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rocksdb/include/leveldb/db.h

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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. See the AUTHORS file for names of contributors.
#ifndef STORAGE_LEVELDB_INCLUDE_DB_H_
#define STORAGE_LEVELDB_INCLUDE_DB_H_
#include <stdint.h>
#include <stdio.h>
#include <memory>
#include <vector>
#include "leveldb/iterator.h"
#include "leveldb/options.h"
#include "leveldb/types.h"
#include "leveldb/transaction_log_iterator.h"
namespace leveldb {
using std::unique_ptr;
// Update Makefile if you change these
static const int kMajorVersion = 2;
static const int kMinorVersion = 0;
struct Options;
struct ReadOptions;
struct WriteOptions;
struct FlushOptions;
class WriteBatch;
// Abstract handle to particular state of a DB.
// A Snapshot is an immutable object and can therefore be safely
// accessed from multiple threads without any external synchronization.
class Snapshot {
protected:
virtual ~Snapshot();
};
// A range of keys
struct Range {
Slice start; // Included in the range
Slice limit; // Not included in the range
Range() { }
Range(const Slice& s, const Slice& l) : start(s), limit(l) { }
};
// A DB is a persistent ordered map from keys to values.
// A DB is safe for concurrent access from multiple threads without
// any external synchronization.
class DB {
public:
// Open the database with the specified "name".
// Stores a pointer to a heap-allocated database in *dbptr and returns
// OK on success.
// Stores nullptr in *dbptr and returns a non-OK status on error.
// Caller should delete *dbptr when it is no longer needed.
static Status Open(const Options& options,
const std::string& name,
DB** dbptr);
// Open the database for read only. All DB interfaces
// that modify data, like put/delete, will return error.
// If the db is opened in read only mode, then no compactions
// will happen.
static Status OpenForReadOnly(const Options& options,
const std::string& name, DB** dbptr,
bool error_if_log_file_exist = false);
DB() { }
virtual ~DB();
// Set the database entry for "key" to "value". Returns OK on success,
// and a non-OK status on error.
// Note: consider setting options.sync = true.
virtual Status Put(const WriteOptions& options,
const Slice& key,
const Slice& value) = 0;
// Remove the database entry (if any) for "key". Returns OK on
// success, and a non-OK status on error. It is not an error if "key"
// did not exist in the database.
// Note: consider setting options.sync = true.
virtual Status Delete(const WriteOptions& options, const Slice& key) = 0;
// Merge the database entry for "key" with "value". Returns OK on success,
// and a non-OK status on error. The semantics of this operation is
// determined by the user provided merge_operator when opening DB.
// Note: consider setting options.sync = true.
virtual Status Merge(const WriteOptions& options,
const Slice& key,
const Slice& value) = 0;
// Apply the specified updates to the database.
// Returns OK on success, non-OK on failure.
// Note: consider setting options.sync = true.
virtual Status Write(const WriteOptions& options, WriteBatch* updates) = 0;
// If the database contains an entry for "key" store the
// corresponding value in *value and return OK.
//
// If there is no entry for "key" leave *value unchanged and return
// a status for which Status::IsNotFound() returns true.
//
// May return some other Status on an error.
virtual Status Get(const ReadOptions& options,
const Slice& key, std::string* value) = 0;
// If keys[i] does not exist in the database, then the i'th returned
// status will be one for which Status::IsNotFound() is true, and
// (*values)[i] will be set to some arbitrary value (often ""). Otherwise,
// the i'th returned status will have Status::ok() true, and (*values)[i]
// will store the value associated with keys[i].
//
// (*values) will always be resized to be the same size as (keys).
// Similarly, the number of returned statuses will be the number of keys.
// Note: keys will not be "de-duplicated". Duplicate keys will return
// duplicate values in order.
virtual std::vector<Status> MultiGet(const ReadOptions& options,
const std::vector<Slice>& keys,
std::vector<std::string>* values) = 0;
// If the key definitely does not exist in the database, then this method
// returns false. Otherwise return true. This check is potentially
// lighter-weight than invoking DB::Get(). No IO is performed
virtual bool KeyMayExist(const Slice& key) = 0;
// Return a heap-allocated iterator over the contents of the database.
// The result of NewIterator() is initially invalid (caller must
// call one of the Seek methods on the iterator before using it).
//
// Caller should delete the iterator when it is no longer needed.
// The returned iterator should be deleted before this db is deleted.
virtual Iterator* NewIterator(const ReadOptions& options) = 0;
// Return a handle to the current DB state. Iterators created with
// this handle will all observe a stable snapshot of the current DB
// state. The caller must call ReleaseSnapshot(result) when the
// snapshot is no longer needed.
virtual const Snapshot* GetSnapshot() = 0;
// Release a previously acquired snapshot. The caller must not
// use "snapshot" after this call.
virtual void ReleaseSnapshot(const Snapshot* snapshot) = 0;
// DB implementations can export properties about their state
// via this method. If "property" is a valid property understood by this
// DB implementation, fills "*value" with its current value and returns
// true. Otherwise returns false.
//
//
// Valid property names include:
//
// "leveldb.num-files-at-level<N>" - return the number of files at level <N>,
// where <N> is an ASCII representation of a level number (e.g. "0").
// "leveldb.stats" - returns a multi-line string that describes statistics
// about the internal operation of the DB.
// "leveldb.sstables" - returns a multi-line string that describes all
// of the sstables that make up the db contents.
virtual bool GetProperty(const Slice& property, std::string* value) = 0;
// For each i in [0,n-1], store in "sizes[i]", the approximate
// file system space used by keys in "[range[i].start .. range[i].limit)".
//
// Note that the returned sizes measure file system space usage, so
// if the user data compresses by a factor of ten, the returned
// sizes will be one-tenth the size of the corresponding user data size.
//
// The results may not include the sizes of recently written data.
virtual void GetApproximateSizes(const Range* range, int n,
uint64_t* sizes) = 0;
// Compact the underlying storage for the key range [*begin,*end].
// In particular, deleted and overwritten versions are discarded,
// and the data is rearranged to reduce the cost of operations
// needed to access the data. This operation should typically only
// be invoked by users who understand the underlying implementation.
//
// begin==nullptr is treated as a key before all keys in the database.
// end==nullptr is treated as a key after all keys in the database.
// Therefore the following call will compact the entire database:
// db->CompactRange(nullptr, nullptr);
virtual void CompactRange(const Slice* begin, const Slice* end) = 0;
// Number of levels used for this DB.
virtual int NumberLevels() = 0;
// Maximum level to which a new compacted memtable is pushed if it
// does not create overlap.
virtual int MaxMemCompactionLevel() = 0;
// Number of files in level-0 that would stop writes.
virtual int Level0StopWriteTrigger() = 0;
// Flush all mem-table data.
virtual Status Flush(const FlushOptions& options) = 0;
// Prevent file deletions. Compactions will continue to occur,
// but no obsolete files will be deleted. Calling this multiple
// times have the same effect as calling it once.
virtual Status DisableFileDeletions() = 0;
// Allow compactions to delete obselete files.
virtual Status EnableFileDeletions() = 0;
// Retrieve the list of all files in the database. The files are
// relative to the dbname and are not absolute paths. This list
// can be used to generate a backup. The valid size of the manifest
// file is returned in manifest_file_size. The manifest file is
// an ever growing file, but only the portion specified
// by manifest_file_size is valid for this snapshot.
virtual Status GetLiveFiles(std::vector<std::string>&,
uint64_t* manifest_file_size) = 0;
// The sequence number of the most recent transaction.
virtual SequenceNumber GetLatestSequenceNumber() = 0;
// Return's an iterator for all writes since the sequence number
// Status::ok if iterator is valid.
// The iterator internally holds references to the available log files.
// It automatically takes care of closing a file with no-updates left, and
// opening the next one.
// If the sequence number is non existent. it returns an iterator at a seq_no
// just greater than the requested seq_no.
// Must set WAL_ttl_seconds to a large value to use this api.
// else the WAL files will get
// cleared aggressively and the iterator might keep getting invalid before
// an update is read.
virtual Status GetUpdatesSince(SequenceNumber seq_number,
unique_ptr<TransactionLogIterator>* iter) = 0;
private:
// No copying allowed
DB(const DB&);
void operator=(const DB&);
};
// Destroy the contents of the specified database.
// Be very careful using this method.
Status DestroyDB(const std::string& name, const Options& options);
// If a DB cannot be opened, you may attempt to call this method to
// resurrect as much of the contents of the database as possible.
// Some data may be lost, so be careful when calling this function
// on a database that contains important information.
Status RepairDB(const std::string& dbname, const Options& options);
} // namespace leveldb
#endif // STORAGE_LEVELDB_INCLUDE_DB_H_