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321dfdc3ae
Summary: The leveldb API is enhanced to support different compression algorithms at different levels. This adds the option min_level_to_compress to db_bench that specifies the minimum level for which compression should be done when compression is enabled. This can be used to disable compression for levels 0 and 1 which are likely to suffer from stalls because of the CPU load for memtable flushes and (L0,L1) compaction. Level 0 is special as it gets frequent memtable flushes. Level 1 is special as it frequently gets all:all file compactions between it and level 0. But all other levels could be the same. For any level N where N > 1, the rate of sequential IO for that level should be the same. The last level is the exception because it might not be full and because files from it are not read to compact with the next larger level. The same amount of time will be spent doing compaction at any level N excluding N=0, 1 or the last level. By this standard all of those levels should use the same compression. The difference is that the loss (using more disk space) from a faster compression algorithm is less significant for N=2 than for N=3. So we might be willing to trade disk space for faster write rates with no compression for L0 and L1, snappy for L2, zlib for L3. Using a faster compression algorithm for the mid levels also allows us to reclaim some cpu without trading off much loss in disk space overhead. Also note that little is to be gained by compressing levels 0 and 1. For a 4-level tree they account for 10% of the data. For a 5-level tree they account for 1% of the data. With compression enabled: * memtable flush rate is ~18MB/second * (L0,L1) compaction rate is ~30MB/second With compression enabled but min_level_to_compress=2 * memtable flush rate is ~320MB/second * (L0,L1) compaction rate is ~560MB/second This practicaly takes the same code from https://reviews.facebook.net/D6225 but makes the leveldb api more general purpose with a few additional lines of code. Test Plan: make check Differential Revision: https://reviews.facebook.net/D6261
313 lines
9.4 KiB
C++
313 lines
9.4 KiB
C++
// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#include "leveldb/table_builder.h"
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#include <assert.h>
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#include "leveldb/comparator.h"
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#include "leveldb/env.h"
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#include "leveldb/filter_policy.h"
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#include "leveldb/options.h"
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#include "table/block_builder.h"
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#include "table/filter_block.h"
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#include "table/format.h"
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#include "util/coding.h"
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#include "util/crc32c.h"
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namespace leveldb {
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struct TableBuilder::Rep {
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Options options;
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Options index_block_options;
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WritableFile* file;
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uint64_t offset;
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Status status;
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BlockBuilder data_block;
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BlockBuilder index_block;
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std::string last_key;
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int64_t num_entries;
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bool closed; // Either Finish() or Abandon() has been called.
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FilterBlockBuilder* filter_block;
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// We do not emit the index entry for a block until we have seen the
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// first key for the next data block. This allows us to use shorter
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// keys in the index block. For example, consider a block boundary
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// between the keys "the quick brown fox" and "the who". We can use
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// "the r" as the key for the index block entry since it is >= all
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// entries in the first block and < all entries in subsequent
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// blocks.
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//
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// Invariant: r->pending_index_entry is true only if data_block is empty.
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bool pending_index_entry;
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BlockHandle pending_handle; // Handle to add to index block
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std::string compressed_output;
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Rep(const Options& opt, WritableFile* f)
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: options(opt),
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index_block_options(opt),
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file(f),
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offset(0),
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data_block(&options),
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index_block(&index_block_options),
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num_entries(0),
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closed(false),
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filter_block(opt.filter_policy == NULL ? NULL
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: new FilterBlockBuilder(opt.filter_policy)),
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pending_index_entry(false) {
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index_block_options.block_restart_interval = 1;
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}
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};
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TableBuilder::TableBuilder(const Options& options, WritableFile* file,
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int level)
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: rep_(new Rep(options, file)), level_(level) {
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if (rep_->filter_block != NULL) {
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rep_->filter_block->StartBlock(0);
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}
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}
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TableBuilder::~TableBuilder() {
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assert(rep_->closed); // Catch errors where caller forgot to call Finish()
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delete rep_->filter_block;
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delete rep_;
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}
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Status TableBuilder::ChangeOptions(const Options& options) {
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// Note: if more fields are added to Options, update
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// this function to catch changes that should not be allowed to
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// change in the middle of building a Table.
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if (options.comparator != rep_->options.comparator) {
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return Status::InvalidArgument("changing comparator while building table");
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}
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// Note that any live BlockBuilders point to rep_->options and therefore
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// will automatically pick up the updated options.
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rep_->options = options;
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rep_->index_block_options = options;
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rep_->index_block_options.block_restart_interval = 1;
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return Status::OK();
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}
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void TableBuilder::Add(const Slice& key, const Slice& value) {
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Rep* r = rep_;
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assert(!r->closed);
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if (!ok()) return;
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if (r->num_entries > 0) {
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assert(r->options.comparator->Compare(key, Slice(r->last_key)) > 0);
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}
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if (r->pending_index_entry) {
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assert(r->data_block.empty());
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r->options.comparator->FindShortestSeparator(&r->last_key, key);
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std::string handle_encoding;
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r->pending_handle.EncodeTo(&handle_encoding);
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r->index_block.Add(r->last_key, Slice(handle_encoding));
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r->pending_index_entry = false;
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}
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if (r->filter_block != NULL) {
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r->filter_block->AddKey(key);
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}
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r->last_key.assign(key.data(), key.size());
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r->num_entries++;
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r->data_block.Add(key, value);
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const size_t estimated_block_size = r->data_block.CurrentSizeEstimate();
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if (estimated_block_size >= r->options.block_size) {
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Flush();
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}
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}
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void TableBuilder::Flush() {
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Rep* r = rep_;
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assert(!r->closed);
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if (!ok()) return;
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if (r->data_block.empty()) return;
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assert(!r->pending_index_entry);
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WriteBlock(&r->data_block, &r->pending_handle);
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if (ok()) {
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r->pending_index_entry = true;
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r->status = r->file->Flush();
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}
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if (r->filter_block != NULL) {
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r->filter_block->StartBlock(r->offset);
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}
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}
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static bool GoodCompressionRatio(size_t compressed_size, size_t raw_size) {
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// Check to see if compressed less than 12.5%
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return compressed_size < raw_size - (raw_size / 8u);
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}
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void TableBuilder::WriteBlock(BlockBuilder* block, BlockHandle* handle) {
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// File format contains a sequence of blocks where each block has:
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// block_data: uint8[n]
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// type: uint8
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// crc: uint32
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assert(ok());
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Rep* r = rep_;
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Slice raw = block->Finish();
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Slice block_contents;
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std::string* compressed = &r->compressed_output;
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CompressionType type;
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// If the use has specified a different compression level for each level,
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// then pick the compresison for that level.
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if (r->options.compression_per_level != NULL) {
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if (level_ == -1) {
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// this is mostly for backward compatibility. The builder does not
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// know which level this file belongs to. Apply the compression level
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// specified for level 0 to all levels.
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type = r->options.compression_per_level[0];
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} else {
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type = r->options.compression_per_level[level_];
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}
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} else {
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type = r->options.compression;
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}
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switch (type) {
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case kNoCompression:
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block_contents = raw;
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break;
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case kSnappyCompression: {
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std::string* compressed = &r->compressed_output;
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if (port::Snappy_Compress(raw.data(), raw.size(), compressed) &&
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GoodCompressionRatio(compressed->size(), raw.size())) {
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block_contents = *compressed;
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} else {
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// Snappy not supported, or not good compression ratio, so just
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// store uncompressed form
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block_contents = raw;
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type = kNoCompression;
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}
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break;
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}
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case kZlibCompression:
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if (port::Zlib_Compress(raw.data(), raw.size(), compressed) &&
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GoodCompressionRatio(compressed->size(), raw.size())) {
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block_contents = *compressed;
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} else {
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// Zlib not supported, or not good compression ratio, so just
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// store uncompressed form
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block_contents = raw;
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type = kNoCompression;
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}
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break;
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case kBZip2Compression:
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if (port::BZip2_Compress(raw.data(), raw.size(), compressed) &&
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GoodCompressionRatio(compressed->size(), raw.size())) {
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block_contents = *compressed;
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} else {
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// BZip not supported, or not good compression ratio, so just
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// store uncompressed form
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block_contents = raw;
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type = kNoCompression;
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}
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break;
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}
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WriteRawBlock(block_contents, type, handle);
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r->compressed_output.clear();
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block->Reset();
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}
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void TableBuilder::WriteRawBlock(const Slice& block_contents,
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CompressionType type,
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BlockHandle* handle) {
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Rep* r = rep_;
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handle->set_offset(r->offset);
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handle->set_size(block_contents.size());
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r->status = r->file->Append(block_contents);
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if (r->status.ok()) {
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char trailer[kBlockTrailerSize];
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trailer[0] = type;
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uint32_t crc = crc32c::Value(block_contents.data(), block_contents.size());
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crc = crc32c::Extend(crc, trailer, 1); // Extend crc to cover block type
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EncodeFixed32(trailer+1, crc32c::Mask(crc));
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r->status = r->file->Append(Slice(trailer, kBlockTrailerSize));
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if (r->status.ok()) {
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r->offset += block_contents.size() + kBlockTrailerSize;
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}
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}
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}
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Status TableBuilder::status() const {
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return rep_->status;
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}
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Status TableBuilder::Finish() {
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Rep* r = rep_;
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Flush();
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assert(!r->closed);
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r->closed = true;
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BlockHandle filter_block_handle, metaindex_block_handle, index_block_handle;
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// Write filter block
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if (ok() && r->filter_block != NULL) {
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WriteRawBlock(r->filter_block->Finish(), kNoCompression,
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&filter_block_handle);
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}
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// Write metaindex block
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if (ok()) {
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BlockBuilder meta_index_block(&r->options);
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if (r->filter_block != NULL) {
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// Add mapping from "filter.Name" to location of filter data
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std::string key = "filter.";
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key.append(r->options.filter_policy->Name());
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std::string handle_encoding;
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filter_block_handle.EncodeTo(&handle_encoding);
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meta_index_block.Add(key, handle_encoding);
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}
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// TODO(postrelease): Add stats and other meta blocks
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WriteBlock(&meta_index_block, &metaindex_block_handle);
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}
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// Write index block
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if (ok()) {
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if (r->pending_index_entry) {
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r->options.comparator->FindShortSuccessor(&r->last_key);
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std::string handle_encoding;
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r->pending_handle.EncodeTo(&handle_encoding);
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r->index_block.Add(r->last_key, Slice(handle_encoding));
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r->pending_index_entry = false;
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}
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WriteBlock(&r->index_block, &index_block_handle);
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}
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// Write footer
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if (ok()) {
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Footer footer;
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footer.set_metaindex_handle(metaindex_block_handle);
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footer.set_index_handle(index_block_handle);
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std::string footer_encoding;
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footer.EncodeTo(&footer_encoding);
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r->status = r->file->Append(footer_encoding);
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if (r->status.ok()) {
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r->offset += footer_encoding.size();
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}
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}
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return r->status;
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}
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void TableBuilder::Abandon() {
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Rep* r = rep_;
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assert(!r->closed);
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r->closed = true;
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}
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uint64_t TableBuilder::NumEntries() const {
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return rep_->num_entries;
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}
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uint64_t TableBuilder::FileSize() const {
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return rep_->offset;
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}
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} // namespace leveldb
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