A new BerkeleyEnvironment weak pointer is inserted into g_dbenvs if the directory path key was not already in the map. */ std::shared_ptr GetWalletEnv(const fs::path& wallet_path, std::string& database_filename) { fs::path env_directory; SplitWalletPath(wallet_path, env_directory, database_filename); LOCK(cs_db); auto inserted = g_dbenvs.emplace(env_directory.string(), std::weak_ptr()); if (inserted.second) { auto env = std::make_shared(env_directory.string()); inserted.first->second = env; return env; } return inserted.first->second.lock(); } // // BerkeleyBatch // void BerkeleyEnvironment::Close() { if (!fDbEnvInit) return; fDbEnvInit = false; for (auto& db : m_databases) { auto count = mapFileUseCount.find(db.first); assert(count == mapFileUseCount.end() || count->second == 0); BerkeleyDatabase& database = db.second.get(); if (database.m_db) { database.m_db->close(0); database.m_db.reset(); } } FILE* error_file = nullptr; dbenv->get_errfile(&error_file); int ret = dbenv->close(0); if (ret != 0) LogPrintf("BerkeleyEnvironment::Close: Error %d closing database environment: %s\n", ret, DbEnv::strerror(ret)); if (!fMockDb) DbEnv((u_int32_t)0).remove(strPath.c_str(), 0); if (error_file) fclose(error_file); UnlockDirectory(strPath, ".walletlock"); } void BerkeleyEnvironment::Reset() { dbenv.reset(new DbEnv(DB_CXX_NO_EXCEPTIONS)); fDbEnvInit = false; fMockDb = false; } BerkeleyEnvironment::BerkeleyEnvironment(const fs::path& dir_path) : strPath(dir_path.string()) { Reset(); } BerkeleyEnvironment::~BerkeleyEnvironment() { LOCK(cs_db); g_dbenvs.erase(strPath); Close(); } bool BerkeleyEnvironment::Open(bool retry) { if (fDbEnvInit) { return true; } fs::path pathIn = strPath; TryCreateDirectories(pathIn); if (!LockDirectory(pathIn, ".walletlock")) { LogPrintf("Cannot obtain a lock on wallet directory %s. Another instance of bitcoin may be using it.\n", strPath); return false; } fs::path pathLogDir = pathIn / "database"; TryCreateDirectories(pathLogDir); fs::path pathErrorFile = pathIn / "db.log"; LogPrintf("BerkeleyEnvironment::Open: LogDir=%s ErrorFile=%s\n", pathLogDir.string(), pathErrorFile.string()); unsigned int nEnvFlags = 0; if (gArgs.GetBoolArg("-privdb", DEFAULT_WALLET_PRIVDB)) nEnvFlags |= DB_PRIVATE; dbenv->set_lg_dir(pathLogDir.string().c_str()); dbenv->set_cachesize(0, 0x100000, 1); // 1 MiB should be enough for just the wallet dbenv->set_lg_bsize(0x10000); dbenv->set_lg_max(1048576); dbenv->set_lk_max_locks(40000); dbenv->set_lk_max_objects(40000); dbenv->set_errfile(fsbridge::fopen(pathErrorFile, "a")); /// debug dbenv->set_flags(DB_AUTO_COMMIT, 1); dbenv->set_flags(DB_TXN_WRITE_NOSYNC, 1); dbenv->log_set_config(DB_LOG_AUTO_REMOVE, 1); int ret = dbenv->open(strPath.c_str(), DB_CREATE | DB_INIT_LOCK | DB_INIT_LOG | DB_INIT_MPOOL | DB_INIT_TXN | DB_THREAD | DB_RECOVER | nEnvFlags, S_IRUSR | S_IWUSR); if (ret != 0) { LogPrintf("BerkeleyEnvironment::Open: Error %d opening database environment: %s\n", ret, DbEnv::strerror(ret)); int ret2 = dbenv->close(0); if (ret2 != 0) { LogPrintf("BerkeleyEnvironment::Open: Error %d closing failed database environment: %s\n", ret2, DbEnv::strerror(ret2)); } Reset(); if (retry) { // try moving the database env out of the way fs::path pathDatabaseBak = pathIn / strprintf("database.%d.bak", GetTime()); try { fs::rename(pathLogDir, pathDatabaseBak); LogPrintf("Moved old %s to %s. Retrying.\n", pathLogDir.string(), pathDatabaseBak.string()); } catch (const fs::filesystem_error&) { // failure is ok (well, not really, but it's not worse than what we started with) } // try opening it again one more time if (!Open(false /* retry */)) { // if it still fails, it probably means we can't even create the database env return false; } } else { return false; } } fDbEnvInit = true; fMockDb = false; return true; } //! Construct an in-memory mock Berkeley environment for testing BerkeleyEnvironment::BerkeleyEnvironment() { Reset(); LogPrint(BCLog::WALLETDB, "BerkeleyEnvironment::MakeMock\n"); dbenv->set_cachesize(1, 0, 1); dbenv->set_lg_bsize(10485760 * 4); dbenv->set_lg_max(10485760); dbenv->set_lk_max_locks(10000); dbenv->set_lk_max_objects(10000); dbenv->set_flags(DB_AUTO_COMMIT, 1); dbenv->log_set_config(DB_LOG_IN_MEMORY, 1); int ret = dbenv->open(nullptr, DB_CREATE | DB_INIT_LOCK | DB_INIT_LOG | DB_INIT_MPOOL | DB_INIT_TXN | DB_THREAD | DB_PRIVATE, S_IRUSR | S_IWUSR); if (ret > 0) { throw std::runtime_error(strprintf("BerkeleyEnvironment::MakeMock: Error %d opening database environment.", ret)); } fDbEnvInit = true; fMockDb = true; } bool BerkeleyEnvironment::Verify(const std::string& strFile) { LOCK(cs_db); assert(mapFileUseCount.count(strFile) == 0); Db db(dbenv.get(), 0); int result = db.verify(strFile.c_str(), nullptr, nullptr, 0); return result == 0; } BerkeleyBatch::SafeDbt::SafeDbt() { m_dbt.set_flags(DB_DBT_MALLOC); } BerkeleyBatch::SafeDbt::SafeDbt(void* data, size_t size) : m_dbt(data, size) { } BerkeleyBatch::SafeDbt::~SafeDbt() { if (m_dbt.get_data() != nullptr) { // Clear memory, e.g. in case it was a private key memory_cleanse(m_dbt.get_data(), m_dbt.get_size()); // under DB_DBT_MALLOC, data is malloced by the Dbt, but must be // freed by the caller. // https://docs.oracle.com/cd/E17275_01/html/api_reference/C/dbt.html if (m_dbt.get_flags() & DB_DBT_MALLOC) { free(m_dbt.get_data()); } } } const void* BerkeleyBatch::SafeDbt::get_data() const { return m_dbt.get_data(); } u_int32_t BerkeleyBatch::SafeDbt::get_size() const { return m_dbt.get_size(); } BerkeleyBatch::SafeDbt::operator Dbt*() { return &m_dbt; } bool BerkeleyBatch::VerifyEnvironment(const fs::path& file_path, bilingual_str& errorStr) { std::string walletFile; std::shared_ptr env = GetWalletEnv(file_path, walletFile); fs::path walletDir = env->Directory(); LogPrintf("Using BerkeleyDB version %s\n", BerkeleyDatabaseVersion()); LogPrintf("Using wallet %s\n", file_path.string()); if (!env->Open(true /* retry */)) { errorStr = strprintf(_("Error initializing wallet database environment %s!"), walletDir); return false; } return true; } bool BerkeleyBatch::VerifyDatabaseFile(const fs::path& file_path, bilingual_str& errorStr) { std::string walletFile; std::shared_ptr env = GetWalletEnv(file_path, walletFile); fs::path walletDir = env->Directory(); if (fs::exists(walletDir / walletFile)) { if (!env->Verify(walletFile)) { errorStr = strprintf(_("%s corrupt. Try using the wallet tool bitcoin-wallet to salvage or restoring a backup."), walletFile); return false; } } // also return true if files does not exists return true; } void BerkeleyEnvironment::CheckpointLSN(const std::string& strFile) { dbenv->txn_checkpoint(0, 0, 0); if (fMockDb) return; dbenv->lsn_reset(strFile.c_str(), 0); } BerkeleyBatch::BerkeleyBatch(BerkeleyDatabase& database, const char* pszMode, bool fFlushOnCloseIn) : pdb(nullptr), activeTxn(nullptr), m_cursor(nullptr) { fReadOnly = (!strchr(pszMode, '+') && !strchr(pszMode, 'w')); fFlushOnClose = fFlushOnCloseIn; env = database.env.get(); if (database.IsDummy()) { return; } const std::string &strFilename = database.strFile; bool fCreate = strchr(pszMode, 'c') != nullptr; unsigned int nFlags = DB_THREAD; if (fCreate) nFlags |= DB_CREATE; { LOCK(cs_db); if (!env->Open(false /* retry */)) throw std::runtime_error("BerkeleyBatch: Failed to open database environment."); pdb = database.m_db.get(); if (pdb == nullptr) { int ret; std::unique_ptr pdb_temp = MakeUnique(env->dbenv.get(), 0); bool fMockDb = env->IsMock(); if (fMockDb) { DbMpoolFile* mpf = pdb_temp->get_mpf(); ret = mpf->set_flags(DB_MPOOL_NOFILE, 1); if (ret != 0) { throw std::runtime_error(strprintf("BerkeleyBatch: Failed to configure for no temp file backing for database %s", strFilename)); } } ret = pdb_temp->open(nullptr, // Txn pointer fMockDb ? nullptr : strFilename.c_str(), // Filename fMockDb ? strFilename.c_str() : "main", // Logical db name DB_BTREE, // Database type nFlags, // Flags 0); if (ret != 0) { throw std::runtime_error(strprintf("BerkeleyBatch: Error %d, can't open database %s", ret, strFilename)); } // Call CheckUniqueFileid on the containing BDB environment to // avoid BDB data consistency bugs that happen when different data // files in the same environment have the same fileid. // // Also call CheckUniqueFileid on all the other g_dbenvs to prevent // bitcoin from opening the same data file through another // environment when the file is referenced through equivalent but // not obviously identical symlinked or hard linked or bind mounted // paths. In the future a more relaxed check for equal inode and // device ids could be done instead, which would allow opening // different backup copies of a wallet at the same time. Maybe even // more ideally, an exclusive lock for accessing the database could // be implemented, so no equality checks are needed at all. (Newer // versions of BDB have an set_lk_exclusive method for this // purpose, but the older version we use does not.) for (const auto& env : g_dbenvs) { CheckUniqueFileid(*env.second.lock().get(), strFilename, *pdb_temp, this->env->m_fileids[strFilename]); } pdb = pdb_temp.release(); database.m_db.reset(pdb); if (fCreate && !Exists(std::string("version"))) { bool fTmp = fReadOnly; fReadOnly = false; Write(std::string("version"), CLIENT_VERSION); fReadOnly = fTmp; } } ++env->mapFileUseCount[strFilename]; strFile = strFilename; } } void BerkeleyBatch::Flush() { if (activeTxn) return; // Flush database activity from memory pool to disk log unsigned int nMinutes = 0; if (fReadOnly) nMinutes = 1; if (env) { // env is nullptr for dummy databases (i.e. in tests). Don't actually flush if env is nullptr so we don't segfault env->dbenv->txn_checkpoint(nMinutes ? gArgs.GetArg("-dblogsize", DEFAULT_WALLET_DBLOGSIZE) * 1024 : 0, nMinutes, 0); } } void BerkeleyDatabase::IncrementUpdateCounter() { ++nUpdateCounter; } void BerkeleyBatch::Close() { if (!pdb) return; if (activeTxn) activeTxn->abort(); activeTxn = nullptr; pdb = nullptr; CloseCursor(); if (fFlushOnClose) Flush(); { LOCK(cs_db); --env->mapFileUseCount[strFile]; } env->m_db_in_use.notify_all(); } void BerkeleyEnvironment::CloseDb(const std::string& strFile) { { LOCK(cs_db); auto it = m_databases.find(strFile); assert(it != m_databases.end()); BerkeleyDatabase& database = it->second.get(); if (database.m_db) { // Close the database handle database.m_db->close(0); database.m_db.reset(); } } } void BerkeleyEnvironment::ReloadDbEnv() { // Make sure that no Db's are in use AssertLockNotHeld(cs_db); std::unique_lock lock(cs_db); m_db_in_use.wait(lock, [this](){ for (auto& count : mapFileUseCount) { if (count.second > 0) return false; } return true; }); std::vector filenames; for (auto it : m_databases) { filenames.push_back(it.first); } // Close the individual Db's for (const std::string& filename : filenames) { CloseDb(filename); } // Reset the environment Flush(true); // This will flush and close the environment Reset(); Open(true); } bool BerkeleyBatch::Rewrite(BerkeleyDatabase& database, const char* pszSkip) { if (database.IsDummy()) { return true; } BerkeleyEnvironment *env = database.env.get(); const std::string& strFile = database.strFile; while (true) { { LOCK(cs_db); if (!env->mapFileUseCount.count(strFile) || env->mapFileUseCount[strFile] == 0) { // Flush log data to the dat file env->CloseDb(strFile); env->CheckpointLSN(strFile); env->mapFileUseCount.erase(strFile); bool fSuccess = true; LogPrintf("BerkeleyBatch::Rewrite: Rewriting %s...\n", strFile); std::string strFileRes = strFile + ".rewrite"; { // surround usage of db with extra {} BerkeleyBatch db(database, "r"); std::unique_ptr pdbCopy = MakeUnique(env->dbenv.get(), 0); int ret = pdbCopy->open(nullptr, // Txn pointer strFileRes.c_str(), // Filename "main", // Logical db name DB_BTREE, // Database type DB_CREATE, // Flags 0); if (ret > 0) { LogPrintf("BerkeleyBatch::Rewrite: Can't create database file %s\n", strFileRes); fSuccess = false; } if (db.StartCursor()) { while (fSuccess) { CDataStream ssKey(SER_DISK, CLIENT_VERSION); CDataStream ssValue(SER_DISK, CLIENT_VERSION); bool complete; bool ret1 = db.ReadAtCursor(ssKey, ssValue, complete); if (complete) { break; } else if (!ret1) { fSuccess = false; break; } if (pszSkip && strncmp(ssKey.data(), pszSkip, std::min(ssKey.size(), strlen(pszSkip))) == 0) continue; if (strncmp(ssKey.data(), "\x07version", 8) == 0) { // Update version: ssValue.clear(); ssValue << CLIENT_VERSION; } Dbt datKey(ssKey.data(), ssKey.size()); Dbt datValue(ssValue.data(), ssValue.size()); int ret2 = pdbCopy->put(nullptr, &datKey, &datValue, DB_NOOVERWRITE); if (ret2 > 0) fSuccess = false; } db.CloseCursor(); } if (fSuccess) { db.Close(); env->CloseDb(strFile); if (pdbCopy->close(0)) fSuccess = false; } else { pdbCopy->close(0); } } if (fSuccess) { Db dbA(env->dbenv.get(), 0); if (dbA.remove(strFile.c_str(), nullptr, 0)) fSuccess = false; Db dbB(env->dbenv.get(), 0); if (dbB.rename(strFileRes.c_str(), nullptr, strFile.c_str(), 0)) fSuccess = false; } if (!fSuccess) LogPrintf("BerkeleyBatch::Rewrite: Failed to rewrite database file %s\n", strFileRes); return fSuccess; } } UninterruptibleSleep(std::chrono::milliseconds{100}); } } void BerkeleyEnvironment::Flush(bool fShutdown) { int64_t nStart = GetTimeMillis(); // Flush log data to the actual data file on all files that are not in use LogPrint(BCLog::WALLETDB, "BerkeleyEnvironment::Flush: [%s] Flush(%s)%s\n", strPath, fShutdown ? "true" : "false", fDbEnvInit ? "" : " database not started"); if (!fDbEnvInit) return; { LOCK(cs_db); std::map::iterator mi = mapFileUseCount.begin(); while (mi != mapFileUseCount.end()) { std::string strFile = (*mi).first; int nRefCount = (*mi).second; LogPrint(BCLog::WALLETDB, "BerkeleyEnvironment::Flush: Flushing %s (refcount = %d)...\n", strFile, nRefCount); if (nRefCount == 0) { // Move log data to the dat file CloseDb(strFile); LogPrint(BCLog::WALLETDB, "BerkeleyEnvironment::Flush: %s checkpoint\n", strFile); dbenv->txn_checkpoint(0, 0, 0); LogPrint(BCLog::WALLETDB, "BerkeleyEnvironment::Flush: %s detach\n", strFile); if (!fMockDb) dbenv->lsn_reset(strFile.c_str(), 0); LogPrint(BCLog::WALLETDB, "BerkeleyEnvironment::Flush: %s closed\n", strFile); mapFileUseCount.erase(mi++); } else mi++; } LogPrint(BCLog::WALLETDB, "BerkeleyEnvironment::Flush: Flush(%s)%s took %15dms\n", fShutdown ? "true" : "false", fDbEnvInit ? "" : " database not started", GetTimeMillis() - nStart); if (fShutdown) { char** listp; if (mapFileUseCount.empty()) { dbenv->log_archive(&listp, DB_ARCH_REMOVE); Close(); if (!fMockDb) { fs::remove_all(fs::path(strPath) / "database"); } } } } } bool BerkeleyBatch::PeriodicFlush(BerkeleyDatabase& database) { if (database.IsDummy()) { return true; } bool ret = false; BerkeleyEnvironment *env = database.env.get(); const std::string& strFile = database.strFile; TRY_LOCK(cs_db, lockDb); if (lockDb) { // Don't do this if any databases are in use int nRefCount = 0; std::map::iterator mit = env->mapFileUseCount.begin(); while (mit != env->mapFileUseCount.end()) { nRefCount += (*mit).second; mit++; } if (nRefCount == 0) { std::map::iterator mi = env->mapFileUseCount.find(strFile); if (mi != env->mapFileUseCount.end()) { LogPrint(BCLog::WALLETDB, "Flushing %s\n", strFile); int64_t nStart = GetTimeMillis(); // Flush wallet file so it's self contained env->CloseDb(strFile); env->CheckpointLSN(strFile); env->mapFileUseCount.erase(mi++); LogPrint(BCLog::WALLETDB, "Flushed %s %dms\n", strFile, GetTimeMillis() - nStart); ret = true; } } } return ret; } bool BerkeleyDatabase::Rewrite(const char* pszSkip) { return BerkeleyBatch::Rewrite(*this, pszSkip); } bool BerkeleyDatabase::Backup(const std::string& strDest) const { if (IsDummy()) { return false; } while (true) { { LOCK(cs_db); if (!env->mapFileUseCount.count(strFile) || env->mapFileUseCount[strFile] == 0) { // Flush log data to the dat file env->CloseDb(strFile); env->CheckpointLSN(strFile); env->mapFileUseCount.erase(strFile); // Copy wallet file fs::path pathSrc = env->Directory() / strFile; fs::path pathDest(strDest); if (fs::is_directory(pathDest)) pathDest /= strFile; try { if (fs::equivalent(pathSrc, pathDest)) { LogPrintf("cannot backup to wallet source file %s\n", pathDest.string()); return false; } fs::copy_file(pathSrc, pathDest, fs::copy_option::overwrite_if_exists); LogPrintf("copied %s to %s\n", strFile, pathDest.string()); return true; } catch (const fs::filesystem_error& e) { LogPrintf("error copying %s to %s - %s\n", strFile, pathDest.string(), fsbridge::get_filesystem_error_message(e)); return false; } } } UninterruptibleSleep(std::chrono::milliseconds{100}); } } void BerkeleyDatabase::Flush(bool shutdown) { if (!IsDummy()) { env->Flush(shutdown); if (shutdown) { LOCK(cs_db); g_dbenvs.erase(env->Directory().string()); env = nullptr; } else { // TODO: To avoid g_dbenvs.erase erasing the environment prematurely after the // first database shutdown when multiple databases are open in the same // environment, should replace raw database `env` pointers with shared or weak // pointers, or else separate the database and environment shutdowns so // environments can be shut down after databases. env->m_fileids.erase(strFile); } } } void BerkeleyDatabase::ReloadDbEnv() { if (!IsDummy()) { env->ReloadDbEnv(); } } bool BerkeleyBatch::StartCursor() { assert(!m_cursor); if (!pdb) return false; int ret = pdb->cursor(nullptr, &m_cursor, 0); return ret == 0; } bool BerkeleyBatch::ReadAtCursor(CDataStream& ssKey, CDataStream& ssValue, bool& complete) { complete = false; if (m_cursor == nullptr) return false; // Read at cursor SafeDbt datKey; SafeDbt datValue; int ret = m_cursor->get(datKey, datValue, DB_NEXT); if (ret == DB_NOTFOUND) { complete = true; } if (ret != 0) return false; else if (datKey.get_data() == nullptr || datValue.get_data() == nullptr) return false; // Convert to streams ssKey.SetType(SER_DISK); ssKey.clear(); ssKey.write((char*)datKey.get_data(), datKey.get_size()); ssValue.SetType(SER_DISK); ssValue.clear(); ssValue.write((char*)datValue.get_data(), datValue.get_size()); return true; } void BerkeleyBatch::CloseCursor() { if (!m_cursor) return; m_cursor->close(); m_cursor = nullptr; } bool BerkeleyBatch::TxnBegin() { if (!pdb || activeTxn) return false; DbTxn* ptxn = env->TxnBegin(); if (!ptxn) return false; activeTxn = ptxn; return true; } bool BerkeleyBatch::TxnCommit() { if (!pdb || !activeTxn) return false; int ret = activeTxn->commit(0); activeTxn = nullptr; return (ret == 0); } bool BerkeleyBatch::TxnAbort() { if (!pdb || !activeTxn) return false; int ret = activeTxn->abort(); activeTxn = nullptr; return (ret == 0); } std::string BerkeleyDatabaseVersion() { return DbEnv::version(nullptr, nullptr, nullptr); } bool BerkeleyBatch::ReadKey(CDataStream& key, CDataStream& value) { if (!pdb) return false; // Key SafeDbt datKey(key.data(), key.size()); // Read SafeDbt datValue; int ret = pdb->get(activeTxn, datKey, datValue, 0); if (ret == 0 && datValue.get_data() != nullptr) { value.write((char*)datValue.get_data(), datValue.get_size()); return true; } return false; } bool BerkeleyBatch::WriteKey(CDataStream& key, CDataStream& value, bool overwrite) { if (!pdb) return true; if (fReadOnly) assert(!"Write called on database in read-only mode"); // Key SafeDbt datKey(key.data(), key.size()); // Value SafeDbt datValue(value.data(), value.size()); // Write int ret = pdb->put(activeTxn, datKey, datValue, (overwrite ? 0 : DB_NOOVERWRITE)); return (ret == 0); } bool BerkeleyBatch::EraseKey(CDataStream& key) { if (!pdb) return false; if (fReadOnly) assert(!"Erase called on database in read-only mode"); // Key SafeDbt datKey(key.data(), key.size()); // Erase int ret = pdb->del(activeTxn, datKey, 0); return (ret == 0 || ret == DB_NOTFOUND); } bool BerkeleyBatch::HasKey(CDataStream& key) { if (!pdb) return false; // Key SafeDbt datKey(key.data(), key.size()); // Exists int ret = pdb->exists(activeTxn, datKey, 0); return ret == 0; }