de05c9ecbb
There was a previous assumption that blockindex would be quite small. With addressindex and spentindex enabled the blockindex is much larger and the amount of cache allocated for it should also increase. Furthermore, enabling compression should decrease the amount of disk space required and less data to write/read. The default leveldb max_open_files is set to 1000, for the blockindex the default is set to 1000 with compression. The 64 value that is current is kept for the utxo database and does not enable compression. Two additional options are added here to be able to configure the values for leveldb and the block index: - `-dbmaxopenfiles` A number of files for leveldb to keep open - `-dbcompression` Boolean 0 or 1 to enable snappy leveldb compression
153 lines
5.0 KiB
C++
153 lines
5.0 KiB
C++
// Copyright (c) 2012-2015 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#include "dbwrapper.h"
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#include "util.h"
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#include "random.h"
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#include <boost/filesystem.hpp>
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#include <leveldb/cache.h>
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#include <leveldb/env.h>
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#include <leveldb/filter_policy.h>
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#include <memenv.h>
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#include <stdint.h>
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void HandleError(const leveldb::Status& status) throw(dbwrapper_error)
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{
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if (status.ok())
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return;
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LogPrintf("%s\n", status.ToString());
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if (status.IsCorruption())
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throw dbwrapper_error("Database corrupted");
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if (status.IsIOError())
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throw dbwrapper_error("Database I/O error");
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if (status.IsNotFound())
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throw dbwrapper_error("Database entry missing");
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throw dbwrapper_error("Unknown database error");
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}
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static leveldb::Options GetOptions(size_t nCacheSize, bool compression, int maxOpenFiles)
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{
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leveldb::Options options;
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options.block_cache = leveldb::NewLRUCache(nCacheSize / 2);
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options.write_buffer_size = nCacheSize / 4; // up to two write buffers may be held in memory simultaneously
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options.filter_policy = leveldb::NewBloomFilterPolicy(10);
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options.compression = compression ? leveldb::kSnappyCompression : leveldb::kNoCompression;
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options.max_open_files = maxOpenFiles;
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if (leveldb::kMajorVersion > 1 || (leveldb::kMajorVersion == 1 && leveldb::kMinorVersion >= 16)) {
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// LevelDB versions before 1.16 consider short writes to be corruption. Only trigger error
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// on corruption in later versions.
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options.paranoid_checks = true;
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}
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return options;
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}
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CDBWrapper::CDBWrapper(const boost::filesystem::path& path, size_t nCacheSize, bool fMemory, bool fWipe, bool obfuscate, bool compression, int maxOpenFiles)
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{
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penv = NULL;
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readoptions.verify_checksums = true;
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iteroptions.verify_checksums = true;
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iteroptions.fill_cache = false;
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syncoptions.sync = true;
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options = GetOptions(nCacheSize, compression, maxOpenFiles);
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options.create_if_missing = true;
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if (fMemory) {
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penv = leveldb::NewMemEnv(leveldb::Env::Default());
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options.env = penv;
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} else {
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if (fWipe) {
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LogPrintf("Wiping LevelDB in %s\n", path.string());
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leveldb::Status result = leveldb::DestroyDB(path.string(), options);
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HandleError(result);
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}
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TryCreateDirectory(path);
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LogPrintf("Opening LevelDB in %s\n", path.string());
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}
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leveldb::Status status = leveldb::DB::Open(options, path.string(), &pdb);
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HandleError(status);
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LogPrintf("Opened LevelDB successfully\n");
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// The base-case obfuscation key, which is a noop.
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obfuscate_key = std::vector<unsigned char>(OBFUSCATE_KEY_NUM_BYTES, '\000');
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bool key_exists = Read(OBFUSCATE_KEY_KEY, obfuscate_key);
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if (!key_exists && obfuscate && IsEmpty()) {
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// Initialize non-degenerate obfuscation if it won't upset
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// existing, non-obfuscated data.
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std::vector<unsigned char> new_key = CreateObfuscateKey();
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// Write `new_key` so we don't obfuscate the key with itself
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Write(OBFUSCATE_KEY_KEY, new_key);
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obfuscate_key = new_key;
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LogPrintf("Wrote new obfuscate key for %s: %s\n", path.string(), GetObfuscateKeyHex());
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}
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LogPrintf("Using obfuscation key for %s: %s\n", path.string(), GetObfuscateKeyHex());
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}
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CDBWrapper::~CDBWrapper()
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{
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delete pdb;
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pdb = NULL;
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delete options.filter_policy;
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options.filter_policy = NULL;
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delete options.block_cache;
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options.block_cache = NULL;
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delete penv;
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options.env = NULL;
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}
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bool CDBWrapper::WriteBatch(CDBBatch& batch, bool fSync) throw(dbwrapper_error)
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{
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leveldb::Status status = pdb->Write(fSync ? syncoptions : writeoptions, &batch.batch);
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HandleError(status);
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return true;
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}
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// Prefixed with null character to avoid collisions with other keys
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//
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// We must use a string constructor which specifies length so that we copy
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// past the null-terminator.
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const std::string CDBWrapper::OBFUSCATE_KEY_KEY("\000obfuscate_key", 14);
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const unsigned int CDBWrapper::OBFUSCATE_KEY_NUM_BYTES = 8;
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/**
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* Returns a string (consisting of 8 random bytes) suitable for use as an
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* obfuscating XOR key.
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*/
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std::vector<unsigned char> CDBWrapper::CreateObfuscateKey() const
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{
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unsigned char buff[OBFUSCATE_KEY_NUM_BYTES];
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GetRandBytes(buff, OBFUSCATE_KEY_NUM_BYTES);
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return std::vector<unsigned char>(&buff[0], &buff[OBFUSCATE_KEY_NUM_BYTES]);
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}
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bool CDBWrapper::IsEmpty()
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{
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boost::scoped_ptr<CDBIterator> it(NewIterator());
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it->SeekToFirst();
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return !(it->Valid());
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}
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const std::vector<unsigned char>& CDBWrapper::GetObfuscateKey() const
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{
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return obfuscate_key;
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}
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std::string CDBWrapper::GetObfuscateKeyHex() const
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{
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return HexStr(obfuscate_key);
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}
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CDBIterator::~CDBIterator() { delete piter; }
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bool CDBIterator::Valid() { return piter->Valid(); }
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void CDBIterator::SeekToFirst() { piter->SeekToFirst(); }
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void CDBIterator::Next() { piter->Next(); }
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