src/cmd/link/internal/loader/symbolbuilder.go - go - Git at Google

 // Copyright 2019 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 loader

 import (
 	"cmd/internal/goobj"
 	"cmd/internal/objabi"
 	"cmd/internal/sys"
 	"cmd/link/internal/sym"
 	"sort"
 )

 // SymbolBuilder is a helper designed to help with the construction
 // of new symbol contents.
 type SymbolBuilder struct {
 	*extSymPayload         // points to payload being updated
 	symIdx         Sym     // index of symbol being updated/constructed
 	l              *Loader // loader
 }

 // MakeSymbolBuilder creates a symbol builder for use in constructing
 // an entirely new symbol.
 func (l *Loader) MakeSymbolBuilder(name string) *SymbolBuilder {
 	// for now assume that any new sym is intended to be static
 	symIdx := l.CreateStaticSym(name)
 	sb := &SymbolBuilder{l: l, symIdx: symIdx}
 	sb.extSymPayload = l.getPayload(symIdx)
 	return sb
 }

 // MakeSymbolUpdater creates a symbol builder helper for an existing
 // symbol 'symIdx'. If 'symIdx' is not an external symbol, then create
 // a clone of it (copy name, properties, etc) fix things up so that
 // the lookup tables and caches point to the new version, not the old
 // version.
 func (l *Loader) MakeSymbolUpdater(symIdx Sym) *SymbolBuilder {
 	if symIdx == 0 {
 		panic("can't update the null symbol")
 	}
 	if !l.IsExternal(symIdx) {
 		// Create a clone with the same name/version/kind etc.
 		l.cloneToExternal(symIdx)
 	}

 	// Construct updater and return.
 	sb := &SymbolBuilder{l: l, symIdx: symIdx}
 	sb.extSymPayload = l.getPayload(symIdx)
 	return sb
 }

 // CreateSymForUpdate creates a symbol with given name and version,
 // returns a CreateSymForUpdate for update. If the symbol already
 // exists, it will update in-place.
 func (l *Loader) CreateSymForUpdate(name string, version int) *SymbolBuilder {
 	s := l.LookupOrCreateSym(name, version)
 	l.SetAttrReachable(s, true)
 	return l.MakeSymbolUpdater(s)
 }

 // Getters for properties of the symbol we're working on.

 func (sb *SymbolBuilder) Sym() Sym               { return sb.symIdx }
 func (sb *SymbolBuilder) Name() string           { return sb.name }
 func (sb *SymbolBuilder) Version() int           { return sb.ver }
 func (sb *SymbolBuilder) Type() sym.SymKind      { return sb.kind }
 func (sb *SymbolBuilder) Size() int64            { return sb.size }
 func (sb *SymbolBuilder) Data() []byte           { return sb.data }
 func (sb *SymbolBuilder) Value() int64           { return sb.l.SymValue(sb.symIdx) }
 func (sb *SymbolBuilder) Align() int32           { return sb.l.SymAlign(sb.symIdx) }
 func (sb *SymbolBuilder) Localentry() uint8      { return sb.l.SymLocalentry(sb.symIdx) }
 func (sb *SymbolBuilder) OnList() bool           { return sb.l.AttrOnList(sb.symIdx) }
 func (sb *SymbolBuilder) External() bool         { return sb.l.AttrExternal(sb.symIdx) }
 func (sb *SymbolBuilder) Extname() string        { return sb.l.SymExtname(sb.symIdx) }
 func (sb *SymbolBuilder) CgoExportDynamic() bool { return sb.l.AttrCgoExportDynamic(sb.symIdx) }
 func (sb *SymbolBuilder) Dynimplib() string      { return sb.l.SymDynimplib(sb.symIdx) }
 func (sb *SymbolBuilder) Dynimpvers() string     { return sb.l.SymDynimpvers(sb.symIdx) }
 func (sb *SymbolBuilder) SubSym() Sym            { return sb.l.SubSym(sb.symIdx) }
 func (sb *SymbolBuilder) GoType() Sym            { return sb.l.SymGoType(sb.symIdx) }
 func (sb *SymbolBuilder) VisibilityHidden() bool { return sb.l.AttrVisibilityHidden(sb.symIdx) }
 func (sb *SymbolBuilder) Sect() *sym.Section     { return sb.l.SymSect(sb.symIdx) }

 // Setters for symbol properties.

 func (sb *SymbolBuilder) SetType(kind sym.SymKind)   { sb.kind = kind }
 func (sb *SymbolBuilder) SetSize(size int64)         { sb.size = size }
 func (sb *SymbolBuilder) SetData(data []byte)        { sb.data = data }
 func (sb *SymbolBuilder) SetOnList(v bool)           { sb.l.SetAttrOnList(sb.symIdx, v) }
 func (sb *SymbolBuilder) SetExternal(v bool)         { sb.l.SetAttrExternal(sb.symIdx, v) }
 func (sb *SymbolBuilder) SetValue(v int64)           { sb.l.SetSymValue(sb.symIdx, v) }
 func (sb *SymbolBuilder) SetAlign(align int32)       { sb.l.SetSymAlign(sb.symIdx, align) }
 func (sb *SymbolBuilder) SetLocalentry(value uint8)  { sb.l.SetSymLocalentry(sb.symIdx, value) }
 func (sb *SymbolBuilder) SetExtname(value string)    { sb.l.SetSymExtname(sb.symIdx, value) }
 func (sb *SymbolBuilder) SetDynimplib(value string)  { sb.l.SetSymDynimplib(sb.symIdx, value) }
 func (sb *SymbolBuilder) SetDynimpvers(value string) { sb.l.SetSymDynimpvers(sb.symIdx, value) }
 func (sb *SymbolBuilder) SetPlt(value int32)         { sb.l.SetPlt(sb.symIdx, value) }
 func (sb *SymbolBuilder) SetGot(value int32)         { sb.l.SetGot(sb.symIdx, value) }
 func (sb *SymbolBuilder) SetSpecial(value bool)      { sb.l.SetAttrSpecial(sb.symIdx, value) }
 func (sb *SymbolBuilder) SetLocal(value bool)        { sb.l.SetAttrLocal(sb.symIdx, value) }
 func (sb *SymbolBuilder) SetVisibilityHidden(value bool) {
 	sb.l.SetAttrVisibilityHidden(sb.symIdx, value)
 }
 func (sb *SymbolBuilder) SetNotInSymbolTable(value bool) {
 	sb.l.SetAttrNotInSymbolTable(sb.symIdx, value)
 }
 func (sb *SymbolBuilder) SetSect(sect *sym.Section) { sb.l.SetSymSect(sb.symIdx, sect) }

 func (sb *SymbolBuilder) AddBytes(data []byte) {
 	if sb.kind == 0 {
 		sb.kind = sym.SDATA
 	}
 	sb.data = append(sb.data, data...)
 	sb.size = int64(len(sb.data))
 }

 func (sb *SymbolBuilder) Relocs() Relocs {
 	return sb.l.Relocs(sb.symIdx)
 }

 // ResetRelocs removes all relocations on this symbol.
 func (sb *SymbolBuilder) ResetRelocs() {
 	sb.relocs = sb.relocs[:0]
 	sb.reltypes = sb.reltypes[:0]
 }

 // SetRelocType sets the type of the 'i'-th relocation on this sym to 't'
 func (sb *SymbolBuilder) SetRelocType(i int, t objabi.RelocType) {
 	sb.relocs[i].SetType(0)
 	sb.reltypes[i] = t
 }

 // SetRelocSym sets the target sym of the 'i'-th relocation on this sym to 's'
 func (sb *SymbolBuilder) SetRelocSym(i int, tgt Sym) {
 	sb.relocs[i].SetSym(goobj.SymRef{PkgIdx: 0, SymIdx: uint32(tgt)})
 }

 // SetRelocAdd sets the addend of the 'i'-th relocation on this sym to 'a'
 func (sb *SymbolBuilder) SetRelocAdd(i int, a int64) {
 	sb.relocs[i].SetAdd(a)
 }

 // Add n relocations, return a handle to the relocations.
 func (sb *SymbolBuilder) AddRelocs(n int) Relocs {
 	sb.relocs = append(sb.relocs, make([]goobj.Reloc, n)...)
 	sb.reltypes = append(sb.reltypes, make([]objabi.RelocType, n)...)
 	return sb.l.Relocs(sb.symIdx)
 }

 // Add a relocation with given type, return its handle and index
 // (to set other fields).
 func (sb *SymbolBuilder) AddRel(typ objabi.RelocType) (Reloc, int) {
 	j := len(sb.relocs)
 	sb.relocs = append(sb.relocs, goobj.Reloc{})
 	sb.reltypes = append(sb.reltypes, typ)
 	relocs := sb.Relocs()
 	return relocs.At(j), j
 }

 // Sort relocations by offset.
 func (sb *SymbolBuilder) SortRelocs() {
 	sort.Sort((*relocsByOff)(sb.extSymPayload))
 }

 // Implement sort.Interface
 type relocsByOff extSymPayload

 func (p *relocsByOff) Len() int           { return len(p.relocs) }
 func (p *relocsByOff) Less(i, j int) bool { return p.relocs[i].Off() < p.relocs[j].Off() }
 func (p *relocsByOff) Swap(i, j int) {
 	p.relocs[i], p.relocs[j] = p.relocs[j], p.relocs[i]
 	p.reltypes[i], p.reltypes[j] = p.reltypes[j], p.reltypes[i]
 }

 func (sb *SymbolBuilder) Reachable() bool {
 	return sb.l.AttrReachable(sb.symIdx)
 }

 func (sb *SymbolBuilder) SetReachable(v bool) {
 	sb.l.SetAttrReachable(sb.symIdx, v)
 }

 func (sb *SymbolBuilder) setReachable() {
 	sb.SetReachable(true)
 }

 func (sb *SymbolBuilder) ReadOnly() bool {
 	return sb.l.AttrReadOnly(sb.symIdx)
 }

 func (sb *SymbolBuilder) SetReadOnly(v bool) {
 	sb.l.SetAttrReadOnly(sb.symIdx, v)
 }

 func (sb *SymbolBuilder) DuplicateOK() bool {
 	return sb.l.AttrDuplicateOK(sb.symIdx)
 }

 func (sb *SymbolBuilder) SetDuplicateOK(v bool) {
 	sb.l.SetAttrDuplicateOK(sb.symIdx, v)
 }

 func (sb *SymbolBuilder) Outer() Sym {
 	return sb.l.OuterSym(sb.symIdx)
 }

 func (sb *SymbolBuilder) Sub() Sym {
 	return sb.l.SubSym(sb.symIdx)
 }

 func (sb *SymbolBuilder) SortSub() {
 	sb.l.SortSub(sb.symIdx)
 }

 func (sb *SymbolBuilder) AddInteriorSym(sub Sym) {
 	sb.l.AddInteriorSym(sb.symIdx, sub)
 }

 func (sb *SymbolBuilder) AddUint8(v uint8) int64 {
 	off := sb.size
 	if sb.kind == 0 {
 		sb.kind = sym.SDATA
 	}
 	sb.size++
 	sb.data = append(sb.data, v)
 	return off
 }

 func (sb *SymbolBuilder) AddUintXX(arch *sys.Arch, v uint64, wid int) int64 {
 	off := sb.size
 	sb.setUintXX(arch, off, v, int64(wid))
 	return off
 }

 func (sb *SymbolBuilder) setUintXX(arch *sys.Arch, off int64, v uint64, wid int64) int64 {
 	if sb.kind == 0 {
 		sb.kind = sym.SDATA
 	}
 	if sb.size < off+wid {
 		sb.size = off + wid
 		sb.Grow(sb.size)
 	}

 	switch wid {
 	case 1:
 		sb.data[off] = uint8(v)
 	case 2:
 		arch.ByteOrder.PutUint16(sb.data[off:], uint16(v))
 	case 4:
 		arch.ByteOrder.PutUint32(sb.data[off:], uint32(v))
 	case 8:
 		arch.ByteOrder.PutUint64(sb.data[off:], v)
 	}

 	return off + wid
 }

 func (sb *SymbolBuilder) AddUint16(arch *sys.Arch, v uint16) int64 {
 	return sb.AddUintXX(arch, uint64(v), 2)
 }

 func (sb *SymbolBuilder) AddUint32(arch *sys.Arch, v uint32) int64 {
 	return sb.AddUintXX(arch, uint64(v), 4)
 }

 func (sb *SymbolBuilder) AddUint64(arch *sys.Arch, v uint64) int64 {
 	return sb.AddUintXX(arch, v, 8)
 }

 func (sb *SymbolBuilder) AddUint(arch *sys.Arch, v uint64) int64 {
 	return sb.AddUintXX(arch, v, arch.PtrSize)
 }

 func (sb *SymbolBuilder) SetUint8(arch *sys.Arch, r int64, v uint8) int64 {
 	return sb.setUintXX(arch, r, uint64(v), 1)
 }

 func (sb *SymbolBuilder) SetUint16(arch *sys.Arch, r int64, v uint16) int64 {
 	return sb.setUintXX(arch, r, uint64(v), 2)
 }

 func (sb *SymbolBuilder) SetUint32(arch *sys.Arch, r int64, v uint32) int64 {
 	return sb.setUintXX(arch, r, uint64(v), 4)
 }

 func (sb *SymbolBuilder) SetUint(arch *sys.Arch, r int64, v uint64) int64 {
 	return sb.setUintXX(arch, r, v, int64(arch.PtrSize))
 }

 func (sb *SymbolBuilder) SetUintptr(arch *sys.Arch, r int64, v uintptr) int64 {
 	return sb.setUintXX(arch, r, uint64(v), int64(arch.PtrSize))
 }

 func (sb *SymbolBuilder) SetAddrPlus(arch *sys.Arch, off int64, tgt Sym, add int64) int64 {
 	if sb.Type() == 0 {
 		sb.SetType(sym.SDATA)
 	}
 	if off+int64(arch.PtrSize) > sb.size {
 		sb.size = off + int64(arch.PtrSize)
 		sb.Grow(sb.size)
 	}
 	r, _ := sb.AddRel(objabi.R_ADDR)
 	r.SetSym(tgt)
 	r.SetOff(int32(off))
 	r.SetSiz(uint8(arch.PtrSize))
 	r.SetAdd(add)
 	return off + int64(r.Siz())
 }

 func (sb *SymbolBuilder) SetAddr(arch *sys.Arch, off int64, tgt Sym) int64 {
 	return sb.SetAddrPlus(arch, off, tgt, 0)
 }

 func (sb *SymbolBuilder) AddStringAt(off int64, str string) int64 {
 	strLen := int64(len(str))
 	if off+strLen+1 > int64(len(sb.data)) {
 		panic("attempt to write past end of buffer")
 	}
 	copy(sb.data[off:off+strLen], str)
 	sb.data[off+strLen] = 0
 	return off + strLen + 1
 }

 func (sb *SymbolBuilder) Addstring(str string) int64 {
 	if sb.kind == 0 {
 		sb.kind = sym.SNOPTRDATA
 	}
 	r := sb.size
 	if sb.name == ".shstrtab" {
 		// FIXME: find a better mechanism for this
 		sb.l.elfsetstring(str, int(r))
 	}
 	sb.data = append(sb.data, str...)
 	sb.data = append(sb.data, 0)
 	sb.size = int64(len(sb.data))
 	return r
 }

 func (sb *SymbolBuilder) SetBytesAt(off int64, b []byte) int64 {
 	datLen := int64(len(b))
 	if off+datLen > int64(len(sb.data)) {
 		panic("attempt to write past end of buffer")
 	}
 	copy(sb.data[off:off+datLen], b)
 	return off + datLen
 }

 func (sb *SymbolBuilder) addSymRef(tgt Sym, add int64, typ objabi.RelocType, rsize int) int64 {
 	if sb.kind == 0 {
 		sb.kind = sym.SDATA
 	}
 	i := sb.size

 	sb.size += int64(rsize)
 	sb.Grow(sb.size)

 	r, _ := sb.AddRel(typ)
 	r.SetSym(tgt)
 	r.SetOff(int32(i))
 	r.SetSiz(uint8(rsize))
 	r.SetAdd(add)

 	return i + int64(rsize)
 }

 // Add a symbol reference (relocation) with given type, addend, and size
 // (the most generic form).
 func (sb *SymbolBuilder) AddSymRef(arch *sys.Arch, tgt Sym, add int64, typ objabi.RelocType, rsize int) int64 {
 	return sb.addSymRef(tgt, add, typ, rsize)
 }

 func (sb *SymbolBuilder) AddAddrPlus(arch *sys.Arch, tgt Sym, add int64) int64 {
 	return sb.addSymRef(tgt, add, objabi.R_ADDR, arch.PtrSize)
 }

 func (sb *SymbolBuilder) AddAddrPlus4(arch *sys.Arch, tgt Sym, add int64) int64 {
 	return sb.addSymRef(tgt, add, objabi.R_ADDR, 4)
 }

 func (sb *SymbolBuilder) AddAddr(arch *sys.Arch, tgt Sym) int64 {
 	return sb.AddAddrPlus(arch, tgt, 0)
 }

 func (sb *SymbolBuilder) AddPCRelPlus(arch *sys.Arch, tgt Sym, add int64) int64 {
 	return sb.addSymRef(tgt, add, objabi.R_PCREL, 4)
 }

 func (sb *SymbolBuilder) AddCURelativeAddrPlus(arch *sys.Arch, tgt Sym, add int64) int64 {
 	return sb.addSymRef(tgt, add, objabi.R_ADDRCUOFF, arch.PtrSize)
 }

 func (sb *SymbolBuilder) AddSize(arch *sys.Arch, tgt Sym) int64 {
 	return sb.addSymRef(tgt, 0, objabi.R_SIZE, arch.PtrSize)
 }

 // GenAddAddrPlusFunc returns a function to be called when capturing
 // a function symbol's address. In later stages of the link (when
 // address assignment is done) when doing internal linking and
 // targeting an executable, we can just emit the address of a function
 // directly instead of generating a relocation. Clients can call
 // this function (setting 'internalExec' based on build mode and target)
 // and then invoke the returned function in roughly the same way that
 // loader.*SymbolBuilder.AddAddrPlus would be used.
 func GenAddAddrPlusFunc(internalExec bool) func(s *SymbolBuilder, arch *sys.Arch, tgt Sym, add int64) int64 {
 	if internalExec {
 		return func(s *SymbolBuilder, arch *sys.Arch, tgt Sym, add int64) int64 {
 			if v := s.l.SymValue(tgt); v != 0 {
 				return s.AddUint(arch, uint64(v+add))
 			}
 			return s.AddAddrPlus(arch, tgt, add)
 		}
 	} else {
 		return (*SymbolBuilder).AddAddrPlus
 	}
 }

 func (sb *SymbolBuilder) MakeWritable() {
 	if sb.ReadOnly() {
 		sb.data = append([]byte(nil), sb.data...)
 		sb.l.SetAttrReadOnly(sb.symIdx, false)
 	}
 }

 func (sb *SymbolBuilder) AddUleb(v uint64) {
 	if v < 128 { // common case: 1 byte
 		sb.AddUint8(uint8(v))
 		return
 	}
 	for {
 		c := uint8(v & 0x7f)
 		v >>= 7
 		if v != 0 {
 			c |= 0x80
 		}
 		sb.AddUint8(c)
 		if c&0x80 == 0 {
 			break
 		}
 	}
 }
	// Copyright 2019 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 loader

	import (
	"cmd/internal/goobj"
	"cmd/internal/objabi"
	"cmd/internal/sys"
	"cmd/link/internal/sym"
	"sort"
	)

	// SymbolBuilder is a helper designed to help with the construction
	// of new symbol contents.
	type SymbolBuilder struct {
	*extSymPayload // points to payload being updated
	symIdx Sym // index of symbol being updated/constructed
	l *Loader // loader
	}

	// MakeSymbolBuilder creates a symbol builder for use in constructing
	// an entirely new symbol.
	func (l Loader) MakeSymbolBuilder(name string) SymbolBuilder {
	// for now assume that any new sym is intended to be static
	symIdx := l.CreateStaticSym(name)
	sb := &SymbolBuilder{l: l, symIdx: symIdx}
	sb.extSymPayload = l.getPayload(symIdx)
	return sb
	}

	// MakeSymbolUpdater creates a symbol builder helper for an existing
	// symbol 'symIdx'. If 'symIdx' is not an external symbol, then create
	// a clone of it (copy name, properties, etc) fix things up so that
	// the lookup tables and caches point to the new version, not the old
	// version.
	func (l Loader) MakeSymbolUpdater(symIdx Sym) SymbolBuilder {
	if symIdx == 0 {
	panic("can't update the null symbol")
	}
	if !l.IsExternal(symIdx) {
	// Create a clone with the same name/version/kind etc.
	l.cloneToExternal(symIdx)
	}

	// Construct updater and return.
	sb := &SymbolBuilder{l: l, symIdx: symIdx}
	sb.extSymPayload = l.getPayload(symIdx)
	return sb
	}

	// CreateSymForUpdate creates a symbol with given name and version,
	// returns a CreateSymForUpdate for update. If the symbol already
	// exists, it will update in-place.
	func (l Loader) CreateSymForUpdate(name string, version int) SymbolBuilder {
	s := l.LookupOrCreateSym(name, version)
	l.SetAttrReachable(s, true)
	return l.MakeSymbolUpdater(s)
	}

	// Getters for properties of the symbol we're working on.

	func (sb *SymbolBuilder) Sym() Sym { return sb.symIdx }
	func (sb *SymbolBuilder) Name() string { return sb.name }
	func (sb *SymbolBuilder) Version() int { return sb.ver }
	func (sb *SymbolBuilder) Type() sym.SymKind { return sb.kind }
	func (sb *SymbolBuilder) Size() int64 { return sb.size }
	func (sb *SymbolBuilder) Data() []byte { return sb.data }
	func (sb *SymbolBuilder) Value() int64 { return sb.l.SymValue(sb.symIdx) }
	func (sb *SymbolBuilder) Align() int32 { return sb.l.SymAlign(sb.symIdx) }
	func (sb *SymbolBuilder) Localentry() uint8 { return sb.l.SymLocalentry(sb.symIdx) }
	func (sb *SymbolBuilder) OnList() bool { return sb.l.AttrOnList(sb.symIdx) }
	func (sb *SymbolBuilder) External() bool { return sb.l.AttrExternal(sb.symIdx) }
	func (sb *SymbolBuilder) Extname() string { return sb.l.SymExtname(sb.symIdx) }
	func (sb *SymbolBuilder) CgoExportDynamic() bool { return sb.l.AttrCgoExportDynamic(sb.symIdx) }
	func (sb *SymbolBuilder) Dynimplib() string { return sb.l.SymDynimplib(sb.symIdx) }
	func (sb *SymbolBuilder) Dynimpvers() string { return sb.l.SymDynimpvers(sb.symIdx) }
	func (sb *SymbolBuilder) SubSym() Sym { return sb.l.SubSym(sb.symIdx) }
	func (sb *SymbolBuilder) GoType() Sym { return sb.l.SymGoType(sb.symIdx) }
	func (sb *SymbolBuilder) VisibilityHidden() bool { return sb.l.AttrVisibilityHidden(sb.symIdx) }
	func (sb SymbolBuilder) Sect() sym.Section { return sb.l.SymSect(sb.symIdx) }

	// Setters for symbol properties.

	func (sb *SymbolBuilder) SetType(kind sym.SymKind) { sb.kind = kind }
	func (sb *SymbolBuilder) SetSize(size int64) { sb.size = size }
	func (sb *SymbolBuilder) SetData(data []byte) { sb.data = data }
	func (sb *SymbolBuilder) SetOnList(v bool) { sb.l.SetAttrOnList(sb.symIdx, v) }
	func (sb *SymbolBuilder) SetExternal(v bool) { sb.l.SetAttrExternal(sb.symIdx, v) }
	func (sb *SymbolBuilder) SetValue(v int64) { sb.l.SetSymValue(sb.symIdx, v) }
	func (sb *SymbolBuilder) SetAlign(align int32) { sb.l.SetSymAlign(sb.symIdx, align) }
	func (sb *SymbolBuilder) SetLocalentry(value uint8) { sb.l.SetSymLocalentry(sb.symIdx, value) }
	func (sb *SymbolBuilder) SetExtname(value string) { sb.l.SetSymExtname(sb.symIdx, value) }
	func (sb *SymbolBuilder) SetDynimplib(value string) { sb.l.SetSymDynimplib(sb.symIdx, value) }
	func (sb *SymbolBuilder) SetDynimpvers(value string) { sb.l.SetSymDynimpvers(sb.symIdx, value) }
	func (sb *SymbolBuilder) SetPlt(value int32) { sb.l.SetPlt(sb.symIdx, value) }
	func (sb *SymbolBuilder) SetGot(value int32) { sb.l.SetGot(sb.symIdx, value) }
	func (sb *SymbolBuilder) SetSpecial(value bool) { sb.l.SetAttrSpecial(sb.symIdx, value) }
	func (sb *SymbolBuilder) SetLocal(value bool) { sb.l.SetAttrLocal(sb.symIdx, value) }
	func (sb *SymbolBuilder) SetVisibilityHidden(value bool) {
	sb.l.SetAttrVisibilityHidden(sb.symIdx, value)
	}
	func (sb *SymbolBuilder) SetNotInSymbolTable(value bool) {
	sb.l.SetAttrNotInSymbolTable(sb.symIdx, value)
	}
	func (sb SymbolBuilder) SetSect(sect sym.Section) { sb.l.SetSymSect(sb.symIdx, sect) }

	func (sb *SymbolBuilder) AddBytes(data []byte) {
	if sb.kind == 0 {
	sb.kind = sym.SDATA
	}
	sb.data = append(sb.data, data...)
	sb.size = int64(len(sb.data))
	}

	func (sb *SymbolBuilder) Relocs() Relocs {
	return sb.l.Relocs(sb.symIdx)
	}

	// ResetRelocs removes all relocations on this symbol.
	func (sb *SymbolBuilder) ResetRelocs() {
	sb.relocs = sb.relocs[:0]
	sb.reltypes = sb.reltypes[:0]
	}

	// SetRelocType sets the type of the 'i'-th relocation on this sym to 't'
	func (sb *SymbolBuilder) SetRelocType(i int, t objabi.RelocType) {
	sb.relocs[i].SetType(0)
	sb.reltypes[i] = t
	}

	// SetRelocSym sets the target sym of the 'i'-th relocation on this sym to 's'
	func (sb *SymbolBuilder) SetRelocSym(i int, tgt Sym) {
	sb.relocs[i].SetSym(goobj.SymRef{PkgIdx: 0, SymIdx: uint32(tgt)})
	}

	// SetRelocAdd sets the addend of the 'i'-th relocation on this sym to 'a'
	func (sb *SymbolBuilder) SetRelocAdd(i int, a int64) {
	sb.relocs[i].SetAdd(a)
	}

	// Add n relocations, return a handle to the relocations.
	func (sb *SymbolBuilder) AddRelocs(n int) Relocs {
	sb.relocs = append(sb.relocs, make([]goobj.Reloc, n)...)
	sb.reltypes = append(sb.reltypes, make([]objabi.RelocType, n)...)
	return sb.l.Relocs(sb.symIdx)
	}

	// Add a relocation with given type, return its handle and index
	// (to set other fields).
	func (sb *SymbolBuilder) AddRel(typ objabi.RelocType) (Reloc, int) {
	j := len(sb.relocs)
	sb.relocs = append(sb.relocs, goobj.Reloc{})
	sb.reltypes = append(sb.reltypes, typ)
	relocs := sb.Relocs()
	return relocs.At(j), j
	}

	// Sort relocations by offset.
	func (sb *SymbolBuilder) SortRelocs() {
	sort.Sort((*relocsByOff)(sb.extSymPayload))
	}

	// Implement sort.Interface
	type relocsByOff extSymPayload

	func (p *relocsByOff) Len() int { return len(p.relocs) }
	func (p *relocsByOff) Less(i, j int) bool { return p.relocs[i].Off() < p.relocs[j].Off() }
	func (p *relocsByOff) Swap(i, j int) {
	p.relocs[i], p.relocs[j] = p.relocs[j], p.relocs[i]
	p.reltypes[i], p.reltypes[j] = p.reltypes[j], p.reltypes[i]
	}

	func (sb *SymbolBuilder) Reachable() bool {
	return sb.l.AttrReachable(sb.symIdx)
	}

	func (sb *SymbolBuilder) SetReachable(v bool) {
	sb.l.SetAttrReachable(sb.symIdx, v)
	}

	func (sb *SymbolBuilder) setReachable() {
	sb.SetReachable(true)
	}

	func (sb *SymbolBuilder) ReadOnly() bool {
	return sb.l.AttrReadOnly(sb.symIdx)
	}

	func (sb *SymbolBuilder) SetReadOnly(v bool) {
	sb.l.SetAttrReadOnly(sb.symIdx, v)
	}

	func (sb *SymbolBuilder) DuplicateOK() bool {
	return sb.l.AttrDuplicateOK(sb.symIdx)
	}

	func (sb *SymbolBuilder) SetDuplicateOK(v bool) {
	sb.l.SetAttrDuplicateOK(sb.symIdx, v)
	}

	func (sb *SymbolBuilder) Outer() Sym {
	return sb.l.OuterSym(sb.symIdx)
	}

	func (sb *SymbolBuilder) Sub() Sym {
	return sb.l.SubSym(sb.symIdx)
	}

	func (sb *SymbolBuilder) SortSub() {
	sb.l.SortSub(sb.symIdx)
	}

	func (sb *SymbolBuilder) AddInteriorSym(sub Sym) {
	sb.l.AddInteriorSym(sb.symIdx, sub)
	}

	func (sb *SymbolBuilder) AddUint8(v uint8) int64 {
	off := sb.size
	if sb.kind == 0 {
	sb.kind = sym.SDATA
	}
	sb.size++
	sb.data = append(sb.data, v)
	return off
	}

	func (sb SymbolBuilder) AddUintXX(arch sys.Arch, v uint64, wid int) int64 {
	off := sb.size
	sb.setUintXX(arch, off, v, int64(wid))
	return off
	}

	func (sb SymbolBuilder) setUintXX(arch sys.Arch, off int64, v uint64, wid int64) int64 {
	if sb.kind == 0 {
	sb.kind = sym.SDATA
	}
	if sb.size < off+wid {
	sb.size = off + wid
	sb.Grow(sb.size)
	}

	switch wid {
	case 1:
	sb.data[off] = uint8(v)
	case 2:
	arch.ByteOrder.PutUint16(sb.data[off:], uint16(v))
	case 4:
	arch.ByteOrder.PutUint32(sb.data[off:], uint32(v))
	case 8:
	arch.ByteOrder.PutUint64(sb.data[off:], v)
	}

	return off + wid
	}

	func (sb SymbolBuilder) AddUint16(arch sys.Arch, v uint16) int64 {
	return sb.AddUintXX(arch, uint64(v), 2)
	}

	func (sb SymbolBuilder) AddUint32(arch sys.Arch, v uint32) int64 {
	return sb.AddUintXX(arch, uint64(v), 4)
	}

	func (sb SymbolBuilder) AddUint64(arch sys.Arch, v uint64) int64 {
	return sb.AddUintXX(arch, v, 8)
	}

	func (sb SymbolBuilder) AddUint(arch sys.Arch, v uint64) int64 {
	return sb.AddUintXX(arch, v, arch.PtrSize)
	}

	func (sb SymbolBuilder) SetUint8(arch sys.Arch, r int64, v uint8) int64 {
	return sb.setUintXX(arch, r, uint64(v), 1)
	}

	func (sb SymbolBuilder) SetUint16(arch sys.Arch, r int64, v uint16) int64 {
	return sb.setUintXX(arch, r, uint64(v), 2)
	}

	func (sb SymbolBuilder) SetUint32(arch sys.Arch, r int64, v uint32) int64 {
	return sb.setUintXX(arch, r, uint64(v), 4)
	}

	func (sb SymbolBuilder) SetUint(arch sys.Arch, r int64, v uint64) int64 {
	return sb.setUintXX(arch, r, v, int64(arch.PtrSize))
	}

	func (sb SymbolBuilder) SetUintptr(arch sys.Arch, r int64, v uintptr) int64 {
	return sb.setUintXX(arch, r, uint64(v), int64(arch.PtrSize))
	}

	func (sb SymbolBuilder) SetAddrPlus(arch sys.Arch, off int64, tgt Sym, add int64) int64 {
	if sb.Type() == 0 {
	sb.SetType(sym.SDATA)
	}
	if off+int64(arch.PtrSize) > sb.size {
	sb.size = off + int64(arch.PtrSize)
	sb.Grow(sb.size)
	}
	r, _ := sb.AddRel(objabi.R_ADDR)
	r.SetSym(tgt)
	r.SetOff(int32(off))
	r.SetSiz(uint8(arch.PtrSize))
	r.SetAdd(add)
	return off + int64(r.Siz())
	}

	func (sb SymbolBuilder) SetAddr(arch sys.Arch, off int64, tgt Sym) int64 {
	return sb.SetAddrPlus(arch, off, tgt, 0)
	}

	func (sb *SymbolBuilder) AddStringAt(off int64, str string) int64 {
	strLen := int64(len(str))
	if off+strLen+1 > int64(len(sb.data)) {
	panic("attempt to write past end of buffer")
	}
	copy(sb.data[off:off+strLen], str)
	sb.data[off+strLen] = 0
	return off + strLen + 1
	}

	func (sb *SymbolBuilder) Addstring(str string) int64 {
	if sb.kind == 0 {
	sb.kind = sym.SNOPTRDATA
	}
	r := sb.size
	if sb.name == ".shstrtab" {
	// FIXME: find a better mechanism for this
	sb.l.elfsetstring(str, int(r))
	}
	sb.data = append(sb.data, str...)
	sb.data = append(sb.data, 0)
	sb.size = int64(len(sb.data))
	return r
	}

	func (sb *SymbolBuilder) SetBytesAt(off int64, b []byte) int64 {
	datLen := int64(len(b))
	if off+datLen > int64(len(sb.data)) {
	panic("attempt to write past end of buffer")
	}
	copy(sb.data[off:off+datLen], b)
	return off + datLen
	}

	func (sb *SymbolBuilder) addSymRef(tgt Sym, add int64, typ objabi.RelocType, rsize int) int64 {
	if sb.kind == 0 {
	sb.kind = sym.SDATA
	}
	i := sb.size

	sb.size += int64(rsize)
	sb.Grow(sb.size)

	r, _ := sb.AddRel(typ)
	r.SetSym(tgt)
	r.SetOff(int32(i))
	r.SetSiz(uint8(rsize))
	r.SetAdd(add)

	return i + int64(rsize)
	}

	// Add a symbol reference (relocation) with given type, addend, and size
	// (the most generic form).
	func (sb SymbolBuilder) AddSymRef(arch sys.Arch, tgt Sym, add int64, typ objabi.RelocType, rsize int) int64 {
	return sb.addSymRef(tgt, add, typ, rsize)
	}

	func (sb SymbolBuilder) AddAddrPlus(arch sys.Arch, tgt Sym, add int64) int64 {
	return sb.addSymRef(tgt, add, objabi.R_ADDR, arch.PtrSize)
	}

	func (sb SymbolBuilder) AddAddrPlus4(arch sys.Arch, tgt Sym, add int64) int64 {
	return sb.addSymRef(tgt, add, objabi.R_ADDR, 4)
	}

	func (sb SymbolBuilder) AddAddr(arch sys.Arch, tgt Sym) int64 {
	return sb.AddAddrPlus(arch, tgt, 0)
	}

	func (sb SymbolBuilder) AddPCRelPlus(arch sys.Arch, tgt Sym, add int64) int64 {
	return sb.addSymRef(tgt, add, objabi.R_PCREL, 4)
	}

	func (sb SymbolBuilder) AddCURelativeAddrPlus(arch sys.Arch, tgt Sym, add int64) int64 {
	return sb.addSymRef(tgt, add, objabi.R_ADDRCUOFF, arch.PtrSize)
	}

	func (sb SymbolBuilder) AddSize(arch sys.Arch, tgt Sym) int64 {
	return sb.addSymRef(tgt, 0, objabi.R_SIZE, arch.PtrSize)
	}

	// GenAddAddrPlusFunc returns a function to be called when capturing
	// a function symbol's address. In later stages of the link (when
	// address assignment is done) when doing internal linking and
	// targeting an executable, we can just emit the address of a function
	// directly instead of generating a relocation. Clients can call
	// this function (setting 'internalExec' based on build mode and target)
	// and then invoke the returned function in roughly the same way that
	// loader.*SymbolBuilder.AddAddrPlus would be used.
	func GenAddAddrPlusFunc(internalExec bool) func(s SymbolBuilder, arch sys.Arch, tgt Sym, add int64) int64 {
	if internalExec {
	return func(s SymbolBuilder, arch sys.Arch, tgt Sym, add int64) int64 {
	if v := s.l.SymValue(tgt); v != 0 {
	return s.AddUint(arch, uint64(v+add))
	}
	return s.AddAddrPlus(arch, tgt, add)
	}
	} else {
	return (*SymbolBuilder).AddAddrPlus
	}
	}

	func (sb *SymbolBuilder) MakeWritable() {
	if sb.ReadOnly() {
	sb.data = append([]byte(nil), sb.data...)
	sb.l.SetAttrReadOnly(sb.symIdx, false)
	}
	}

	func (sb *SymbolBuilder) AddUleb(v uint64) {
	if v < 128 { // common case: 1 byte
	sb.AddUint8(uint8(v))
	return
	}
	for {
	c := uint8(v & 0x7f)
	v >>= 7
	if v != 0 {
	c \|= 0x80
	}
	sb.AddUint8(c)
	if c&0x80 == 0 {
	break
	}
	}
	}