src/cmd/oldlink/internal/objfile/objfile.go - go - Git at Google

 // 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/goobj2"
 	"cmd/internal/obj"
 	"cmd/internal/objabi"
 	"cmd/internal/sys"
 	"cmd/oldlink/internal/sym"
 	"fmt"
 	"internal/unsafeheader"
 	"io"
 	"log"
 	"os"
 	"strconv"
 	"strings"
 	"unsafe"
 )

 const (
 	startmagic = "\x00go114ld"
 	endmagic   = "\xffgo114ld"
 )

 var emptyPkg = []byte(`"".`)

 // objReader reads Go object files.
 type objReader struct {
 	rd              *bio.Reader
 	arch            *sys.Arch
 	syms            *sym.Symbols
 	lib             *sym.Library
 	unit            *sym.CompilationUnit
 	pn              string
 	dupSym          *sym.Symbol
 	localSymVersion int
 	flags           int
 	strictDupMsgs   int
 	dataSize        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
 	funcdata    []*sym.Symbol
 	funcdataoff []int64
 	file        []*sym.Symbol
 	pkgpref     string // objabi.PathToPrefix(r.lib.Pkg) + "."

 	roObject []byte // from read-only mmap of object file (may be nil)
 	roOffset int64  // offset into readonly object data examined so far

 	dataReadOnly bool // whether data is backed by read-only memory
 }

 // Flags to enable optional behavior during object loading/reading.

 const (
 	NoFlag int = iota

 	// Sanity-check duplicate symbol contents, issuing warning
 	// when duplicates have different lengths or contents.
 	StrictDupsWarnFlag

 	// Similar to StrictDupsWarnFlag, but issue fatal error.
 	StrictDupsErrFlag
 )

 // 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, unit *sym.CompilationUnit, length int64, pn string, flags int) int {
 	start := f.Offset()
 	roObject := f.SliceRO(uint64(length))
 	if roObject != nil {
 		f.MustSeek(int64(-length), os.SEEK_CUR)
 	}
 	r := &objReader{
 		rd:              f,
 		lib:             lib,
 		unit:            unit,
 		arch:            arch,
 		syms:            syms,
 		pn:              pn,
 		dupSym:          &sym.Symbol{Name: ".dup"},
 		localSymVersion: syms.IncVersion(),
 		flags:           flags,
 		roObject:        roObject,
 		pkgpref:         objabi.PathToPrefix(lib.Pkg) + ".",
 	}
 	r.loadObjFile()
 	if roObject != nil {
 		if r.roOffset != length {
 			log.Fatalf("%s: unexpected end at %d, want %d", pn, r.roOffset, start+length)
 		}
 		r.rd.MustSeek(int64(length), os.SEEK_CUR)
 	} else if f.Offset() != start+length {
 		log.Fatalf("%s: unexpected end at %d, want %d", pn, f.Offset(), start+length)
 	}
 	return r.strictDupMsgs
 }

 func (r *objReader) loadObjFile() {
 	// Magic header
 	var buf [8]uint8
 	r.readFull(buf[:])
 	if string(buf[:]) != startmagic {
 		if string(buf[:]) == goobj2.Magic {
 			log.Fatalf("found object file %s in new format, but -go115newobj is false\nset -go115newobj consistently in all -gcflags, -asmflags, and -ldflags", r.pn)
 		}
 		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.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)
 	}

 	// DWARF strings
 	count := r.readInt()
 	r.unit.DWARFFileTable = make([]string, count)
 	for i := 0; i < count; i++ {
 		// TODO: This should probably be a call to mkROString.
 		r.unit.DWARFFileTable[i] = r.readString()
 	}

 	// Symbol references
 	r.refs = []*sym.Symbol{nil} // zeroth ref is nil
 	for {
 		c, err := r.peek(1)
 		if err != nil {
 			log.Fatalf("%s: peeking: %v", r.pn, err)
 		}
 		if c[0] == 0xff {
 			r.readByte()
 			break
 		}
 		r.readRef()
 	}

 	// Lengths
 	r.readSlices()

 	// Data section
 	err = r.readDataSection()
 	if err != nil {
 		log.Fatalf("%s: error reading %s", r.pn, err)
 	}

 	// Defined symbols
 	for {
 		c, err := r.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() {
 	r.dataSize = r.readInt()
 	n := r.readInt()
 	r.reloc = make([]sym.Reloc, n)
 	n = r.readInt()
 	r.pcdata = make([]sym.Pcdata, n)
 	_ = r.readInt() // TODO: remove on next object file rev (autom count)
 	n = r.readInt()
 	r.funcdata = make([]*sym.Symbol, n)
 	r.funcdataoff = make([]int64, n)
 	n = r.readInt()
 	r.file = make([]*sym.Symbol, n)
 }

 func (r *objReader) readDataSection() (err error) {
 	if r.roObject != nil {
 		r.data, r.dataReadOnly, err =
 			r.roObject[r.roOffset:r.roOffset+int64(r.dataSize)], true, nil
 		r.roOffset += int64(r.dataSize)
 		return
 	}
 	r.data, r.dataReadOnly, err = r.rd.Slice(uint64(r.dataSize))
 	return
 }

 // 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.readByte(); c != symPrefix || err != nil {
 		log.Fatalln("readSym out of sync")
 	}
 	if c, err = r.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()
 	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 = r.pkgpref[:len(r.pkgpref)-1]
 	s.Unit = r.unit
 	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
 	s.Attr.Set(sym.AttrReadOnly, r.dataReadOnly)
 	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()
 		s.Align = 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
 		}
 		if flags&(1<<4) != 0 {
 			s.Attr |= sym.AttrTopFrame
 		}
 		n := r.readInt()
 		if n != 0 {
 			log.Fatalf("stale object file: autom count nonzero")
 		}

 		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().Name
 			pc.InlTree[i].ParentPC = r.readInt32()
 		}

 		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)
 	}

 	if isdup && r.flags&(StrictDupsWarnFlag|StrictDupsErrFlag) != 0 {
 		// Compare the just-read symbol with the previously read
 		// symbol of the same name, verifying that they have the same
 		// payload. If not, issue a warning and possibly an error.
 		if !bytes.Equal(s.P, dup.P) {
 			reason := "same length but different contents"
 			if len(s.P) != len(dup.P) {
 				reason = fmt.Sprintf("new length %d != old length %d",
 					len(data), len(dup.P))
 			}
 			fmt.Fprintf(os.Stderr, "cmd/link: while reading object for '%v': duplicate symbol '%s', previous def at '%v', with mismatched payload: %s\n", r.lib, dup, dup.Unit.Lib, reason)

 			// For the moment, whitelist DWARF subprogram DIEs for
 			// auto-generated wrapper functions. What seems to happen
 			// here is that we get different line numbers on formal
 			// params; I am guessing that the pos is being inherited
 			// from the spot where the wrapper is needed.
 			whitelist := (strings.HasPrefix(dup.Name, "go.info.go.interface") ||
 				strings.HasPrefix(dup.Name, "go.info.go.builtin") ||
 				strings.HasPrefix(dup.Name, "go.isstmt.go.builtin") ||
 				strings.HasPrefix(dup.Name, "go.debuglines"))
 			if !whitelist {
 				r.strictDupMsgs++
 			}
 		}
 	}
 }

 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(r.pkgpref)
 	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) {
 	if r.roObject != nil {
 		copy(b, r.roObject[r.roOffset:])
 		r.roOffset += int64(len(b))
 		return
 	}
 	_, err := io.ReadFull(r.rd, b)
 	if err != nil {
 		log.Fatalf("%s: error reading %s", r.pn, err)
 	}
 }

 func (r *objReader) readByte() (byte, error) {
 	if r.roObject != nil {
 		b := r.roObject[r.roOffset]
 		r.roOffset++
 		return b, nil
 	}
 	return r.rd.ReadByte()
 }

 func (r *objReader) peek(n int) ([]byte, error) {
 	if r.roObject != nil {
 		return r.roObject[r.roOffset : r.roOffset+int64(n)], nil
 	}
 	return r.rd.Peek(n)
 }

 func (r *objReader) readRef() {
 	if c, err := r.readByte(); c != symPrefix || err != nil {
 		log.Fatalf("readSym out of sync")
 	}
 	name := r.readSymName()
 	var v int
 	if abi := r.readInt(); abi == -1 {
 		// Static
 		v = r.localSymVersion
 	} else if abiver := sym.ABIToVersion(obj.ABI(abi)); abiver != -1 {
 		// Note that data symbols are "ABI0", which maps to version 0.
 		v = abiver
 	} else {
 		log.Fatalf("invalid symbol ABI for %q: %d", name, abi)
 	}
 	s := r.syms.Lookup(name, v)
 	r.refs = append(r.refs, s)

 	if s == nil || v == r.localSymVersion {
 		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.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
 }

 func mkROString(rodata []byte) string {
 	if len(rodata) == 0 {
 		return ""
 	}

 	var s string
 	hdr := (*unsafeheader.String)(unsafe.Pointer(&s))
 	hdr.Data = unsafe.Pointer(&rodata[0])
 	hdr.Len = len(rodata)

 	return s
 }

 // readSymName reads a symbol name, replacing all "". with pkg.
 func (r *objReader) readSymName() string {
 	n := r.readInt()
 	if n == 0 {
 		r.readInt64()
 		return ""
 	}
 	if cap(r.rdBuf) < n {
 		r.rdBuf = make([]byte, 2*n)
 	}
 	sOffset := r.roOffset
 	origName, err := r.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]
 	nPkgRefs := 0
 	for {
 		i := bytes.Index(origName, emptyPkg)
 		if i == -1 {
 			var s string
 			if r.roObject != nil && nPkgRefs == 0 {
 				s = mkROString(r.roObject[sOffset : sOffset+int64(n)])
 			} else {
 				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
 		}
 		nPkgRefs++
 		adjName = append(adjName, origName[:i]...)
 		adjName = append(adjName, r.pkgpref[:len(r.pkgpref)-1]...)
 		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]
 }
	// 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/goobj2"
	"cmd/internal/obj"
	"cmd/internal/objabi"
	"cmd/internal/sys"
	"cmd/oldlink/internal/sym"
	"fmt"
	"internal/unsafeheader"
	"io"
	"log"
	"os"
	"strconv"
	"strings"
	"unsafe"
	)

	const (
	startmagic = "\x00go114ld"
	endmagic = "\xffgo114ld"
	)

	var emptyPkg = []byte(`"".`)

	// objReader reads Go object files.
	type objReader struct {
	rd *bio.Reader
	arch *sys.Arch
	syms *sym.Symbols
	lib *sym.Library
	unit *sym.CompilationUnit
	pn string
	dupSym *sym.Symbol
	localSymVersion int
	flags int
	strictDupMsgs int
	dataSize 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
	funcdata []*sym.Symbol
	funcdataoff []int64
	file []*sym.Symbol
	pkgpref string // objabi.PathToPrefix(r.lib.Pkg) + "."

	roObject []byte // from read-only mmap of object file (may be nil)
	roOffset int64 // offset into readonly object data examined so far

	dataReadOnly bool // whether data is backed by read-only memory
	}

	// Flags to enable optional behavior during object loading/reading.

	const (
	NoFlag int = iota

	// Sanity-check duplicate symbol contents, issuing warning
	// when duplicates have different lengths or contents.
	StrictDupsWarnFlag

	// Similar to StrictDupsWarnFlag, but issue fatal error.
	StrictDupsErrFlag
	)

	// 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, unit *sym.CompilationUnit, length int64, pn string, flags int) int {
	start := f.Offset()
	roObject := f.SliceRO(uint64(length))
	if roObject != nil {
	f.MustSeek(int64(-length), os.SEEK_CUR)
	}
	r := &objReader{
	rd: f,
	lib: lib,
	unit: unit,
	arch: arch,
	syms: syms,
	pn: pn,
	dupSym: &sym.Symbol{Name: ".dup"},
	localSymVersion: syms.IncVersion(),
	flags: flags,
	roObject: roObject,
	pkgpref: objabi.PathToPrefix(lib.Pkg) + ".",
	}
	r.loadObjFile()
	if roObject != nil {
	if r.roOffset != length {
	log.Fatalf("%s: unexpected end at %d, want %d", pn, r.roOffset, start+length)
	}
	r.rd.MustSeek(int64(length), os.SEEK_CUR)
	} else if f.Offset() != start+length {
	log.Fatalf("%s: unexpected end at %d, want %d", pn, f.Offset(), start+length)
	}
	return r.strictDupMsgs
	}

	func (r *objReader) loadObjFile() {
	// Magic header
	var buf [8]uint8
	r.readFull(buf[:])
	if string(buf[:]) != startmagic {
	if string(buf[:]) == goobj2.Magic {
	log.Fatalf("found object file %s in new format, but -go115newobj is false\nset -go115newobj consistently in all -gcflags, -asmflags, and -ldflags", r.pn)
	}
	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.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)
	}

	// DWARF strings
	count := r.readInt()
	r.unit.DWARFFileTable = make([]string, count)
	for i := 0; i < count; i++ {
	// TODO: This should probably be a call to mkROString.
	r.unit.DWARFFileTable[i] = r.readString()
	}

	// Symbol references
	r.refs = []*sym.Symbol{nil} // zeroth ref is nil
	for {
	c, err := r.peek(1)
	if err != nil {
	log.Fatalf("%s: peeking: %v", r.pn, err)
	}
	if c[0] == 0xff {
	r.readByte()
	break
	}
	r.readRef()
	}

	// Lengths
	r.readSlices()

	// Data section
	err = r.readDataSection()
	if err != nil {
	log.Fatalf("%s: error reading %s", r.pn, err)
	}

	// Defined symbols
	for {
	c, err := r.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() {
	r.dataSize = r.readInt()
	n := r.readInt()
	r.reloc = make([]sym.Reloc, n)
	n = r.readInt()
	r.pcdata = make([]sym.Pcdata, n)
	_ = r.readInt() // TODO: remove on next object file rev (autom count)
	n = r.readInt()
	r.funcdata = make([]*sym.Symbol, n)
	r.funcdataoff = make([]int64, n)
	n = r.readInt()
	r.file = make([]*sym.Symbol, n)
	}

	func (r *objReader) readDataSection() (err error) {
	if r.roObject != nil {
	r.data, r.dataReadOnly, err =
	r.roObject[r.roOffset:r.roOffset+int64(r.dataSize)], true, nil
	r.roOffset += int64(r.dataSize)
	return
	}
	r.data, r.dataReadOnly, err = r.rd.Slice(uint64(r.dataSize))
	return
	}

	// 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.readByte(); c != symPrefix \|\| err != nil {
	log.Fatalln("readSym out of sync")
	}
	if c, err = r.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()
	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 = r.pkgpref[:len(r.pkgpref)-1]
	s.Unit = r.unit
	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
	s.Attr.Set(sym.AttrReadOnly, r.dataReadOnly)
	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()
	s.Align = 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
	}
	if flags&(1<<4) != 0 {
	s.Attr \|= sym.AttrTopFrame
	}
	n := r.readInt()
	if n != 0 {
	log.Fatalf("stale object file: autom count nonzero")
	}

	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().Name
	pc.InlTree[i].ParentPC = r.readInt32()
	}

	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)
	}

	if isdup && r.flags&(StrictDupsWarnFlag\|StrictDupsErrFlag) != 0 {
	// Compare the just-read symbol with the previously read
	// symbol of the same name, verifying that they have the same
	// payload. If not, issue a warning and possibly an error.
	if !bytes.Equal(s.P, dup.P) {
	reason := "same length but different contents"
	if len(s.P) != len(dup.P) {
	reason = fmt.Sprintf("new length %d != old length %d",
	len(data), len(dup.P))
	}
	fmt.Fprintf(os.Stderr, "cmd/link: while reading object for '%v': duplicate symbol '%s', previous def at '%v', with mismatched payload: %s\n", r.lib, dup, dup.Unit.Lib, reason)

	// For the moment, whitelist DWARF subprogram DIEs for
	// auto-generated wrapper functions. What seems to happen
	// here is that we get different line numbers on formal
	// params; I am guessing that the pos is being inherited
	// from the spot where the wrapper is needed.
	whitelist := (strings.HasPrefix(dup.Name, "go.info.go.interface") \|\|
	strings.HasPrefix(dup.Name, "go.info.go.builtin") \|\|
	strings.HasPrefix(dup.Name, "go.isstmt.go.builtin") \|\|
	strings.HasPrefix(dup.Name, "go.debuglines"))
	if !whitelist {
	r.strictDupMsgs++
	}
	}
	}
	}

	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(r.pkgpref)
	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) {
	if r.roObject != nil {
	copy(b, r.roObject[r.roOffset:])
	r.roOffset += int64(len(b))
	return
	}
	_, err := io.ReadFull(r.rd, b)
	if err != nil {
	log.Fatalf("%s: error reading %s", r.pn, err)
	}
	}

	func (r *objReader) readByte() (byte, error) {
	if r.roObject != nil {
	b := r.roObject[r.roOffset]
	r.roOffset++
	return b, nil
	}
	return r.rd.ReadByte()
	}

	func (r *objReader) peek(n int) ([]byte, error) {
	if r.roObject != nil {
	return r.roObject[r.roOffset : r.roOffset+int64(n)], nil
	}
	return r.rd.Peek(n)
	}

	func (r *objReader) readRef() {
	if c, err := r.readByte(); c != symPrefix \|\| err != nil {
	log.Fatalf("readSym out of sync")
	}
	name := r.readSymName()
	var v int
	if abi := r.readInt(); abi == -1 {
	// Static
	v = r.localSymVersion
	} else if abiver := sym.ABIToVersion(obj.ABI(abi)); abiver != -1 {
	// Note that data symbols are "ABI0", which maps to version 0.
	v = abiver
	} else {
	log.Fatalf("invalid symbol ABI for %q: %d", name, abi)
	}
	s := r.syms.Lookup(name, v)
	r.refs = append(r.refs, s)

	if s == nil \|\| v == r.localSymVersion {
	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.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
	}

	func mkROString(rodata []byte) string {
	if len(rodata) == 0 {
	return ""
	}

	var s string
	hdr := (*unsafeheader.String)(unsafe.Pointer(&s))
	hdr.Data = unsafe.Pointer(&rodata[0])
	hdr.Len = len(rodata)

	return s
	}

	// readSymName reads a symbol name, replacing all "". with pkg.
	func (r *objReader) readSymName() string {
	n := r.readInt()
	if n == 0 {
	r.readInt64()
	return ""
	}
	if cap(r.rdBuf) < n {
	r.rdBuf = make([]byte, 2*n)
	}
	sOffset := r.roOffset
	origName, err := r.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]
	nPkgRefs := 0
	for {
	i := bytes.Index(origName, emptyPkg)
	if i == -1 {
	var s string
	if r.roObject != nil && nPkgRefs == 0 {
	s = mkROString(r.roObject[sOffset : sOffset+int64(n)])
	} else {
	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
	}
	nPkgRefs++
	adjName = append(adjName, origName[:i]...)
	adjName = append(adjName, r.pkgpref[:len(r.pkgpref)-1]...)
	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]
	}