fork of https://github.com/oxigraph/rocksdb and https://github.com/facebook/rocksdb for nextgraph and oxigraph
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717 lines
23 KiB
717 lines
23 KiB
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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#include "table/block_based/data_block_hash_index.h"
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#include <cstdlib>
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#include <string>
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#include <unordered_map>
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#include "db/table_properties_collector.h"
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#include "rocksdb/slice.h"
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#include "table/block_based/block.h"
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#include "table/block_based/block_based_table_reader.h"
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#include "table/block_based/block_builder.h"
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#include "table/get_context.h"
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#include "table/table_builder.h"
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#include "test_util/testharness.h"
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#include "test_util/testutil.h"
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#include "util/random.h"
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namespace ROCKSDB_NAMESPACE {
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bool SearchForOffset(DataBlockHashIndex& index, const char* data,
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uint16_t map_offset, const Slice& key,
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uint8_t& restart_point) {
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uint8_t entry = index.Lookup(data, map_offset, key);
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if (entry == kCollision) {
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return true;
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}
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if (entry == kNoEntry) {
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return false;
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}
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return entry == restart_point;
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}
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std::string GenerateKey(int primary_key, int secondary_key, int padding_size,
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Random* rnd) {
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char buf[50];
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char* p = &buf[0];
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snprintf(buf, sizeof(buf), "%6d%4d", primary_key, secondary_key);
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std::string k(p);
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if (padding_size) {
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k += rnd->RandomString(padding_size);
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}
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return k;
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}
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// Generate random key value pairs.
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// The generated key will be sorted. You can tune the parameters to generated
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// different kinds of test key/value pairs for different scenario.
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void GenerateRandomKVs(std::vector<std::string>* keys,
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std::vector<std::string>* values, const int from,
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const int len, const int step = 1,
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const int padding_size = 0,
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const int keys_share_prefix = 1) {
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Random rnd(302);
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// generate different prefix
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for (int i = from; i < from + len; i += step) {
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// generating keys that shares the prefix
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for (int j = 0; j < keys_share_prefix; ++j) {
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keys->emplace_back(GenerateKey(i, j, padding_size, &rnd));
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// 100 bytes values
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values->emplace_back(rnd.RandomString(100));
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}
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}
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}
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TEST(DataBlockHashIndex, DataBlockHashTestSmall) {
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DataBlockHashIndexBuilder builder;
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builder.Initialize(0.75 /*util_ratio*/);
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for (int j = 0; j < 5; j++) {
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for (uint8_t i = 0; i < 2 + j; i++) {
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std::string key("key" + std::to_string(i));
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uint8_t restart_point = i;
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builder.Add(key, restart_point);
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}
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size_t estimated_size = builder.EstimateSize();
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std::string buffer("fake"), buffer2;
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size_t original_size = buffer.size();
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estimated_size += original_size;
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builder.Finish(buffer);
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ASSERT_EQ(buffer.size(), estimated_size);
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buffer2 = buffer; // test for the correctness of relative offset
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Slice s(buffer2);
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DataBlockHashIndex index;
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uint16_t map_offset;
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index.Initialize(s.data(), static_cast<uint16_t>(s.size()), &map_offset);
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// the additional hash map should start at the end of the buffer
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ASSERT_EQ(original_size, map_offset);
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for (uint8_t i = 0; i < 2; i++) {
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std::string key("key" + std::to_string(i));
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uint8_t restart_point = i;
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ASSERT_TRUE(
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SearchForOffset(index, s.data(), map_offset, key, restart_point));
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}
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builder.Reset();
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}
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}
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TEST(DataBlockHashIndex, DataBlockHashTest) {
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// bucket_num = 200, #keys = 100. 50% utilization
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DataBlockHashIndexBuilder builder;
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builder.Initialize(0.75 /*util_ratio*/);
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for (uint8_t i = 0; i < 100; i++) {
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std::string key("key" + std::to_string(i));
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uint8_t restart_point = i;
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builder.Add(key, restart_point);
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}
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size_t estimated_size = builder.EstimateSize();
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std::string buffer("fake content"), buffer2;
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size_t original_size = buffer.size();
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estimated_size += original_size;
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builder.Finish(buffer);
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ASSERT_EQ(buffer.size(), estimated_size);
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buffer2 = buffer; // test for the correctness of relative offset
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Slice s(buffer2);
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DataBlockHashIndex index;
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uint16_t map_offset;
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index.Initialize(s.data(), static_cast<uint16_t>(s.size()), &map_offset);
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// the additional hash map should start at the end of the buffer
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ASSERT_EQ(original_size, map_offset);
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for (uint8_t i = 0; i < 100; i++) {
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std::string key("key" + std::to_string(i));
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uint8_t restart_point = i;
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ASSERT_TRUE(
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SearchForOffset(index, s.data(), map_offset, key, restart_point));
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}
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}
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TEST(DataBlockHashIndex, DataBlockHashTestCollision) {
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// bucket_num = 2. There will be intense hash collisions
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DataBlockHashIndexBuilder builder;
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builder.Initialize(0.75 /*util_ratio*/);
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for (uint8_t i = 0; i < 100; i++) {
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std::string key("key" + std::to_string(i));
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uint8_t restart_point = i;
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builder.Add(key, restart_point);
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}
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size_t estimated_size = builder.EstimateSize();
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std::string buffer("some other fake content to take up space"), buffer2;
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size_t original_size = buffer.size();
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estimated_size += original_size;
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builder.Finish(buffer);
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ASSERT_EQ(buffer.size(), estimated_size);
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buffer2 = buffer; // test for the correctness of relative offset
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Slice s(buffer2);
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DataBlockHashIndex index;
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uint16_t map_offset;
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index.Initialize(s.data(), static_cast<uint16_t>(s.size()), &map_offset);
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// the additional hash map should start at the end of the buffer
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ASSERT_EQ(original_size, map_offset);
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for (uint8_t i = 0; i < 100; i++) {
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std::string key("key" + std::to_string(i));
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uint8_t restart_point = i;
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ASSERT_TRUE(
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SearchForOffset(index, s.data(), map_offset, key, restart_point));
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}
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}
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TEST(DataBlockHashIndex, DataBlockHashTestLarge) {
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DataBlockHashIndexBuilder builder;
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builder.Initialize(0.75 /*util_ratio*/);
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std::unordered_map<std::string, uint8_t> m;
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for (uint8_t i = 0; i < 100; i++) {
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if (i % 2) {
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continue; // leave half of the keys out
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}
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std::string key = "key" + std::to_string(i);
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uint8_t restart_point = i;
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builder.Add(key, restart_point);
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m[key] = restart_point;
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}
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size_t estimated_size = builder.EstimateSize();
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std::string buffer("filling stuff"), buffer2;
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size_t original_size = buffer.size();
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estimated_size += original_size;
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builder.Finish(buffer);
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ASSERT_EQ(buffer.size(), estimated_size);
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buffer2 = buffer; // test for the correctness of relative offset
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Slice s(buffer2);
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DataBlockHashIndex index;
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uint16_t map_offset;
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index.Initialize(s.data(), static_cast<uint16_t>(s.size()), &map_offset);
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// the additional hash map should start at the end of the buffer
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ASSERT_EQ(original_size, map_offset);
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for (uint8_t i = 0; i < 100; i++) {
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std::string key = "key" + std::to_string(i);
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uint8_t restart_point = i;
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if (m.count(key)) {
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ASSERT_TRUE(m[key] == restart_point);
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ASSERT_TRUE(
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SearchForOffset(index, s.data(), map_offset, key, restart_point));
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} else {
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// we allow false positve, so don't test the nonexisting keys.
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// when false positive happens, the search will continue to the
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// restart intervals to see if the key really exist.
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}
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}
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}
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TEST(DataBlockHashIndex, RestartIndexExceedMax) {
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DataBlockHashIndexBuilder builder;
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builder.Initialize(0.75 /*util_ratio*/);
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std::unordered_map<std::string, uint8_t> m;
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for (uint8_t i = 0; i <= 253; i++) {
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std::string key = "key" + std::to_string(i);
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uint8_t restart_point = i;
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builder.Add(key, restart_point);
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}
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ASSERT_TRUE(builder.Valid());
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builder.Reset();
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for (uint8_t i = 0; i <= 254; i++) {
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std::string key = "key" + std::to_string(i);
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uint8_t restart_point = i;
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builder.Add(key, restart_point);
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}
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ASSERT_FALSE(builder.Valid());
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builder.Reset();
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ASSERT_TRUE(builder.Valid());
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}
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TEST(DataBlockHashIndex, BlockRestartIndexExceedMax) {
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Options options = Options();
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BlockBuilder builder(1 /* block_restart_interval */,
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true /* use_delta_encoding */,
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false /* use_value_delta_encoding */,
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BlockBasedTableOptions::kDataBlockBinaryAndHash);
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// #restarts <= 253. HashIndex is valid
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for (int i = 0; i <= 253; i++) {
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std::string ukey = "key" + std::to_string(i);
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InternalKey ikey(ukey, 0, kTypeValue);
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builder.Add(ikey.Encode().ToString(), "value");
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}
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{
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// read serialized contents of the block
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Slice rawblock = builder.Finish();
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// create block reader
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BlockContents contents;
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contents.data = rawblock;
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Block reader(std::move(contents));
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ASSERT_EQ(reader.IndexType(),
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BlockBasedTableOptions::kDataBlockBinaryAndHash);
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}
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builder.Reset();
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// #restarts > 253. HashIndex is not used
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for (int i = 0; i <= 254; i++) {
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std::string ukey = "key" + std::to_string(i);
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InternalKey ikey(ukey, 0, kTypeValue);
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builder.Add(ikey.Encode().ToString(), "value");
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}
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{
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// read serialized contents of the block
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Slice rawblock = builder.Finish();
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// create block reader
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BlockContents contents;
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contents.data = rawblock;
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Block reader(std::move(contents));
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ASSERT_EQ(reader.IndexType(),
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BlockBasedTableOptions::kDataBlockBinarySearch);
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}
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}
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TEST(DataBlockHashIndex, BlockSizeExceedMax) {
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Options options = Options();
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std::string ukey(10, 'k');
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InternalKey ikey(ukey, 0, kTypeValue);
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BlockBuilder builder(1 /* block_restart_interval */,
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false /* use_delta_encoding */,
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false /* use_value_delta_encoding */,
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BlockBasedTableOptions::kDataBlockBinaryAndHash);
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{
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// insert a large value. The block size plus HashIndex is 65536.
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std::string value(65502, 'v');
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builder.Add(ikey.Encode().ToString(), value);
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// read serialized contents of the block
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Slice rawblock = builder.Finish();
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ASSERT_LE(rawblock.size(), kMaxBlockSizeSupportedByHashIndex);
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std::cerr << "block size: " << rawblock.size() << std::endl;
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// create block reader
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BlockContents contents;
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contents.data = rawblock;
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Block reader(std::move(contents));
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ASSERT_EQ(reader.IndexType(),
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BlockBasedTableOptions::kDataBlockBinaryAndHash);
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}
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builder.Reset();
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{
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// insert a large value. The block size plus HashIndex would be 65537.
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// This excceed the max block size supported by HashIndex (65536).
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// So when build finishes HashIndex will not be created for the block.
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std::string value(65503, 'v');
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builder.Add(ikey.Encode().ToString(), value);
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// read serialized contents of the block
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Slice rawblock = builder.Finish();
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ASSERT_LE(rawblock.size(), kMaxBlockSizeSupportedByHashIndex);
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std::cerr << "block size: " << rawblock.size() << std::endl;
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// create block reader
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BlockContents contents;
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contents.data = rawblock;
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Block reader(std::move(contents));
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// the index type have fallen back to binary when build finish.
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ASSERT_EQ(reader.IndexType(),
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BlockBasedTableOptions::kDataBlockBinarySearch);
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}
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}
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TEST(DataBlockHashIndex, BlockTestSingleKey) {
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Options options = Options();
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BlockBuilder builder(16 /* block_restart_interval */,
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true /* use_delta_encoding */,
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false /* use_value_delta_encoding */,
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BlockBasedTableOptions::kDataBlockBinaryAndHash);
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std::string ukey("gopher");
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std::string value("gold");
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InternalKey ikey(ukey, 10, kTypeValue);
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builder.Add(ikey.Encode().ToString(), value /*value*/);
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// read serialized contents of the block
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Slice rawblock = builder.Finish();
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// create block reader
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BlockContents contents;
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contents.data = rawblock;
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Block reader(std::move(contents));
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const InternalKeyComparator icmp(BytewiseComparator());
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auto iter = reader.NewDataIterator(icmp.user_comparator(),
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kDisableGlobalSequenceNumber);
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bool may_exist;
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// search in block for the key just inserted
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{
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InternalKey seek_ikey(ukey, 10, kValueTypeForSeek);
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may_exist = iter->SeekForGet(seek_ikey.Encode().ToString());
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ASSERT_TRUE(may_exist);
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ASSERT_TRUE(iter->Valid());
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ASSERT_EQ(
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options.comparator->Compare(iter->key(), ikey.Encode().ToString()), 0);
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ASSERT_EQ(iter->value(), value);
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}
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// search in block for the existing ukey, but with higher seqno
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{
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InternalKey seek_ikey(ukey, 20, kValueTypeForSeek);
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// HashIndex should be able to set the iter correctly
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may_exist = iter->SeekForGet(seek_ikey.Encode().ToString());
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ASSERT_TRUE(may_exist);
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ASSERT_TRUE(iter->Valid());
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// user key should match
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ASSERT_EQ(options.comparator->Compare(ExtractUserKey(iter->key()), ukey),
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0);
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// seek_key seqno number should be greater than that of iter result
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ASSERT_GT(GetInternalKeySeqno(seek_ikey.Encode()),
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GetInternalKeySeqno(iter->key()));
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ASSERT_EQ(iter->value(), value);
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}
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// Search in block for the existing ukey, but with lower seqno
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// in this case, hash can find the only occurrence of the user_key, but
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// ParseNextDataKey() will skip it as it does not have a older seqno.
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// In this case, GetForSeek() is effective to locate the user_key, and
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// iter->Valid() == false indicates that we've reached to the end of
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// the block and the caller should continue searching the next block.
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{
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InternalKey seek_ikey(ukey, 5, kValueTypeForSeek);
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may_exist = iter->SeekForGet(seek_ikey.Encode().ToString());
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ASSERT_TRUE(may_exist);
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ASSERT_FALSE(iter->Valid()); // should have reached to the end of block
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}
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delete iter;
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}
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TEST(DataBlockHashIndex, BlockTestLarge) {
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Random rnd(1019);
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Options options = Options();
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std::vector<std::string> keys;
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std::vector<std::string> values;
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BlockBuilder builder(16 /* block_restart_interval */,
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true /* use_delta_encoding */,
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false /* use_value_delta_encoding */,
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BlockBasedTableOptions::kDataBlockBinaryAndHash);
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int num_records = 500;
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GenerateRandomKVs(&keys, &values, 0, num_records);
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// Generate keys. Adding a trailing "1" to indicate existent keys.
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// Later will Seeking for keys with a trailing "0" to test seeking
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// non-existent keys.
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for (int i = 0; i < num_records; i++) {
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std::string ukey(keys[i] + "1" /* existing key marker */);
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InternalKey ikey(ukey, 0, kTypeValue);
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builder.Add(ikey.Encode().ToString(), values[i]);
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}
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// read serialized contents of the block
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Slice rawblock = builder.Finish();
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// create block reader
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BlockContents contents;
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contents.data = rawblock;
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Block reader(std::move(contents));
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const InternalKeyComparator icmp(BytewiseComparator());
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// random seek existent keys
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for (int i = 0; i < num_records; i++) {
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auto iter = reader.NewDataIterator(icmp.user_comparator(),
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kDisableGlobalSequenceNumber);
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// find a random key in the lookaside array
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int index = rnd.Uniform(num_records);
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std::string ukey(keys[index] + "1" /* existing key marker */);
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InternalKey ikey(ukey, 0, kTypeValue);
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// search in block for this key
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bool may_exist = iter->SeekForGet(ikey.Encode().ToString());
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ASSERT_TRUE(may_exist);
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ASSERT_TRUE(iter->Valid());
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ASSERT_EQ(values[index], iter->value());
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delete iter;
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}
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// random seek non-existent user keys
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// In this case A), the user_key cannot be found in HashIndex. The key may
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// exist in the next block. So the iter is set invalidated to tell the
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// caller to search the next block. This test case belongs to this case A).
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//
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// Note that for non-existent keys, there is possibility of false positive,
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// i.e. the key is still hashed into some restart interval.
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// Two additional possible outcome:
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// B) linear seek the restart interval and not found, the iter stops at the
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// starting of the next restart interval. The key does not exist
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// anywhere.
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// C) linear seek the restart interval and not found, the iter stops at the
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// the end of the block, i.e. restarts_. The key may exist in the next
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// block.
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// So these combinations are possible when searching non-existent user_key:
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//
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// case# may_exist iter->Valid()
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// A true false
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// B false true
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// C true false
|
|
|
|
for (int i = 0; i < num_records; i++) {
|
|
auto iter = reader.NewDataIterator(icmp.user_comparator(),
|
|
kDisableGlobalSequenceNumber);
|
|
// find a random key in the lookaside array
|
|
int index = rnd.Uniform(num_records);
|
|
std::string ukey(keys[index] + "0" /* non-existing key marker */);
|
|
InternalKey ikey(ukey, 0, kTypeValue);
|
|
|
|
// search in block for this key
|
|
bool may_exist = iter->SeekForGet(ikey.Encode().ToString());
|
|
if (!may_exist) {
|
|
ASSERT_TRUE(iter->Valid());
|
|
}
|
|
if (!iter->Valid()) {
|
|
ASSERT_TRUE(may_exist);
|
|
}
|
|
|
|
delete iter;
|
|
}
|
|
}
|
|
|
|
// helper routine for DataBlockHashIndex.BlockBoundary
|
|
void TestBoundary(InternalKey& ik1, std::string& v1, InternalKey& ik2,
|
|
std::string& v2, InternalKey& seek_ikey,
|
|
GetContext& get_context, Options& options) {
|
|
std::unique_ptr<WritableFileWriter> file_writer;
|
|
std::unique_ptr<RandomAccessFileReader> file_reader;
|
|
std::unique_ptr<TableReader> table_reader;
|
|
int level_ = -1;
|
|
|
|
std::vector<std::string> keys;
|
|
const ImmutableCFOptions ioptions(options);
|
|
const MutableCFOptions moptions(options);
|
|
const InternalKeyComparator internal_comparator(options.comparator);
|
|
|
|
EnvOptions soptions;
|
|
|
|
soptions.use_mmap_reads = ioptions.allow_mmap_reads;
|
|
test::StringSink* sink = new test::StringSink();
|
|
std::unique_ptr<FSWritableFile> f(sink);
|
|
file_writer.reset(
|
|
new WritableFileWriter(std::move(f), "" /* don't care */, FileOptions()));
|
|
std::unique_ptr<TableBuilder> builder;
|
|
std::vector<std::unique_ptr<IntTblPropCollectorFactory>>
|
|
int_tbl_prop_collector_factories;
|
|
std::string column_family_name;
|
|
builder.reset(ioptions.table_factory->NewTableBuilder(
|
|
TableBuilderOptions(
|
|
ioptions, moptions, internal_comparator,
|
|
&int_tbl_prop_collector_factories, options.compression,
|
|
CompressionOptions(), false /* skip_filters */,
|
|
TablePropertiesCollectorFactory::Context::kUnknownColumnFamily,
|
|
column_family_name, level_),
|
|
file_writer.get()));
|
|
|
|
builder->Add(ik1.Encode().ToString(), v1);
|
|
builder->Add(ik2.Encode().ToString(), v2);
|
|
EXPECT_TRUE(builder->status().ok());
|
|
|
|
Status s = builder->Finish();
|
|
file_writer->Flush();
|
|
EXPECT_TRUE(s.ok()) << s.ToString();
|
|
|
|
EXPECT_EQ(sink->contents().size(), builder->FileSize());
|
|
|
|
// Open the table
|
|
test::StringSource* source = new test::StringSource(
|
|
sink->contents(), 0 /*uniq_id*/, ioptions.allow_mmap_reads);
|
|
std::unique_ptr<FSRandomAccessFile> file(source);
|
|
file_reader.reset(new RandomAccessFileReader(std::move(file), "test"));
|
|
const bool kSkipFilters = true;
|
|
const bool kImmortal = true;
|
|
ASSERT_OK(ioptions.table_factory->NewTableReader(
|
|
TableReaderOptions(ioptions, moptions.prefix_extractor.get(), soptions,
|
|
internal_comparator, !kSkipFilters, !kImmortal,
|
|
level_),
|
|
std::move(file_reader), sink->contents().size(), &table_reader));
|
|
// Search using Get()
|
|
ReadOptions ro;
|
|
|
|
ASSERT_OK(table_reader->Get(ro, seek_ikey.Encode().ToString(), &get_context,
|
|
moptions.prefix_extractor.get()));
|
|
}
|
|
|
|
TEST(DataBlockHashIndex, BlockBoundary) {
|
|
BlockBasedTableOptions table_options;
|
|
table_options.data_block_index_type =
|
|
BlockBasedTableOptions::kDataBlockBinaryAndHash;
|
|
table_options.block_restart_interval = 1;
|
|
table_options.block_size = 4096;
|
|
|
|
Options options;
|
|
options.comparator = BytewiseComparator();
|
|
|
|
options.table_factory.reset(NewBlockBasedTableFactory(table_options));
|
|
|
|
// insert two large k/v pair. Given that the block_size is 4096, one k/v
|
|
// pair will take up one block.
|
|
// [ k1/v1 ][ k2/v2 ]
|
|
// [ Block N ][ Block N+1 ]
|
|
|
|
{
|
|
// [ "aab"@100 ][ "axy"@10 ]
|
|
// | Block N ][ Block N+1 ]
|
|
// seek for "axy"@60
|
|
std::string uk1("aab");
|
|
InternalKey ik1(uk1, 100, kTypeValue);
|
|
std::string v1(4100, '1'); // large value
|
|
|
|
std::string uk2("axy");
|
|
InternalKey ik2(uk2, 10, kTypeValue);
|
|
std::string v2(4100, '2'); // large value
|
|
|
|
PinnableSlice value;
|
|
std::string seek_ukey("axy");
|
|
InternalKey seek_ikey(seek_ukey, 60, kTypeValue);
|
|
GetContext get_context(options.comparator, nullptr, nullptr, nullptr,
|
|
GetContext::kNotFound, seek_ukey, &value, nullptr,
|
|
nullptr, true, nullptr, nullptr);
|
|
|
|
TestBoundary(ik1, v1, ik2, v2, seek_ikey, get_context, options);
|
|
ASSERT_EQ(get_context.State(), GetContext::kFound);
|
|
ASSERT_EQ(value, v2);
|
|
value.Reset();
|
|
}
|
|
|
|
{
|
|
// [ "axy"@100 ][ "axy"@10 ]
|
|
// | Block N ][ Block N+1 ]
|
|
// seek for "axy"@60
|
|
std::string uk1("axy");
|
|
InternalKey ik1(uk1, 100, kTypeValue);
|
|
std::string v1(4100, '1'); // large value
|
|
|
|
std::string uk2("axy");
|
|
InternalKey ik2(uk2, 10, kTypeValue);
|
|
std::string v2(4100, '2'); // large value
|
|
|
|
PinnableSlice value;
|
|
std::string seek_ukey("axy");
|
|
InternalKey seek_ikey(seek_ukey, 60, kTypeValue);
|
|
GetContext get_context(options.comparator, nullptr, nullptr, nullptr,
|
|
GetContext::kNotFound, seek_ukey, &value, nullptr,
|
|
nullptr, true, nullptr, nullptr);
|
|
|
|
TestBoundary(ik1, v1, ik2, v2, seek_ikey, get_context, options);
|
|
ASSERT_EQ(get_context.State(), GetContext::kFound);
|
|
ASSERT_EQ(value, v2);
|
|
value.Reset();
|
|
}
|
|
|
|
{
|
|
// [ "axy"@100 ][ "axy"@10 ]
|
|
// | Block N ][ Block N+1 ]
|
|
// seek for "axy"@120
|
|
std::string uk1("axy");
|
|
InternalKey ik1(uk1, 100, kTypeValue);
|
|
std::string v1(4100, '1'); // large value
|
|
|
|
std::string uk2("axy");
|
|
InternalKey ik2(uk2, 10, kTypeValue);
|
|
std::string v2(4100, '2'); // large value
|
|
|
|
PinnableSlice value;
|
|
std::string seek_ukey("axy");
|
|
InternalKey seek_ikey(seek_ukey, 120, kTypeValue);
|
|
GetContext get_context(options.comparator, nullptr, nullptr, nullptr,
|
|
GetContext::kNotFound, seek_ukey, &value, nullptr,
|
|
nullptr, true, nullptr, nullptr);
|
|
|
|
TestBoundary(ik1, v1, ik2, v2, seek_ikey, get_context, options);
|
|
ASSERT_EQ(get_context.State(), GetContext::kFound);
|
|
ASSERT_EQ(value, v1);
|
|
value.Reset();
|
|
}
|
|
|
|
{
|
|
// [ "axy"@100 ][ "axy"@10 ]
|
|
// | Block N ][ Block N+1 ]
|
|
// seek for "axy"@5
|
|
std::string uk1("axy");
|
|
InternalKey ik1(uk1, 100, kTypeValue);
|
|
std::string v1(4100, '1'); // large value
|
|
|
|
std::string uk2("axy");
|
|
InternalKey ik2(uk2, 10, kTypeValue);
|
|
std::string v2(4100, '2'); // large value
|
|
|
|
PinnableSlice value;
|
|
std::string seek_ukey("axy");
|
|
InternalKey seek_ikey(seek_ukey, 5, kTypeValue);
|
|
GetContext get_context(options.comparator, nullptr, nullptr, nullptr,
|
|
GetContext::kNotFound, seek_ukey, &value, nullptr,
|
|
nullptr, true, nullptr, nullptr);
|
|
|
|
TestBoundary(ik1, v1, ik2, v2, seek_ikey, get_context, options);
|
|
ASSERT_EQ(get_context.State(), GetContext::kNotFound);
|
|
value.Reset();
|
|
}
|
|
}
|
|
|
|
} // namespace ROCKSDB_NAMESPACE
|
|
|
|
int main(int argc, char** argv) {
|
|
::testing::InitGoogleTest(&argc, argv);
|
|
return RUN_ALL_TESTS();
|
|
}
|
|
|