foundationdb/fdbserver/IDiskQueue.h

139 lines
5.6 KiB
C++

/*
* IDiskQueue.h
*
* This source file is part of the FoundationDB open source project
*
* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef FDBSERVER_IDISKQUEUE_H
#define FDBSERVER_IDISKQUEUE_H
#pragma once
#include "fdbclient/FDBTypes.h"
#include "fdbserver/IKeyValueStore.h"
enum class CheckHashes {
NO,
YES,
};
class IDiskQueue : public IClosable {
public:
struct location {
// location is same with seq., specifying the index of the virtualy infinite queue.
int64_t hi, lo; // hi is always 0, lo is always equal to seq.
location() : hi(0), lo(0) {}
location(int64_t lo) : hi(0), lo(lo) {}
location(int64_t hi, int64_t lo) : hi(hi), lo(lo) {}
operator std::string() const {
return format("%lld.%lld", hi, lo);
} // FIXME: Return a 'HumanReadableDescription' instead of std::string, make TraceEvent::detail accept that (for
// safety)
template <class Ar>
void serialize_unversioned(Ar& ar) {
serializer(ar, hi, lo);
}
bool operator<(location const& r) const {
if (hi < r.hi)
return true;
if (hi > r.hi)
return false;
return lo < r.lo;
}
bool operator>(location const& r) const { return r < *this; }
bool operator<=(location const& r) const { return !(*this > r); }
bool operator>=(location const& r) const { return !(*this < r); }
bool operator==(const location& r) const { return hi == r.hi && lo == r.lo; }
};
//! Find the first and last pages in the disk queue, and initialize invariants.
//!
//! Most importantly, most invariants only hold after this function returns, and
//! some functions assert that the IDiskQueue has been initialized.
//!
//! \param recoverAt The minimum location from which to start recovery.
//! \returns True, if DiskQueue is now considered in a recovered state.
//! False, if the caller should call readNext until recovered is true.
virtual Future<bool> initializeRecovery(location recoverAt) = 0;
// Before calling push or commit, the caller *must* perform recovery by calling readNext() until it returns less
// than the requested number of bytes. Thereafter it may not be called again.
virtual Future<Standalone<StringRef>> readNext(int bytes) = 0; // Return the next bytes in the queue (beginning, the
// first time called, with the first unpopped byte)
virtual location getNextReadLocation()
const = 0; // Returns a location >= the location of all bytes previously returned by readNext(), and <= the
// location of all bytes subsequently returned
virtual location getNextCommitLocation()
const = 0; // If commit() were to be called, all buffered writes would be written starting at `location`.
virtual location getNextPushLocation()
const = 0; // If push() were to be called, the pushed data would be written starting at `location`.
virtual Future<Standalone<StringRef>> read(location start, location end, CheckHashes vc) = 0;
virtual location push(StringRef contents) = 0; // Appends the given bytes to the byte stream. Returns a location
// token representing the *end* of the contents.
virtual void pop(location upTo) = 0; // Removes all bytes before the given location token from the byte stream.
virtual Future<Void>
commit() = 0; // returns when all prior pushes and pops are durable. If commit does not return (due to close or a
// crash), any prefix of the pushed bytes and any prefix of the popped bytes may be durable.
virtual int getCommitOverhead() const = 0; // returns the amount of unused space that would be written by a commit
// that immediately followed this call
virtual StorageBytes getStorageBytes() const = 0;
};
template <>
struct Traceable<IDiskQueue::location> : std::true_type {
static std::string toString(const IDiskQueue::location& value) { return value; }
};
// FIXME: One should be able to use SFINAE to choose between serialize and serialize_unversioned.
template <class Ar>
void load(Ar& ar, IDiskQueue::location& loc) {
loc.serialize_unversioned(ar);
}
template <class Ar>
void save(Ar& ar, const IDiskQueue::location& loc) {
const_cast<IDiskQueue::location&>(loc).serialize_unversioned(ar);
}
namespace std {
template <>
struct numeric_limits<IDiskQueue::location> {
static IDiskQueue::location max() {
int64_t max64 = numeric_limits<int64_t>::max();
return IDiskQueue::location(max64, max64);
};
static IDiskQueue::location min() { return IDiskQueue::location(0, 0); }
};
} // namespace std
// Specify which hash function to use for checksum of pages in DiskQueue
enum class DiskQueueVersion : uint16_t {
V0 = 0, // Use hashlittle
V1 = 1, // Use crc32, which is faster than hashlittle
};
IDiskQueue* openDiskQueue(std::string basename,
std::string ext,
UID dbgid,
DiskQueueVersion diskQueueVersion,
int64_t fileSizeWarningLimit = -1); // opens basename+"0."+ext and basename+"1."+ext
#endif