package logstorage import ( "fmt" "unsafe" "github.com/VictoriaMetrics/VictoriaMetrics/lib/slicesutil" ) // pipeExtract processes '| extract ...' pipe. // // See https://docs.victoriametrics.com/victorialogs/logsql/#extract-pipe type pipeExtract struct { fromField string ptn *pattern patternStr string keepOriginalFields bool skipEmptyResults bool // iff is an optional filter for skipping the extract func iff *ifFilter } func (pe *pipeExtract) String() string { s := "extract" if pe.iff != nil { s += " " + pe.iff.String() } s += " " + quoteTokenIfNeeded(pe.patternStr) if !isMsgFieldName(pe.fromField) { s += " from " + quoteTokenIfNeeded(pe.fromField) } if pe.keepOriginalFields { s += " keep_original_fields" } if pe.skipEmptyResults { s += " skip_empty_results" } return s } func (pe *pipeExtract) optimize() { pe.iff.optimizeFilterIn() } func (pe *pipeExtract) hasFilterInWithQuery() bool { return pe.iff.hasFilterInWithQuery() } func (pe *pipeExtract) initFilterInValues(cache map[string][]string, getFieldValuesFunc getFieldValuesFunc) (pipe, error) { iffNew, err := pe.iff.initFilterInValues(cache, getFieldValuesFunc) if err != nil { return nil, err } peNew := *pe peNew.iff = iffNew return &peNew, nil } func (pe *pipeExtract) updateNeededFields(neededFields, unneededFields fieldsSet) { if neededFields.contains("*") { unneededFieldsOrig := unneededFields.clone() needFromField := false for _, step := range pe.ptn.steps { if step.field != "" { if !unneededFieldsOrig.contains(step.field) { needFromField = true } if !pe.keepOriginalFields && !pe.skipEmptyResults { unneededFields.add(step.field) } } } if needFromField { unneededFields.remove(pe.fromField) if pe.iff != nil { unneededFields.removeFields(pe.iff.neededFields) } } else { unneededFields.add(pe.fromField) } } else { neededFieldsOrig := neededFields.clone() needFromField := false for _, step := range pe.ptn.steps { if step.field != "" && neededFieldsOrig.contains(step.field) { needFromField = true if !pe.keepOriginalFields && !pe.skipEmptyResults { neededFields.remove(step.field) } } } if needFromField { neededFields.add(pe.fromField) if pe.iff != nil { neededFields.addFields(pe.iff.neededFields) } } } } func (pe *pipeExtract) newPipeProcessor(workersCount int, _ <-chan struct{}, _ func(), ppNext pipeProcessor) pipeProcessor { return &pipeExtractProcessor{ pe: pe, ppNext: ppNext, shards: make([]pipeExtractProcessorShard, workersCount), } } type pipeExtractProcessor struct { pe *pipeExtract ppNext pipeProcessor shards []pipeExtractProcessorShard } type pipeExtractProcessorShard struct { pipeExtractProcessorShardNopad // The padding prevents false sharing on widespread platforms with 128 mod (cache line size) = 0 . _ [128 - unsafe.Sizeof(pipeExtractProcessorShardNopad{})%128]byte } type pipeExtractProcessorShardNopad struct { bm bitmap ptn *pattern resultColumns []*blockResultColumn resultValues []string rcs []resultColumn a arena } func (pep *pipeExtractProcessor) writeBlock(workerID uint, br *blockResult) { if len(br.timestamps) == 0 { return } pe := pep.pe shard := &pep.shards[workerID] bm := &shard.bm bm.init(len(br.timestamps)) bm.setBits() if iff := pe.iff; iff != nil { iff.f.applyToBlockResult(br, bm) if bm.isZero() { pep.ppNext.writeBlock(workerID, br) return } } if shard.ptn == nil { shard.ptn = pe.ptn.clone() } ptn := shard.ptn shard.rcs = slicesutil.SetLength(shard.rcs, len(ptn.fields)) rcs := shard.rcs for i := range ptn.fields { rcs[i].name = ptn.fields[i].name } c := br.getColumnByName(pe.fromField) values := c.getValues(br) shard.resultColumns = slicesutil.SetLength(shard.resultColumns, len(rcs)) resultColumns := shard.resultColumns for i := range resultColumns { resultColumns[i] = br.getColumnByName(rcs[i].name) } shard.resultValues = slicesutil.SetLength(shard.resultValues, len(rcs)) resultValues := shard.resultValues hadUpdates := false vPrev := "" for rowIdx, v := range values { if bm.isSetBit(rowIdx) { if !hadUpdates || vPrev != v { vPrev = v hadUpdates = true ptn.apply(v) for i, f := range ptn.fields { v := *f.value if v == "" && pe.skipEmptyResults || pe.keepOriginalFields { c := resultColumns[i] if vOrig := c.getValueAtRow(br, rowIdx); vOrig != "" { v = vOrig } } else { v = shard.a.copyString(v) } resultValues[i] = v } } } else { for i, c := range resultColumns { resultValues[i] = c.getValueAtRow(br, rowIdx) } } for i, v := range resultValues { rcs[i].addValue(v) } } for i := range rcs { br.addResultColumn(&rcs[i]) } pep.ppNext.writeBlock(workerID, br) for i := range rcs { rcs[i].reset() } shard.a.reset() } func (pep *pipeExtractProcessor) flush() error { return nil } func parsePipeExtract(lex *lexer) (*pipeExtract, error) { if !lex.isKeyword("extract") { return nil, fmt.Errorf("unexpected token: %q; want %q", lex.token, "extract") } lex.nextToken() // parse optional if (...) var iff *ifFilter if lex.isKeyword("if") { f, err := parseIfFilter(lex) if err != nil { return nil, err } iff = f } // parse pattern patternStr, err := getCompoundToken(lex) if err != nil { return nil, fmt.Errorf("cannot read 'pattern': %w", err) } ptn, err := parsePattern(patternStr) if err != nil { return nil, fmt.Errorf("cannot parse 'pattern' %q: %w", patternStr, err) } // parse optional 'from ...' part fromField := "_msg" if lex.isKeyword("from") { lex.nextToken() f, err := parseFieldName(lex) if err != nil { return nil, fmt.Errorf("cannot parse 'from' field name: %w", err) } fromField = f } keepOriginalFields := false skipEmptyResults := false switch { case lex.isKeyword("keep_original_fields"): lex.nextToken() keepOriginalFields = true case lex.isKeyword("skip_empty_results"): lex.nextToken() skipEmptyResults = true } pe := &pipeExtract{ fromField: fromField, ptn: ptn, patternStr: patternStr, keepOriginalFields: keepOriginalFields, skipEmptyResults: skipEmptyResults, iff: iff, } return pe, nil }