/
objfile.go
482 lines (448 loc) · 11 KB
/
objfile.go
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// 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 ld
// Writing and reading of Go object files.
//
// Originally, Go object files were Plan 9 object files, but no longer.
// Now they are more like standard object files, in that each symbol is defined
// by an associated memory image (bytes) and a list of relocations to apply
// during linking. We do not (yet?) use a standard file format, however.
// For now, the format is chosen to be as simple as possible to read and write.
// It may change for reasons of efficiency, or we may even switch to a
// standard file format if there are compelling benefits to doing so.
// See golang.org/s/go13linker for more background.
//
// The file format is:
//
// - magic header: "\x00\x00go13ld"
// - byte 1 - version number
// - sequence of strings giving dependencies (imported packages)
// - empty string (marks end of sequence)
// - sequence of defined symbols
// - byte 0xff (marks end of sequence)
// - magic footer: "\xff\xffgo13ld"
//
// All integers are stored in a zigzag varint format.
// See golang.org/s/go12symtab for a definition.
//
// Data blocks and strings are both stored as an integer
// followed by that many bytes.
//
// A symbol reference is a string name followed by a version.
// An empty name corresponds to a nil LSym* pointer.
//
// Each symbol is laid out as the following fields (taken from LSym*):
//
// - byte 0xfe (sanity check for synchronization)
// - type [int]
// - name [string]
// - version [int]
// - flags [int]
// 1 dupok
// - size [int]
// - gotype [symbol reference]
// - p [data block]
// - nr [int]
// - r [nr relocations, sorted by off]
//
// If type == STEXT, there are a few more fields:
//
// - args [int]
// - locals [int]
// - nosplit [int]
// - flags [int]
// 1 leaf
// 2 C function
// - nlocal [int]
// - local [nlocal automatics]
// - pcln [pcln table]
//
// Each relocation has the encoding:
//
// - off [int]
// - siz [int]
// - type [int]
// - add [int]
// - xadd [int]
// - sym [symbol reference]
// - xsym [symbol reference]
//
// Each local has the encoding:
//
// - asym [symbol reference]
// - offset [int]
// - type [int]
// - gotype [symbol reference]
//
// The pcln table has the encoding:
//
// - pcsp [data block]
// - pcfile [data block]
// - pcline [data block]
// - npcdata [int]
// - pcdata [npcdata data blocks]
// - nfuncdata [int]
// - funcdata [nfuncdata symbol references]
// - funcdatasym [nfuncdata ints]
// - nfile [int]
// - file [nfile symbol references]
//
// The file layout and meaning of type integers are architecture-independent.
//
// TODO(rsc): The file format is good for a first pass but needs work.
// - There are SymID in the object file that should really just be strings.
// - The actual symbol memory images are interlaced with the symbol
// metadata. They should be separated, to reduce the I/O required to
// load just the metadata.
// - The symbol references should be shortened, either with a symbol
// table or by using a simple backward index to an earlier mentioned symbol.
import (
"bytes"
"cmd/internal/obj"
"fmt"
"log"
"strconv"
"strings"
)
const (
startmagic = "\x00\x00go13ld"
endmagic = "\xff\xffgo13ld"
)
func ldobjfile(ctxt *Link, f *obj.Biobuf, pkg string, length int64, pn string) {
start := obj.Boffset(f)
ctxt.Version++
var buf [8]uint8
obj.Bread(f, buf[:])
if string(buf[:]) != startmagic {
log.Fatalf("%s: invalid file start %x %x %x %x %x %x %x %x", pn, buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], buf[6], buf[7])
}
c := obj.Bgetc(f)
if c != 1 {
log.Fatalf("%s: invalid file version number %d", pn, c)
}
var lib string
for {
lib = rdstring(f)
if lib == "" {
break
}
addlib(ctxt, pkg, pn, lib)
}
for {
c, err := f.Peek(1)
if err != nil {
log.Fatalf("%s: peeking: %v", pn, err)
}
if c[0] == 0xff {
break
}
readsym(ctxt, f, pkg, pn)
}
buf = [8]uint8{}
obj.Bread(f, buf[:])
if string(buf[:]) != endmagic {
log.Fatalf("%s: invalid file end", pn)
}
if obj.Boffset(f) != start+length {
log.Fatalf("%s: unexpected end at %d, want %d", pn, int64(obj.Boffset(f)), int64(start+length))
}
}
var readsym_ndup int
func readsym(ctxt *Link, f *obj.Biobuf, pkg string, pn string) {
if obj.Bgetc(f) != 0xfe {
log.Fatalf("readsym out of sync")
}
t := rdint(f)
name := expandpkg(rdstring(f), pkg)
v := rdint(f)
if v != 0 && v != 1 {
log.Fatalf("invalid symbol version %d", v)
}
flags := rdint(f)
dupok := flags & 1
local := false
if flags&2 != 0 {
local = true
}
size := rdint(f)
typ := rdsym(ctxt, f, pkg)
data := rddata(f)
nreloc := rdint(f)
if v != 0 {
v = ctxt.Version
}
s := Linklookup(ctxt, name, v)
var dup *LSym
if s.Type != 0 && s.Type != obj.SXREF {
if (t == obj.SDATA || t == obj.SBSS || t == obj.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 == obj.SDATA || s.Type == obj.SBSS || s.Type == obj.SNOPTRBSS) && len(s.P) == 0 && len(s.R) == 0 {
goto overwrite
}
if s.Type != obj.SBSS && s.Type != obj.SNOPTRBSS && dupok == 0 && s.Dupok == 0 {
log.Fatalf("duplicate symbol %s (types %d and %d) in %s and %s", s.Name, s.Type, t, s.File, pn)
}
if len(s.P) > 0 {
dup = s
s = linknewsym(ctxt, ".dup", readsym_ndup)
readsym_ndup++ // scratch
}
}
overwrite:
s.File = pkg
s.Dupok = uint8(dupok)
if t == obj.SXREF {
log.Fatalf("bad sxref")
}
if t == 0 {
log.Fatalf("missing type for %s in %s", name, pn)
}
if t == obj.SBSS && (s.Type == obj.SRODATA || s.Type == obj.SNOPTRBSS) {
t = int(s.Type)
}
s.Type = int16(t)
if s.Size < int64(size) {
s.Size = int64(size)
}
s.Local = local
if typ != nil { // if bss sym defined multiple times, take type from any one def
s.Gotype = typ
}
if dup != nil && typ != nil {
dup.Gotype = typ
}
s.P = data
s.P = s.P[:len(data)]
if nreloc > 0 {
s.R = make([]Reloc, nreloc)
s.R = s.R[:nreloc]
var r *Reloc
for i := 0; i < nreloc; i++ {
r = &s.R[i]
r.Off = rdint32(f)
r.Siz = rduint8(f)
r.Type = rdint32(f)
r.Add = rdint64(f)
rdint64(f) // Xadd, ignored
r.Sym = rdsym(ctxt, f, pkg)
rdsym(ctxt, f, pkg) // Xsym, ignored
}
}
if len(s.P) > 0 && dup != nil && len(dup.P) > 0 && strings.HasPrefix(s.Name, "gclocals·") {
// content-addressed garbage collection liveness bitmap symbol.
// double check for hash collisions.
if !bytes.Equal(s.P, dup.P) {
log.Fatalf("dupok hash collision for %s in %s and %s", s.Name, s.File, pn)
}
}
if s.Type == obj.STEXT {
s.Args = rdint32(f)
s.Locals = rdint32(f)
s.Nosplit = rduint8(f)
v := rdint(f)
s.Leaf = uint8(v & 1)
s.Cfunc = uint8(v & 2)
n := rdint(f)
var a *Auto
for i := 0; i < n; i++ {
a = new(Auto)
a.Asym = rdsym(ctxt, f, pkg)
a.Aoffset = rdint32(f)
a.Name = rdint16(f)
a.Gotype = rdsym(ctxt, f, pkg)
a.Link = s.Autom
s.Autom = a
}
s.Pcln = new(Pcln)
pc := s.Pcln
pc.Pcsp.P = rddata(f)
pc.Pcfile.P = rddata(f)
pc.Pcline.P = rddata(f)
n = rdint(f)
pc.Pcdata = make([]Pcdata, n)
pc.Npcdata = n
for i := 0; i < n; i++ {
pc.Pcdata[i].P = rddata(f)
}
n = rdint(f)
pc.Funcdata = make([]*LSym, n)
pc.Funcdataoff = make([]int64, n)
pc.Nfuncdata = n
for i := 0; i < n; i++ {
pc.Funcdata[i] = rdsym(ctxt, f, pkg)
}
for i := 0; i < n; i++ {
pc.Funcdataoff[i] = rdint64(f)
}
n = rdint(f)
pc.File = make([]*LSym, n)
pc.Nfile = n
for i := 0; i < n; i++ {
pc.File[i] = rdsym(ctxt, f, pkg)
}
if dup == nil {
if s.Onlist != 0 {
log.Fatalf("symbol %s listed multiple times", s.Name)
}
s.Onlist = 1
if ctxt.Etextp != nil {
ctxt.Etextp.Next = s
} else {
ctxt.Textp = s
}
ctxt.Etextp = s
}
}
if ctxt.Debugasm != 0 {
fmt.Fprintf(ctxt.Bso, "%s ", s.Name)
if s.Version != 0 {
fmt.Fprintf(ctxt.Bso, "v=%d ", s.Version)
}
if s.Type != 0 {
fmt.Fprintf(ctxt.Bso, "t=%d ", s.Type)
}
if s.Dupok != 0 {
fmt.Fprintf(ctxt.Bso, "dupok ")
}
if s.Cfunc != 0 {
fmt.Fprintf(ctxt.Bso, "cfunc ")
}
if s.Nosplit != 0 {
fmt.Fprintf(ctxt.Bso, "nosplit ")
}
fmt.Fprintf(ctxt.Bso, "size=%d value=%d", int64(s.Size), int64(s.Value))
if s.Type == obj.STEXT {
fmt.Fprintf(ctxt.Bso, " args=%#x locals=%#x", uint64(s.Args), uint64(s.Locals))
}
fmt.Fprintf(ctxt.Bso, "\n")
var c int
var j int
for i := 0; i < len(s.P); {
fmt.Fprintf(ctxt.Bso, "\t%#04x", uint(i))
for j = i; j < i+16 && j < len(s.P); j++ {
fmt.Fprintf(ctxt.Bso, " %02x", s.P[j])
}
for ; j < i+16; j++ {
fmt.Fprintf(ctxt.Bso, " ")
}
fmt.Fprintf(ctxt.Bso, " ")
for j = i; j < i+16 && j < len(s.P); j++ {
c = int(s.P[j])
if ' ' <= c && c <= 0x7e {
fmt.Fprintf(ctxt.Bso, "%c", c)
} else {
fmt.Fprintf(ctxt.Bso, ".")
}
}
fmt.Fprintf(ctxt.Bso, "\n")
i += 16
}
var r *Reloc
for i := 0; i < len(s.R); i++ {
r = &s.R[i]
fmt.Fprintf(ctxt.Bso, "\trel %d+%d t=%d %s+%d\n", int(r.Off), r.Siz, r.Type, r.Sym.Name, int64(r.Add))
}
}
}
func rdint64(f *obj.Biobuf) int64 {
var c int
uv := uint64(0)
for shift := 0; ; shift += 7 {
if shift >= 64 {
log.Fatalf("corrupt input")
}
c = obj.Bgetc(f)
uv |= uint64(c&0x7F) << uint(shift)
if c&0x80 == 0 {
break
}
}
return int64(uv>>1) ^ (int64(uint64(uv)<<63) >> 63)
}
func rdint(f *obj.Biobuf) int {
n := rdint64(f)
if int64(int(n)) != n {
log.Panicf("%v out of range for int", n)
}
return int(n)
}
func rdint32(f *obj.Biobuf) int32 {
n := rdint64(f)
if int64(int32(n)) != n {
log.Panicf("%v out of range for int32", n)
}
return int32(n)
}
func rdint16(f *obj.Biobuf) int16 {
n := rdint64(f)
if int64(int16(n)) != n {
log.Panicf("%v out of range for int16", n)
}
return int16(n)
}
func rduint8(f *obj.Biobuf) uint8 {
n := rdint64(f)
if int64(uint8(n)) != n {
log.Panicf("%v out of range for uint8", n)
}
return uint8(n)
}
func rdstring(f *obj.Biobuf) string {
n := rdint64(f)
p := make([]byte, n)
obj.Bread(f, p)
return string(p)
}
func rddata(f *obj.Biobuf) []byte {
n := rdint64(f)
p := make([]byte, n)
obj.Bread(f, p)
return p
}
var symbuf []byte
func rdsym(ctxt *Link, f *obj.Biobuf, pkg string) *LSym {
n := rdint(f)
if n == 0 {
rdint64(f)
return nil
}
if len(symbuf) < n {
symbuf = make([]byte, n)
}
obj.Bread(f, symbuf[:n])
p := string(symbuf[:n])
v := rdint(f)
if v != 0 {
v = ctxt.Version
}
s := Linklookup(ctxt, expandpkg(p, pkg), v)
if v == 0 && s.Name[0] == '$' && s.Type == 0 {
if strings.HasPrefix(s.Name, "$f32.") {
x, _ := strconv.ParseUint(s.Name[5:], 16, 32)
i32 := int32(x)
s.Type = obj.SRODATA
s.Local = true
Adduint32(ctxt, s, uint32(i32))
s.Reachable = false
} else if strings.HasPrefix(s.Name, "$f64.") || strings.HasPrefix(s.Name, "$i64.") {
x, _ := strconv.ParseUint(s.Name[5:], 16, 64)
i64 := int64(x)
s.Type = obj.SRODATA
s.Local = true
Adduint64(ctxt, s, uint64(i64))
s.Reachable = false
}
}
if v == 0 && strings.HasPrefix(s.Name, "runtime.gcbits.") {
s.Local = true
}
return s
}