rocksdb/db/range_del_aggregator_test.cc

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// Copyright (c) 2016-present, Facebook, Inc. All rights reserved.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
#include <algorithm>
#include "db/db_test_util.h"
#include "db/range_del_aggregator.h"
#include "rocksdb/comparator.h"
#include "util/testutil.h"
namespace rocksdb {
class RangeDelAggregatorTest : public testing::Test {};
namespace {
struct ExpectedPoint {
Slice begin;
SequenceNumber seq;
bool expectAlive;
};
enum Direction {
kForward,
kReverse,
};
static auto bytewise_icmp = InternalKeyComparator(BytewiseComparator());
void AddTombstones(RangeDelAggregator* range_del_agg,
const std::vector<RangeTombstone>& range_dels,
const InternalKey* smallest = nullptr,
const InternalKey* largest = nullptr) {
std::vector<std::string> keys, values;
for (const auto& range_del : range_dels) {
auto key_and_value = range_del.Serialize();
keys.push_back(key_and_value.first.Encode().ToString());
values.push_back(key_and_value.second.ToString());
}
std::unique_ptr<test::VectorIterator> range_del_iter(
new test::VectorIterator(keys, values));
range_del_agg->AddTombstones(std::move(range_del_iter), smallest, largest);
}
void VerifyTombstonesEq(const RangeTombstone& a, const RangeTombstone& b) {
ASSERT_EQ(a.seq_, b.seq_);
ASSERT_EQ(a.start_key_, b.start_key_);
ASSERT_EQ(a.end_key_, b.end_key_);
}
void VerifyRangeDelIter(
RangeDelIterator* range_del_iter,
const std::vector<RangeTombstone>& expected_range_dels) {
size_t i = 0;
for (; range_del_iter->Valid() && i < expected_range_dels.size();
range_del_iter->Next(), i++) {
VerifyTombstonesEq(expected_range_dels[i], range_del_iter->Tombstone());
}
ASSERT_EQ(expected_range_dels.size(), i);
ASSERT_FALSE(range_del_iter->Valid());
}
void VerifyRangeDels(
const std::vector<RangeTombstone>& range_dels_in,
const std::vector<ExpectedPoint>& expected_points,
const std::vector<RangeTombstone>& expected_collapsed_range_dels,
const InternalKey* smallest = nullptr, const InternalKey* largest = nullptr,
const InternalKeyComparator& icmp = bytewise_icmp) {
// Test same result regardless of which order the range deletions are added
// and regardless of collapsed mode.
for (bool collapsed : {false, true}) {
for (Direction dir : {kForward, kReverse}) {
RangeDelAggregator range_del_agg(icmp, {} /* snapshots */, collapsed);
std::vector<RangeTombstone> range_dels = range_dels_in;
if (dir == kReverse) {
std::reverse(range_dels.begin(), range_dels.end());
}
AddTombstones(&range_del_agg, range_dels, smallest, largest);
auto mode = RangeDelPositioningMode::kFullScan;
if (collapsed) {
mode = RangeDelPositioningMode::kForwardTraversal;
}
for (const auto expected_point : expected_points) {
ParsedInternalKey parsed_key;
parsed_key.user_key = expected_point.begin;
parsed_key.sequence = expected_point.seq;
parsed_key.type = kTypeValue;
ASSERT_FALSE(range_del_agg.ShouldDelete(parsed_key, mode));
if (parsed_key.sequence > 0) {
--parsed_key.sequence;
if (expected_point.expectAlive) {
ASSERT_FALSE(range_del_agg.ShouldDelete(parsed_key, mode));
} else {
ASSERT_TRUE(range_del_agg.ShouldDelete(parsed_key, mode));
}
}
}
if (collapsed) {
range_dels = expected_collapsed_range_dels;
VerifyRangeDelIter(range_del_agg.NewIterator().get(), range_dels);
} else if (smallest == nullptr && largest == nullptr) {
// Tombstones in an uncollapsed map are presented in start key
// order. Tombstones with the same start key are presented in
// insertion order. We don't handle tombstone truncation here, so the
// verification is only performed if no truncation was requested.
std::stable_sort(range_dels.begin(), range_dels.end(),
[&](const RangeTombstone& a, const RangeTombstone& b) {
return icmp.user_comparator()->Compare(
a.start_key_, b.start_key_) < 0;
});
VerifyRangeDelIter(range_del_agg.NewIterator().get(), range_dels);
}
}
}
RangeDelAggregator range_del_agg(icmp, {} /* snapshots */,
false /* collapse_deletions */);
AddTombstones(&range_del_agg, range_dels_in);
for (size_t i = 1; i < expected_points.size(); ++i) {
bool overlapped = range_del_agg.IsRangeOverlapped(
expected_points[i - 1].begin, expected_points[i].begin);
if (expected_points[i - 1].seq > 0 || expected_points[i].seq > 0) {
ASSERT_TRUE(overlapped);
} else {
ASSERT_FALSE(overlapped);
}
}
}
} // anonymous namespace
TEST_F(RangeDelAggregatorTest, Empty) { VerifyRangeDels({}, {{"a", 0}}, {}); }
TEST_F(RangeDelAggregatorTest, SameStartAndEnd) {
VerifyRangeDels({{"a", "a", 5}}, {{" ", 0}, {"a", 0}, {"b", 0}}, {});
}
TEST_F(RangeDelAggregatorTest, Single) {
VerifyRangeDels({{"a", "b", 10}}, {{" ", 0}, {"a", 10}, {"b", 0}},
{{"a", "b", 10}});
}
TEST_F(RangeDelAggregatorTest, OverlapAboveLeft) {
VerifyRangeDels({{"a", "c", 10}, {"b", "d", 5}},
{{" ", 0}, {"a", 10}, {"c", 5}, {"d", 0}},
{{"a", "c", 10}, {"c", "d", 5}});
}
TEST_F(RangeDelAggregatorTest, OverlapAboveRight) {
VerifyRangeDels({{"a", "c", 5}, {"b", "d", 10}},
{{" ", 0}, {"a", 5}, {"b", 10}, {"d", 0}},
{{"a", "b", 5}, {"b", "d", 10}});
}
TEST_F(RangeDelAggregatorTest, OverlapAboveMiddle) {
VerifyRangeDels({{"a", "d", 5}, {"b", "c", 10}},
{{" ", 0}, {"a", 5}, {"b", 10}, {"c", 5}, {"d", 0}},
{{"a", "b", 5}, {"b", "c", 10}, {"c", "d", 5}});
}
TEST_F(RangeDelAggregatorTest, OverlapAboveMiddleReverse) {
VerifyRangeDels({{"d", "a", 5}, {"c", "b", 10}},
{{"z", 0}, {"d", 5}, {"c", 10}, {"b", 5}, {"a", 0}},
{{"d", "c", 5}, {"c", "b", 10}, {"b", "a", 5}},
nullptr /* smallest */, nullptr /* largest */,
InternalKeyComparator(ReverseBytewiseComparator()));
}
TEST_F(RangeDelAggregatorTest, OverlapFully) {
VerifyRangeDels({{"a", "d", 10}, {"b", "c", 5}},
{{" ", 0}, {"a", 10}, {"d", 0}}, {{"a", "d", 10}});
}
TEST_F(RangeDelAggregatorTest, OverlapPoint) {
VerifyRangeDels({{"a", "b", 5}, {"b", "c", 10}},
{{" ", 0}, {"a", 5}, {"b", 10}, {"c", 0}},
{{"a", "b", 5}, {"b", "c", 10}});
}
TEST_F(RangeDelAggregatorTest, SameStartKey) {
VerifyRangeDels({{"a", "c", 5}, {"a", "b", 10}},
{{" ", 0}, {"a", 10}, {"b", 5}, {"c", 0}},
{{"a", "b", 10}, {"b", "c", 5}});
}
TEST_F(RangeDelAggregatorTest, SameEndKey) {
VerifyRangeDels({{"a", "d", 5}, {"b", "d", 10}},
{{" ", 0}, {"a", 5}, {"b", 10}, {"d", 0}},
{{"a", "b", 5}, {"b", "d", 10}});
}
TEST_F(RangeDelAggregatorTest, GapsBetweenRanges) {
VerifyRangeDels({{"a", "b", 5}, {"c", "d", 10}, {"e", "f", 15}},
{{" ", 0},
{"a", 5},
{"b", 0},
{"c", 10},
{"d", 0},
{"da", 0},
{"e", 15},
{"f", 0}},
{{"a", "b", 5}, {"c", "d", 10}, {"e", "f", 15}});
}
// Note the Cover* tests also test cases where tombstones are inserted under a
// larger one when VerifyRangeDels() runs them in reverse
TEST_F(RangeDelAggregatorTest, CoverMultipleFromLeft) {
VerifyRangeDels(
{{"b", "d", 5}, {"c", "f", 10}, {"e", "g", 15}, {"a", "f", 20}},
{{" ", 0}, {"a", 20}, {"f", 15}, {"g", 0}},
{{"a", "f", 20}, {"f", "g", 15}});
}
TEST_F(RangeDelAggregatorTest, CoverMultipleFromRight) {
VerifyRangeDels(
{{"b", "d", 5}, {"c", "f", 10}, {"e", "g", 15}, {"c", "h", 20}},
{{" ", 0}, {"b", 5}, {"c", 20}, {"h", 0}},
{{"b", "c", 5}, {"c", "h", 20}});
}
TEST_F(RangeDelAggregatorTest, CoverMultipleFully) {
VerifyRangeDels(
{{"b", "d", 5}, {"c", "f", 10}, {"e", "g", 15}, {"a", "h", 20}},
{{" ", 0}, {"a", 20}, {"h", 0}}, {{"a", "h", 20}});
}
TEST_F(RangeDelAggregatorTest, AlternateMultipleAboveBelow) {
VerifyRangeDels(
{{"b", "d", 15}, {"c", "f", 10}, {"e", "g", 20}, {"a", "h", 5}},
{{" ", 0}, {"a", 5}, {"b", 15}, {"d", 10}, {"e", 20}, {"g", 5}, {"h", 0}},
{{"a", "b", 5},
{"b", "d", 15},
{"d", "e", 10},
{"e", "g", 20},
{"g", "h", 5}});
}
TEST_F(RangeDelAggregatorTest, MergingIteratorAllEmptyStripes) {
for (bool collapsed : {true, false}) {
RangeDelAggregator range_del_agg(bytewise_icmp, {1, 2}, collapsed);
VerifyRangeDelIter(range_del_agg.NewIterator().get(), {});
}
}
TEST_F(RangeDelAggregatorTest, MergingIteratorOverlappingStripes) {
for (bool collapsed : {true, false}) {
RangeDelAggregator range_del_agg(bytewise_icmp, {5, 15, 25, 35}, collapsed);
AddTombstones(
&range_del_agg,
{{"d", "e", 10}, {"aa", "b", 20}, {"c", "d", 30}, {"a", "b", 10}});
VerifyRangeDelIter(
range_del_agg.NewIterator().get(),
{{"a", "b", 10}, {"aa", "b", 20}, {"c", "d", 30}, {"d", "e", 10}});
}
}
TEST_F(RangeDelAggregatorTest, MergingIteratorSeek) {
RangeDelAggregator range_del_agg(bytewise_icmp, {5, 15},
true /* collapsed */);
AddTombstones(&range_del_agg, {{"a", "c", 10},
{"b", "c", 11},
{"f", "g", 10},
{"c", "d", 20},
{"e", "f", 20}});
auto it = range_del_agg.NewIterator();
// Verify seek positioning.
it->Seek("");
VerifyTombstonesEq(it->Tombstone(), {"a", "b", 10});
it->Seek("a");
VerifyTombstonesEq(it->Tombstone(), {"a", "b", 10});
it->Seek("aa");
VerifyTombstonesEq(it->Tombstone(), {"a", "b", 10});
it->Seek("b");
VerifyTombstonesEq(it->Tombstone(), {"b", "c", 11});
it->Seek("c");
VerifyTombstonesEq(it->Tombstone(), {"c", "d", 20});
it->Seek("dd");
VerifyTombstonesEq(it->Tombstone(), {"e", "f", 20});
it->Seek("f");
VerifyTombstonesEq(it->Tombstone(), {"f", "g", 10});
it->Seek("g");
ASSERT_EQ(it->Valid(), false);
it->Seek("h");
ASSERT_EQ(it->Valid(), false);
// Verify iteration after seek.
it->Seek("c");
VerifyRangeDelIter(it.get(),
{{"c", "d", 20}, {"e", "f", 20}, {"f", "g", 10}});
}
TEST_F(RangeDelAggregatorTest, TruncateTombstones) {
const InternalKey smallest("b", 1, kTypeRangeDeletion);
const InternalKey largest("e", kMaxSequenceNumber, kTypeRangeDeletion);
VerifyRangeDels(
{{"a", "c", 10}, {"d", "f", 10}},
{{"a", 10, true}, // truncated
{"b", 10, false}, // not truncated
{"d", 10, false}, // not truncated
{"e", 10, true}}, // truncated
{{"b", "c", 10}, {"d", "e", 10}},
&smallest, &largest);
}
TEST_F(RangeDelAggregatorTest, OverlappingLargestKeyTruncateTombstones) {
const InternalKey smallest("b", 1, kTypeRangeDeletion);
const InternalKey largest(
"e", 3, // could happen if "e" is in consecutive sstables
kTypeValue);
VerifyRangeDels(
{{"a", "c", 10}, {"d", "f", 10}},
{{"a", 10, true}, // truncated
{"b", 10, false}, // not truncated
{"d", 10, false}, // not truncated
{"e", 10, false}}, // not truncated
{{"b", "c", 10}, {"d", "f", 10}},
&smallest, &largest);
}
} // namespace rocksdb
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}