// Copyright 2020 The Gitea Authors. All rights reserved. // Use of this source code is governed by a MIT-style // license that can be found in the LICENSE file. package code import ( "bufio" "context" "fmt" "io" "io/ioutil" "strconv" "strings" "time" "code.gitea.io/gitea/models" "code.gitea.io/gitea/modules/analyze" "code.gitea.io/gitea/modules/charset" "code.gitea.io/gitea/modules/git" "code.gitea.io/gitea/modules/log" "code.gitea.io/gitea/modules/setting" "code.gitea.io/gitea/modules/timeutil" "code.gitea.io/gitea/modules/typesniffer" "github.com/go-enry/go-enry/v2" jsoniter "github.com/json-iterator/go" "github.com/olivere/elastic/v7" ) const ( esRepoIndexerLatestVersion = 1 // multi-match-types, currently only 2 types are used // Reference: https://www.elastic.co/guide/en/elasticsearch/reference/7.0/query-dsl-multi-match-query.html#multi-match-types esMultiMatchTypeBestFields = "best_fields" esMultiMatchTypePhrasePrefix = "phrase_prefix" ) var ( _ Indexer = &ElasticSearchIndexer{} ) // ElasticSearchIndexer implements Indexer interface type ElasticSearchIndexer struct { client *elastic.Client indexerAliasName string } type elasticLogger struct { log.Logger } func (l elasticLogger) Printf(format string, args ...interface{}) { _ = l.Logger.Log(2, l.Logger.GetLevel(), format, args...) } // NewElasticSearchIndexer creates a new elasticsearch indexer func NewElasticSearchIndexer(url, indexerName string) (*ElasticSearchIndexer, bool, error) { opts := []elastic.ClientOptionFunc{ elastic.SetURL(url), elastic.SetSniff(false), elastic.SetHealthcheckInterval(10 * time.Second), elastic.SetGzip(false), } logger := elasticLogger{log.GetLogger(log.DEFAULT)} if logger.GetLevel() == log.TRACE || logger.GetLevel() == log.DEBUG { opts = append(opts, elastic.SetTraceLog(logger)) } else if logger.GetLevel() == log.ERROR || logger.GetLevel() == log.CRITICAL || logger.GetLevel() == log.FATAL { opts = append(opts, elastic.SetErrorLog(logger)) } else if logger.GetLevel() == log.INFO || logger.GetLevel() == log.WARN { opts = append(opts, elastic.SetInfoLog(logger)) } client, err := elastic.NewClient(opts...) if err != nil { return nil, false, err } indexer := &ElasticSearchIndexer{ client: client, indexerAliasName: indexerName, } exists, err := indexer.init() if err != nil { indexer.Close() return nil, false, err } return indexer, !exists, err } const ( defaultMapping = `{ "mappings": { "properties": { "repo_id": { "type": "long", "index": true }, "content": { "type": "text", "term_vector": "with_positions_offsets", "index": true }, "commit_id": { "type": "keyword", "index": true }, "language": { "type": "keyword", "index": true }, "updated_at": { "type": "long", "index": true } } } }` ) func (b *ElasticSearchIndexer) realIndexerName() string { return fmt.Sprintf("%s.v%d", b.indexerAliasName, esRepoIndexerLatestVersion) } // Init will initialize the indexer func (b *ElasticSearchIndexer) init() (bool, error) { ctx := context.Background() exists, err := b.client.IndexExists(b.realIndexerName()).Do(ctx) if err != nil { return false, err } if !exists { var mapping = defaultMapping createIndex, err := b.client.CreateIndex(b.realIndexerName()).BodyString(mapping).Do(ctx) if err != nil { return false, err } if !createIndex.Acknowledged { return false, fmt.Errorf("create index %s with %s failed", b.realIndexerName(), mapping) } } // check version r, err := b.client.Aliases().Do(ctx) if err != nil { return false, err } realIndexerNames := r.IndicesByAlias(b.indexerAliasName) if len(realIndexerNames) < 1 { res, err := b.client.Alias(). Add(b.realIndexerName(), b.indexerAliasName). Do(ctx) if err != nil { return false, err } if !res.Acknowledged { return false, fmt.Errorf("") } } else if len(realIndexerNames) >= 1 && realIndexerNames[0] < b.realIndexerName() { log.Warn("Found older gitea indexer named %s, but we will create a new one %s and keep the old NOT DELETED. You can delete the old version after the upgrade succeed.", realIndexerNames[0], b.realIndexerName()) res, err := b.client.Alias(). Remove(realIndexerNames[0], b.indexerAliasName). Add(b.realIndexerName(), b.indexerAliasName). Do(ctx) if err != nil { return false, err } if !res.Acknowledged { return false, fmt.Errorf("") } } return exists, nil } func (b *ElasticSearchIndexer) addUpdate(batchWriter git.WriteCloserError, batchReader *bufio.Reader, sha string, update fileUpdate, repo *models.Repository) ([]elastic.BulkableRequest, error) { // Ignore vendored files in code search if setting.Indexer.ExcludeVendored && analyze.IsVendor(update.Filename) { return nil, nil } size := update.Size if !update.Sized { stdout, err := git.NewCommand("cat-file", "-s", update.BlobSha). RunInDir(repo.RepoPath()) if err != nil { return nil, err } if size, err = strconv.ParseInt(strings.TrimSpace(stdout), 10, 64); err != nil { return nil, fmt.Errorf("Misformatted git cat-file output: %v", err) } } if size > setting.Indexer.MaxIndexerFileSize { return []elastic.BulkableRequest{b.addDelete(update.Filename, repo)}, nil } if _, err := batchWriter.Write([]byte(update.BlobSha + "\n")); err != nil { return nil, err } _, _, size, err := git.ReadBatchLine(batchReader) if err != nil { return nil, err } fileContents, err := ioutil.ReadAll(io.LimitReader(batchReader, size)) if err != nil { return nil, err } else if !typesniffer.DetectContentType(fileContents).IsText() { // FIXME: UTF-16 files will probably fail here return nil, nil } if _, err = batchReader.Discard(1); err != nil { return nil, err } id := filenameIndexerID(repo.ID, update.Filename) return []elastic.BulkableRequest{ elastic.NewBulkIndexRequest(). Index(b.indexerAliasName). Id(id). Doc(map[string]interface{}{ "repo_id": repo.ID, "content": string(charset.ToUTF8DropErrors(fileContents)), "commit_id": sha, "language": analyze.GetCodeLanguage(update.Filename, fileContents), "updated_at": timeutil.TimeStampNow(), }), }, nil } func (b *ElasticSearchIndexer) addDelete(filename string, repo *models.Repository) elastic.BulkableRequest { id := filenameIndexerID(repo.ID, filename) return elastic.NewBulkDeleteRequest(). Index(b.indexerAliasName). Id(id) } // Index will save the index data func (b *ElasticSearchIndexer) Index(repo *models.Repository, sha string, changes *repoChanges) error { reqs := make([]elastic.BulkableRequest, 0) if len(changes.Updates) > 0 { // Now because of some insanity with git cat-file not immediately failing if not run in a valid git directory we need to run git rev-parse first! if err := git.EnsureValidGitRepository(git.DefaultContext, repo.RepoPath()); err != nil { log.Error("Unable to open git repo: %s for %-v: %v", repo.RepoPath(), repo, err) return err } batchWriter, batchReader, cancel := git.CatFileBatch(repo.RepoPath()) defer cancel() for _, update := range changes.Updates { updateReqs, err := b.addUpdate(batchWriter, batchReader, sha, update, repo) if err != nil { return err } if len(updateReqs) > 0 { reqs = append(reqs, updateReqs...) } } cancel() } for _, filename := range changes.RemovedFilenames { reqs = append(reqs, b.addDelete(filename, repo)) } if len(reqs) > 0 { _, err := b.client.Bulk(). Index(b.indexerAliasName). Add(reqs...). Do(context.Background()) return err } return nil } // Delete deletes indexes by ids func (b *ElasticSearchIndexer) Delete(repoID int64) error { _, err := b.client.DeleteByQuery(b.indexerAliasName). Query(elastic.NewTermsQuery("repo_id", repoID)). Do(context.Background()) return err } // indexPos find words positions for start and the following end on content. It will // return the beginning position of the first start and the ending position of the // first end following the start string. // If not found any of the positions, it will return -1, -1. func indexPos(content, start, end string) (int, int) { startIdx := strings.Index(content, start) if startIdx < 0 { return -1, -1 } endIdx := strings.Index(content[startIdx+len(start):], end) if endIdx < 0 { return -1, -1 } return startIdx, startIdx + len(start) + endIdx + len(end) } func convertResult(searchResult *elastic.SearchResult, kw string, pageSize int) (int64, []*SearchResult, []*SearchResultLanguages, error) { hits := make([]*SearchResult, 0, pageSize) for _, hit := range searchResult.Hits.Hits { // FIXME: There is no way to get the position the keyword on the content currently on the same request. // So we get it from content, this may made the query slower. See // https://discuss.elastic.co/t/fetching-position-of-keyword-in-matched-document/94291 var startIndex, endIndex int = -1, -1 c, ok := hit.Highlight["content"] if ok && len(c) > 0 { // FIXME: Since the highlighting content will include and for the keywords, // now we should find the positions. But how to avoid html content which contains the // and tags? If elastic search has handled that? startIndex, endIndex = indexPos(c[0], "", "") if startIndex == -1 { panic(fmt.Sprintf("1===%s,,,%#v,,,%s", kw, hit.Highlight, c[0])) } } else { panic(fmt.Sprintf("2===%#v", hit.Highlight)) } repoID, fileName := parseIndexerID(hit.Id) var res = make(map[string]interface{}) json := jsoniter.ConfigCompatibleWithStandardLibrary if err := json.Unmarshal(hit.Source, &res); err != nil { return 0, nil, nil, err } language := res["language"].(string) hits = append(hits, &SearchResult{ RepoID: repoID, Filename: fileName, CommitID: res["commit_id"].(string), Content: res["content"].(string), UpdatedUnix: timeutil.TimeStamp(res["updated_at"].(float64)), Language: language, StartIndex: startIndex, EndIndex: endIndex - 9, // remove the length since we give Content the original data Color: enry.GetColor(language), }) } return searchResult.TotalHits(), hits, extractAggs(searchResult), nil } func extractAggs(searchResult *elastic.SearchResult) []*SearchResultLanguages { var searchResultLanguages []*SearchResultLanguages agg, found := searchResult.Aggregations.Terms("language") if found { searchResultLanguages = make([]*SearchResultLanguages, 0, 10) for _, bucket := range agg.Buckets { searchResultLanguages = append(searchResultLanguages, &SearchResultLanguages{ Language: bucket.Key.(string), Color: enry.GetColor(bucket.Key.(string)), Count: int(bucket.DocCount), }) } } return searchResultLanguages } // Search searches for codes and language stats by given conditions. func (b *ElasticSearchIndexer) Search(repoIDs []int64, language, keyword string, page, pageSize int, isMatch bool) (int64, []*SearchResult, []*SearchResultLanguages, error) { searchType := esMultiMatchTypeBestFields if isMatch { searchType = esMultiMatchTypePhrasePrefix } kwQuery := elastic.NewMultiMatchQuery(keyword, "content").Type(searchType) query := elastic.NewBoolQuery() query = query.Must(kwQuery) if len(repoIDs) > 0 { var repoStrs = make([]interface{}, 0, len(repoIDs)) for _, repoID := range repoIDs { repoStrs = append(repoStrs, repoID) } repoQuery := elastic.NewTermsQuery("repo_id", repoStrs...) query = query.Must(repoQuery) } var ( start int kw = "" + keyword + "" aggregation = elastic.NewTermsAggregation().Field("language").Size(10).OrderByCountDesc() ) if page > 0 { start = (page - 1) * pageSize } if len(language) == 0 { searchResult, err := b.client.Search(). Index(b.indexerAliasName). Aggregation("language", aggregation). Query(query). Highlight( elastic.NewHighlight(). Field("content"). NumOfFragments(0). // return all highting content on fragments HighlighterType("fvh"), ). Sort("repo_id", true). From(start).Size(pageSize). Do(context.Background()) if err != nil { return 0, nil, nil, err } return convertResult(searchResult, kw, pageSize) } langQuery := elastic.NewMatchQuery("language", language) countResult, err := b.client.Search(). Index(b.indexerAliasName). Aggregation("language", aggregation). Query(query). Size(0). // We only needs stats information Do(context.Background()) if err != nil { return 0, nil, nil, err } query = query.Must(langQuery) searchResult, err := b.client.Search(). Index(b.indexerAliasName). Query(query). Highlight( elastic.NewHighlight(). Field("content"). NumOfFragments(0). // return all highting content on fragments HighlighterType("fvh"), ). Sort("repo_id", true). From(start).Size(pageSize). Do(context.Background()) if err != nil { return 0, nil, nil, err } total, hits, _, err := convertResult(searchResult, kw, pageSize) return total, hits, extractAggs(countResult), err } // Close implements indexer func (b *ElasticSearchIndexer) Close() {}