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Current Directory: /opt/golang/1.22.0/src/internal/pkgbits
/opt/golang/1.22.0/src/internal/pkgbits/
Viewing File: /opt/golang/1.22.0/src/internal/pkgbits/encoder.go
// Copyright 2021 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package pkgbits import ( "bytes" "crypto/md5" "encoding/binary" "go/constant" "io" "math/big" "runtime" "strings" ) // currentVersion is the current version number. // // - v0: initial prototype // // - v1: adds the flags uint32 word // // TODO(mdempsky): For the next version bump: // - remove the legacy "has init" bool from the public root // - remove obj's "derived func instance" bool const currentVersion uint32 = 1 // A PkgEncoder provides methods for encoding a package's Unified IR // export data. type PkgEncoder struct { // elems holds the bitstream for previously encoded elements. elems [numRelocs][]string // stringsIdx maps previously encoded strings to their index within // the RelocString section, to allow deduplication. That is, // elems[RelocString][stringsIdx[s]] == s (if present). stringsIdx map[string]Index // syncFrames is the number of frames to write at each sync // marker. A negative value means sync markers are omitted. syncFrames int } // SyncMarkers reports whether pw uses sync markers. func (pw *PkgEncoder) SyncMarkers() bool { return pw.syncFrames >= 0 } // NewPkgEncoder returns an initialized PkgEncoder. // // syncFrames is the number of caller frames that should be serialized // at Sync points. Serializing additional frames results in larger // export data files, but can help diagnosing desync errors in // higher-level Unified IR reader/writer code. If syncFrames is // negative, then sync markers are omitted entirely. func NewPkgEncoder(syncFrames int) PkgEncoder { return PkgEncoder{ stringsIdx: make(map[string]Index), syncFrames: syncFrames, } } // DumpTo writes the package's encoded data to out0 and returns the // package fingerprint. func (pw *PkgEncoder) DumpTo(out0 io.Writer) (fingerprint [8]byte) { h := md5.New() out := io.MultiWriter(out0, h) writeUint32 := func(x uint32) { assert(binary.Write(out, binary.LittleEndian, x) == nil) } writeUint32(currentVersion) var flags uint32 if pw.SyncMarkers() { flags |= flagSyncMarkers } writeUint32(flags) // Write elemEndsEnds. var sum uint32 for _, elems := range &pw.elems { sum += uint32(len(elems)) writeUint32(sum) } // Write elemEnds. sum = 0 for _, elems := range &pw.elems { for _, elem := range elems { sum += uint32(len(elem)) writeUint32(sum) } } // Write elemData. for _, elems := range &pw.elems { for _, elem := range elems { _, err := io.WriteString(out, elem) assert(err == nil) } } // Write fingerprint. copy(fingerprint[:], h.Sum(nil)) _, err := out0.Write(fingerprint[:]) assert(err == nil) return } // StringIdx adds a string value to the strings section, if not // already present, and returns its index. func (pw *PkgEncoder) StringIdx(s string) Index { if idx, ok := pw.stringsIdx[s]; ok { assert(pw.elems[RelocString][idx] == s) return idx } idx := Index(len(pw.elems[RelocString])) pw.elems[RelocString] = append(pw.elems[RelocString], s) pw.stringsIdx[s] = idx return idx } // NewEncoder returns an Encoder for a new element within the given // section, and encodes the given SyncMarker as the start of the // element bitstream. func (pw *PkgEncoder) NewEncoder(k RelocKind, marker SyncMarker) Encoder { e := pw.NewEncoderRaw(k) e.Sync(marker) return e } // NewEncoderRaw returns an Encoder for a new element within the given // section. // // Most callers should use NewEncoder instead. func (pw *PkgEncoder) NewEncoderRaw(k RelocKind) Encoder { idx := Index(len(pw.elems[k])) pw.elems[k] = append(pw.elems[k], "") // placeholder return Encoder{ p: pw, k: k, Idx: idx, } } // An Encoder provides methods for encoding an individual element's // bitstream data. type Encoder struct { p *PkgEncoder Relocs []RelocEnt RelocMap map[RelocEnt]uint32 Data bytes.Buffer // accumulated element bitstream data encodingRelocHeader bool k RelocKind Idx Index // index within relocation section } // Flush finalizes the element's bitstream and returns its Index. func (w *Encoder) Flush() Index { var sb strings.Builder // Backup the data so we write the relocations at the front. var tmp bytes.Buffer io.Copy(&tmp, &w.Data) // TODO(mdempsky): Consider writing these out separately so they're // easier to strip, along with function bodies, so that we can prune // down to just the data that's relevant to go/types. if w.encodingRelocHeader { panic("encodingRelocHeader already true; recursive flush?") } w.encodingRelocHeader = true w.Sync(SyncRelocs) w.Len(len(w.Relocs)) for _, rEnt := range w.Relocs { w.Sync(SyncReloc) w.Len(int(rEnt.Kind)) w.Len(int(rEnt.Idx)) } io.Copy(&sb, &w.Data) io.Copy(&sb, &tmp) w.p.elems[w.k][w.Idx] = sb.String() return w.Idx } func (w *Encoder) checkErr(err error) { if err != nil { errorf("unexpected encoding error: %v", err) } } func (w *Encoder) rawUvarint(x uint64) { var buf [binary.MaxVarintLen64]byte n := binary.PutUvarint(buf[:], x) _, err := w.Data.Write(buf[:n]) w.checkErr(err) } func (w *Encoder) rawVarint(x int64) { // Zig-zag encode. ux := uint64(x) << 1 if x < 0 { ux = ^ux } w.rawUvarint(ux) } func (w *Encoder) rawReloc(r RelocKind, idx Index) int { e := RelocEnt{r, idx} if w.RelocMap != nil { if i, ok := w.RelocMap[e]; ok { return int(i) } } else { w.RelocMap = make(map[RelocEnt]uint32) } i := len(w.Relocs) w.RelocMap[e] = uint32(i) w.Relocs = append(w.Relocs, e) return i } func (w *Encoder) Sync(m SyncMarker) { if !w.p.SyncMarkers() { return } // Writing out stack frame string references requires working // relocations, but writing out the relocations themselves involves // sync markers. To prevent infinite recursion, we simply trim the // stack frame for sync markers within the relocation header. var frames []string if !w.encodingRelocHeader && w.p.syncFrames > 0 { pcs := make([]uintptr, w.p.syncFrames) n := runtime.Callers(2, pcs) frames = fmtFrames(pcs[:n]...) } // TODO(mdempsky): Save space by writing out stack frames as a // linked list so we can share common stack frames. w.rawUvarint(uint64(m)) w.rawUvarint(uint64(len(frames))) for _, frame := range frames { w.rawUvarint(uint64(w.rawReloc(RelocString, w.p.StringIdx(frame)))) } } // Bool encodes and writes a bool value into the element bitstream, // and then returns the bool value. // // For simple, 2-alternative encodings, the idiomatic way to call Bool // is something like: // // if w.Bool(x != 0) { // // alternative #1 // } else { // // alternative #2 // } // // For multi-alternative encodings, use Code instead. func (w *Encoder) Bool(b bool) bool { w.Sync(SyncBool) var x byte if b { x = 1 } err := w.Data.WriteByte(x) w.checkErr(err) return b } // Int64 encodes and writes an int64 value into the element bitstream. func (w *Encoder) Int64(x int64) { w.Sync(SyncInt64) w.rawVarint(x) } // Uint64 encodes and writes a uint64 value into the element bitstream. func (w *Encoder) Uint64(x uint64) { w.Sync(SyncUint64) w.rawUvarint(x) } // Len encodes and writes a non-negative int value into the element bitstream. func (w *Encoder) Len(x int) { assert(x >= 0); w.Uint64(uint64(x)) } // Int encodes and writes an int value into the element bitstream. func (w *Encoder) Int(x int) { w.Int64(int64(x)) } // Len encodes and writes a uint value into the element bitstream. func (w *Encoder) Uint(x uint) { w.Uint64(uint64(x)) } // Reloc encodes and writes a relocation for the given (section, // index) pair into the element bitstream. // // Note: Only the index is formally written into the element // bitstream, so bitstream decoders must know from context which // section an encoded relocation refers to. func (w *Encoder) Reloc(r RelocKind, idx Index) { w.Sync(SyncUseReloc) w.Len(w.rawReloc(r, idx)) } // Code encodes and writes a Code value into the element bitstream. func (w *Encoder) Code(c Code) { w.Sync(c.Marker()) w.Len(c.Value()) } // String encodes and writes a string value into the element // bitstream. // // Internally, strings are deduplicated by adding them to the strings // section (if not already present), and then writing a relocation // into the element bitstream. func (w *Encoder) String(s string) { w.StringRef(w.p.StringIdx(s)) } // StringRef writes a reference to the given index, which must be a // previously encoded string value. func (w *Encoder) StringRef(idx Index) { w.Sync(SyncString) w.Reloc(RelocString, idx) } // Strings encodes and writes a variable-length slice of strings into // the element bitstream. func (w *Encoder) Strings(ss []string) { w.Len(len(ss)) for _, s := range ss { w.String(s) } } // Value encodes and writes a constant.Value into the element // bitstream. func (w *Encoder) Value(val constant.Value) { w.Sync(SyncValue) if w.Bool(val.Kind() == constant.Complex) { w.scalar(constant.Real(val)) w.scalar(constant.Imag(val)) } else { w.scalar(val) } } func (w *Encoder) scalar(val constant.Value) { switch v := constant.Val(val).(type) { default: errorf("unhandled %v (%v)", val, val.Kind()) case bool: w.Code(ValBool) w.Bool(v) case string: w.Code(ValString) w.String(v) case int64: w.Code(ValInt64) w.Int64(v) case *big.Int: w.Code(ValBigInt) w.bigInt(v) case *big.Rat: w.Code(ValBigRat) w.bigInt(v.Num()) w.bigInt(v.Denom()) case *big.Float: w.Code(ValBigFloat) w.bigFloat(v) } } func (w *Encoder) bigInt(v *big.Int) { b := v.Bytes() w.String(string(b)) // TODO: More efficient encoding. w.Bool(v.Sign() < 0) } func (w *Encoder) bigFloat(v *big.Float) { b := v.Append(nil, 'p', -1) w.String(string(b)) // TODO: More efficient encoding. }
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