1 #include "database-builder.h"
4 #include "turbopfor-encode.h"
13 #include <string_view>
16 #include <sys/types.h>
21 #define P4NENC_BOUND(n) ((n + 127) / 128 + (n + 32) * sizeof(uint32_t))
23 #define NUM_TRIGRAMS 16777216
26 using namespace std::chrono;
28 constexpr unsigned num_overflow_slots = 16;
30 string zstd_compress(const string &src, ZSTD_CDict *cdict, string *tempbuf);
32 class PostingListBuilder {
34 inline void add_docid(uint32_t docid);
35 inline void add_first_docid(uint32_t docid);
38 vector<unsigned char> encoded;
39 size_t get_num_docids() const {
40 // Updated only when we flush, so check that we're finished.
41 assert(pending_deltas.empty());
46 void write_header(uint32_t docid);
49 vector<uint32_t> pending_deltas;
51 uint32_t num_docids = 0; // Should be size_t, except the format only supports 2^32 docids per posting list anyway.
52 uint32_t last_docid = -1;
55 void PostingListBuilder::add_docid(uint32_t docid)
57 // Deduplicate against the last inserted value, if any.
58 if (docid == last_docid) {
62 pending_deltas.push_back(docid - last_docid - 1);
64 if (pending_deltas.size() == 128) {
66 pending_deltas.clear();
71 void PostingListBuilder::add_first_docid(uint32_t docid)
78 void PostingListBuilder::finish()
80 if (pending_deltas.empty()) {
84 assert(!encoded.empty()); // write_header() should already have run.
86 // No interleaving for partial blocks.
87 unsigned char buf[P4NENC_BOUND(128)];
88 unsigned char *end = encode_pfor_single_block<128>(pending_deltas.data(), pending_deltas.size(), /*interleaved=*/false, buf);
89 encoded.insert(encoded.end(), buf, end);
91 num_docids += pending_deltas.size();
92 pending_deltas.clear();
95 void PostingListBuilder::append_block()
97 unsigned char buf[P4NENC_BOUND(128)];
98 assert(pending_deltas.size() == 128);
99 unsigned char *end = encode_pfor_single_block<128>(pending_deltas.data(), 128, /*interleaved=*/true, buf);
100 encoded.insert(encoded.end(), buf, end);
103 void PostingListBuilder::write_header(uint32_t docid)
105 unsigned char buf[P4NENC_BOUND(1)];
106 unsigned char *end = write_baseval(docid, buf);
107 encoded.insert(encoded.end(), buf, end);
110 void DictionaryBuilder::add_file(string filename, dir_time)
112 if (keep_current_block) { // Only bother saving the filenames if we're actually keeping the block.
113 if (!current_block.empty()) {
114 current_block.push_back('\0');
116 current_block += filename;
118 if (++num_files_in_block == block_size) {
123 void DictionaryBuilder::flush_block()
125 if (keep_current_block) {
126 if (slot_for_current_block == -1) {
127 lengths.push_back(current_block.size());
128 sampled_blocks.push_back(move(current_block));
130 lengths[slot_for_current_block] = current_block.size();
131 sampled_blocks[slot_for_current_block] = move(current_block);
134 current_block.clear();
135 num_files_in_block = 0;
138 if (block_num < blocks_to_keep) {
139 keep_current_block = true;
140 slot_for_current_block = -1;
142 // Keep every block with equal probability (reservoir sampling).
143 uint64_t idx = uniform_int_distribution<uint64_t>(0, block_num)(reservoir_rand);
144 keep_current_block = (idx < blocks_to_keep);
145 slot_for_current_block = idx;
149 string DictionaryBuilder::train(size_t buf_size)
151 string dictionary_buf;
152 sort(sampled_blocks.begin(), sampled_blocks.end()); // Seemingly important for decompression speed.
153 for (const string &block : sampled_blocks) {
154 dictionary_buf += block;
158 buf.resize(buf_size);
159 size_t ret = ZDICT_trainFromBuffer(&buf[0], buf_size, dictionary_buf.data(), lengths.data(), lengths.size());
160 if (ZDICT_isError(ret)) {
163 dprintf("Sampled %zu bytes in %zu blocks, built a dictionary of size %zu\n", dictionary_buf.size(), lengths.size(), ret);
166 sampled_blocks.clear();
172 class EncodingCorpus : public DatabaseReceiver {
174 EncodingCorpus(FILE *outfp, size_t block_size, ZSTD_CDict *cdict, bool store_dir_times);
177 void add_file(std::string filename, dir_time dt) override;
178 void flush_block() override;
179 void finish() override;
181 std::vector<uint64_t> filename_blocks;
182 size_t num_files = 0, num_files_in_block = 0, num_blocks = 0;
183 bool seen_trigram(uint32_t trgm)
185 return invindex[trgm] != nullptr;
187 size_t num_files_seen() const override { return num_files; }
188 PostingListBuilder &get_pl_builder(uint32_t trgm)
190 return *invindex[trgm];
193 void add_docid(uint32_t trgm, uint32_t docid)
195 if (invindex[trgm] == nullptr) {
196 invindex[trgm] = new PostingListBuilder;
197 invindex[trgm]->add_first_docid(docid);
199 invindex[trgm]->add_docid(docid);
203 size_t num_trigrams() const;
204 std::string get_compressed_dir_times();
207 void compress_dir_times(size_t allowed_slop);
209 std::unique_ptr<PostingListBuilder *[]> invindex;
211 off_t outfp_pos; // Cheaper than calling ftell(outfp) all the time.
212 std::string current_block;
214 const size_t block_size;
215 const bool store_dir_times;
218 ZSTD_CStream *dir_time_ctx = nullptr;
219 std::string dir_times; // Buffer of still-uncompressed data.
220 std::string dir_times_compressed;
224 EncodingCorpus::EncodingCorpus(FILE *outfp, size_t block_size, ZSTD_CDict *cdict, bool store_dir_times)
225 : invindex(new PostingListBuilder *[NUM_TRIGRAMS]), outfp(outfp), outfp_pos(ftell(outfp)), block_size(block_size), store_dir_times(store_dir_times), cdict(cdict)
227 fill(invindex.get(), invindex.get() + NUM_TRIGRAMS, nullptr);
228 if (store_dir_times) {
229 dir_time_ctx = ZSTD_createCStream();
230 ZSTD_initCStream(dir_time_ctx, /*level=*/6);
234 EncodingCorpus::~EncodingCorpus()
236 for (unsigned i = 0; i < NUM_TRIGRAMS; ++i) {
241 void EncodingCorpus::add_file(string filename, dir_time dt)
244 if (!current_block.empty()) {
245 current_block.push_back('\0');
247 current_block += filename;
248 if (++num_files_in_block == block_size) {
252 if (store_dir_times) {
255 dir_times.push_back('\0');
257 dir_times.push_back('\1');
258 dir_times.append(reinterpret_cast<char *>(&dt.sec), sizeof(dt.sec));
259 dir_times.append(reinterpret_cast<char *>(&dt.nsec), sizeof(dt.nsec));
261 compress_dir_times(/*allowed_slop=*/4096);
265 void EncodingCorpus::compress_dir_times(size_t allowed_slop)
267 while (dir_times.size() >= allowed_slop) {
268 size_t old_size = dir_times_compressed.size();
269 dir_times_compressed.resize(old_size + 4096);
271 ZSTD_outBuffer outbuf;
272 outbuf.dst = dir_times_compressed.data() + old_size;
277 inbuf.src = dir_times.data();
278 inbuf.size = dir_times.size();
281 int ret = ZSTD_compressStream(dir_time_ctx, &outbuf, &inbuf);
283 fprintf(stderr, "ZSTD_compressStream() failed\n");
287 dir_times_compressed.resize(old_size + outbuf.pos);
288 dir_times.erase(dir_times.begin(), dir_times.begin() + inbuf.pos);
290 if (outbuf.pos == 0 && inbuf.pos == 0) {
291 // Nothing happened (not enough data?), try again later.
297 void EncodingCorpus::flush_block()
299 if (current_block.empty()) {
303 uint32_t docid = num_blocks;
306 const char *ptr = current_block.c_str();
307 const char *end = ptr + current_block.size();
308 while (ptr < end - 3) { // Must be at least one filename left, that's at least three bytes.
309 if (ptr[0] == '\0') {
310 // This filename is zero bytes, so skip it (and the zero terminator).
313 } else if (ptr[1] == '\0') {
314 // This filename is one byte, so skip it (and the zero terminator).
317 } else if (ptr[2] == '\0') {
318 // This filename is two bytes, so skip it (and the zero terminator).
323 // NOTE: Will read one byte past the end of the trigram, but it's OK,
324 // since we always call it from contexts where there's a terminating zero byte.
326 memcpy(&trgm, ptr, sizeof(trgm));
328 trgm = le32toh(trgm);
329 add_docid(trgm & 0xffffff, docid);
330 if (trgm <= 0xffffff) {
331 // Terminating zero byte, so we're done with this filename.
332 // Skip the remaining two bytes, and the zero terminator.
339 // Compress and add the filename block.
340 filename_blocks.push_back(outfp_pos);
341 string compressed = zstd_compress(current_block, cdict, &tempbuf);
342 if (fwrite(compressed.data(), compressed.size(), 1, outfp) != 1) {
346 outfp_pos += compressed.size();
348 current_block.clear();
349 num_files_in_block = 0;
353 void EncodingCorpus::finish()
358 size_t EncodingCorpus::num_trigrams() const
361 for (unsigned trgm = 0; trgm < NUM_TRIGRAMS; ++trgm) {
362 if (invindex[trgm] != nullptr) {
369 string EncodingCorpus::get_compressed_dir_times()
371 if (!store_dir_times) {
374 compress_dir_times(/*allowed_slop=*/0);
375 assert(dir_times.empty());
378 size_t old_size = dir_times_compressed.size();
379 dir_times_compressed.resize(old_size + 4096);
381 ZSTD_outBuffer outbuf;
382 outbuf.dst = dir_times_compressed.data() + old_size;
386 int ret = ZSTD_endStream(dir_time_ctx, &outbuf);
388 fprintf(stderr, "ZSTD_compressStream() failed\n");
392 dir_times_compressed.resize(old_size + outbuf.pos);
400 return dir_times_compressed;
403 string zstd_compress(const string &src, ZSTD_CDict *cdict, string *tempbuf)
405 static ZSTD_CCtx *ctx = nullptr;
406 if (ctx == nullptr) {
407 ctx = ZSTD_createCCtx();
410 size_t max_size = ZSTD_compressBound(src.size());
411 if (tempbuf->size() < max_size) {
412 tempbuf->resize(max_size);
415 if (cdict == nullptr) {
416 size = ZSTD_compressCCtx(ctx, &(*tempbuf)[0], max_size, src.data(), src.size(), /*level=*/6);
418 size = ZSTD_compress_usingCDict(ctx, &(*tempbuf)[0], max_size, src.data(), src.size(), cdict);
420 return string(tempbuf->data(), size);
423 bool is_prime(uint32_t x)
425 if ((x % 2) == 0 || (x % 3) == 0) {
428 uint32_t limit = ceil(sqrt(x));
429 for (uint32_t factor = 5; factor <= limit; ++factor) {
430 if ((x % factor) == 0) {
437 uint32_t next_prime(uint32_t x)
442 while (!is_prime(x)) {
448 unique_ptr<Trigram[]> create_hashtable(EncodingCorpus &corpus, const vector<uint32_t> &all_trigrams, uint32_t ht_size, uint32_t num_overflow_slots)
450 unique_ptr<Trigram[]> ht(new Trigram[ht_size + num_overflow_slots + 1]); // 1 for the sentinel element at the end.
451 for (unsigned i = 0; i < ht_size + num_overflow_slots + 1; ++i) {
452 ht[i].trgm = uint32_t(-1);
453 ht[i].num_docids = 0;
456 for (uint32_t trgm : all_trigrams) {
457 // We don't know offset yet, so set it to zero.
458 Trigram to_insert{ trgm, uint32_t(corpus.get_pl_builder(trgm).get_num_docids()), 0 };
460 uint32_t bucket = hash_trigram(trgm, ht_size);
461 unsigned distance = 0;
462 while (ht[bucket].num_docids != 0) {
463 // Robin Hood hashing; reduces the longest distance by a lot.
464 unsigned other_distance = bucket - hash_trigram(ht[bucket].trgm, ht_size);
465 if (distance > other_distance) {
466 swap(to_insert, ht[bucket]);
467 distance = other_distance;
470 ++bucket, ++distance;
471 if (distance > num_overflow_slots) {
475 ht[bucket] = to_insert;
480 DatabaseBuilder::DatabaseBuilder(const char *outfile, gid_t owner, int block_size, string dictionary, bool check_visibility)
481 : outfile(outfile), block_size(block_size)
485 string path = outfile;
486 path.resize(path.find_last_of('/') + 1);
492 fd = open(path.c_str(), O_WRONLY | O_TMPFILE, 0640);
493 if (fd == -1 && errno != EOPNOTSUPP) {
494 perror(path.c_str());
499 temp_filename = string(outfile) + ".XXXXXX";
500 fd = mkstemp(&temp_filename[0]);
502 perror(temp_filename.c_str());
505 if (fchmod(fd, 0640) == -1) {
511 if (owner != (gid_t)-1) {
512 if (fchown(fd, (uid_t)-1, owner) == -1) {
518 outfp = fdopen(fd, "wb");
519 if (outfp == nullptr) {
525 memcpy(hdr.magic, "\0plocate", 8);
526 hdr.version = -1; // Mark as broken.
527 hdr.hashtable_size = 0; // Not known yet.
528 hdr.extra_ht_slots = num_overflow_slots;
530 hdr.hash_table_offset_bytes = -1; // We don't know these offsets yet.
532 hdr.filename_index_offset_bytes = -1;
533 hdr.zstd_dictionary_length_bytes = -1;
534 hdr.check_visibility = check_visibility;
535 fwrite(&hdr, sizeof(hdr), 1, outfp);
537 if (dictionary.empty()) {
538 hdr.zstd_dictionary_offset_bytes = 0;
539 hdr.zstd_dictionary_length_bytes = 0;
541 hdr.zstd_dictionary_offset_bytes = ftell(outfp);
542 fwrite(dictionary.data(), dictionary.size(), 1, outfp);
543 hdr.zstd_dictionary_length_bytes = dictionary.size();
544 cdict = ZSTD_createCDict(dictionary.data(), dictionary.size(), /*level=*/6);
547 hdr.directory_data_length_bytes = 0;
548 hdr.directory_data_offset_bytes = 0;
549 hdr.next_zstd_dictionary_length_bytes = 0;
550 hdr.next_zstd_dictionary_offset_bytes = 0;
551 hdr.conf_block_length_bytes = 0;
552 hdr.conf_block_offset_bytes = 0;
555 DatabaseReceiver *DatabaseBuilder::start_corpus(bool store_dir_times)
557 corpus_start = steady_clock::now();
558 corpus = new EncodingCorpus(outfp, block_size, cdict, store_dir_times);
562 void DatabaseBuilder::set_next_dictionary(std::string next_dictionary)
564 this->next_dictionary = move(next_dictionary);
567 void DatabaseBuilder::set_conf_block(std::string conf_block)
569 this->conf_block = move(conf_block);
572 void DatabaseBuilder::finish_corpus()
575 hdr.num_docids = corpus->filename_blocks.size();
577 // Stick an empty block at the end as sentinel.
578 corpus->filename_blocks.push_back(ftell(outfp));
579 const size_t bytes_for_filenames = corpus->filename_blocks.back() - corpus->filename_blocks.front();
581 // Write the offsets to the filenames.
582 hdr.filename_index_offset_bytes = ftell(outfp);
583 const size_t bytes_for_filename_index = corpus->filename_blocks.size() * sizeof(uint64_t);
584 fwrite(corpus->filename_blocks.data(), corpus->filename_blocks.size(), sizeof(uint64_t), outfp);
585 corpus->filename_blocks.clear();
586 corpus->filename_blocks.shrink_to_fit();
588 // Finish up encoding the posting lists.
589 size_t trigrams = 0, longest_posting_list = 0;
590 size_t bytes_for_posting_lists = 0;
591 for (unsigned trgm = 0; trgm < NUM_TRIGRAMS; ++trgm) {
592 if (!corpus->seen_trigram(trgm))
594 PostingListBuilder &pl_builder = corpus->get_pl_builder(trgm);
596 longest_posting_list = max(longest_posting_list, pl_builder.get_num_docids());
597 trigrams += pl_builder.get_num_docids();
598 bytes_for_posting_lists += pl_builder.encoded.size();
600 size_t num_trigrams = corpus->num_trigrams();
601 dprintf("%zu files, %zu different trigrams, %zu entries, avg len %.2f, longest %zu\n",
602 corpus->num_files, num_trigrams, trigrams, double(trigrams) / num_trigrams, longest_posting_list);
603 dprintf("%zu bytes used for posting lists (%.2f bits/entry)\n", bytes_for_posting_lists, 8 * bytes_for_posting_lists / double(trigrams));
605 dprintf("Building posting lists took %.1f ms.\n\n", 1e3 * duration<float>(steady_clock::now() - corpus_start).count());
607 // Find the used trigrams.
608 vector<uint32_t> all_trigrams;
609 for (unsigned trgm = 0; trgm < NUM_TRIGRAMS; ++trgm) {
610 if (corpus->seen_trigram(trgm)) {
611 all_trigrams.push_back(trgm);
615 // Create the hash table.
616 unique_ptr<Trigram[]> hashtable;
617 uint32_t ht_size = next_prime(all_trigrams.size());
619 hashtable = create_hashtable(*corpus, all_trigrams, ht_size, num_overflow_slots);
620 if (hashtable == nullptr) {
621 dprintf("Failed creating hash table of size %u, increasing by 5%% and trying again.\n", ht_size);
622 ht_size = next_prime(ht_size * 1.05);
624 dprintf("Created hash table of size %u.\n\n", ht_size);
629 // Find the offsets for each posting list.
630 size_t bytes_for_hashtable = (ht_size + num_overflow_slots + 1) * sizeof(Trigram);
631 uint64_t offset = ftell(outfp) + bytes_for_hashtable;
632 for (unsigned i = 0; i < ht_size + num_overflow_slots + 1; ++i) {
633 hashtable[i].offset = offset; // Needs to be there even for empty slots.
634 if (hashtable[i].num_docids == 0) {
638 const vector<unsigned char> &encoded = corpus->get_pl_builder(hashtable[i].trgm).encoded;
639 offset += encoded.size();
642 // Write the hash table.
643 hdr.hash_table_offset_bytes = ftell(outfp);
644 hdr.hashtable_size = ht_size;
645 fwrite(hashtable.get(), ht_size + num_overflow_slots + 1, sizeof(Trigram), outfp);
647 // Write the actual posting lists.
648 for (unsigned i = 0; i < ht_size + num_overflow_slots + 1; ++i) {
649 if (hashtable[i].num_docids == 0) {
652 const vector<unsigned char> &encoded = corpus->get_pl_builder(hashtable[i].trgm).encoded;
653 fwrite(encoded.data(), encoded.size(), 1, outfp);
656 // Finally, write the directory times (for updatedb).
657 string compressed_dir_times = corpus->get_compressed_dir_times();
658 size_t bytes_for_compressed_dir_times = 0;
659 if (!compressed_dir_times.empty()) {
660 hdr.directory_data_offset_bytes = ftell(outfp);
661 hdr.directory_data_length_bytes = compressed_dir_times.size();
662 fwrite(compressed_dir_times.data(), compressed_dir_times.size(), 1, outfp);
663 bytes_for_compressed_dir_times = compressed_dir_times.size();
664 compressed_dir_times.clear();
667 // Write the recommended dictionary for next update.
668 if (!next_dictionary.empty()) {
669 hdr.next_zstd_dictionary_offset_bytes = ftell(outfp);
670 hdr.next_zstd_dictionary_length_bytes = next_dictionary.size();
671 fwrite(next_dictionary.data(), next_dictionary.size(), 1, outfp);
674 // And the configuration block.
675 if (!conf_block.empty()) {
676 hdr.conf_block_offset_bytes = ftell(outfp);
677 hdr.conf_block_length_bytes = conf_block.size();
678 fwrite(conf_block.data(), conf_block.size(), 1, outfp);
681 // Rewind, and write the updated header.
683 fseek(outfp, 0, SEEK_SET);
684 fwrite(&hdr, sizeof(hdr), 1, outfp);
686 if (!temp_filename.empty()) {
687 if (rename(temp_filename.c_str(), outfile.c_str()) == -1) {
693 // Give the file a proper name, making it visible in the file system.
694 // TODO: It would be nice to be able to do this atomically, like with rename.
695 unlink(outfile.c_str());
697 snprintf(procpath, sizeof(procpath), "/proc/self/fd/%d", fileno(outfp));
698 if (linkat(AT_FDCWD, procpath, AT_FDCWD, outfile.c_str(), AT_SYMLINK_FOLLOW) == -1) {
707 size_t total_bytes = (bytes_for_hashtable + bytes_for_posting_lists + bytes_for_filename_index + bytes_for_filenames + bytes_for_compressed_dir_times);
709 dprintf("Block size: %7d files\n", block_size);
710 dprintf("Dictionary: %'7.1f MB\n", hdr.zstd_dictionary_length_bytes / 1048576.0);
711 dprintf("Hash table: %'7.1f MB\n", bytes_for_hashtable / 1048576.0);
712 dprintf("Posting lists: %'7.1f MB\n", bytes_for_posting_lists / 1048576.0);
713 dprintf("Filename index: %'7.1f MB\n", bytes_for_filename_index / 1048576.0);
714 dprintf("Filenames: %'7.1f MB\n", bytes_for_filenames / 1048576.0);
715 if (bytes_for_compressed_dir_times != 0) {
716 dprintf("Modify times: %'7.1f MB\n", bytes_for_compressed_dir_times / 1048576.0);
718 dprintf("Total: %'7.1f MB\n", total_bytes / 1048576.0);