// Copyright 2013 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 objfile reads Go object files for the Go linker, cmd/link. // // This package is similar to cmd/internal/objfile which also reads // Go object files. package objfile import ( "bufio" "bytes" "cmd/internal/bio" "cmd/internal/dwarf" "cmd/internal/objabi" "cmd/internal/sys" "cmd/link/internal/sym" "io" "log" "strconv" "strings" ) const ( startmagic = "\x00\x00go19ld" endmagic = "\xff\xffgo19ld" ) var emptyPkg = []byte(`"".`) // objReader reads Go object files. type objReader struct { rd *bufio.Reader arch *sys.Arch syms *sym.Symbols lib *sym.Library pn string dupSym *sym.Symbol localSymVersion int // rdBuf is used by readString and readSymName as scratch for reading strings. rdBuf []byte // List of symbol references for the file being read. refs []*sym.Symbol data []byte reloc []sym.Reloc pcdata []sym.Pcdata autom []sym.Auto funcdata []*sym.Symbol funcdataoff []int64 file []*sym.Symbol } // Load loads an object file f into library lib. // The symbols loaded are added to syms. func Load(arch *sys.Arch, syms *sym.Symbols, f *bio.Reader, lib *sym.Library, length int64, pn string) { start := f.Offset() r := &objReader{ rd: f.Reader, lib: lib, arch: arch, syms: syms, pn: pn, dupSym: &sym.Symbol{Name: ".dup"}, localSymVersion: syms.IncVersion(), } r.loadObjFile() if f.Offset() != start+length { log.Fatalf("%s: unexpected end at %d, want %d", pn, f.Offset(), start+length) } } func (r *objReader) loadObjFile() { // Magic header var buf [8]uint8 r.readFull(buf[:]) if string(buf[:]) != startmagic { log.Fatalf("%s: invalid file start %x %x %x %x %x %x %x %x", r.pn, buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], buf[6], buf[7]) } // Version c, err := r.rd.ReadByte() if err != nil || c != 1 { log.Fatalf("%s: invalid file version number %d", r.pn, c) } // Autolib for { lib := r.readString() if lib == "" { break } r.lib.ImportStrings = append(r.lib.ImportStrings, lib) } // Symbol references r.refs = []*sym.Symbol{nil} // zeroth ref is nil for { c, err := r.rd.Peek(1) if err != nil { log.Fatalf("%s: peeking: %v", r.pn, err) } if c[0] == 0xff { r.rd.ReadByte() break } r.readRef() } // Lengths r.readSlices() // Data section r.readFull(r.data) // Defined symbols for { c, err := r.rd.Peek(1) if err != nil { log.Fatalf("%s: peeking: %v", r.pn, err) } if c[0] == 0xff { break } r.readSym() } // Magic footer buf = [8]uint8{} r.readFull(buf[:]) if string(buf[:]) != endmagic { log.Fatalf("%s: invalid file end", r.pn) } } func (r *objReader) readSlices() { n := r.readInt() r.data = make([]byte, n) n = r.readInt() r.reloc = make([]sym.Reloc, n) n = r.readInt() r.pcdata = make([]sym.Pcdata, n) n = r.readInt() r.autom = make([]sym.Auto, n) n = r.readInt() r.funcdata = make([]*sym.Symbol, n) r.funcdataoff = make([]int64, n) n = r.readInt() r.file = make([]*sym.Symbol, n) } // Symbols are prefixed so their content doesn't get confused with the magic footer. const symPrefix = 0xfe func (r *objReader) readSym() { var c byte var err error if c, err = r.rd.ReadByte(); c != symPrefix || err != nil { log.Fatalln("readSym out of sync") } if c, err = r.rd.ReadByte(); err != nil { log.Fatalln("error reading input: ", err) } t := sym.AbiSymKindToSymKind[c] s := r.readSymIndex() flags := r.readInt() dupok := flags&1 != 0 local := flags&2 != 0 makeTypelink := flags&4 != 0 size := r.readInt() typ := r.readSymIndex() data := r.readData() nreloc := r.readInt() pkg := objabi.PathToPrefix(r.lib.Pkg) isdup := false var dup *sym.Symbol if s.Type != 0 && s.Type != sym.SXREF { if (t == sym.SDATA || t == sym.SBSS || t == sym.SNOPTRBSS) && len(data) == 0 && nreloc == 0 { if s.Size < int64(size) { s.Size = int64(size) } if typ != nil && s.Gotype == nil { s.Gotype = typ } return } if (s.Type == sym.SDATA || s.Type == sym.SBSS || s.Type == sym.SNOPTRBSS) && len(s.P) == 0 && len(s.R) == 0 { goto overwrite } if s.Type != sym.SBSS && s.Type != sym.SNOPTRBSS && !dupok && !s.Attr.DuplicateOK() { log.Fatalf("duplicate symbol %s (types %d and %d) in %s and %s", s.Name, s.Type, t, s.File, r.pn) } if len(s.P) > 0 { dup = s s = r.dupSym isdup = true } } overwrite: s.File = pkg if dupok { s.Attr |= sym.AttrDuplicateOK } if t == sym.SXREF { log.Fatalf("bad sxref") } if t == 0 { log.Fatalf("missing type for %s in %s", s.Name, r.pn) } if t == sym.SBSS && (s.Type == sym.SRODATA || s.Type == sym.SNOPTRBSS) { t = s.Type } s.Type = t if s.Size < int64(size) { s.Size = int64(size) } s.Attr.Set(sym.AttrLocal, local) s.Attr.Set(sym.AttrMakeTypelink, makeTypelink) if typ != nil { s.Gotype = typ } if isdup && typ != nil { // if bss sym defined multiple times, take type from any one def dup.Gotype = typ } s.P = data if nreloc > 0 { s.R = r.reloc[:nreloc:nreloc] if !isdup { r.reloc = r.reloc[nreloc:] } for i := 0; i < nreloc; i++ { s.R[i] = sym.Reloc{ Off: r.readInt32(), Siz: r.readUint8(), Type: objabi.RelocType(r.readInt32()), Add: r.readInt64(), Sym: r.readSymIndex(), } } } if s.Type == sym.STEXT { s.FuncInfo = new(sym.FuncInfo) pc := s.FuncInfo pc.Args = r.readInt32() pc.Locals = r.readInt32() if r.readUint8() != 0 { s.Attr |= sym.AttrNoSplit } flags := r.readInt() if flags&(1<<2) != 0 { s.Attr |= sym.AttrReflectMethod } if flags&(1<<3) != 0 { s.Attr |= sym.AttrShared } n := r.readInt() pc.Autom = r.autom[:n:n] if !isdup { r.autom = r.autom[n:] } for i := 0; i < n; i++ { pc.Autom[i] = sym.Auto{ Asym: r.readSymIndex(), Aoffset: r.readInt32(), Name: r.readInt16(), Gotype: r.readSymIndex(), } } pc.Pcsp.P = r.readData() pc.Pcfile.P = r.readData() pc.Pcline.P = r.readData() pc.Pcinline.P = r.readData() n = r.readInt() pc.Pcdata = r.pcdata[:n:n] if !isdup { r.pcdata = r.pcdata[n:] } for i := 0; i < n; i++ { pc.Pcdata[i].P = r.readData() } n = r.readInt() pc.Funcdata = r.funcdata[:n:n] pc.Funcdataoff = r.funcdataoff[:n:n] if !isdup { r.funcdata = r.funcdata[n:] r.funcdataoff = r.funcdataoff[n:] } for i := 0; i < n; i++ { pc.Funcdata[i] = r.readSymIndex() } for i := 0; i < n; i++ { pc.Funcdataoff[i] = r.readInt64() } n = r.readInt() pc.File = r.file[:n:n] if !isdup { r.file = r.file[n:] } for i := 0; i < n; i++ { pc.File[i] = r.readSymIndex() } n = r.readInt() pc.InlTree = make([]sym.InlinedCall, n) for i := 0; i < n; i++ { pc.InlTree[i].Parent = r.readInt32() pc.InlTree[i].File = r.readSymIndex() pc.InlTree[i].Line = r.readInt32() pc.InlTree[i].Func = r.readSymIndex() } s.Lib = r.lib if !dupok { if s.Attr.OnList() { log.Fatalf("symbol %s listed multiple times", s.Name) } s.Attr |= sym.AttrOnList r.lib.Textp = append(r.lib.Textp, s) } else { // there may ba a dup in another package // put into a temp list and add to text later if !isdup { r.lib.DupTextSyms = append(r.lib.DupTextSyms, s) } else { r.lib.DupTextSyms = append(r.lib.DupTextSyms, dup) } } } if s.Type == sym.SDWARFINFO { r.patchDWARFName(s) } } func (r *objReader) patchDWARFName(s *sym.Symbol) { // This is kind of ugly. Really the package name should not // even be included here. if s.Size < 1 || s.P[0] != dwarf.DW_ABRV_FUNCTION { return } e := bytes.IndexByte(s.P, 0) if e == -1 { return } p := bytes.Index(s.P[:e], emptyPkg) if p == -1 { return } pkgprefix := []byte(objabi.PathToPrefix(r.lib.Pkg) + ".") patched := bytes.Replace(s.P[:e], emptyPkg, pkgprefix, -1) s.P = append(patched, s.P[e:]...) delta := int64(len(s.P)) - s.Size s.Size = int64(len(s.P)) for i := range s.R { r := &s.R[i] if r.Off > int32(e) { r.Off += int32(delta) } } } func (r *objReader) readFull(b []byte) { _, err := io.ReadFull(r.rd, b) if err != nil { log.Fatalf("%s: error reading %s", r.pn, err) } } func (r *objReader) readRef() { if c, err := r.rd.ReadByte(); c != symPrefix || err != nil { log.Fatalf("readSym out of sync") } name := r.readSymName() v := r.readInt() if v != 0 && v != 1 { log.Fatalf("invalid symbol version for %q: %d", name, v) } if v == 1 { v = r.localSymVersion } s := r.syms.Lookup(name, v) r.refs = append(r.refs, s) if s == nil || v != 0 { return } if s.Name[0] == '$' && len(s.Name) > 5 && s.Type == 0 && len(s.P) == 0 { x, err := strconv.ParseUint(s.Name[5:], 16, 64) if err != nil { log.Panicf("failed to parse $-symbol %s: %v", s.Name, err) } s.Type = sym.SRODATA s.Attr |= sym.AttrLocal switch s.Name[:5] { case "$f32.": if uint64(uint32(x)) != x { log.Panicf("$-symbol %s too large: %d", s.Name, x) } s.AddUint32(r.arch, uint32(x)) case "$f64.", "$i64.": s.AddUint64(r.arch, x) default: log.Panicf("unrecognized $-symbol: %s", s.Name) } s.Attr.Set(sym.AttrReachable, false) } if strings.HasPrefix(s.Name, "runtime.gcbits.") { s.Attr |= sym.AttrLocal } } func (r *objReader) readInt64() int64 { uv := uint64(0) for shift := uint(0); ; shift += 7 { if shift >= 64 { log.Fatalf("corrupt input") } c, err := r.rd.ReadByte() if err != nil { log.Fatalln("error reading input: ", err) } uv |= uint64(c&0x7F) << shift if c&0x80 == 0 { break } } return int64(uv>>1) ^ (int64(uv<<63) >> 63) } func (r *objReader) readInt() int { n := r.readInt64() if int64(int(n)) != n { log.Panicf("%v out of range for int", n) } return int(n) } func (r *objReader) readInt32() int32 { n := r.readInt64() if int64(int32(n)) != n { log.Panicf("%v out of range for int32", n) } return int32(n) } func (r *objReader) readInt16() int16 { n := r.readInt64() if int64(int16(n)) != n { log.Panicf("%v out of range for int16", n) } return int16(n) } func (r *objReader) readUint8() uint8 { n := r.readInt64() if int64(uint8(n)) != n { log.Panicf("%v out of range for uint8", n) } return uint8(n) } func (r *objReader) readString() string { n := r.readInt() if cap(r.rdBuf) < n { r.rdBuf = make([]byte, 2*n) } r.readFull(r.rdBuf[:n]) return string(r.rdBuf[:n]) } func (r *objReader) readData() []byte { n := r.readInt() p := r.data[:n:n] r.data = r.data[n:] return p } // readSymName reads a symbol name, replacing all "". with pkg. func (r *objReader) readSymName() string { pkg := objabi.PathToPrefix(r.lib.Pkg) n := r.readInt() if n == 0 { r.readInt64() return "" } if cap(r.rdBuf) < n { r.rdBuf = make([]byte, 2*n) } origName, err := r.rd.Peek(n) if err == bufio.ErrBufferFull { // Long symbol names are rare but exist. One source is type // symbols for types with long string forms. See #15104. origName = make([]byte, n) r.readFull(origName) } else if err != nil { log.Fatalf("%s: error reading symbol: %v", r.pn, err) } adjName := r.rdBuf[:0] for { i := bytes.Index(origName, emptyPkg) if i == -1 { s := string(append(adjName, origName...)) // Read past the peeked origName, now that we're done with it, // using the rfBuf (also no longer used) as the scratch space. // TODO: use bufio.Reader.Discard if available instead? if err == nil { r.readFull(r.rdBuf[:n]) } r.rdBuf = adjName[:0] // in case 2*n wasn't enough return s } adjName = append(adjName, origName[:i]...) adjName = append(adjName, pkg...) adjName = append(adjName, '.') origName = origName[i+len(emptyPkg):] } } // Reads the index of a symbol reference and resolves it to a symbol func (r *objReader) readSymIndex() *sym.Symbol { i := r.readInt() return r.refs[i] }