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rocksdb/db/blob/blob_source_test.cc
Peter Dillinger ccaa3225b0 Simplify tracking entries already in SecondaryCache (#11299) 
Summary:
In preparation for factoring secondary cache support out of individual Cache implementations, we can get rid of the "in secondary cache" flag on entries through a workable hack: when an entry is promoted from secondary, it is inserted in primary using a helper that lacks secondary cache support, thus preventing re-insertion into secondary cache through existing logic.

This adds to the complexity of building CacheItemHelpers, because you always have to be able to get to an equivalent helper without secondary cache support, but that complexity is reasonably isolated within RocksDB typed_cache.h and test code.

gcc-7 seems to have problems with constexpr constructor referencing `this` so removed constexpr support on CacheItemHelper.

Also refactored some related test code to share common code / functionality.

Pull Request resolved: https://github.com/facebook/rocksdb/pull/11299

Test Plan: existing tests

Reviewed By: anand1976

Differential Revision: D44101453

Pulled By: pdillinger

fbshipit-source-id: 7a59d0a3938ee40159c90c3e65d7004f6a272345
2023-03-15 17:51:44 -07:00

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// Copyright (c) Meta Platforms, Inc. and affiliates.
// 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 "db/blob/blob_source.h"
#include <cassert>
#include <cstdint>
#include <cstdio>
#include <memory>
#include <string>
#include "cache/charged_cache.h"
#include "cache/compressed_secondary_cache.h"
#include "db/blob/blob_contents.h"
#include "db/blob/blob_file_cache.h"
#include "db/blob/blob_file_reader.h"
#include "db/blob/blob_log_format.h"
#include "db/blob/blob_log_writer.h"
#include "db/db_test_util.h"
#include "file/filename.h"
#include "file/read_write_util.h"
#include "options/cf_options.h"
#include "rocksdb/options.h"
#include "util/compression.h"
#include "util/random.h"
namespace ROCKSDB_NAMESPACE {
namespace {
// Creates a test blob file with `num` blobs in it.
void WriteBlobFile(const ImmutableOptions& immutable_options,
uint32_t column_family_id, bool has_ttl,
const ExpirationRange& expiration_range_header,
const ExpirationRange& expiration_range_footer,
uint64_t blob_file_number, const std::vector<Slice>& keys,
const std::vector<Slice>& blobs, CompressionType compression,
std::vector<uint64_t>& blob_offsets,
std::vector<uint64_t>& blob_sizes) {
assert(!immutable_options.cf_paths.empty());
size_t num = keys.size();
assert(num == blobs.size());
assert(num == blob_offsets.size());
assert(num == blob_sizes.size());
const std::string blob_file_path =
BlobFileName(immutable_options.cf_paths.front().path, blob_file_number);
std::unique_ptr<FSWritableFile> file;
ASSERT_OK(NewWritableFile(immutable_options.fs.get(), blob_file_path, &file,
FileOptions()));
std::unique_ptr<WritableFileWriter> file_writer(new WritableFileWriter(
std::move(file), blob_file_path, FileOptions(), immutable_options.clock));
constexpr Statistics* statistics = nullptr;
constexpr bool use_fsync = false;
constexpr bool do_flush = false;
BlobLogWriter blob_log_writer(std::move(file_writer), immutable_options.clock,
statistics, blob_file_number, use_fsync,
do_flush);
BlobLogHeader header(column_family_id, compression, has_ttl,
expiration_range_header);
ASSERT_OK(blob_log_writer.WriteHeader(header));
std::vector<std::string> compressed_blobs(num);
std::vector<Slice> blobs_to_write(num);
if (kNoCompression == compression) {
for (size_t i = 0; i < num; ++i) {
blobs_to_write[i] = blobs[i];
blob_sizes[i] = blobs[i].size();
}
} else {
CompressionOptions opts;
CompressionContext context(compression);
constexpr uint64_t sample_for_compression = 0;
CompressionInfo info(opts, context, CompressionDict::GetEmptyDict(),
compression, sample_for_compression);
constexpr uint32_t compression_format_version = 2;
for (size_t i = 0; i < num; ++i) {
ASSERT_TRUE(CompressData(blobs[i], info, compression_format_version,
&compressed_blobs[i]));
blobs_to_write[i] = compressed_blobs[i];
blob_sizes[i] = compressed_blobs[i].size();
}
}
for (size_t i = 0; i < num; ++i) {
uint64_t key_offset = 0;
ASSERT_OK(blob_log_writer.AddRecord(keys[i], blobs_to_write[i], &key_offset,
&blob_offsets[i]));
}
BlobLogFooter footer;
footer.blob_count = num;
footer.expiration_range = expiration_range_footer;
std::string checksum_method;
std::string checksum_value;
ASSERT_OK(
blob_log_writer.AppendFooter(footer, &checksum_method, &checksum_value));
}
} // anonymous namespace
class BlobSourceTest : public DBTestBase {
protected:
public:
explicit BlobSourceTest()
: DBTestBase("blob_source_test", /*env_do_fsync=*/true) {
options_.env = env_;
options_.enable_blob_files = true;
options_.create_if_missing = true;
LRUCacheOptions co;
co.capacity = 8 << 20;
co.num_shard_bits = 2;
co.metadata_charge_policy = kDontChargeCacheMetadata;
co.high_pri_pool_ratio = 0.2;
co.low_pri_pool_ratio = 0.2;
options_.blob_cache = NewLRUCache(co);
options_.lowest_used_cache_tier = CacheTier::kVolatileTier;
assert(db_->GetDbIdentity(db_id_).ok());
assert(db_->GetDbSessionId(db_session_id_).ok());
}
Options options_;
std::string db_id_;
std::string db_session_id_;
};
TEST_F(BlobSourceTest, GetBlobsFromCache) {
options_.cf_paths.emplace_back(
test::PerThreadDBPath(env_, "BlobSourceTest_GetBlobsFromCache"), 0);
options_.statistics = CreateDBStatistics();
Statistics* statistics = options_.statistics.get();
assert(statistics);
DestroyAndReopen(options_);
ImmutableOptions immutable_options(options_);
constexpr uint32_t column_family_id = 1;
constexpr bool has_ttl = false;
constexpr ExpirationRange expiration_range;
constexpr uint64_t blob_file_number = 1;
constexpr size_t num_blobs = 16;
std::vector<std::string> key_strs;
std::vector<std::string> blob_strs;
for (size_t i = 0; i < num_blobs; ++i) {
key_strs.push_back("key" + std::to_string(i));
blob_strs.push_back("blob" + std::to_string(i));
}
std::vector<Slice> keys;
std::vector<Slice> blobs;
uint64_t file_size = BlobLogHeader::kSize;
for (size_t i = 0; i < num_blobs; ++i) {
keys.push_back({key_strs[i]});
blobs.push_back({blob_strs[i]});
file_size += BlobLogRecord::kHeaderSize + keys[i].size() + blobs[i].size();
}
file_size += BlobLogFooter::kSize;
std::vector<uint64_t> blob_offsets(keys.size());
std::vector<uint64_t> blob_sizes(keys.size());
WriteBlobFile(immutable_options, column_family_id, has_ttl, expiration_range,
expiration_range, blob_file_number, keys, blobs, kNoCompression,
blob_offsets, blob_sizes);
constexpr size_t capacity = 1024;
std::shared_ptr<Cache> backing_cache =
NewLRUCache(capacity); // Blob file cache
FileOptions file_options;
constexpr HistogramImpl* blob_file_read_hist = nullptr;
std::unique_ptr<BlobFileCache> blob_file_cache =
std::make_unique<BlobFileCache>(
backing_cache.get(), &immutable_options, &file_options,
column_family_id, blob_file_read_hist, nullptr /*IOTracer*/);
BlobSource blob_source(&immutable_options, db_id_, db_session_id_,
blob_file_cache.get());
ReadOptions read_options;
read_options.verify_checksums = true;
constexpr FilePrefetchBuffer* prefetch_buffer = nullptr;
{
// GetBlob
std::vector<PinnableSlice> values(keys.size());
uint64_t bytes_read = 0;
uint64_t blob_bytes = 0;
uint64_t total_bytes = 0;
read_options.fill_cache = false;
get_perf_context()->Reset();
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_FALSE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
ASSERT_OK(blob_source.GetBlob(read_options, keys[i], blob_file_number,
blob_offsets[i], file_size, blob_sizes[i],
kNoCompression, prefetch_buffer, &values[i],
&bytes_read));
ASSERT_EQ(values[i], blobs[i]);
ASSERT_TRUE(values[i].IsPinned());
ASSERT_EQ(bytes_read,
BlobLogRecord::kHeaderSize + keys[i].size() + blob_sizes[i]);
ASSERT_FALSE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
total_bytes += bytes_read;
}
// Retrieved the blob cache num_blobs * 3 times via TEST_BlobInCache,
// GetBlob, and TEST_BlobInCache.
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, 0);
ASSERT_EQ((int)get_perf_context()->blob_read_count, num_blobs);
ASSERT_EQ((int)get_perf_context()->blob_read_byte, total_bytes);
ASSERT_GE((int)get_perf_context()->blob_checksum_time, 0);
ASSERT_EQ((int)get_perf_context()->blob_decompress_time, 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), num_blobs * 3);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE), 0);
read_options.fill_cache = true;
blob_bytes = 0;
total_bytes = 0;
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_FALSE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
ASSERT_OK(blob_source.GetBlob(read_options, keys[i], blob_file_number,
blob_offsets[i], file_size, blob_sizes[i],
kNoCompression, prefetch_buffer, &values[i],
&bytes_read));
ASSERT_EQ(values[i], blobs[i]);
ASSERT_TRUE(values[i].IsPinned());
ASSERT_EQ(bytes_read,
BlobLogRecord::kHeaderSize + keys[i].size() + blob_sizes[i]);
blob_bytes += blob_sizes[i];
total_bytes += bytes_read;
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, i);
ASSERT_EQ((int)get_perf_context()->blob_read_count, i + 1);
ASSERT_EQ((int)get_perf_context()->blob_read_byte, total_bytes);
ASSERT_TRUE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, i + 1);
ASSERT_EQ((int)get_perf_context()->blob_read_count, i + 1);
ASSERT_EQ((int)get_perf_context()->blob_read_byte, total_bytes);
}
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, num_blobs);
ASSERT_EQ((int)get_perf_context()->blob_read_count, num_blobs);
ASSERT_EQ((int)get_perf_context()->blob_read_byte, total_bytes);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), num_blobs * 2);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT), num_blobs);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), num_blobs);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ), blob_bytes);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE),
blob_bytes);
read_options.fill_cache = true;
total_bytes = 0;
blob_bytes = 0;
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_TRUE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
ASSERT_OK(blob_source.GetBlob(read_options, keys[i], blob_file_number,
blob_offsets[i], file_size, blob_sizes[i],
kNoCompression, prefetch_buffer, &values[i],
&bytes_read));
ASSERT_EQ(values[i], blobs[i]);
ASSERT_TRUE(values[i].IsPinned());
ASSERT_EQ(bytes_read,
BlobLogRecord::kHeaderSize + keys[i].size() + blob_sizes[i]);
ASSERT_TRUE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
total_bytes += bytes_read; // on-disk blob record size
blob_bytes += blob_sizes[i]; // cached blob value size
}
// Retrieved the blob cache num_blobs * 3 times via TEST_BlobInCache,
// GetBlob, and TEST_BlobInCache.
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, num_blobs * 3);
ASSERT_EQ((int)get_perf_context()->blob_read_count, 0); // without i/o
ASSERT_EQ((int)get_perf_context()->blob_read_byte, 0); // without i/o
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT), num_blobs * 3);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ),
blob_bytes * 3);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE), 0);
// Cache-only GetBlob
read_options.read_tier = ReadTier::kBlockCacheTier;
total_bytes = 0;
blob_bytes = 0;
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_TRUE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
ASSERT_OK(blob_source.GetBlob(read_options, keys[i], blob_file_number,
blob_offsets[i], file_size, blob_sizes[i],
kNoCompression, prefetch_buffer, &values[i],
&bytes_read));
ASSERT_EQ(values[i], blobs[i]);
ASSERT_TRUE(values[i].IsPinned());
ASSERT_EQ(bytes_read,
BlobLogRecord::kHeaderSize + keys[i].size() + blob_sizes[i]);
ASSERT_TRUE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
total_bytes += bytes_read;
blob_bytes += blob_sizes[i];
}
// Retrieved the blob cache num_blobs * 3 times via TEST_BlobInCache,
// GetBlob, and TEST_BlobInCache.
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, num_blobs * 3);
ASSERT_EQ((int)get_perf_context()->blob_read_count, 0); // without i/o
ASSERT_EQ((int)get_perf_context()->blob_read_byte, 0); // without i/o
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT), num_blobs * 3);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ),
blob_bytes * 3);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE), 0);
}
options_.blob_cache->EraseUnRefEntries();
{
// Cache-only GetBlob
std::vector<PinnableSlice> values(keys.size());
uint64_t bytes_read = 0;
read_options.read_tier = ReadTier::kBlockCacheTier;
read_options.fill_cache = true;
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_FALSE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
ASSERT_TRUE(blob_source
.GetBlob(read_options, keys[i], blob_file_number,
blob_offsets[i], file_size, blob_sizes[i],
kNoCompression, prefetch_buffer, &values[i],
&bytes_read)
.IsIncomplete());
ASSERT_TRUE(values[i].empty());
ASSERT_FALSE(values[i].IsPinned());
ASSERT_EQ(bytes_read, 0);
ASSERT_FALSE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
}
// Retrieved the blob cache num_blobs * 3 times via TEST_BlobInCache,
// GetBlob, and TEST_BlobInCache.
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, 0);
ASSERT_EQ((int)get_perf_context()->blob_read_count, 0);
ASSERT_EQ((int)get_perf_context()->blob_read_byte, 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), num_blobs * 3);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE), 0);
}
{
// GetBlob from non-existing file
std::vector<PinnableSlice> values(keys.size());
uint64_t bytes_read = 0;
uint64_t file_number = 100; // non-existing file
read_options.read_tier = ReadTier::kReadAllTier;
read_options.fill_cache = true;
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_FALSE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[i]));
ASSERT_TRUE(blob_source
.GetBlob(read_options, keys[i], file_number,
blob_offsets[i], file_size, blob_sizes[i],
kNoCompression, prefetch_buffer, &values[i],
&bytes_read)
.IsIOError());
ASSERT_TRUE(values[i].empty());
ASSERT_FALSE(values[i].IsPinned());
ASSERT_EQ(bytes_read, 0);
ASSERT_FALSE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[i]));
}
// Retrieved the blob cache num_blobs * 3 times via TEST_BlobInCache,
// GetBlob, and TEST_BlobInCache.
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, 0);
ASSERT_EQ((int)get_perf_context()->blob_read_count, 0);
ASSERT_EQ((int)get_perf_context()->blob_read_byte, 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), num_blobs * 3);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE), 0);
}
}
TEST_F(BlobSourceTest, GetCompressedBlobs) {
if (!Snappy_Supported()) {
return;
}
const CompressionType compression = kSnappyCompression;
options_.cf_paths.emplace_back(
test::PerThreadDBPath(env_, "BlobSourceTest_GetCompressedBlobs"), 0);
DestroyAndReopen(options_);
ImmutableOptions immutable_options(options_);
constexpr uint32_t column_family_id = 1;
constexpr bool has_ttl = false;
constexpr ExpirationRange expiration_range;
constexpr size_t num_blobs = 256;
std::vector<std::string> key_strs;
std::vector<std::string> blob_strs;
for (size_t i = 0; i < num_blobs; ++i) {
key_strs.push_back("key" + std::to_string(i));
blob_strs.push_back("blob" + std::to_string(i));
}
std::vector<Slice> keys;
std::vector<Slice> blobs;
for (size_t i = 0; i < num_blobs; ++i) {
keys.push_back({key_strs[i]});
blobs.push_back({blob_strs[i]});
}
std::vector<uint64_t> blob_offsets(keys.size());
std::vector<uint64_t> blob_sizes(keys.size());
constexpr size_t capacity = 1024;
auto backing_cache = NewLRUCache(capacity); // Blob file cache
FileOptions file_options;
std::unique_ptr<BlobFileCache> blob_file_cache =
std::make_unique<BlobFileCache>(
backing_cache.get(), &immutable_options, &file_options,
column_family_id, nullptr /*HistogramImpl*/, nullptr /*IOTracer*/);
BlobSource blob_source(&immutable_options, db_id_, db_session_id_,
blob_file_cache.get());
ReadOptions read_options;
read_options.verify_checksums = true;
uint64_t bytes_read = 0;
std::vector<PinnableSlice> values(keys.size());
{
// Snappy Compression
const uint64_t file_number = 1;
read_options.read_tier = ReadTier::kReadAllTier;
WriteBlobFile(immutable_options, column_family_id, has_ttl,
expiration_range, expiration_range, file_number, keys, blobs,
compression, blob_offsets, blob_sizes);
CacheHandleGuard<BlobFileReader> blob_file_reader;
ASSERT_OK(blob_source.GetBlobFileReader(file_number, &blob_file_reader));
ASSERT_NE(blob_file_reader.GetValue(), nullptr);
const uint64_t file_size = blob_file_reader.GetValue()->GetFileSize();
ASSERT_EQ(blob_file_reader.GetValue()->GetCompressionType(), compression);
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_NE(blobs[i].size() /*uncompressed size*/,
blob_sizes[i] /*compressed size*/);
}
read_options.fill_cache = true;
read_options.read_tier = ReadTier::kReadAllTier;
get_perf_context()->Reset();
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_FALSE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[i]));
ASSERT_OK(blob_source.GetBlob(read_options, keys[i], file_number,
blob_offsets[i], file_size, blob_sizes[i],
compression, nullptr /*prefetch_buffer*/,
&values[i], &bytes_read));
ASSERT_EQ(values[i], blobs[i] /*uncompressed blob*/);
ASSERT_NE(values[i].size(), blob_sizes[i] /*compressed size*/);
ASSERT_EQ(bytes_read,
BlobLogRecord::kHeaderSize + keys[i].size() + blob_sizes[i]);
ASSERT_TRUE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[i]));
}
ASSERT_GE((int)get_perf_context()->blob_decompress_time, 0);
read_options.read_tier = ReadTier::kBlockCacheTier;
get_perf_context()->Reset();
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_TRUE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[i]));
// Compressed blob size is passed in GetBlob
ASSERT_OK(blob_source.GetBlob(read_options, keys[i], file_number,
blob_offsets[i], file_size, blob_sizes[i],
compression, nullptr /*prefetch_buffer*/,
&values[i], &bytes_read));
ASSERT_EQ(values[i], blobs[i] /*uncompressed blob*/);
ASSERT_NE(values[i].size(), blob_sizes[i] /*compressed size*/);
ASSERT_EQ(bytes_read,
BlobLogRecord::kHeaderSize + keys[i].size() + blob_sizes[i]);
ASSERT_TRUE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[i]));
}
ASSERT_EQ((int)get_perf_context()->blob_decompress_time, 0);
}
}
TEST_F(BlobSourceTest, MultiGetBlobsFromMultiFiles) {
options_.cf_paths.emplace_back(
test::PerThreadDBPath(env_, "BlobSourceTest_MultiGetBlobsFromMultiFiles"),
0);
options_.statistics = CreateDBStatistics();
Statistics* statistics = options_.statistics.get();
assert(statistics);
DestroyAndReopen(options_);
ImmutableOptions immutable_options(options_);
constexpr uint32_t column_family_id = 1;
constexpr bool has_ttl = false;
constexpr ExpirationRange expiration_range;
constexpr uint64_t blob_files = 2;
constexpr size_t num_blobs = 32;
std::vector<std::string> key_strs;
std::vector<std::string> blob_strs;
for (size_t i = 0; i < num_blobs; ++i) {
key_strs.push_back("key" + std::to_string(i));
blob_strs.push_back("blob" + std::to_string(i));
}
std::vector<Slice> keys;
std::vector<Slice> blobs;
uint64_t file_size = BlobLogHeader::kSize;
uint64_t blob_value_bytes = 0;
for (size_t i = 0; i < num_blobs; ++i) {
keys.push_back({key_strs[i]});
blobs.push_back({blob_strs[i]});
blob_value_bytes += blobs[i].size();
file_size += BlobLogRecord::kHeaderSize + keys[i].size() + blobs[i].size();
}
file_size += BlobLogFooter::kSize;
const uint64_t blob_records_bytes =
file_size - BlobLogHeader::kSize - BlobLogFooter::kSize;
std::vector<uint64_t> blob_offsets(keys.size());
std::vector<uint64_t> blob_sizes(keys.size());
{
// Write key/blob pairs to multiple blob files.
for (size_t i = 0; i < blob_files; ++i) {
const uint64_t file_number = i + 1;
WriteBlobFile(immutable_options, column_family_id, has_ttl,
expiration_range, expiration_range, file_number, keys,
blobs, kNoCompression, blob_offsets, blob_sizes);
}
}
constexpr size_t capacity = 10;
std::shared_ptr<Cache> backing_cache =
NewLRUCache(capacity); // Blob file cache
FileOptions file_options;
constexpr HistogramImpl* blob_file_read_hist = nullptr;
std::unique_ptr<BlobFileCache> blob_file_cache =
std::make_unique<BlobFileCache>(
backing_cache.get(), &immutable_options, &file_options,
column_family_id, blob_file_read_hist, nullptr /*IOTracer*/);
BlobSource blob_source(&immutable_options, db_id_, db_session_id_,
blob_file_cache.get());
ReadOptions read_options;
read_options.verify_checksums = true;
uint64_t bytes_read = 0;
{
// MultiGetBlob
read_options.fill_cache = true;
read_options.read_tier = ReadTier::kReadAllTier;
autovector<BlobFileReadRequests> blob_reqs;
std::array<autovector<BlobReadRequest>, blob_files> blob_reqs_in_file;
std::array<PinnableSlice, num_blobs * blob_files> value_buf;
std::array<Status, num_blobs * blob_files> statuses_buf;
for (size_t i = 0; i < blob_files; ++i) {
const uint64_t file_number = i + 1;
for (size_t j = 0; j < num_blobs; ++j) {
blob_reqs_in_file[i].emplace_back(
keys[j], blob_offsets[j], blob_sizes[j], kNoCompression,
&value_buf[i * num_blobs + j], &statuses_buf[i * num_blobs + j]);
}
blob_reqs.emplace_back(file_number, file_size, blob_reqs_in_file[i]);
}
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
blob_source.MultiGetBlob(read_options, blob_reqs, &bytes_read);
for (size_t i = 0; i < blob_files; ++i) {
const uint64_t file_number = i + 1;
for (size_t j = 0; j < num_blobs; ++j) {
ASSERT_OK(statuses_buf[i * num_blobs + j]);
ASSERT_EQ(value_buf[i * num_blobs + j], blobs[j]);
ASSERT_TRUE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[j]));
}
}
// Retrieved all blobs from 2 blob files twice via MultiGetBlob and
// TEST_BlobInCache.
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count,
num_blobs * blob_files);
ASSERT_EQ((int)get_perf_context()->blob_read_count,
num_blobs * blob_files); // blocking i/o
ASSERT_EQ((int)get_perf_context()->blob_read_byte,
blob_records_bytes * blob_files); // blocking i/o
ASSERT_GE((int)get_perf_context()->blob_checksum_time, 0);
ASSERT_EQ((int)get_perf_context()->blob_decompress_time, 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS),
num_blobs * blob_files); // MultiGetBlob
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT),
num_blobs * blob_files); // TEST_BlobInCache
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD),
num_blobs * blob_files); // MultiGetBlob
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ),
blob_value_bytes * blob_files); // TEST_BlobInCache
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE),
blob_value_bytes * blob_files); // MultiGetBlob
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
autovector<BlobReadRequest> fake_blob_reqs_in_file;
std::array<PinnableSlice, num_blobs> fake_value_buf;
std::array<Status, num_blobs> fake_statuses_buf;
const uint64_t fake_file_number = 100;
for (size_t i = 0; i < num_blobs; ++i) {
fake_blob_reqs_in_file.emplace_back(
keys[i], blob_offsets[i], blob_sizes[i], kNoCompression,
&fake_value_buf[i], &fake_statuses_buf[i]);
}
// Add a fake multi-get blob request.
blob_reqs.emplace_back(fake_file_number, file_size, fake_blob_reqs_in_file);
blob_source.MultiGetBlob(read_options, blob_reqs, &bytes_read);
// Check the real blob read requests.
for (size_t i = 0; i < blob_files; ++i) {
const uint64_t file_number = i + 1;
for (size_t j = 0; j < num_blobs; ++j) {
ASSERT_OK(statuses_buf[i * num_blobs + j]);
ASSERT_EQ(value_buf[i * num_blobs + j], blobs[j]);
ASSERT_TRUE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[j]));
}
}
// Check the fake blob request.
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_TRUE(fake_statuses_buf[i].IsIOError());
ASSERT_TRUE(fake_value_buf[i].empty());
ASSERT_FALSE(blob_source.TEST_BlobInCache(fake_file_number, file_size,
blob_offsets[i]));
}
// Retrieved all blobs from 3 blob files (including the fake one) twice
// via MultiGetBlob and TEST_BlobInCache.
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count,
num_blobs * blob_files * 2);
ASSERT_EQ((int)get_perf_context()->blob_read_count,
0); // blocking i/o
ASSERT_EQ((int)get_perf_context()->blob_read_byte,
0); // blocking i/o
ASSERT_GE((int)get_perf_context()->blob_checksum_time, 0);
ASSERT_EQ((int)get_perf_context()->blob_decompress_time, 0);
// Fake blob requests: MultiGetBlob and TEST_BlobInCache
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), num_blobs * 2);
// Real blob requests: MultiGetBlob and TEST_BlobInCache
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT),
num_blobs * blob_files * 2);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), 0);
// Real blob requests: MultiGetBlob and TEST_BlobInCache
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ),
blob_value_bytes * blob_files * 2);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE), 0);
}
}
TEST_F(BlobSourceTest, MultiGetBlobsFromCache) {
options_.cf_paths.emplace_back(
test::PerThreadDBPath(env_, "BlobSourceTest_MultiGetBlobsFromCache"), 0);
options_.statistics = CreateDBStatistics();
Statistics* statistics = options_.statistics.get();
assert(statistics);
DestroyAndReopen(options_);
ImmutableOptions immutable_options(options_);
constexpr uint32_t column_family_id = 1;
constexpr bool has_ttl = false;
constexpr ExpirationRange expiration_range;
constexpr uint64_t blob_file_number = 1;
constexpr size_t num_blobs = 16;
std::vector<std::string> key_strs;
std::vector<std::string> blob_strs;
for (size_t i = 0; i < num_blobs; ++i) {
key_strs.push_back("key" + std::to_string(i));
blob_strs.push_back("blob" + std::to_string(i));
}
std::vector<Slice> keys;
std::vector<Slice> blobs;
uint64_t file_size = BlobLogHeader::kSize;
for (size_t i = 0; i < num_blobs; ++i) {
keys.push_back({key_strs[i]});
blobs.push_back({blob_strs[i]});
file_size += BlobLogRecord::kHeaderSize + keys[i].size() + blobs[i].size();
}
file_size += BlobLogFooter::kSize;
std::vector<uint64_t> blob_offsets(keys.size());
std::vector<uint64_t> blob_sizes(keys.size());
WriteBlobFile(immutable_options, column_family_id, has_ttl, expiration_range,
expiration_range, blob_file_number, keys, blobs, kNoCompression,
blob_offsets, blob_sizes);
constexpr size_t capacity = 10;
std::shared_ptr<Cache> backing_cache =
NewLRUCache(capacity); // Blob file cache
FileOptions file_options;
constexpr HistogramImpl* blob_file_read_hist = nullptr;
std::unique_ptr<BlobFileCache> blob_file_cache =
std::make_unique<BlobFileCache>(
backing_cache.get(), &immutable_options, &file_options,
column_family_id, blob_file_read_hist, nullptr /*IOTracer*/);
BlobSource blob_source(&immutable_options, db_id_, db_session_id_,
blob_file_cache.get());
ReadOptions read_options;
read_options.verify_checksums = true;
constexpr FilePrefetchBuffer* prefetch_buffer = nullptr;
{
// MultiGetBlobFromOneFile
uint64_t bytes_read = 0;
std::array<Status, num_blobs> statuses_buf;
std::array<PinnableSlice, num_blobs> value_buf;
autovector<BlobReadRequest> blob_reqs;
for (size_t i = 0; i < num_blobs; i += 2) { // even index
blob_reqs.emplace_back(keys[i], blob_offsets[i], blob_sizes[i],
kNoCompression, &value_buf[i], &statuses_buf[i]);
ASSERT_FALSE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
}
read_options.fill_cache = true;
read_options.read_tier = ReadTier::kReadAllTier;
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
// Get half of blobs
blob_source.MultiGetBlobFromOneFile(read_options, blob_file_number,
file_size, blob_reqs, &bytes_read);
uint64_t fs_read_bytes = 0;
uint64_t ca_read_bytes = 0;
for (size_t i = 0; i < num_blobs; ++i) {
if (i % 2 == 0) {
ASSERT_OK(statuses_buf[i]);
ASSERT_EQ(value_buf[i], blobs[i]);
ASSERT_TRUE(value_buf[i].IsPinned());
fs_read_bytes +=
blob_sizes[i] + keys[i].size() + BlobLogRecord::kHeaderSize;
ASSERT_TRUE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
ca_read_bytes += blob_sizes[i];
} else {
statuses_buf[i].PermitUncheckedError();
ASSERT_TRUE(value_buf[i].empty());
ASSERT_FALSE(value_buf[i].IsPinned());
ASSERT_FALSE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
}
}
constexpr int num_even_blobs = num_blobs / 2;
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, num_even_blobs);
ASSERT_EQ((int)get_perf_context()->blob_read_count,
num_even_blobs); // blocking i/o
ASSERT_EQ((int)get_perf_context()->blob_read_byte,
fs_read_bytes); // blocking i/o
ASSERT_GE((int)get_perf_context()->blob_checksum_time, 0);
ASSERT_EQ((int)get_perf_context()->blob_decompress_time, 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), num_blobs);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT), num_even_blobs);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), num_even_blobs);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ),
ca_read_bytes);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE),
ca_read_bytes);
// Get the rest of blobs
for (size_t i = 1; i < num_blobs; i += 2) { // odd index
ASSERT_FALSE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
ASSERT_OK(blob_source.GetBlob(read_options, keys[i], blob_file_number,
blob_offsets[i], file_size, blob_sizes[i],
kNoCompression, prefetch_buffer,
&value_buf[i], &bytes_read));
ASSERT_EQ(value_buf[i], blobs[i]);
ASSERT_TRUE(value_buf[i].IsPinned());
ASSERT_EQ(bytes_read,
BlobLogRecord::kHeaderSize + keys[i].size() + blob_sizes[i]);
ASSERT_TRUE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
}
// Cache-only MultiGetBlobFromOneFile
read_options.read_tier = ReadTier::kBlockCacheTier;
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
blob_reqs.clear();
for (size_t i = 0; i < num_blobs; ++i) {
blob_reqs.emplace_back(keys[i], blob_offsets[i], blob_sizes[i],
kNoCompression, &value_buf[i], &statuses_buf[i]);
}
blob_source.MultiGetBlobFromOneFile(read_options, blob_file_number,
file_size, blob_reqs, &bytes_read);
uint64_t blob_bytes = 0;
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_OK(statuses_buf[i]);
ASSERT_EQ(value_buf[i], blobs[i]);
ASSERT_TRUE(value_buf[i].IsPinned());
ASSERT_TRUE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
blob_bytes += blob_sizes[i];
}
// Retrieved the blob cache num_blobs * 2 times via GetBlob and
// TEST_BlobInCache.
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, num_blobs * 2);
ASSERT_EQ((int)get_perf_context()->blob_read_count, 0); // blocking i/o
ASSERT_EQ((int)get_perf_context()->blob_read_byte, 0); // blocking i/o
ASSERT_GE((int)get_perf_context()->blob_checksum_time, 0);
ASSERT_EQ((int)get_perf_context()->blob_decompress_time, 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT), num_blobs * 2);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ),
blob_bytes * 2);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE), 0);
}
options_.blob_cache->EraseUnRefEntries();
{
// Cache-only MultiGetBlobFromOneFile
uint64_t bytes_read = 0;
read_options.read_tier = ReadTier::kBlockCacheTier;
std::array<Status, num_blobs> statuses_buf;
std::array<PinnableSlice, num_blobs> value_buf;
autovector<BlobReadRequest> blob_reqs;
for (size_t i = 0; i < num_blobs; i++) {
blob_reqs.emplace_back(keys[i], blob_offsets[i], blob_sizes[i],
kNoCompression, &value_buf[i], &statuses_buf[i]);
ASSERT_FALSE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
}
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
blob_source.MultiGetBlobFromOneFile(read_options, blob_file_number,
file_size, blob_reqs, &bytes_read);
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_TRUE(statuses_buf[i].IsIncomplete());
ASSERT_TRUE(value_buf[i].empty());
ASSERT_FALSE(value_buf[i].IsPinned());
ASSERT_FALSE(blob_source.TEST_BlobInCache(blob_file_number, file_size,
blob_offsets[i]));
}
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, 0);
ASSERT_EQ((int)get_perf_context()->blob_read_count, 0); // blocking i/o
ASSERT_EQ((int)get_perf_context()->blob_read_byte, 0); // blocking i/o
ASSERT_EQ((int)get_perf_context()->blob_checksum_time, 0);
ASSERT_EQ((int)get_perf_context()->blob_decompress_time, 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), num_blobs * 2);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE), 0);
}
{
// MultiGetBlobFromOneFile from non-existing file
uint64_t bytes_read = 0;
uint64_t non_existing_file_number = 100;
read_options.read_tier = ReadTier::kReadAllTier;
std::array<Status, num_blobs> statuses_buf;
std::array<PinnableSlice, num_blobs> value_buf;
autovector<BlobReadRequest> blob_reqs;
for (size_t i = 0; i < num_blobs; i++) {
blob_reqs.emplace_back(keys[i], blob_offsets[i], blob_sizes[i],
kNoCompression, &value_buf[i], &statuses_buf[i]);
ASSERT_FALSE(blob_source.TEST_BlobInCache(non_existing_file_number,
file_size, blob_offsets[i]));
}
get_perf_context()->Reset();
statistics->Reset().PermitUncheckedError();
blob_source.MultiGetBlobFromOneFile(read_options, non_existing_file_number,
file_size, blob_reqs, &bytes_read);
for (size_t i = 0; i < num_blobs; ++i) {
ASSERT_TRUE(statuses_buf[i].IsIOError());
ASSERT_TRUE(value_buf[i].empty());
ASSERT_FALSE(value_buf[i].IsPinned());
ASSERT_FALSE(blob_source.TEST_BlobInCache(non_existing_file_number,
file_size, blob_offsets[i]));
}
ASSERT_EQ((int)get_perf_context()->blob_cache_hit_count, 0);
ASSERT_EQ((int)get_perf_context()->blob_read_count, 0); // blocking i/o
ASSERT_EQ((int)get_perf_context()->blob_read_byte, 0); // blocking i/o
ASSERT_EQ((int)get_perf_context()->blob_checksum_time, 0);
ASSERT_EQ((int)get_perf_context()->blob_decompress_time, 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_MISS), num_blobs * 2);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_HIT), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_ADD), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_READ), 0);
ASSERT_EQ(statistics->getTickerCount(BLOB_DB_CACHE_BYTES_WRITE), 0);
}
}
class BlobSecondaryCacheTest : public DBTestBase {
protected:
public:
explicit BlobSecondaryCacheTest()
: DBTestBase("blob_secondary_cache_test", /*env_do_fsync=*/true) {
options_.env = env_;
options_.enable_blob_files = true;
options_.create_if_missing = true;
// Set a small cache capacity to evict entries from the cache, and to test
// that secondary cache is used properly.
lru_cache_opts_.capacity = 1024;
lru_cache_opts_.num_shard_bits = 0;
lru_cache_opts_.strict_capacity_limit = true;
lru_cache_opts_.metadata_charge_policy = kDontChargeCacheMetadata;
lru_cache_opts_.high_pri_pool_ratio = 0.2;
lru_cache_opts_.low_pri_pool_ratio = 0.2;
secondary_cache_opts_.capacity = 8 << 20; // 8 MB
secondary_cache_opts_.num_shard_bits = 0;
secondary_cache_opts_.metadata_charge_policy =
kDefaultCacheMetadataChargePolicy;
// Read blobs from the secondary cache if they are not in the primary cache
options_.lowest_used_cache_tier = CacheTier::kNonVolatileBlockTier;
assert(db_->GetDbIdentity(db_id_).ok());
assert(db_->GetDbSessionId(db_session_id_).ok());
}
Options options_;
LRUCacheOptions lru_cache_opts_;
CompressedSecondaryCacheOptions secondary_cache_opts_;
std::string db_id_;
std::string db_session_id_;
};
TEST_F(BlobSecondaryCacheTest, GetBlobsFromSecondaryCache) {
if (!Snappy_Supported()) {
return;
}
secondary_cache_opts_.compression_type = kSnappyCompression;
lru_cache_opts_.secondary_cache =
NewCompressedSecondaryCache(secondary_cache_opts_);
options_.blob_cache = NewLRUCache(lru_cache_opts_);
options_.cf_paths.emplace_back(
test::PerThreadDBPath(
env_, "BlobSecondaryCacheTest_GetBlobsFromSecondaryCache"),
0);
options_.statistics = CreateDBStatistics();
Statistics* statistics = options_.statistics.get();
assert(statistics);
DestroyAndReopen(options_);
ImmutableOptions immutable_options(options_);
constexpr uint32_t column_family_id = 1;
constexpr bool has_ttl = false;
constexpr ExpirationRange expiration_range;
constexpr uint64_t file_number = 1;
Random rnd(301);
std::vector<std::string> key_strs{"key0", "key1"};
std::vector<std::string> blob_strs{rnd.RandomString(512),
rnd.RandomString(768)};
std::vector<Slice> keys{key_strs[0], key_strs[1]};
std::vector<Slice> blobs{blob_strs[0], blob_strs[1]};
std::vector<uint64_t> blob_offsets(keys.size());
std::vector<uint64_t> blob_sizes(keys.size());
WriteBlobFile(immutable_options, column_family_id, has_ttl, expiration_range,
expiration_range, file_number, keys, blobs, kNoCompression,
blob_offsets, blob_sizes);
constexpr size_t capacity = 1024;
std::shared_ptr<Cache> backing_cache = NewLRUCache(capacity);
FileOptions file_options;
constexpr HistogramImpl* blob_file_read_hist = nullptr;
std::unique_ptr<BlobFileCache> blob_file_cache(new BlobFileCache(
backing_cache.get(), &immutable_options, &file_options, column_family_id,
blob_file_read_hist, nullptr /*IOTracer*/));
BlobSource blob_source(&immutable_options, db_id_, db_session_id_,
blob_file_cache.get());
CacheHandleGuard<BlobFileReader> file_reader;
ASSERT_OK(blob_source.GetBlobFileReader(file_number, &file_reader));
ASSERT_NE(file_reader.GetValue(), nullptr);
const uint64_t file_size = file_reader.GetValue()->GetFileSize();
ASSERT_EQ(file_reader.GetValue()->GetCompressionType(), kNoCompression);
ReadOptions read_options;
read_options.verify_checksums = true;
auto blob_cache = options_.blob_cache;
auto secondary_cache = lru_cache_opts_.secondary_cache;
{
// GetBlob
std::vector<PinnableSlice> values(keys.size());
read_options.fill_cache = true;
get_perf_context()->Reset();
// key0 should be filled to the primary cache from the blob file.
ASSERT_OK(blob_source.GetBlob(read_options, keys[0], file_number,
blob_offsets[0], file_size, blob_sizes[0],
kNoCompression, nullptr /* prefetch_buffer */,
&values[0], nullptr /* bytes_read */));
// Release cache handle
values[0].Reset();
// key0 should be evicted and key0's dummy item is inserted into secondary
// cache. key1 should be filled to the primary cache from the blob file.
ASSERT_OK(blob_source.GetBlob(read_options, keys[1], file_number,
blob_offsets[1], file_size, blob_sizes[1],
kNoCompression, nullptr /* prefetch_buffer */,
&values[1], nullptr /* bytes_read */));
// Release cache handle
values[1].Reset();
// key0 should be filled to the primary cache from the blob file. key1
// should be evicted and key1's dummy item is inserted into secondary cache.
ASSERT_OK(blob_source.GetBlob(read_options, keys[0], file_number,
blob_offsets[0], file_size, blob_sizes[0],
kNoCompression, nullptr /* prefetch_buffer */,
&values[0], nullptr /* bytes_read */));
ASSERT_EQ(values[0], blobs[0]);
ASSERT_TRUE(
blob_source.TEST_BlobInCache(file_number, file_size, blob_offsets[0]));
// Release cache handle
values[0].Reset();
// key0 should be evicted and is inserted into secondary cache.
// key1 should be filled to the primary cache from the blob file.
ASSERT_OK(blob_source.GetBlob(read_options, keys[1], file_number,
blob_offsets[1], file_size, blob_sizes[1],
kNoCompression, nullptr /* prefetch_buffer */,
&values[1], nullptr /* bytes_read */));
ASSERT_EQ(values[1], blobs[1]);
ASSERT_TRUE(
blob_source.TEST_BlobInCache(file_number, file_size, blob_offsets[1]));
// Release cache handle
values[1].Reset();
OffsetableCacheKey base_cache_key(db_id_, db_session_id_, file_number);
// blob_cache here only looks at the primary cache since we didn't provide
// the cache item helper for the secondary cache. However, since key0 is
// demoted to the secondary cache, we shouldn't be able to find it in the
// primary cache.
{
CacheKey cache_key = base_cache_key.WithOffset(blob_offsets[0]);
const Slice key0 = cache_key.AsSlice();
auto handle0 = blob_cache->BasicLookup(key0, statistics);
ASSERT_EQ(handle0, nullptr);
// key0's item should be in the secondary cache.
bool kept_in_sec_cache = false;
auto sec_handle0 = secondary_cache->Lookup(
key0, BlobSource::SharedCacheInterface::GetFullHelper(),
/*context*/ nullptr, true,
/*advise_erase=*/true, kept_in_sec_cache);
ASSERT_FALSE(kept_in_sec_cache);
ASSERT_NE(sec_handle0, nullptr);
ASSERT_TRUE(sec_handle0->IsReady());
auto value = static_cast<BlobContents*>(sec_handle0->Value());
ASSERT_NE(value, nullptr);
ASSERT_EQ(value->data(), blobs[0]);
delete value;
// key0 doesn't exist in the blob cache although key0's dummy
// item exist in the secondary cache.
ASSERT_FALSE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[0]));
}
// key1 should exists in the primary cache. key1's dummy item exists
// in the secondary cache.
{
CacheKey cache_key = base_cache_key.WithOffset(blob_offsets[1]);
const Slice key1 = cache_key.AsSlice();
auto handle1 = blob_cache->BasicLookup(key1, statistics);
ASSERT_NE(handle1, nullptr);
blob_cache->Release(handle1);
bool kept_in_sec_cache = false;
auto sec_handle1 = secondary_cache->Lookup(
key1, BlobSource::SharedCacheInterface::GetFullHelper(),
/*context*/ nullptr, true,
/*advise_erase=*/true, kept_in_sec_cache);
ASSERT_FALSE(kept_in_sec_cache);
ASSERT_EQ(sec_handle1, nullptr);
ASSERT_TRUE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[1]));
}
{
// fetch key0 from the blob file to the primary cache.
// key1 is evicted and inserted into the secondary cache.
ASSERT_OK(blob_source.GetBlob(
read_options, keys[0], file_number, blob_offsets[0], file_size,
blob_sizes[0], kNoCompression, nullptr /* prefetch_buffer */,
&values[0], nullptr /* bytes_read */));
ASSERT_EQ(values[0], blobs[0]);
// Release cache handle
values[0].Reset();
// key0 should be in the primary cache.
CacheKey cache_key0 = base_cache_key.WithOffset(blob_offsets[0]);
const Slice key0 = cache_key0.AsSlice();
auto handle0 = blob_cache->BasicLookup(key0, statistics);
ASSERT_NE(handle0, nullptr);
auto value = static_cast<BlobContents*>(blob_cache->Value(handle0));
ASSERT_NE(value, nullptr);
ASSERT_EQ(value->data(), blobs[0]);
blob_cache->Release(handle0);
// key1 is not in the primary cache and is in the secondary cache.
CacheKey cache_key1 = base_cache_key.WithOffset(blob_offsets[1]);
const Slice key1 = cache_key1.AsSlice();
auto handle1 = blob_cache->BasicLookup(key1, statistics);
ASSERT_EQ(handle1, nullptr);
// erase key0 from the primary cache.
blob_cache->Erase(key0);
handle0 = blob_cache->BasicLookup(key0, statistics);
ASSERT_EQ(handle0, nullptr);
// key1 promotion should succeed due to the primary cache being empty. we
// did't call secondary cache's Lookup() here, because it will remove the
// key but it won't be able to promote the key to the primary cache.
// Instead we use the end-to-end blob source API to read key1.
// In function TEST_BlobInCache, key1's dummy item is inserted into the
// primary cache and a standalone handle is checked by GetValue().
ASSERT_TRUE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[1]));
// key1's dummy handle is in the primary cache and key1's item is still
// in the secondary cache. So, the primary cache's Lookup() without
// secondary cache support cannot see it. (NOTE: The dummy handle used
// to be a leaky abstraction but not anymore.)
handle1 = blob_cache->BasicLookup(key1, statistics);
ASSERT_EQ(handle1, nullptr);
// But after another access, it is promoted to primary cache
ASSERT_TRUE(blob_source.TEST_BlobInCache(file_number, file_size,
blob_offsets[1]));
// And Lookup() can find it (without secondary cache support)
handle1 = blob_cache->BasicLookup(key1, statistics);
ASSERT_NE(handle1, nullptr);
ASSERT_NE(blob_cache->Value(handle1), nullptr);
blob_cache->Release(handle1);
}
}
}
class BlobSourceCacheReservationTest : public DBTestBase {
public:
explicit BlobSourceCacheReservationTest()
: DBTestBase("blob_source_cache_reservation_test",
/*env_do_fsync=*/true) {
options_.env = env_;
options_.enable_blob_files = true;
options_.create_if_missing = true;
LRUCacheOptions co;
co.capacity = kCacheCapacity;
co.num_shard_bits = kNumShardBits;
co.metadata_charge_policy = kDontChargeCacheMetadata;
co.high_pri_pool_ratio = 0.0;
co.low_pri_pool_ratio = 0.0;
std::shared_ptr<Cache> blob_cache = NewLRUCache(co);
co.high_pri_pool_ratio = 0.5;
co.low_pri_pool_ratio = 0.5;
std::shared_ptr<Cache> block_cache = NewLRUCache(co);
options_.blob_cache = blob_cache;
options_.lowest_used_cache_tier = CacheTier::kVolatileTier;
BlockBasedTableOptions block_based_options;
block_based_options.no_block_cache = false;
block_based_options.block_cache = block_cache;
block_based_options.cache_usage_options.options_overrides.insert(
{CacheEntryRole::kBlobCache,
{/* charged = */ CacheEntryRoleOptions::Decision::kEnabled}});
options_.table_factory.reset(
NewBlockBasedTableFactory(block_based_options));
assert(db_->GetDbIdentity(db_id_).ok());
assert(db_->GetDbSessionId(db_session_id_).ok());
}
void GenerateKeysAndBlobs() {
for (size_t i = 0; i < kNumBlobs; ++i) {
key_strs_.push_back("key" + std::to_string(i));
blob_strs_.push_back("blob" + std::to_string(i));
}
blob_file_size_ = BlobLogHeader::kSize;
for (size_t i = 0; i < kNumBlobs; ++i) {
keys_.push_back({key_strs_[i]});
blobs_.push_back({blob_strs_[i]});
blob_file_size_ +=
BlobLogRecord::kHeaderSize + keys_[i].size() + blobs_[i].size();
}
blob_file_size_ += BlobLogFooter::kSize;
}
static constexpr std::size_t kSizeDummyEntry = CacheReservationManagerImpl<
CacheEntryRole::kBlobCache>::GetDummyEntrySize();
static constexpr std::size_t kCacheCapacity = 2 * kSizeDummyEntry;
static constexpr int kNumShardBits = 0; // 2^0 shard
static constexpr uint32_t kColumnFamilyId = 1;
static constexpr bool kHasTTL = false;
static constexpr uint64_t kBlobFileNumber = 1;
static constexpr size_t kNumBlobs = 16;
std::vector<Slice> keys_;
std::vector<Slice> blobs_;
std::vector<std::string> key_strs_;
std::vector<std::string> blob_strs_;
uint64_t blob_file_size_;
Options options_;
std::string db_id_;
std::string db_session_id_;
};
TEST_F(BlobSourceCacheReservationTest, SimpleCacheReservation) {
options_.cf_paths.emplace_back(
test::PerThreadDBPath(
env_, "BlobSourceCacheReservationTest_SimpleCacheReservation"),
0);
GenerateKeysAndBlobs();
DestroyAndReopen(options_);
ImmutableOptions immutable_options(options_);
constexpr ExpirationRange expiration_range;
std::vector<uint64_t> blob_offsets(keys_.size());
std::vector<uint64_t> blob_sizes(keys_.size());
WriteBlobFile(immutable_options, kColumnFamilyId, kHasTTL, expiration_range,
expiration_range, kBlobFileNumber, keys_, blobs_,
kNoCompression, blob_offsets, blob_sizes);
constexpr size_t capacity = 10;
std::shared_ptr<Cache> backing_cache = NewLRUCache(capacity);
FileOptions file_options;
constexpr HistogramImpl* blob_file_read_hist = nullptr;
std::unique_ptr<BlobFileCache> blob_file_cache =
std::make_unique<BlobFileCache>(
backing_cache.get(), &immutable_options, &file_options,
kColumnFamilyId, blob_file_read_hist, nullptr /*IOTracer*/);
BlobSource blob_source(&immutable_options, db_id_, db_session_id_,
blob_file_cache.get());
ConcurrentCacheReservationManager* cache_res_mgr =
static_cast<ChargedCache*>(blob_source.GetBlobCache())
->TEST_GetCacheReservationManager();
ASSERT_NE(cache_res_mgr, nullptr);
ReadOptions read_options;
read_options.verify_checksums = true;
{
read_options.fill_cache = false;
std::vector<PinnableSlice> values(keys_.size());
for (size_t i = 0; i < kNumBlobs; ++i) {
ASSERT_OK(blob_source.GetBlob(
read_options, keys_[i], kBlobFileNumber, blob_offsets[i],
blob_file_size_, blob_sizes[i], kNoCompression,
nullptr /* prefetch_buffer */, &values[i], nullptr /* bytes_read */));
ASSERT_EQ(cache_res_mgr->GetTotalReservedCacheSize(), 0);
ASSERT_EQ(cache_res_mgr->GetTotalMemoryUsed(), 0);
}
}
{
read_options.fill_cache = true;
std::vector<PinnableSlice> values(keys_.size());
// num_blobs is 16, so the total blob cache usage is less than a single
// dummy entry. Therefore, cache reservation manager only reserves one dummy
// entry here.
uint64_t blob_bytes = 0;
for (size_t i = 0; i < kNumBlobs; ++i) {
ASSERT_OK(blob_source.GetBlob(
read_options, keys_[i], kBlobFileNumber, blob_offsets[i],
blob_file_size_, blob_sizes[i], kNoCompression,
nullptr /* prefetch_buffer */, &values[i], nullptr /* bytes_read */));
size_t charge = 0;
ASSERT_TRUE(blob_source.TEST_BlobInCache(kBlobFileNumber, blob_file_size_,
blob_offsets[i], &charge));
blob_bytes += charge;
ASSERT_EQ(cache_res_mgr->GetTotalReservedCacheSize(), kSizeDummyEntry);
ASSERT_EQ(cache_res_mgr->GetTotalMemoryUsed(), blob_bytes);
ASSERT_EQ(cache_res_mgr->GetTotalMemoryUsed(),
options_.blob_cache->GetUsage());
}
}
{
OffsetableCacheKey base_cache_key(db_id_, db_session_id_, kBlobFileNumber);
size_t blob_bytes = options_.blob_cache->GetUsage();
for (size_t i = 0; i < kNumBlobs; ++i) {
size_t charge = 0;
ASSERT_TRUE(blob_source.TEST_BlobInCache(kBlobFileNumber, blob_file_size_,
blob_offsets[i], &charge));
CacheKey cache_key = base_cache_key.WithOffset(blob_offsets[i]);
// We didn't call options_.blob_cache->Erase() here, this is because
// the cache wrapper's Erase() method must be called to update the
// cache usage after erasing the cache entry.
blob_source.GetBlobCache()->Erase(cache_key.AsSlice());
if (i == kNumBlobs - 1) {
// All the blobs got removed from the cache. cache_res_mgr should not
// reserve any space for them.
ASSERT_EQ(cache_res_mgr->GetTotalReservedCacheSize(), 0);
} else {
ASSERT_EQ(cache_res_mgr->GetTotalReservedCacheSize(), kSizeDummyEntry);
}
blob_bytes -= charge;
ASSERT_EQ(cache_res_mgr->GetTotalMemoryUsed(), blob_bytes);
ASSERT_EQ(cache_res_mgr->GetTotalMemoryUsed(),
options_.blob_cache->GetUsage());
}
}
}
TEST_F(BlobSourceCacheReservationTest, IncreaseCacheReservation) {
options_.cf_paths.emplace_back(
test::PerThreadDBPath(
env_, "BlobSourceCacheReservationTest_IncreaseCacheReservation"),
0);
GenerateKeysAndBlobs();
DestroyAndReopen(options_);
ImmutableOptions immutable_options(options_);
constexpr size_t blob_size = 24 << 10; // 24KB
for (size_t i = 0; i < kNumBlobs; ++i) {
blob_file_size_ -= blobs_[i].size(); // old blob size
blob_strs_[i].resize(blob_size, '@');
blobs_[i] = Slice(blob_strs_[i]);
blob_file_size_ += blobs_[i].size(); // new blob size
}
std::vector<uint64_t> blob_offsets(keys_.size());
std::vector<uint64_t> blob_sizes(keys_.size());
constexpr ExpirationRange expiration_range;
WriteBlobFile(immutable_options, kColumnFamilyId, kHasTTL, expiration_range,
expiration_range, kBlobFileNumber, keys_, blobs_,
kNoCompression, blob_offsets, blob_sizes);
constexpr size_t capacity = 10;
std::shared_ptr<Cache> backing_cache = NewLRUCache(capacity);
FileOptions file_options;
constexpr HistogramImpl* blob_file_read_hist = nullptr;
std::unique_ptr<BlobFileCache> blob_file_cache =
std::make_unique<BlobFileCache>(
backing_cache.get(), &immutable_options, &file_options,
kColumnFamilyId, blob_file_read_hist, nullptr /*IOTracer*/);
BlobSource blob_source(&immutable_options, db_id_, db_session_id_,
blob_file_cache.get());
ConcurrentCacheReservationManager* cache_res_mgr =
static_cast<ChargedCache*>(blob_source.GetBlobCache())
->TEST_GetCacheReservationManager();
ASSERT_NE(cache_res_mgr, nullptr);
ReadOptions read_options;
read_options.verify_checksums = true;
{
read_options.fill_cache = false;
std::vector<PinnableSlice> values(keys_.size());
for (size_t i = 0; i < kNumBlobs; ++i) {
ASSERT_OK(blob_source.GetBlob(
read_options, keys_[i], kBlobFileNumber, blob_offsets[i],
blob_file_size_, blob_sizes[i], kNoCompression,
nullptr /* prefetch_buffer */, &values[i], nullptr /* bytes_read */));
ASSERT_EQ(cache_res_mgr->GetTotalReservedCacheSize(), 0);
ASSERT_EQ(cache_res_mgr->GetTotalMemoryUsed(), 0);
}
}
{
read_options.fill_cache = true;
std::vector<PinnableSlice> values(keys_.size());
uint64_t blob_bytes = 0;
for (size_t i = 0; i < kNumBlobs; ++i) {
ASSERT_OK(blob_source.GetBlob(
read_options, keys_[i], kBlobFileNumber, blob_offsets[i],
blob_file_size_, blob_sizes[i], kNoCompression,
nullptr /* prefetch_buffer */, &values[i], nullptr /* bytes_read */));
// Release cache handle
values[i].Reset();
size_t charge = 0;
ASSERT_TRUE(blob_source.TEST_BlobInCache(kBlobFileNumber, blob_file_size_,
blob_offsets[i], &charge));
blob_bytes += charge;
ASSERT_EQ(cache_res_mgr->GetTotalReservedCacheSize(),
(blob_bytes <= kSizeDummyEntry) ? kSizeDummyEntry
: (2 * kSizeDummyEntry));
ASSERT_EQ(cache_res_mgr->GetTotalMemoryUsed(), blob_bytes);
ASSERT_EQ(cache_res_mgr->GetTotalMemoryUsed(),
options_.blob_cache->GetUsage());
}
}
}
} // namespace ROCKSDB_NAMESPACE
int main(int argc, char** argv) {
ROCKSDB_NAMESPACE::port::InstallStackTraceHandler();
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
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