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rocksdb/db/memtable.cc
Igor Canadi 055e6df45b VersionEdit not to take NumLevels() 
Summary:
I will submit a sequence of diffs that are preparing master branch for column families. There are a lot of implicit assumptions in the code that are making column family implementation hard. If I make the change only in column family branch, it will make merging back to master impossible.

Most of the diffs will be simple code refactorings, so I hope we can have fast turnaround time. Feel free to grab me in person to discuss any of them.

This diff removes number of level check from VersionEdit. It is used only when VersionEdit is read, not written, but has to be set when it is written. I believe it is a right thing to make VersionEdit dumb and check consistency on the caller side. This will also make it much easier to implement Column Families, since different column families can have different number of levels.

Test Plan: make check

Reviewers: dhruba, haobo, sdong, kailiu

Reviewed By: kailiu

CC: leveldb

Differential Revision: https://reviews.facebook.net/D15159
2014-01-14 15:27:09 -08:00

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// Copyright (c) 2013, Facebook, Inc. All rights reserved.
// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree. An additional grant
// of patent rights can be found in the PATENTS file in the same directory.
//
// 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.
#include "db/memtable.h"
#include <memory>
#include "db/dbformat.h"
#include "db/merge_context.h"
#include "rocksdb/comparator.h"
#include "rocksdb/env.h"
#include "rocksdb/iterator.h"
#include "rocksdb/merge_operator.h"
#include "util/coding.h"
#include "util/mutexlock.h"
#include "util/murmurhash.h"
#include "util/statistics_imp.h"
namespace std {
template <>
struct hash<rocksdb::Slice> {
size_t operator()(const rocksdb::Slice& slice) const {
return MurmurHash(slice.data(), slice.size(), 0);
}
};
}
namespace rocksdb {
MemTable::MemTable(const InternalKeyComparator& cmp, const Options& options)
: comparator_(cmp),
refs_(0),
arena_impl_(options.arena_block_size),
table_(options.memtable_factory->CreateMemTableRep(comparator_,
&arena_impl_)),
flush_in_progress_(false),
flush_completed_(false),
file_number_(0),
first_seqno_(0),
mem_next_logfile_number_(0),
mem_logfile_number_(0),
locks_(options.inplace_update_support ? options.inplace_update_num_locks
: 0) {}
MemTable::~MemTable() {
assert(refs_ == 0);
}
size_t MemTable::ApproximateMemoryUsage() {
return arena_impl_.ApproximateMemoryUsage() +
table_->ApproximateMemoryUsage();
}
int MemTable::KeyComparator::operator()(const char* aptr, const char* bptr)
const {
// Internal keys are encoded as length-prefixed strings.
Slice a = GetLengthPrefixedSlice(aptr);
Slice b = GetLengthPrefixedSlice(bptr);
return comparator.Compare(a, b);
}
Slice MemTableRep::UserKey(const char* key) const {
Slice slice = GetLengthPrefixedSlice(key);
return Slice(slice.data(), slice.size() - 8);
}
// Encode a suitable internal key target for "target" and return it.
// Uses *scratch as scratch space, and the returned pointer will point
// into this scratch space.
static const char* EncodeKey(std::string* scratch, const Slice& target) {
scratch->clear();
PutVarint32(scratch, target.size());
scratch->append(target.data(), target.size());
return scratch->data();
}
class MemTableIterator: public Iterator {
public:
MemTableIterator(MemTableRep* table, const ReadOptions& options)
: iter_() {
if (options.prefix) {
iter_ = table->GetPrefixIterator(*options.prefix);
} else if (options.prefix_seek) {
iter_ = table->GetDynamicPrefixIterator();
} else {
iter_ = table->GetIterator();
}
}
virtual bool Valid() const { return iter_->Valid(); }
virtual void Seek(const Slice& k) { iter_->Seek(EncodeKey(&tmp_, k)); }
virtual void SeekToFirst() { iter_->SeekToFirst(); }
virtual void SeekToLast() { iter_->SeekToLast(); }
virtual void Next() { iter_->Next(); }
virtual void Prev() { iter_->Prev(); }
virtual Slice key() const {
return GetLengthPrefixedSlice(iter_->key());
}
virtual Slice value() const {
Slice key_slice = GetLengthPrefixedSlice(iter_->key());
return GetLengthPrefixedSlice(key_slice.data() + key_slice.size());
}
virtual Status status() const { return Status::OK(); }
private:
std::shared_ptr<MemTableRep::Iterator> iter_;
std::string tmp_; // For passing to EncodeKey
// No copying allowed
MemTableIterator(const MemTableIterator&);
void operator=(const MemTableIterator&);
};
Iterator* MemTable::NewIterator(const ReadOptions& options) {
return new MemTableIterator(table_.get(), options);
}
port::RWMutex* MemTable::GetLock(const Slice& key) {
return &locks_[std::hash<Slice>()(key) % locks_.size()];
}
void MemTable::Add(SequenceNumber s, ValueType type,
const Slice& key,
const Slice& value) {
// Format of an entry is concatenation of:
// key_size : varint32 of internal_key.size()
// key bytes : char[internal_key.size()]
// value_size : varint32 of value.size()
// value bytes : char[value.size()]
size_t key_size = key.size();
size_t val_size = value.size();
size_t internal_key_size = key_size + 8;
const size_t encoded_len =
VarintLength(internal_key_size) + internal_key_size +
VarintLength(val_size) + val_size;
char* buf = arena_impl_.Allocate(encoded_len);
char* p = EncodeVarint32(buf, internal_key_size);
memcpy(p, key.data(), key_size);
p += key_size;
EncodeFixed64(p, (s << 8) | type);
p += 8;
p = EncodeVarint32(p, val_size);
memcpy(p, value.data(), val_size);
assert((p + val_size) - buf == (unsigned)encoded_len);
table_->Insert(buf);
// The first sequence number inserted into the memtable
assert(first_seqno_ == 0 || s > first_seqno_);
if (first_seqno_ == 0) {
first_seqno_ = s;
}
}
bool MemTable::Get(const LookupKey& key, std::string* value, Status* s,
MergeContext& merge_context, const Options& options) {
Slice memkey = key.memtable_key();
std::shared_ptr<MemTableRep::Iterator> iter(
table_->GetIterator(key.user_key()));
iter->Seek(memkey.data());
bool merge_in_progress = s->IsMergeInProgress();
auto merge_operator = options.merge_operator.get();
auto logger = options.info_log;
std::string merge_result;
for (; iter->Valid(); iter->Next()) {
// entry format is:
// klength varint32
// userkey char[klength-8]
// tag uint64
// vlength varint32
// value char[vlength]
// Check that it belongs to same user key. We do not check the
// sequence number since the Seek() call above should have skipped
// all entries with overly large sequence numbers.
const char* entry = iter->key();
uint32_t key_length;
const char* key_ptr = GetVarint32Ptr(entry, entry + 5, &key_length);
if (comparator_.comparator.user_comparator()->Compare(
Slice(key_ptr, key_length - 8), key.user_key()) == 0) {
// Correct user key
const uint64_t tag = DecodeFixed64(key_ptr + key_length - 8);
switch (static_cast<ValueType>(tag & 0xff)) {
case kTypeValue: {
if (options.inplace_update_support) {
GetLock(key.user_key())->ReadLock();
}
Slice v = GetLengthPrefixedSlice(key_ptr + key_length);
*s = Status::OK();
if (merge_in_progress) {
assert(merge_operator);
if (!merge_operator->FullMerge(key.user_key(), &v,
merge_context.GetOperands(), value,
logger.get())) {
RecordTick(options.statistics.get(), NUMBER_MERGE_FAILURES);
*s = Status::Corruption("Error: Could not perform merge.");
}
} else {
value->assign(v.data(), v.size());
}
if (options.inplace_update_support) {
GetLock(key.user_key())->Unlock();
}
return true;
}
case kTypeDeletion: {
if (merge_in_progress) {
assert(merge_operator);
*s = Status::OK();
if (!merge_operator->FullMerge(key.user_key(), nullptr,
merge_context.GetOperands(), value,
logger.get())) {
RecordTick(options.statistics.get(), NUMBER_MERGE_FAILURES);
*s = Status::Corruption("Error: Could not perform merge.");
}
} else {
*s = Status::NotFound();
}
return true;
}
case kTypeMerge: {
Slice v = GetLengthPrefixedSlice(key_ptr + key_length);
merge_in_progress = true;
merge_context.PushOperand(v);
while(merge_context.GetNumOperands() >= 2) {
// Attempt to associative merge. (Returns true if successful)
if (merge_operator->PartialMerge(key.user_key(),
merge_context.GetOperand(0),
merge_context.GetOperand(1),
&merge_result, logger.get())) {
merge_context.PushPartialMergeResult(merge_result);
} else {
// Stack them because user can't associative merge
break;
}
}
break;
}
case kTypeLogData:
assert(false);
break;
}
} else {
// exit loop if user key does not match
break;
}
}
// No change to value, since we have not yet found a Put/Delete
if (merge_in_progress) {
*s = Status::MergeInProgress("");
}
return false;
}
bool MemTable::Update(SequenceNumber seq, ValueType type,
const Slice& key,
const Slice& value) {
LookupKey lkey(key, seq);
Slice memkey = lkey.memtable_key();
std::shared_ptr<MemTableRep::Iterator> iter(
table_->GetIterator(lkey.user_key()));
iter->Seek(memkey.data());
if (iter->Valid()) {
// entry format is:
// klength varint32
// userkey char[klength-8]
// tag uint64
// vlength varint32
// value char[vlength]
// Check that it belongs to same user key. We do not check the
// sequence number since the Seek() call above should have skipped
// all entries with overly large sequence numbers.
const char* entry = iter->key();
uint32_t key_length;
const char* key_ptr = GetVarint32Ptr(entry, entry + 5, &key_length);
if (comparator_.comparator.user_comparator()->Compare(
Slice(key_ptr, key_length - 8), lkey.user_key()) == 0) {
// Correct user key
const uint64_t tag = DecodeFixed64(key_ptr + key_length - 8);
switch (static_cast<ValueType>(tag & 0xff)) {
case kTypeValue: {
uint32_t vlength;
GetVarint32Ptr(key_ptr + key_length,
key_ptr + key_length+5, &vlength);
// Update value, if newValue size <= curValue size
if (value.size() <= vlength) {
char* p = EncodeVarint32(const_cast<char*>(key_ptr) + key_length,
value.size());
WriteLock wl(GetLock(lkey.user_key()));
memcpy(p, value.data(), value.size());
assert(
(p + value.size()) - entry ==
(unsigned) (VarintLength(key_length) +
key_length +
VarintLength(value.size()) +
value.size())
);
return true;
}
}
default:
// If the latest value is kTypeDeletion, kTypeMerge or kTypeLogData
// then we probably don't have enough space to update in-place
// Maybe do something later
// Return false, and do normal Add()
return false;
}
}
}
// Key doesn't exist
return false;
}
size_t MemTable::CountSuccessiveMergeEntries(const LookupKey& key) {
Slice memkey = key.memtable_key();
// A total ordered iterator is costly for some memtablerep (prefix aware
// reps). By passing in the user key, we allow efficient iterator creation.
// The iterator only needs to be ordered within the same user key.
std::shared_ptr<MemTableRep::Iterator> iter(
table_->GetIterator(key.user_key()));
iter->Seek(memkey.data());
size_t num_successive_merges = 0;
for (; iter->Valid(); iter->Next()) {
const char* entry = iter->key();
uint32_t key_length;
const char* iter_key_ptr = GetVarint32Ptr(entry, entry + 5, &key_length);
if (!comparator_.comparator.user_comparator()->Compare(
Slice(iter_key_ptr, key_length - 8), key.user_key()) == 0) {
break;
}
const uint64_t tag = DecodeFixed64(iter_key_ptr + key_length - 8);
if (static_cast<ValueType>(tag & 0xff) != kTypeMerge) {
break;
}
++num_successive_merges;
}
return num_successive_merges;
}
} // namespace rocksdb
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