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065bea1587
Summary: This is part of an alternative approach to https://github.com/facebook/rocksdb/issues/8316. Unlike that approach, this one relies on key-values getting processed one by one during compaction, and does not involve persistence. Specifically, the patch adds a class `BlobGarbageMeter` that can track the number and total size of blobs in a (sub)compaction's input and output on a per-blob file basis. This information can then be used to compute the amount of additional garbage generated by the compaction for any given blob file by subtracting the "outflow" from the "inflow." Note: this patch only adds `BlobGarbageMeter` and associated unit tests. I plan to hook up this class to the input and output of `CompactionIterator` in a subsequent PR. Pull Request resolved: https://github.com/facebook/rocksdb/pull/8426 Test Plan: `make check` Reviewed By: jay-zhuang Differential Revision: D29242250 Pulled By: ltamasi fbshipit-source-id: 597e50ad556540e413a50e804ba15bc044d809bb
197 lines
6.1 KiB
C++
197 lines
6.1 KiB
C++
// 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 "db/blob/blob_garbage_meter.h"
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#include <string>
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#include <vector>
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#include "db/blob/blob_index.h"
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#include "db/blob/blob_log_format.h"
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#include "db/dbformat.h"
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#include "test_util/testharness.h"
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namespace ROCKSDB_NAMESPACE {
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TEST(BlobGarbageMeterTest, MeasureGarbage) {
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BlobGarbageMeter blob_garbage_meter;
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struct BlobDescriptor {
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std::string user_key;
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uint64_t blob_file_number;
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uint64_t offset;
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uint64_t size;
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CompressionType compression_type;
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bool has_in_flow;
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bool has_out_flow;
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uint64_t GetExpectedBytes() const {
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return size +
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BlobLogRecord::CalculateAdjustmentForRecordHeader(user_key.size());
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}
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};
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// Note: blob file 4 has the same inflow and outflow and hence no additional
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// garbage. Blob file 5 has less outflow than inflow and thus it does have
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// additional garbage. Blob file 6 is a newly written file (i.e. no inflow,
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// only outflow) and is thus not tracked by the meter.
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std::vector<BlobDescriptor> blobs{
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{"key", 4, 1234, 555, kLZ4Compression, true, true},
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{"other_key", 4, 6789, 101010, kLZ4Compression, true, true},
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{"yet_another_key", 5, 22222, 3456, kLZ4Compression, true, true},
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{"foo_key", 5, 77777, 8888, kLZ4Compression, true, true},
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{"bar_key", 5, 999999, 1212, kLZ4Compression, true, false},
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{"baz_key", 5, 1234567, 890, kLZ4Compression, true, false},
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{"new_key", 6, 7777, 9999, kNoCompression, false, true}};
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for (const auto& blob : blobs) {
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constexpr SequenceNumber seq = 123;
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const InternalKey key(blob.user_key, seq, kTypeBlobIndex);
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const Slice key_slice = key.Encode();
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std::string value;
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BlobIndex::EncodeBlob(&value, blob.blob_file_number, blob.offset, blob.size,
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blob.compression_type);
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const Slice value_slice(value);
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if (blob.has_in_flow) {
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ASSERT_OK(blob_garbage_meter.ProcessInFlow(key_slice, value_slice));
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}
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if (blob.has_out_flow) {
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ASSERT_OK(blob_garbage_meter.ProcessOutFlow(key_slice, value_slice));
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}
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}
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const auto& flows = blob_garbage_meter.flows();
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ASSERT_EQ(flows.size(), 2);
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{
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const auto it = flows.find(4);
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ASSERT_NE(it, flows.end());
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const auto& flow = it->second;
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constexpr uint64_t expected_count = 2;
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const uint64_t expected_bytes =
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blobs[0].GetExpectedBytes() + blobs[1].GetExpectedBytes();
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const auto& in = flow.GetInFlow();
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ASSERT_EQ(in.GetCount(), expected_count);
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ASSERT_EQ(in.GetBytes(), expected_bytes);
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const auto& out = flow.GetOutFlow();
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ASSERT_EQ(out.GetCount(), expected_count);
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ASSERT_EQ(out.GetBytes(), expected_bytes);
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ASSERT_TRUE(flow.IsValid());
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ASSERT_FALSE(flow.HasGarbage());
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}
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{
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const auto it = flows.find(5);
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ASSERT_NE(it, flows.end());
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const auto& flow = it->second;
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const auto& in = flow.GetInFlow();
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constexpr uint64_t expected_in_count = 4;
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const uint64_t expected_in_bytes =
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blobs[2].GetExpectedBytes() + blobs[3].GetExpectedBytes() +
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blobs[4].GetExpectedBytes() + blobs[5].GetExpectedBytes();
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ASSERT_EQ(in.GetCount(), expected_in_count);
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ASSERT_EQ(in.GetBytes(), expected_in_bytes);
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const auto& out = flow.GetOutFlow();
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constexpr uint64_t expected_out_count = 2;
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const uint64_t expected_out_bytes =
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blobs[2].GetExpectedBytes() + blobs[3].GetExpectedBytes();
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ASSERT_EQ(out.GetCount(), expected_out_count);
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ASSERT_EQ(out.GetBytes(), expected_out_bytes);
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ASSERT_TRUE(flow.IsValid());
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ASSERT_TRUE(flow.HasGarbage());
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ASSERT_EQ(flow.GetGarbageCount(), expected_in_count - expected_out_count);
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ASSERT_EQ(flow.GetGarbageBytes(), expected_in_bytes - expected_out_bytes);
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}
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}
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TEST(BlobGarbageMeterTest, PlainValue) {
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constexpr char user_key[] = "user_key";
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constexpr SequenceNumber seq = 123;
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const InternalKey key(user_key, seq, kTypeValue);
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const Slice key_slice = key.Encode();
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constexpr char value[] = "value";
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const Slice value_slice(value);
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BlobGarbageMeter blob_garbage_meter;
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ASSERT_OK(blob_garbage_meter.ProcessInFlow(key_slice, value_slice));
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ASSERT_OK(blob_garbage_meter.ProcessOutFlow(key_slice, value_slice));
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ASSERT_TRUE(blob_garbage_meter.flows().empty());
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}
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TEST(BlobGarbageMeterTest, CorruptInternalKey) {
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constexpr char corrupt_key[] = "i_am_corrupt";
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const Slice key_slice(corrupt_key);
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constexpr char value[] = "value";
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const Slice value_slice(value);
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BlobGarbageMeter blob_garbage_meter;
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ASSERT_NOK(blob_garbage_meter.ProcessInFlow(key_slice, value_slice));
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ASSERT_NOK(blob_garbage_meter.ProcessOutFlow(key_slice, value_slice));
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}
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TEST(BlobGarbageMeterTest, CorruptBlobIndex) {
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constexpr char user_key[] = "user_key";
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constexpr SequenceNumber seq = 123;
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const InternalKey key(user_key, seq, kTypeBlobIndex);
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const Slice key_slice = key.Encode();
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constexpr char value[] = "i_am_not_a_blob_index";
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const Slice value_slice(value);
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BlobGarbageMeter blob_garbage_meter;
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ASSERT_NOK(blob_garbage_meter.ProcessInFlow(key_slice, value_slice));
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ASSERT_NOK(blob_garbage_meter.ProcessOutFlow(key_slice, value_slice));
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}
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TEST(BlobGarbageMeterTest, InlinedTTLBlobIndex) {
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constexpr char user_key[] = "user_key";
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constexpr SequenceNumber seq = 123;
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const InternalKey key(user_key, seq, kTypeBlobIndex);
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const Slice key_slice = key.Encode();
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constexpr uint64_t expiration = 1234567890;
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constexpr char inlined_value[] = "inlined";
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std::string value;
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BlobIndex::EncodeInlinedTTL(&value, expiration, inlined_value);
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const Slice value_slice(value);
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BlobGarbageMeter blob_garbage_meter;
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ASSERT_NOK(blob_garbage_meter.ProcessInFlow(key_slice, value_slice));
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ASSERT_NOK(blob_garbage_meter.ProcessOutFlow(key_slice, value_slice));
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}
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} // namespace ROCKSDB_NAMESPACE
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int main(int argc, char** argv) {
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::testing::InitGoogleTest(&argc, argv);
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return RUN_ALL_TESTS();
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}
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