Fix snapshot compaction bug

Closes google/leveldb#320

During compaction it was possible that records from a block b1=(l1,u1)
would be pushed down from level i to level i+1. If there is a block
b2=(l2,u2) at level i with k1 = user_key(u1) = user_key(l2) then
a subsequent search for k1 will yield the record l2 which has a smaller
sequence number than u1 because the sort order for records sorts
increasing by user key but decreaing by sequence number.

This change add a call to a new function AddBoundaryInputs to
SetupOtherInputs. AddBoundaryInputs searches for a block b2 matching the
criteria above and adds it to the set of files to be compacted. Whenever
AddBoundaryInputs is called it is important that the compaction fileset
in level i+1 (known as c->inputs_[1] in the code) be recomputed. Each
call to AddBoundaryInputs is followed by a call to GetOverlappingInputs.

SetupOtherInputs is called on both manual and automated compaction
passes. It is called for both level zero and for levels greater than 0.

The original change posted in https://github.com/google/leveldb/pull/339
has been modified to also include changed made by Chris Mumford<cmumford@google.com>
in 4b72cb14f8

  1. Releasing snapshots during test cleanup to avoid
     memory leak warnings.
  2. Refactored test to use testutil.h to be in line
     with other issue tests and to create the test
     database in the correct temporary location.
  3. Added copyright banner.

  Otherwise, just minor formatting and limiting character
  width to 80 characters.

Additionally the change was rebased on top of current master and
changes previously made to the Makefile were ported to the
CMakeLists.txt.

Testing Done:

  A test program (issue320_test) was constructed that performs mutations
  while snapshots are active. issue320_test fails without this bug fix
  after 64k writes. It passes with this bug fix. It was run with 200M
  writes and passed.

  Unit tests were written for the new function that was added to the
  code. Make test was run and seen to pass.

Signed-off-by: Richard Cole <richcole@amazon.com>
This commit is contained in:
Richard Cole 2016-01-24 18:10:16 -08:00
parent 7035af5fc3
commit 20fb601aa9
4 changed files with 366 additions and 1 deletions

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@ -296,6 +296,7 @@ if(LEVELDB_BUILD_TESTS)
leveldb_test("${PROJECT_SOURCE_DIR}/issues/issue178_test.cc")
leveldb_test("${PROJECT_SOURCE_DIR}/issues/issue200_test.cc")
leveldb_test("${PROJECT_SOURCE_DIR}/issues/issue320_test.cc")
leveldb_test("${PROJECT_SOURCE_DIR}/util/env_test.cc")
leveldb_test("${PROJECT_SOURCE_DIR}/util/status_test.cc")

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@ -1347,9 +1347,87 @@ Compaction* VersionSet::PickCompaction() {
return c;
}
// find the largest key in a vector of files. returns true if files it not empty
bool FindLargestKey(const InternalKeyComparator & icmp, const std::vector<FileMetaData*> & files, InternalKey *largestKey) {
if (files.empty()) {
return false;
}
*largestKey = files[0]->largest;
for (size_t i = 1; i < files.size(); ++i) {
FileMetaData* f = files[i];
if (icmp.Compare(f->largest, *largestKey) > 0) {
*largestKey = f->largest;
}
}
return true;
}
// find minimum file b2=(l2, u2) in level file for which l2 > u1 and user_key(l2) = user_key(u1)
FileMetaData* FindSmallestBoundaryFile(const InternalKeyComparator & icmp,
const std::vector<FileMetaData*> & levelFiles,
const InternalKey & largestKey) {
const Comparator* user_cmp = icmp.user_comparator();
FileMetaData* smallestBoundaryFile = NULL;
for (size_t i = 0; i < levelFiles.size(); ++i) {
FileMetaData* f = levelFiles[i];
if (icmp.Compare(f->smallest, largestKey) > 0 &&
user_cmp->Compare(f->smallest.user_key(), largestKey.user_key()) == 0) {
if (smallestBoundaryFile == NULL ||
icmp.Compare(f->smallest, smallestBoundaryFile->smallest) < 0) {
smallestBoundaryFile = f;
}
}
}
return smallestBoundaryFile;
}
// If there are two blocks, b1=(l1, u1) and b2=(l2, u2) and
// user_key(u1) = user_key(l2), and if we compact b1 but not
// b2 then a subsequent get operation will yield an incorrect
// result because it will return the record from b2 in level
// i rather than from b1 because it searches level by level
// for records matching the supplied user key.
//
// This function extracts the largest file b1 from compactionFiles
// and then searches for a b2 in levelFiles for which user_key(u1) =
// user_key(l2). If it finds such a file b2 (known as a boundary file)
// it adds it to compactionFiles and then searches again using this
// new upper bound.
//
// parameters:
// in levelFiles: list of files to search for boundary files
// in/out compactionFiles: list of files to extend by adding boundary files
void AddBoundaryInputs(const InternalKeyComparator& icmp,
const std::vector<FileMetaData*>& levelFiles,
std::vector<FileMetaData*>* compactionFiles) {
InternalKey largestKey;
// find largestKey in compactionFiles, quick return if compactionFiles is
// empty
if (!FindLargestKey(icmp, *compactionFiles, &largestKey)) {
return;
}
bool continueSearching = true;
while (continueSearching) {
FileMetaData* smallestBoundaryFile =
FindSmallestBoundaryFile(icmp, levelFiles, largestKey);
// if a boundary file was found advance largestKey, otherwise we're done
if (smallestBoundaryFile != NULL) {
compactionFiles->push_back(smallestBoundaryFile);
largestKey = smallestBoundaryFile->largest;
} else {
continueSearching = false;
}
}
}
void VersionSet::SetupOtherInputs(Compaction* c) {
const int level = c->level();
InternalKey smallest, largest;
AddBoundaryInputs(icmp_, current_->files_[level], &c->inputs_[0]);
GetRange(c->inputs_[0], &smallest, &largest);
current_->GetOverlappingInputs(level+1, &smallest, &largest, &c->inputs_[1]);
@ -1363,6 +1441,7 @@ void VersionSet::SetupOtherInputs(Compaction* c) {
if (!c->inputs_[1].empty()) {
std::vector<FileMetaData*> expanded0;
current_->GetOverlappingInputs(level, &all_start, &all_limit, &expanded0);
AddBoundaryInputs(icmp_, current_->files_[level], &expanded0);
const int64_t inputs0_size = TotalFileSize(c->inputs_[0]);
const int64_t inputs1_size = TotalFileSize(c->inputs_[1]);
const int64_t expanded0_size = TotalFileSize(expanded0);

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@ -172,7 +172,153 @@ TEST(FindFileTest, OverlappingFiles) {
ASSERT_TRUE(Overlaps("600", "700"));
}
} // namespace leveldb
void AddBoundaryInputs(const InternalKeyComparator &icmp,
const std::vector<FileMetaData *> &levelFiles,
std::vector<FileMetaData *> *compactionFiles);
class AddBoundaryInputsTest {
public:
std::vector<FileMetaData *> levelFiles_;
std::vector<FileMetaData *> compactionFiles_;
std::vector<FileMetaData *> allFiles_;
InternalKeyComparator icmp_;
AddBoundaryInputsTest() : icmp_(BytewiseComparator()){};
~AddBoundaryInputsTest() {
for (size_t i = 0; i < allFiles_.size(); ++i) {
delete allFiles_[i];
}
allFiles_.clear();
};
FileMetaData *CreateFileMetaData(uint64_t number, InternalKey smallest,
InternalKey largest) {
FileMetaData *f = new FileMetaData();
f->number = number;
f->smallest = smallest;
f->largest = largest;
allFiles_.push_back(f);
return f;
}
};
TEST(AddBoundaryInputsTest, TestEmptyFileSets) {
AddBoundaryInputs(icmp_, levelFiles_, &compactionFiles_);
ASSERT_TRUE(compactionFiles_.empty());
ASSERT_TRUE(levelFiles_.empty());
}
TEST(AddBoundaryInputsTest, TestEmptyLevelFiles) {
FileMetaData *f1 =
CreateFileMetaData(1, InternalKey("100", 2, kTypeValue),
InternalKey(InternalKey("100", 1, kTypeValue)));
compactionFiles_.push_back(f1);
AddBoundaryInputs(icmp_, levelFiles_, &compactionFiles_);
ASSERT_EQ(1, compactionFiles_.size());
ASSERT_EQ(f1, compactionFiles_[0]);
ASSERT_TRUE(levelFiles_.empty());
}
TEST(AddBoundaryInputsTest, TestEmptyCompactionFiles) {
FileMetaData *f1 =
CreateFileMetaData(1, InternalKey("100", 2, kTypeValue),
InternalKey(InternalKey("100", 1, kTypeValue)));
levelFiles_.push_back(f1);
AddBoundaryInputs(icmp_, levelFiles_, &compactionFiles_);
ASSERT_TRUE(compactionFiles_.empty());
ASSERT_EQ(1, levelFiles_.size());
ASSERT_EQ(f1, levelFiles_[0]);
}
TEST(AddBoundaryInputsTest, TestNoBoundaryFiles) {
FileMetaData *f1 =
CreateFileMetaData(1, InternalKey("100", 2, kTypeValue),
InternalKey(InternalKey("100", 1, kTypeValue)));
FileMetaData *f2 =
CreateFileMetaData(1, InternalKey("200", 2, kTypeValue),
InternalKey(InternalKey("200", 1, kTypeValue)));
FileMetaData *f3 =
CreateFileMetaData(1, InternalKey("300", 2, kTypeValue),
InternalKey(InternalKey("300", 1, kTypeValue)));
levelFiles_.push_back(f3);
levelFiles_.push_back(f2);
levelFiles_.push_back(f1);
compactionFiles_.push_back(f2);
compactionFiles_.push_back(f3);
AddBoundaryInputs(icmp_, levelFiles_, &compactionFiles_);
ASSERT_EQ(2, compactionFiles_.size());
}
TEST(AddBoundaryInputsTest, TestOneBoundaryFiles) {
FileMetaData *f1 =
CreateFileMetaData(1, InternalKey("100", 3, kTypeValue),
InternalKey(InternalKey("100", 2, kTypeValue)));
FileMetaData *f2 =
CreateFileMetaData(1, InternalKey("100", 1, kTypeValue),
InternalKey(InternalKey("200", 3, kTypeValue)));
FileMetaData *f3 =
CreateFileMetaData(1, InternalKey("300", 2, kTypeValue),
InternalKey(InternalKey("300", 1, kTypeValue)));
levelFiles_.push_back(f3);
levelFiles_.push_back(f2);
levelFiles_.push_back(f1);
compactionFiles_.push_back(f1);
AddBoundaryInputs(icmp_, levelFiles_, &compactionFiles_);
ASSERT_EQ(2, compactionFiles_.size());
ASSERT_EQ(f1, compactionFiles_[0]);
ASSERT_EQ(f2, compactionFiles_[1]);
}
TEST(AddBoundaryInputsTest, TestTwoBoundaryFiles) {
FileMetaData *f1 =
CreateFileMetaData(1, InternalKey("100", 6, kTypeValue),
InternalKey(InternalKey("100", 5, kTypeValue)));
FileMetaData *f2 =
CreateFileMetaData(1, InternalKey("100", 2, kTypeValue),
InternalKey(InternalKey("300", 1, kTypeValue)));
FileMetaData *f3 =
CreateFileMetaData(1, InternalKey("100", 4, kTypeValue),
InternalKey(InternalKey("100", 3, kTypeValue)));
levelFiles_.push_back(f2);
levelFiles_.push_back(f3);
levelFiles_.push_back(f1);
compactionFiles_.push_back(f1);
AddBoundaryInputs(icmp_, levelFiles_, &compactionFiles_);
ASSERT_EQ(3, compactionFiles_.size());
ASSERT_EQ(f1, compactionFiles_[0]);
ASSERT_EQ(f3, compactionFiles_[1]);
ASSERT_EQ(f2, compactionFiles_[2]);
}
TEST(AddBoundaryInputsTest, TestDisjoinFilePointers) {
FileMetaData *f1 = CreateFileMetaData(1, InternalKey("100", 6, kTypeValue), InternalKey(InternalKey("100", 5, kTypeValue)));
FileMetaData *f2 = CreateFileMetaData(1, InternalKey("100", 6, kTypeValue), InternalKey(InternalKey("100", 5, kTypeValue)));
FileMetaData *f3 = CreateFileMetaData(1, InternalKey("100", 2, kTypeValue), InternalKey(InternalKey("300", 1, kTypeValue)));
FileMetaData *f4 = CreateFileMetaData(1, InternalKey("100", 4, kTypeValue), InternalKey(InternalKey("100", 3, kTypeValue)));
levelFiles_.push_back(f2);
levelFiles_.push_back(f3);
levelFiles_.push_back(f4);
compactionFiles_.push_back(f1);
AddBoundaryInputs(icmp_, levelFiles_, &compactionFiles_);
ASSERT_EQ(3, compactionFiles_.size());
ASSERT_EQ(f1, compactionFiles_[0]);
ASSERT_EQ(f4, compactionFiles_[1]);
ASSERT_EQ(f3, compactionFiles_[2]);
}
} // namespace leveldb
int main(int argc, char** argv) {
return leveldb::test::RunAllTests();

139
issues/issue320_test.cc Normal file
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@ -0,0 +1,139 @@
// Copyright (c) 2019 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 <iostream>
#include <sstream>
#include <string>
#include <map>
#include <vector>
#include <memory>
#include <math.h>
#include <leveldb/db.h>
#include <leveldb/write_batch.h>
#include <util/testharness.h>
using namespace std;
namespace leveldb {
namespace {
unsigned int random(unsigned int max) {
return std::rand() % max;
}
string newString(int32_t index) {
const unsigned int len = 1024;
char bytes[len];
unsigned int i = 0;
while (i < 8) {
bytes[i] = 'a' + ((index >> (4 * i)) & 0xf);
++i;
}
while (i < sizeof(bytes)) {
bytes[i] = 'a' + random(26);
++i;
}
return string(bytes, sizeof(bytes));
}
} // namespace
class Issue320 { };
TEST(Issue320, Test) {
std::srand(0);
bool delete_before_put = false;
bool keep_snapshots = true;
vector<pair<string, string>*> test_map(10000, nullptr);
vector<Snapshot const*> snapshots(100, nullptr);
DB* db;
Options options;
options.create_if_missing = true;
std::string dbpath = test::TmpDir() + "/leveldb_issue320_test";
ASSERT_OK(DB::Open(options, dbpath, &db));
unsigned int target_size = 10000;
unsigned int num_items = 0;
unsigned long count = 0;
string key;
string value, old_value;
WriteOptions writeOptions;
ReadOptions readOptions;
while (count < 200000) {
if ((++count % 1000) == 0) {
cout << "count: " << count << endl;
}
unsigned int index = random(test_map.size());
WriteBatch batch;
if (test_map[index] == nullptr) {
num_items++;
test_map[index] =
new pair<string, string>(newString(index), newString(index));
batch.Put(test_map[index]->first, test_map[index]->second);
} else {
ASSERT_OK(db->Get(readOptions, test_map[index]->first, &old_value));
if (old_value != test_map[index]->second) {
cout << "ERROR incorrect value returned by Get" << endl;
cout << " count=" << count << endl;
cout << " old value=" << old_value << endl;
cout << " test_map[index]->second=" << test_map[index]->second << endl;
cout << " test_map[index]->first=" << test_map[index]->first << endl;
cout << " index=" << index << endl;
ASSERT_EQ(old_value, test_map[index]->second);
}
if (num_items >= target_size && random(100) > 30) {
batch.Delete(test_map[index]->first);
delete test_map[index];
test_map[index] = nullptr;
--num_items;
} else {
test_map[index]->second = newString(index);
if (delete_before_put) batch.Delete(test_map[index]->first);
batch.Put(test_map[index]->first, test_map[index]->second);
}
}
ASSERT_OK(db->Write(writeOptions, &batch));
if (keep_snapshots && random(10) == 0) {
unsigned int i = random(snapshots.size());
if (snapshots[i] != nullptr) {
db->ReleaseSnapshot(snapshots[i]);
}
snapshots[i] = db->GetSnapshot();
}
}
for (Snapshot const* snapshot : snapshots) {
if (snapshot) {
db->ReleaseSnapshot(snapshot);
}
}
for (size_t i = 0; i < test_map.size(); ++i) {
if (test_map[i] != nullptr) {
delete test_map[i];
test_map[i] = nullptr;
}
}
delete db;
DestroyDB(dbpath, options);
}
} // namespace leveldb
int main(int argc, char** argv) {
return leveldb::test::RunAllTests();
}