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https://github.com/facebook/rocksdb.git
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126c223714
Summary: In https://github.com/facebook/rocksdb/issues/9535, release 7.0, we hid the old block-based filter from being created using the public API, because of its inefficiency. Although we normally maintain read compatibility on old DBs forever, filters are not required for reading a DB, only for optimizing read performance. Thus, it should be acceptable to remove this code and the substantial maintenance burden it carries as useful features are developed and validated (such as user timestamp). This change completely removes the code for reading and writing the old block-based filters, net removing about 1370 lines of code no longer needed. Options removed from testing / benchmarking tools. The prior existence is only evident in a couple of places: * `CacheEntryRole::kDeprecatedFilterBlock` - We can update this public API enum in a major release to minimize source code incompatibilities. * A warning is logged when an old table file is opened that used the old block-based filter. This is provided as a courtesy, and would be a pain to unit test, so manual testing should suffice. Unfortunately, sst_dump does not tell you whether a file uses block-based filter, and the structure of the code makes it very difficult to fix. * To detect that case, `kObsoleteFilterBlockPrefix` (renamed from `kFilterBlockPrefix`) for metaindex is maintained (for now). Other notes: * In some cases where numbers are associated with filter configurations, we have had to update the assigned numbers so that they all correspond to something that exists. * Fixed potential stat counting bug by assuming `filter_checked = false` for cases like `filter == nullptr` rather than assuming `filter_checked = true` * Removed obsolete `block_offset` and `prefix_extractor` parameters from several functions. * Removed some unnecessary checks `if (!table_prefix_extractor() && !prefix_extractor)` because the caller guarantees the prefix extractor exists and is compatible Pull Request resolved: https://github.com/facebook/rocksdb/pull/10184 Test Plan: tests updated, manually test new warning in LOG using base version to generate a DB Reviewed By: riversand963 Differential Revision: D37212647 Pulled By: pdillinger fbshipit-source-id: 06ee020d8de3b81260ffc36ad0c1202cbf463a80
477 lines
18 KiB
C++
477 lines
18 KiB
C++
// Copyright (c) Facebook, Inc. and its affiliates. 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 "cache/cache_key.h"
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#include "table/block_based/block_based_table_reader.h"
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#ifndef ROCKSDB_LITE
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#include "utilities/cache_dump_load_impl.h"
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#include "cache/cache_entry_roles.h"
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#include "file/writable_file_writer.h"
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#include "port/lang.h"
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#include "rocksdb/env.h"
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#include "rocksdb/file_system.h"
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#include "rocksdb/utilities/ldb_cmd.h"
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#include "table/format.h"
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#include "util/crc32c.h"
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namespace ROCKSDB_NAMESPACE {
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// Set the dump filter with a list of DBs. Block cache may be shared by multipe
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// DBs and we may only want to dump out the blocks belonging to certain DB(s).
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// Therefore, a filter is need to decide if the key of the block satisfy the
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// requirement.
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Status CacheDumperImpl::SetDumpFilter(std::vector<DB*> db_list) {
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Status s = Status::OK();
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for (size_t i = 0; i < db_list.size(); i++) {
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assert(i < db_list.size());
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TablePropertiesCollection ptc;
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assert(db_list[i] != nullptr);
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s = db_list[i]->GetPropertiesOfAllTables(&ptc);
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if (!s.ok()) {
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return s;
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}
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for (auto id = ptc.begin(); id != ptc.end(); id++) {
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OffsetableCacheKey base;
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// We only want to save cache entries that are portable to another
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// DB::Open, so only save entries with stable keys.
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bool is_stable;
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// WART: if the file is extremely large (> kMaxFileSizeStandardEncoding)
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// then the prefix will be different. But this should not be a concern
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// in practice because that limit is currently 4TB on a single file.
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BlockBasedTable::SetupBaseCacheKey(
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id->second.get(), /*cur_db_session_id*/ "", /*cur_file_num*/ 0,
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/*file_size*/ 42, &base, &is_stable);
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if (is_stable) {
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Slice prefix_slice = base.CommonPrefixSlice();
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assert(prefix_slice.size() == OffsetableCacheKey::kCommonPrefixSize);
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prefix_filter_.insert(prefix_slice.ToString());
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}
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}
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}
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return s;
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}
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// This is the main function to dump out the cache block entries to the writer.
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// The writer may create a file or write to other systems. Currently, we will
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// iterate the whole block cache, get the blocks, and write them to the writer
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IOStatus CacheDumperImpl::DumpCacheEntriesToWriter() {
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// Prepare stage, check the parameters.
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if (cache_ == nullptr) {
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return IOStatus::InvalidArgument("Cache is null");
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}
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if (writer_ == nullptr) {
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return IOStatus::InvalidArgument("CacheDumpWriter is null");
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}
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// Set the system clock
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if (options_.clock == nullptr) {
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return IOStatus::InvalidArgument("System clock is null");
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}
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clock_ = options_.clock;
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// We copy the Cache Deleter Role Map as its member.
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role_map_ = CopyCacheDeleterRoleMap();
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// Set the sequence number
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sequence_num_ = 0;
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// Dump stage, first, we write the hader
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IOStatus io_s = WriteHeader();
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if (!io_s.ok()) {
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return io_s;
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}
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// Then, we iterate the block cache and dump out the blocks that are not
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// filtered out.
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cache_->ApplyToAllEntries(DumpOneBlockCallBack(), {});
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// Finally, write the footer
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io_s = WriteFooter();
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if (!io_s.ok()) {
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return io_s;
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}
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io_s = writer_->Close();
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return io_s;
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}
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// Check if we need to filter out the block based on its key
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bool CacheDumperImpl::ShouldFilterOut(const Slice& key) {
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if (key.size() < OffsetableCacheKey::kCommonPrefixSize) {
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return /*filter out*/ true;
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}
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Slice key_prefix(key.data(), OffsetableCacheKey::kCommonPrefixSize);
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std::string prefix = key_prefix.ToString();
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// Filter out if not found
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return prefix_filter_.find(prefix) == prefix_filter_.end();
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}
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// This is the callback function which will be applied to
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// Cache::ApplyToAllEntries. In this callback function, we will get the block
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// type, decide if the block needs to be dumped based on the filter, and write
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// the block through the provided writer.
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std::function<void(const Slice&, void*, size_t, Cache::DeleterFn)>
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CacheDumperImpl::DumpOneBlockCallBack() {
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return [&](const Slice& key, void* value, size_t /*charge*/,
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Cache::DeleterFn deleter) {
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// Step 1: get the type of the block from role_map_
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auto e = role_map_.find(deleter);
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CacheEntryRole role;
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CacheDumpUnitType type = CacheDumpUnitType::kBlockTypeMax;
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if (e == role_map_.end()) {
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role = CacheEntryRole::kMisc;
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} else {
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role = e->second;
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}
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bool filter_out = false;
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// Step 2: based on the key prefix, check if the block should be filter out.
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if (ShouldFilterOut(key)) {
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filter_out = true;
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}
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// Step 3: based on the block type, get the block raw pointer and length.
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const char* block_start = nullptr;
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size_t block_len = 0;
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switch (role) {
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case CacheEntryRole::kDataBlock:
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type = CacheDumpUnitType::kData;
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block_start = (static_cast<Block*>(value))->data();
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block_len = (static_cast<Block*>(value))->size();
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break;
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case CacheEntryRole::kFilterBlock:
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type = CacheDumpUnitType::kFilter;
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block_start = (static_cast<ParsedFullFilterBlock*>(value))
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->GetBlockContentsData()
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.data();
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block_len = (static_cast<ParsedFullFilterBlock*>(value))
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->GetBlockContentsData()
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.size();
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break;
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case CacheEntryRole::kFilterMetaBlock:
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type = CacheDumpUnitType::kFilterMetaBlock;
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block_start = (static_cast<Block*>(value))->data();
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block_len = (static_cast<Block*>(value))->size();
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break;
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case CacheEntryRole::kIndexBlock:
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type = CacheDumpUnitType::kIndex;
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block_start = (static_cast<Block*>(value))->data();
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block_len = (static_cast<Block*>(value))->size();
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break;
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case CacheEntryRole::kDeprecatedFilterBlock:
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// Obsolete
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filter_out = true;
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break;
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case CacheEntryRole::kMisc:
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filter_out = true;
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break;
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case CacheEntryRole::kOtherBlock:
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filter_out = true;
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break;
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case CacheEntryRole::kWriteBuffer:
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filter_out = true;
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break;
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default:
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filter_out = true;
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}
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// Step 4: if the block should not be filter out, write the block to the
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// CacheDumpWriter
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if (!filter_out && block_start != nullptr) {
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char* buffer = new char[block_len];
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memcpy(buffer, block_start, block_len);
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WriteCacheBlock(type, key, (void*)buffer, block_len)
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.PermitUncheckedError();
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delete[] buffer;
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}
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};
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}
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// Write the raw block to the writer. It takes the timestamp of the block being
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// copied from block cache, block type, key, block pointer, raw block size and
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// the block checksum as the input. When writing the raw block, we first create
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// the dump unit and encoude it to a string. Then, we calculate the checksum of
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// the how dump unit string and store it in the dump unit metadata.
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// First, we write the metadata first, which is a fixed size string. Then, we
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// Append the dump unit string to the writer.
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IOStatus CacheDumperImpl::WriteRawBlock(uint64_t timestamp,
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CacheDumpUnitType type,
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const Slice& key, void* value,
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size_t len, uint32_t checksum) {
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// First, serilize the block information in a string
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DumpUnit dump_unit;
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dump_unit.timestamp = timestamp;
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dump_unit.key = key;
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dump_unit.type = type;
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dump_unit.value_len = len;
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dump_unit.value = value;
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dump_unit.value_checksum = checksum;
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std::string encoded_data;
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CacheDumperHelper::EncodeDumpUnit(dump_unit, &encoded_data);
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// Second, create the metadata, which contains a sequence number, the dump
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// unit string checksum and the string size. The sequence number monotonically
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// increases from 0.
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DumpUnitMeta unit_meta;
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unit_meta.sequence_num = sequence_num_;
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sequence_num_++;
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unit_meta.dump_unit_checksum =
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crc32c::Value(encoded_data.c_str(), encoded_data.size());
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unit_meta.dump_unit_size = static_cast<uint64_t>(encoded_data.size());
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std::string encoded_meta;
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CacheDumperHelper::EncodeDumpUnitMeta(unit_meta, &encoded_meta);
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// We write the metadata first.
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assert(writer_ != nullptr);
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IOStatus io_s = writer_->WriteMetadata(Slice(encoded_meta));
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if (!io_s.ok()) {
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return io_s;
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}
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// followed by the dump unit.
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return writer_->WritePacket(Slice(encoded_data));
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}
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// Before we write any block, we write the header first to store the cache dump
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// format version, rocksdb version, and brief intro.
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IOStatus CacheDumperImpl::WriteHeader() {
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std::string header_key = "header";
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std::ostringstream s;
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s << kTraceMagic << "\t"
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<< "Cache dump format version: " << kCacheDumpMajorVersion << "."
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<< kCacheDumpMinorVersion << "\t"
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<< "RocksDB Version: " << kMajorVersion << "." << kMinorVersion << "\t"
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<< "Format: dump_unit_metadata <sequence_number, dump_unit_checksum, "
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"dump_unit_size>, dump_unit <timestamp, key, block_type, "
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"block_size, raw_block, raw_block_checksum> cache_value\n";
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std::string header_value(s.str());
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CacheDumpUnitType type = CacheDumpUnitType::kHeader;
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uint64_t timestamp = clock_->NowMicros();
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uint32_t header_checksum =
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crc32c::Value(header_value.c_str(), header_value.size());
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return WriteRawBlock(timestamp, type, Slice(header_key),
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(void*)header_value.c_str(), header_value.size(),
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header_checksum);
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}
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// Write the block dumped from cache
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IOStatus CacheDumperImpl::WriteCacheBlock(const CacheDumpUnitType type,
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const Slice& key, void* value,
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size_t len) {
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uint64_t timestamp = clock_->NowMicros();
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uint32_t value_checksum = crc32c::Value((char*)value, len);
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return WriteRawBlock(timestamp, type, key, value, len, value_checksum);
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}
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// Write the footer after all the blocks are stored to indicate the ending.
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IOStatus CacheDumperImpl::WriteFooter() {
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std::string footer_key = "footer";
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std::ostringstream s;
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std::string footer_value("cache dump completed");
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CacheDumpUnitType type = CacheDumpUnitType::kFooter;
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uint64_t timestamp = clock_->NowMicros();
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uint32_t footer_checksum =
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crc32c::Value(footer_value.c_str(), footer_value.size());
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return WriteRawBlock(timestamp, type, Slice(footer_key),
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(void*)footer_value.c_str(), footer_value.size(),
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footer_checksum);
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}
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// This is the main function to restore the cache entries to secondary cache.
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// First, we check if all the arguments are valid. Then, we read the block
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// sequentially from the reader and insert them to the secondary cache.
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IOStatus CacheDumpedLoaderImpl::RestoreCacheEntriesToSecondaryCache() {
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// TODO: remove this line when options are used in the loader
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(void)options_;
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// Step 1: we check if all the arguments are valid
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if (secondary_cache_ == nullptr) {
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return IOStatus::InvalidArgument("Secondary Cache is null");
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}
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if (reader_ == nullptr) {
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return IOStatus::InvalidArgument("CacheDumpReader is null");
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}
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// we copy the Cache Deleter Role Map as its member.
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role_map_ = CopyCacheDeleterRoleMap();
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// Step 2: read the header
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// TODO: we need to check the cache dump format version and RocksDB version
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// after the header is read out.
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IOStatus io_s;
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DumpUnit dump_unit;
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std::string data;
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io_s = ReadHeader(&data, &dump_unit);
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if (!io_s.ok()) {
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return io_s;
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}
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// Step 3: read out the rest of the blocks from the reader. The loop will stop
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// either I/O status is not ok or we reach to the the end.
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while (io_s.ok() && dump_unit.type != CacheDumpUnitType::kFooter) {
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dump_unit.reset();
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data.clear();
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// read the content and store in the dump_unit
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io_s = ReadCacheBlock(&data, &dump_unit);
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if (!io_s.ok()) {
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break;
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}
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// create the raw_block_content based on the information in the dump_unit
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BlockContents raw_block_contents(
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Slice((char*)dump_unit.value, dump_unit.value_len));
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Cache::CacheItemHelper* helper = nullptr;
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Statistics* statistics = nullptr;
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Status s = Status::OK();
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// according to the block type, get the helper callback function and create
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// the corresponding block
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switch (dump_unit.type) {
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case CacheDumpUnitType::kFilter: {
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helper = BlocklikeTraits<ParsedFullFilterBlock>::GetCacheItemHelper(
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BlockType::kFilter);
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std::unique_ptr<ParsedFullFilterBlock> block_holder;
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block_holder.reset(BlocklikeTraits<ParsedFullFilterBlock>::Create(
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std::move(raw_block_contents), toptions_.read_amp_bytes_per_bit,
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statistics, false, toptions_.filter_policy.get()));
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if (helper != nullptr) {
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s = secondary_cache_->Insert(dump_unit.key,
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(void*)(block_holder.get()), helper);
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}
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break;
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}
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case CacheDumpUnitType::kData: {
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helper = BlocklikeTraits<Block>::GetCacheItemHelper(BlockType::kData);
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std::unique_ptr<Block> block_holder;
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block_holder.reset(BlocklikeTraits<Block>::Create(
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std::move(raw_block_contents), toptions_.read_amp_bytes_per_bit,
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statistics, false, toptions_.filter_policy.get()));
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if (helper != nullptr) {
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s = secondary_cache_->Insert(dump_unit.key,
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(void*)(block_holder.get()), helper);
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}
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break;
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}
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case CacheDumpUnitType::kIndex: {
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helper = BlocklikeTraits<Block>::GetCacheItemHelper(BlockType::kIndex);
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std::unique_ptr<Block> block_holder;
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block_holder.reset(BlocklikeTraits<Block>::Create(
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std::move(raw_block_contents), 0, statistics, false,
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toptions_.filter_policy.get()));
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if (helper != nullptr) {
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s = secondary_cache_->Insert(dump_unit.key,
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(void*)(block_holder.get()), helper);
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}
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break;
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}
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case CacheDumpUnitType::kFilterMetaBlock: {
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helper = BlocklikeTraits<Block>::GetCacheItemHelper(
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BlockType::kFilterPartitionIndex);
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std::unique_ptr<Block> block_holder;
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block_holder.reset(BlocklikeTraits<Block>::Create(
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std::move(raw_block_contents), toptions_.read_amp_bytes_per_bit,
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statistics, false, toptions_.filter_policy.get()));
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if (helper != nullptr) {
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s = secondary_cache_->Insert(dump_unit.key,
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(void*)(block_holder.get()), helper);
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}
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break;
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}
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case CacheDumpUnitType::kFooter:
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break;
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case CacheDumpUnitType::kDeprecatedFilterBlock:
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// Obsolete
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break;
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default:
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continue;
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}
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if (!s.ok()) {
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io_s = status_to_io_status(std::move(s));
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}
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}
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if (dump_unit.type == CacheDumpUnitType::kFooter) {
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return IOStatus::OK();
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} else {
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return io_s;
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}
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}
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// Read and copy the dump unit metadata to std::string data, decode and create
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// the unit metadata based on the string
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IOStatus CacheDumpedLoaderImpl::ReadDumpUnitMeta(std::string* data,
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DumpUnitMeta* unit_meta) {
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assert(reader_ != nullptr);
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assert(data != nullptr);
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assert(unit_meta != nullptr);
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IOStatus io_s = reader_->ReadMetadata(data);
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if (!io_s.ok()) {
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return io_s;
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}
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return status_to_io_status(
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CacheDumperHelper::DecodeDumpUnitMeta(*data, unit_meta));
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}
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// Read and copy the dump unit to std::string data, decode and create the unit
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// based on the string
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IOStatus CacheDumpedLoaderImpl::ReadDumpUnit(size_t len, std::string* data,
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DumpUnit* unit) {
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assert(reader_ != nullptr);
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assert(data != nullptr);
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assert(unit != nullptr);
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IOStatus io_s = reader_->ReadPacket(data);
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if (!io_s.ok()) {
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return io_s;
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}
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if (data->size() != len) {
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return IOStatus::Corruption(
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"The data being read out does not match the size stored in metadata!");
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}
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Slice block;
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return status_to_io_status(CacheDumperHelper::DecodeDumpUnit(*data, unit));
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}
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// Read the header
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IOStatus CacheDumpedLoaderImpl::ReadHeader(std::string* data,
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DumpUnit* dump_unit) {
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DumpUnitMeta header_meta;
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header_meta.reset();
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std::string meta_string;
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IOStatus io_s = ReadDumpUnitMeta(&meta_string, &header_meta);
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if (!io_s.ok()) {
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return io_s;
|
|
}
|
|
|
|
io_s = ReadDumpUnit(header_meta.dump_unit_size, data, dump_unit);
|
|
if (!io_s.ok()) {
|
|
return io_s;
|
|
}
|
|
uint32_t unit_checksum = crc32c::Value(data->c_str(), data->size());
|
|
if (unit_checksum != header_meta.dump_unit_checksum) {
|
|
return IOStatus::Corruption("Read header unit corrupted!");
|
|
}
|
|
return io_s;
|
|
}
|
|
|
|
// Read the blocks after header is read out
|
|
IOStatus CacheDumpedLoaderImpl::ReadCacheBlock(std::string* data,
|
|
DumpUnit* dump_unit) {
|
|
// According to the write process, we read the dump_unit_metadata first
|
|
DumpUnitMeta unit_meta;
|
|
unit_meta.reset();
|
|
std::string unit_string;
|
|
IOStatus io_s = ReadDumpUnitMeta(&unit_string, &unit_meta);
|
|
if (!io_s.ok()) {
|
|
return io_s;
|
|
}
|
|
|
|
// Based on the information in the dump_unit_metadata, we read the dump_unit
|
|
// and verify if its content is correct.
|
|
io_s = ReadDumpUnit(unit_meta.dump_unit_size, data, dump_unit);
|
|
if (!io_s.ok()) {
|
|
return io_s;
|
|
}
|
|
uint32_t unit_checksum = crc32c::Value(data->c_str(), data->size());
|
|
if (unit_checksum != unit_meta.dump_unit_checksum) {
|
|
return IOStatus::Corruption(
|
|
"Checksum does not match! Read dumped unit corrupted!");
|
|
}
|
|
return io_s;
|
|
}
|
|
|
|
} // namespace ROCKSDB_NAMESPACE
|
|
#endif // ROCKSDB_LITE
|