// Copyright (c) 2011-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 #include #include #include "db/merge_helper.h" #include "rocksdb/comparator.h" #include "util/coding.h" #include "util/testharness.h" #include "util/testutil.h" #include "utilities/merge_operators.h" namespace rocksdb { class MergeHelperTest : public testing::Test { public: MergeHelperTest() { env_ = Env::Default(); } ~MergeHelperTest() = default; Status Run(SequenceNumber stop_before, bool at_bottom, SequenceNumber latest_snapshot = 0) { iter_.reset(new test::VectorIterator(ks_, vs_)); iter_->SeekToFirst(); merge_helper_.reset(new MergeHelper(env_, BytewiseComparator(), merge_op_.get(), filter_.get(), nullptr, false, latest_snapshot)); return merge_helper_->MergeUntil(iter_.get(), nullptr /* range_del_agg */, stop_before, at_bottom); } void AddKeyVal(const std::string& user_key, const SequenceNumber& seq, const ValueType& t, const std::string& val, bool corrupt = false) { InternalKey ikey(user_key, seq, t); if (corrupt) { test::CorruptKeyType(&ikey); } ks_.push_back(ikey.Encode().ToString()); vs_.push_back(val); } Env* env_; std::unique_ptr iter_; std::shared_ptr merge_op_; std::unique_ptr merge_helper_; std::vector ks_; std::vector vs_; std::unique_ptr filter_; }; // If MergeHelper encounters a new key on the last level, we know that // the key has no more history and it can merge keys. TEST_F(MergeHelperTest, MergeAtBottomSuccess) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 20, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 10, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("b", 10, kTypeMerge, test::EncodeInt(4U)); // <- iter_ after merge ASSERT_TRUE(Run(0, true).ok()); ASSERT_EQ(ks_[2], iter_->key()); ASSERT_EQ(test::KeyStr("a", 20, kTypeValue), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(4U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // Merging with a value results in a successful merge. TEST_F(MergeHelperTest, MergeValue) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 40, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 20, kTypeValue, test::EncodeInt(4U)); // <- iter_ after merge AddKeyVal("a", 10, kTypeMerge, test::EncodeInt(1U)); ASSERT_TRUE(Run(0, false).ok()); ASSERT_EQ(ks_[3], iter_->key()); ASSERT_EQ(test::KeyStr("a", 40, kTypeValue), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(8U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // Merging stops before a snapshot. TEST_F(MergeHelperTest, SnapshotBeforeValue) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 50, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 40, kTypeMerge, test::EncodeInt(3U)); // <- iter_ after merge AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 20, kTypeValue, test::EncodeInt(4U)); AddKeyVal("a", 10, kTypeMerge, test::EncodeInt(1U)); ASSERT_TRUE(Run(31, true).IsMergeInProgress()); ASSERT_EQ(ks_[2], iter_->key()); ASSERT_EQ(test::KeyStr("a", 50, kTypeMerge), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(4U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // MergeHelper preserves the operand stack for merge operators that // cannot do a partial merge. TEST_F(MergeHelperTest, NoPartialMerge) { merge_op_ = MergeOperators::CreateStringAppendTESTOperator(); AddKeyVal("a", 50, kTypeMerge, "v2"); AddKeyVal("a", 40, kTypeMerge, "v"); // <- iter_ after merge AddKeyVal("a", 30, kTypeMerge, "v"); ASSERT_TRUE(Run(31, true).IsMergeInProgress()); ASSERT_EQ(ks_[2], iter_->key()); ASSERT_EQ(test::KeyStr("a", 40, kTypeMerge), merge_helper_->keys()[0]); ASSERT_EQ("v", merge_helper_->values()[0]); ASSERT_EQ(test::KeyStr("a", 50, kTypeMerge), merge_helper_->keys()[1]); ASSERT_EQ("v2", merge_helper_->values()[1]); ASSERT_EQ(2U, merge_helper_->keys().size()); ASSERT_EQ(2U, merge_helper_->values().size()); } // A single operand can not be merged. TEST_F(MergeHelperTest, SingleOperand) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 50, kTypeMerge, test::EncodeInt(1U)); ASSERT_TRUE(Run(31, false).IsMergeInProgress()); ASSERT_FALSE(iter_->Valid()); ASSERT_EQ(test::KeyStr("a", 50, kTypeMerge), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(1U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // Merging with a deletion turns the deletion into a value TEST_F(MergeHelperTest, MergeDeletion) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 20, kTypeDeletion, ""); ASSERT_TRUE(Run(15, false).ok()); ASSERT_FALSE(iter_->Valid()); ASSERT_EQ(test::KeyStr("a", 30, kTypeValue), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(3U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // The merge helper stops upon encountering a corrupt key TEST_F(MergeHelperTest, CorruptKey) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 25, kTypeMerge, test::EncodeInt(1U)); // Corrupt key AddKeyVal("a", 20, kTypeDeletion, "", true); // <- iter_ after merge ASSERT_TRUE(Run(15, false).IsMergeInProgress()); ASSERT_EQ(ks_[2], iter_->key()); ASSERT_EQ(test::KeyStr("a", 30, kTypeMerge), merge_helper_->keys()[0]); ASSERT_EQ(test::EncodeInt(4U), merge_helper_->values()[0]); ASSERT_EQ(1U, merge_helper_->keys().size()); ASSERT_EQ(1U, merge_helper_->values().size()); } // The compaction filter is called on every merge operand TEST_F(MergeHelperTest, FilterMergeOperands) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); filter_.reset(new test::FilterNumber(5U)); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 29, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("a", 28, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 27, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 26, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("a", 25, kTypeValue, test::EncodeInt(1U)); ASSERT_TRUE(Run(15, false).ok()); ASSERT_FALSE(iter_->Valid()); MergeOutputIterator merge_output_iter(merge_helper_.get()); merge_output_iter.SeekToFirst(); ASSERT_EQ(test::KeyStr("a", 30, kTypeValue), merge_output_iter.key().ToString()); ASSERT_EQ(test::EncodeInt(8U), merge_output_iter.value().ToString()); merge_output_iter.Next(); ASSERT_FALSE(merge_output_iter.Valid()); } TEST_F(MergeHelperTest, FilterAllMergeOperands) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); filter_.reset(new test::FilterNumber(5U)); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 29, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 28, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 27, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 26, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 25, kTypeMerge, test::EncodeInt(5U)); // filtered out all ASSERT_TRUE(Run(15, false).ok()); ASSERT_FALSE(iter_->Valid()); MergeOutputIterator merge_output_iter(merge_helper_.get()); merge_output_iter.SeekToFirst(); ASSERT_FALSE(merge_output_iter.Valid()); // we have one operand that will survive because it's a delete AddKeyVal("a", 24, kTypeDeletion, test::EncodeInt(5U)); AddKeyVal("b", 23, kTypeValue, test::EncodeInt(5U)); ASSERT_TRUE(Run(15, true).ok()); merge_output_iter = MergeOutputIterator(merge_helper_.get()); ASSERT_TRUE(iter_->Valid()); merge_output_iter.SeekToFirst(); ASSERT_FALSE(merge_output_iter.Valid()); // when all merge operands are filtered out, we leave the iterator pointing to // the Put/Delete that survived ASSERT_EQ(test::KeyStr("a", 24, kTypeDeletion), iter_->key().ToString()); ASSERT_EQ(test::EncodeInt(5U), iter_->value().ToString()); } // Make sure that merge operands are filtered at the beginning TEST_F(MergeHelperTest, FilterFirstMergeOperand) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); filter_.reset(new test::FilterNumber(5U)); AddKeyVal("a", 31, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("a", 29, kTypeMerge, test::EncodeInt(2U)); AddKeyVal("a", 28, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 27, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 26, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("a", 25, kTypeMerge, test::EncodeInt(5U)); // Filtered AddKeyVal("b", 24, kTypeValue, test::EncodeInt(5U)); // next user key ASSERT_OK(Run(15, true)); ASSERT_TRUE(iter_->Valid()); MergeOutputIterator merge_output_iter(merge_helper_.get()); merge_output_iter.SeekToFirst(); // sequence number is 29 here, because the first merge operand got filtered // out ASSERT_EQ(test::KeyStr("a", 29, kTypeValue), merge_output_iter.key().ToString()); ASSERT_EQ(test::EncodeInt(6U), merge_output_iter.value().ToString()); merge_output_iter.Next(); ASSERT_FALSE(merge_output_iter.Valid()); // make sure that we're passing user keys into the filter ASSERT_EQ("a", filter_->last_merge_operand_key()); } // Make sure that merge operands are not filtered out if there's a snapshot // pointing at them TEST_F(MergeHelperTest, DontFilterMergeOperandsBeforeSnapshotTest) { merge_op_ = MergeOperators::CreateUInt64AddOperator(); filter_.reset(new test::FilterNumber(5U)); AddKeyVal("a", 31, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 30, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 29, kTypeMerge, test::EncodeInt(2U)); AddKeyVal("a", 28, kTypeMerge, test::EncodeInt(1U)); AddKeyVal("a", 27, kTypeMerge, test::EncodeInt(3U)); AddKeyVal("a", 26, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("a", 25, kTypeMerge, test::EncodeInt(5U)); AddKeyVal("b", 24, kTypeValue, test::EncodeInt(5U)); ASSERT_OK(Run(15, true, 32)); ASSERT_TRUE(iter_->Valid()); MergeOutputIterator merge_output_iter(merge_helper_.get()); merge_output_iter.SeekToFirst(); ASSERT_EQ(test::KeyStr("a", 31, kTypeValue), merge_output_iter.key().ToString()); ASSERT_EQ(test::EncodeInt(26U), merge_output_iter.value().ToString()); merge_output_iter.Next(); ASSERT_FALSE(merge_output_iter.Valid()); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); }