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indexbuilder.go
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indexbuilder.go
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// Copyright 2016 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package zoekt
import (
"bytes"
"encoding/binary"
"fmt"
"hash/crc64"
"html/template"
"log"
"os"
"path/filepath"
"sort"
"time"
"unicode/utf8"
"github.com/go-enry/go-enry/v2"
)
var _ = log.Println
const ngramSize = 3
type searchableString struct {
data []byte
}
// Filled by the linker
var Version string
func HostnameBestEffort() string {
if h := os.Getenv("NODE_NAME"); h != "" {
return h
}
if h := os.Getenv("HOSTNAME"); h != "" {
return h
}
hostname, _ := os.Hostname()
return hostname
}
// Store character (unicode codepoint) offset (in bytes) this often.
const runeOffsetFrequency = 100
type postingsBuilder struct {
postings map[ngram][]byte
lastOffsets map[ngram]uint32
// To support UTF-8 searching, we must map back runes to byte
// offsets. As a first attempt, we sample regularly. The
// precise offset can be found by walking from the recorded
// offset to the desired rune.
runeOffsets []uint32
runeCount uint32
isPlainASCII bool
endRunes []uint32
endByte uint32
}
func newPostingsBuilder() *postingsBuilder {
return &postingsBuilder{
postings: map[ngram][]byte{},
lastOffsets: map[ngram]uint32{},
isPlainASCII: true,
}
}
// Store trigram offsets for the given UTF-8 data. The
// DocumentSections must correspond to rune boundaries in the UTF-8
// data.
func (s *postingsBuilder) newSearchableString(data []byte, byteSections []DocumentSection) (*searchableString, []DocumentSection, error) {
dest := searchableString{
data: data,
}
var buf [8]byte
var runeGram [3]rune
var runeIndex uint32
byteCount := 0
dataSz := uint32(len(data))
byteSectionBoundaries := make([]uint32, 0, 2*len(byteSections))
for _, s := range byteSections {
byteSectionBoundaries = append(byteSectionBoundaries, s.Start, s.End)
}
var runeSectionBoundaries []uint32
endRune := s.runeCount
for ; len(data) > 0; runeIndex++ {
c, sz := utf8.DecodeRune(data)
if sz > 1 {
s.isPlainASCII = false
}
data = data[sz:]
runeGram[0], runeGram[1], runeGram[2] = runeGram[1], runeGram[2], c
if idx := s.runeCount + runeIndex; idx%runeOffsetFrequency == 0 {
s.runeOffsets = append(s.runeOffsets, s.endByte+uint32(byteCount))
}
for len(byteSectionBoundaries) > 0 && byteSectionBoundaries[0] == uint32(byteCount) {
runeSectionBoundaries = append(runeSectionBoundaries,
endRune+uint32(runeIndex))
byteSectionBoundaries = byteSectionBoundaries[1:]
}
byteCount += sz
if runeIndex < 2 {
continue
}
ng := runesToNGram(runeGram)
lastOff := s.lastOffsets[ng]
newOff := endRune + uint32(runeIndex) - 2
m := binary.PutUvarint(buf[:], uint64(newOff-lastOff))
s.postings[ng] = append(s.postings[ng], buf[:m]...)
s.lastOffsets[ng] = newOff
}
s.runeCount += runeIndex
for len(byteSectionBoundaries) > 0 && byteSectionBoundaries[0] < uint32(byteCount) {
return nil, nil, fmt.Errorf("no rune for section boundary at byte %d", byteSectionBoundaries[0])
}
// Handle symbol definition that ends at file end. This can
// happen for labels at the end of .bat files.
for len(byteSectionBoundaries) > 0 && byteSectionBoundaries[0] == uint32(byteCount) {
runeSectionBoundaries = append(runeSectionBoundaries,
endRune+runeIndex)
byteSectionBoundaries = byteSectionBoundaries[1:]
}
runeSecs := make([]DocumentSection, 0, len(byteSections))
for i := 0; i < len(runeSectionBoundaries); i += 2 {
runeSecs = append(runeSecs, DocumentSection{
Start: runeSectionBoundaries[i],
End: runeSectionBoundaries[i+1],
})
}
s.endRunes = append(s.endRunes, s.runeCount)
s.endByte += dataSz
return &dest, runeSecs, nil
}
// IndexBuilder builds a single index shard.
type IndexBuilder struct {
// The version we will write to disk. Sourcegraph Specific. This is to
// enable feature flagging new format versions.
indexFormatVersion int
featureVersion int
contentStrings []*searchableString
nameStrings []*searchableString
docSections [][]DocumentSection
runeDocSections []DocumentSection
symID uint32
symIndex map[string]uint32
symKindID uint32
symKindIndex map[string]uint32
symMetaData []uint32
fileEndSymbol []uint32
checksums []byte
branchMasks []uint64
subRepos []uint32
// docID => repoID
repos []uint16
// Experimental: docID => rank vec
ranks [][]float64
contentPostings *postingsBuilder
namePostings *postingsBuilder
// root repositories
repoList []Repository
// name to index.
subRepoIndices []map[string]uint32
// language => language code
languageMap map[string]uint16
// language codes, uint16 encoded as little-endian
languages []uint8
// IndexTime will be used as the time if non-zero. Otherwise
// time.Now(). This is useful for doing reproducible builds in tests.
IndexTime time.Time
// a sortable 20 chars long id.
ID string
}
func (d *Repository) verify() error {
for _, t := range []string{d.FileURLTemplate, d.LineFragmentTemplate, d.CommitURLTemplate} {
if _, err := template.New("").Parse(t); err != nil {
return err
}
}
return nil
}
// ContentSize returns the number of content bytes so far ingested.
func (b *IndexBuilder) ContentSize() uint32 {
// Add the name too so we don't skip building index if we have
// lots of empty files.
return b.contentPostings.endByte + b.namePostings.endByte
}
// NumFiles returns the number of files added to this builder
func (b *IndexBuilder) NumFiles() int {
return len(b.contentStrings)
}
// NewIndexBuilder creates a fresh IndexBuilder. The passed in
// Repository contains repo metadata, and may be set to nil.
func NewIndexBuilder(r *Repository) (*IndexBuilder, error) {
b := newIndexBuilder()
if r == nil {
r = &Repository{}
}
if err := b.setRepository(r); err != nil {
return nil, err
}
return b, nil
}
func newIndexBuilder() *IndexBuilder {
return &IndexBuilder{
indexFormatVersion: IndexFormatVersion,
featureVersion: FeatureVersion,
contentPostings: newPostingsBuilder(),
namePostings: newPostingsBuilder(),
fileEndSymbol: []uint32{0},
symIndex: make(map[string]uint32),
symKindIndex: make(map[string]uint32),
languageMap: make(map[string]uint16),
}
}
func (b *IndexBuilder) setRepository(desc *Repository) error {
if err := desc.verify(); err != nil {
return err
}
if len(desc.Branches) > 64 {
return fmt.Errorf("too many branches")
}
repo := *desc
// copy subrepomap without root
repo.SubRepoMap = map[string]*Repository{}
for k, v := range desc.SubRepoMap {
if k != "" {
repo.SubRepoMap[k] = v
}
}
b.repoList = append(b.repoList, repo)
return b.populateSubRepoIndices()
}
type DocumentSection struct {
Start, End uint32
}
// Document holds a document (file) to index.
type Document struct {
Name string
Content []byte
Branches []string
SubRepositoryPath string
Language string
// If set, something is wrong with the file contents, and this
// is the reason it wasn't indexed.
SkipReason string
// Document sections for symbols. Offsets should use bytes.
Symbols []DocumentSection
SymbolsMetaData []*Symbol
// Ranks is a vector of ranks for a document as provided by a DocumentRanksFile
// file in the git repo.
//
// Two documents can be ordered by comparing the components of their rank
// vectors. Bigger entries are better, as are longer vectors.
//
// This field is experimental and may change at any time without warning.
Ranks []float64
}
type symbolSlice struct {
symbols []DocumentSection
metaData []*Symbol
}
func (s symbolSlice) Len() int { return len(s.symbols) }
func (s symbolSlice) Swap(i, j int) {
s.symbols[i], s.symbols[j] = s.symbols[j], s.symbols[i]
s.metaData[i], s.metaData[j] = s.metaData[j], s.metaData[i]
}
func (s symbolSlice) Less(i, j int) bool {
return s.symbols[i].Start < s.symbols[j].Start
}
// AddFile is a convenience wrapper for Add
func (b *IndexBuilder) AddFile(name string, content []byte) error {
return b.Add(Document{Name: name, Content: content})
}
func (b *IndexBuilder) populateSubRepoIndices() error {
if len(b.subRepoIndices) == len(b.repoList) {
return nil
}
if len(b.subRepoIndices) != len(b.repoList)-1 {
return fmt.Errorf("populateSubRepoIndices not called for a repo: %d != %d - 1", len(b.subRepoIndices), len(b.repoList))
}
repo := b.repoList[len(b.repoList)-1]
b.subRepoIndices = append(b.subRepoIndices, mkSubRepoIndices(repo))
return nil
}
func mkSubRepoIndices(repo Repository) map[string]uint32 {
paths := []string{""}
for k := range repo.SubRepoMap {
paths = append(paths, k)
}
sort.Strings(paths)
subRepoIndices := make(map[string]uint32, len(paths))
for i, p := range paths {
subRepoIndices[p] = uint32(i)
}
return subRepoIndices
}
const notIndexedMarker = "NOT-INDEXED: "
func (b *IndexBuilder) symbolID(sym string) uint32 {
if _, ok := b.symIndex[sym]; !ok {
b.symIndex[sym] = b.symID
b.symID++
}
return b.symIndex[sym]
}
func (b *IndexBuilder) symbolKindID(t string) uint32 {
if _, ok := b.symKindIndex[t]; !ok {
b.symKindIndex[t] = b.symKindID
b.symKindID++
}
return b.symKindIndex[t]
}
func (b *IndexBuilder) addSymbols(symbols []*Symbol) {
for _, sym := range symbols {
b.symMetaData = append(b.symMetaData,
// This field was removed due to redundancy. To avoid
// needing to reindex, it is set to zero for now. In the
// future, this field will be completely removed. It
// will require incrementing the feature version.
0,
b.symbolKindID(sym.Kind),
b.symbolID(sym.Parent),
b.symbolKindID(sym.ParentKind))
}
}
func DetermineLanguageIfUnknown(doc *Document) {
if doc.Language == "" {
doc.Language = enry.GetLanguage(doc.Name, doc.Content)
}
}
// Add a file which only occurs in certain branches.
func (b *IndexBuilder) Add(doc Document) error {
hasher := crc64.New(crc64.MakeTable(crc64.ISO))
if idx := bytes.IndexByte(doc.Content, 0); idx >= 0 {
doc.SkipReason = fmt.Sprintf("binary content at byte offset %d", idx)
doc.Language = "binary"
}
if doc.SkipReason != "" {
doc.Content = []byte(notIndexedMarker + doc.SkipReason)
doc.Symbols = nil
doc.SymbolsMetaData = nil
if doc.Language == "" {
doc.Language = "skipped"
}
}
DetermineLanguageIfUnknown(&doc)
sort.Sort(symbolSlice{doc.Symbols, doc.SymbolsMetaData})
var last DocumentSection
for i, s := range doc.Symbols {
if i > 0 {
if last.End > s.Start {
return fmt.Errorf("sections overlap")
}
}
last = s
}
if last.End > uint32(len(doc.Content)) {
return fmt.Errorf("section goes past end of content")
}
if doc.SubRepositoryPath != "" {
rel, err := filepath.Rel(doc.SubRepositoryPath, doc.Name)
if err != nil || rel == doc.Name {
return fmt.Errorf("path %q must start subrepo path %q", doc.Name, doc.SubRepositoryPath)
}
}
docStr, runeSecs, err := b.contentPostings.newSearchableString(doc.Content, doc.Symbols)
if err != nil {
return err
}
nameStr, _, err := b.namePostings.newSearchableString([]byte(doc.Name), nil)
if err != nil {
return err
}
b.addSymbols(doc.SymbolsMetaData)
repoIdx := len(b.repoList) - 1
subRepoIdx, ok := b.subRepoIndices[repoIdx][doc.SubRepositoryPath]
if !ok {
return fmt.Errorf("unknown subrepo path %q", doc.SubRepositoryPath)
}
var mask uint64
for _, br := range doc.Branches {
m := b.branchMask(br)
if m == 0 {
return fmt.Errorf("no branch found for %s", br)
}
mask |= m
}
if repoIdx > 1<<16 {
return fmt.Errorf("too many repos in shard: max is %d", 1<<16)
}
b.subRepos = append(b.subRepos, subRepoIdx)
b.repos = append(b.repos, uint16(repoIdx))
// doc.Ranks might be nil. In case we don't use offline ranking, doc.Ranks is
// always nil.
b.ranks = append(b.ranks, doc.Ranks)
hasher.Write(doc.Content)
b.contentStrings = append(b.contentStrings, docStr)
b.runeDocSections = append(b.runeDocSections, runeSecs...)
b.nameStrings = append(b.nameStrings, nameStr)
b.docSections = append(b.docSections, doc.Symbols)
b.fileEndSymbol = append(b.fileEndSymbol, uint32(len(b.runeDocSections)))
b.branchMasks = append(b.branchMasks, mask)
b.checksums = append(b.checksums, hasher.Sum(nil)...)
langCode, ok := b.languageMap[doc.Language]
if !ok {
if len(b.languageMap) >= 65535 {
return fmt.Errorf("too many languages")
}
langCode = uint16(len(b.languageMap))
b.languageMap[doc.Language] = langCode
}
b.languages = append(b.languages, uint8(langCode), uint8(langCode>>8))
return nil
}
func (b *IndexBuilder) branchMask(br string) uint64 {
for i, b := range b.repoList[len(b.repoList)-1].Branches {
if b.Name == br {
return uint64(1) << uint(i)
}
}
return 0
}
type DocChecker struct {
// A map to count the unique trigrams in a doc. Reused across docs to cut down on allocations.
trigrams map[ngram]struct{}
}
// Check returns a reason why the given contents are probably not source texts.
func (t *DocChecker) Check(content []byte, maxTrigramCount int, allowLargeFile bool) error {
if len(content) == 0 {
return nil
}
if len(content) < ngramSize {
return fmt.Errorf("file size smaller than %d", ngramSize)
}
if index := bytes.IndexByte(content, 0); index > 0 {
return fmt.Errorf("binary data at byte offset %d", index)
}
// PERF: we only need to do the trigram check if the upperbound on content is greater than
// our threshold. Also skip the trigram check if the file is explicitly marked as allowed.
if trigramsUpperBound := len(content) - ngramSize + 1; trigramsUpperBound <= maxTrigramCount || allowLargeFile {
return nil
}
var cur [3]rune
byteCount := 0
t.clearTrigrams(maxTrigramCount)
for len(content) > 0 {
r, sz := utf8.DecodeRune(content)
content = content[sz:]
byteCount += sz
cur[0], cur[1], cur[2] = cur[1], cur[2], r
if cur[0] == 0 {
// start of file.
continue
}
t.trigrams[runesToNGram(cur)] = struct{}{}
if len(t.trigrams) > maxTrigramCount {
// probably not text.
return fmt.Errorf("number of trigrams exceeds %d", maxTrigramCount)
}
}
return nil
}
func (t *DocChecker) clearTrigrams(maxTrigramCount int) {
if t.trigrams == nil {
t.trigrams = make(map[ngram]struct{}, maxTrigramCount)
}
for key := range t.trigrams {
delete(t.trigrams, key)
}
}