func (mode *BuildMode) Set(s string) error {
goos := obj.Getgoos()
goarch := obj.Getgoarch()
badmode := func() error {
return fmt.Errorf("buildmode %s not supported on %s/%s", s, goos, goarch)
}
switch s {
default:
return fmt.Errorf("invalid buildmode: %q", s)
case "exe":
*mode = BuildmodeExe
case "c-archive":
switch goos {
case "darwin", "linux":
default:
return badmode()
}
*mode = BuildmodeCArchive
case "c-shared":
if goarch != "amd64" && goarch != "arm" {
return badmode()
}
*mode = BuildmodeCShared
case "shared":
if goos != "linux" || goarch != "amd64" {
return badmode()
}
*mode = BuildmodeShared
}
return nil
}
func assemble(file string) int {
if outfile == "" {
outfile = strings.TrimSuffix(filepath.Base(file), ".s") + "." + string(Thechar)
}
of, err := os.Create(outfile)
if err != nil {
Yyerror("%ca: cannot create %s", Thechar, outfile)
errorexit()
}
obuf = *obj.Binitw(of)
fmt.Fprintf(&obuf, "go object %s %s %s\n", obj.Getgoos(), obj.Getgoarch(), obj.Getgoversion())
fmt.Fprintf(&obuf, "!\n")
var i int
for Pass = 1; Pass <= 2; Pass++ {
pinit(file)
for i = 0; i < len(Dlist); i++ {
dodefine(Dlist[i])
}
Yyparse()
Cclean()
if nerrors != 0 {
return nerrors
}
}
obj.Writeobjdirect(Ctxt, &obuf)
obj.Bflush(&obuf)
return 0
}
func linkarchinit() {
if obj.Getgoarch() == "amd64p32" {
thelinkarch = &x86.Linkamd64p32
gc.Thearch.Thelinkarch = thelinkarch
thestring = "amd64p32"
gc.Thearch.Thestring = "amd64p32"
}
}
func mywhatsys() {
goroot = obj.Getgoroot()
goos = obj.Getgoos()
goarch = obj.Getgoarch()
if !strings.HasPrefix(goarch, Thestring) {
log.Fatalf("cannot use %cc with GOARCH=%s", Thearch.Thechar, goarch)
}
}
func Main() {
// Allow GOARCH=Thestring or GOARCH=Thestringsuffix,
// but not other values.
p := obj.Getgoarch()
if !strings.HasPrefix(p, Thestring) {
log.Fatalf("cannot use %cc with GOARCH=%s", Thechar, p)
}
if p != Thestring {
Thelinkarch = Arches[p]
if Thelinkarch == nil {
log.Fatalf("unknown arch %s", p)
}
}
Ctxt = obj.Linknew(Thelinkarch)
Ctxt.Diag = Yyerror
Ctxt.Bso = &bstdout
Ctxt.Enforce_data_order = 1
bstdout = *obj.Binitw(os.Stdout)
debug = [256]int{}
cinit()
outfile = ""
setinclude(".")
flag.Var(flagFn(dodef), "D", "name[=value]: add #define")
flag.Var(flagFn(setinclude), "I", "dir: add dir to include path")
flag.Var((*count)(&debug['S']), "S", "print assembly and machine code")
flag.Var((*count)(&debug['m']), "m", "debug preprocessor macros")
flag.StringVar(&outfile, "o", "", "file: set output file")
flag.StringVar(&Ctxt.LineHist.TrimPathPrefix, "trimpath", "", "prefix: remove prefix from recorded source file paths")
flag.Parse()
Ctxt.Debugasm = int32(debug['S'])
if flag.NArg() < 1 {
usage()
}
if flag.NArg() > 1 {
fmt.Printf("can't assemble multiple files\n")
errorexit()
}
if assemble(flag.Arg(0)) != 0 {
errorexit()
}
obj.Bflush(&bstdout)
if nerrors > 0 {
errorexit()
}
}
func betypeinit() {
gc.Widthptr = 8
gc.Widthint = 8
gc.Widthreg = 8
if obj.Getgoarch() == "amd64p32" {
gc.Widthptr = 4
gc.Widthint = 4
addptr = x86.AADDL
movptr = x86.AMOVL
leaptr = x86.ALEAL
cmpptr = x86.ACMPL
typedefs[0].Sameas = gc.TINT32
typedefs[1].Sameas = gc.TUINT32
typedefs[2].Sameas = gc.TUINT32
}
if gc.Ctxt.Flag_dynlink {
gc.Thearch.ReservedRegs = append(gc.Thearch.ReservedRegs, x86.REG_R15)
}
}
func importfile(f *Val, line int) {
if f.Ctype != CTSTR {
Yyerror("import statement not a string")
fakeimport()
return
}
if len(f.U.Sval) == 0 {
Yyerror("import path is empty")
fakeimport()
return
}
if isbadimport(f.U.Sval) {
fakeimport()
return
}
// The package name main is no longer reserved,
// but we reserve the import path "main" to identify
// the main package, just as we reserve the import
// path "math" to identify the standard math package.
if f.U.Sval == "main" {
Yyerror("cannot import \"main\"")
errorexit()
}
if myimportpath != "" && f.U.Sval == myimportpath {
Yyerror("import %q while compiling that package (import cycle)", f.U.Sval)
errorexit()
}
if f.U.Sval == "unsafe" {
if safemode != 0 {
Yyerror("cannot import package unsafe")
errorexit()
}
importpkg = mkpkg(f.U.Sval)
cannedimports("unsafe.6", unsafeimport)
imported_unsafe = 1
return
}
path_ := f.U.Sval
if islocalname(path_) {
if path_[0] == '/' {
Yyerror("import path cannot be absolute path")
fakeimport()
return
}
prefix := Ctxt.Pathname
if localimport != "" {
prefix = localimport
}
cleanbuf := prefix
cleanbuf += "/"
cleanbuf += path_
cleanbuf = path.Clean(cleanbuf)
path_ = cleanbuf
if isbadimport(path_) {
fakeimport()
return
}
}
file, found := findpkg(path_)
if !found {
Yyerror("can't find import: %q", f.U.Sval)
errorexit()
}
importpkg = mkpkg(path_)
// If we already saw that package, feed a dummy statement
// to the lexer to avoid parsing export data twice.
if importpkg.Imported != 0 {
tag := ""
if importpkg.Safe {
tag = "safe"
}
p := fmt.Sprintf("package %s %s\n$$\n", importpkg.Name, tag)
cannedimports(file, p)
return
}
importpkg.Imported = 1
var err error
var imp *obj.Biobuf
imp, err = obj.Bopenr(file)
if err != nil {
Yyerror("can't open import: %q: %v", f.U.Sval, err)
errorexit()
}
if strings.HasSuffix(file, ".a") {
if !skiptopkgdef(imp) {
Yyerror("import %s: not a package file", file)
errorexit()
}
}
// check object header
p := obj.Brdstr(imp, '\n', 1)
if p != "empty archive" {
if !strings.HasPrefix(p, "go object ") {
Yyerror("import %s: not a go object file", file)
errorexit()
}
q := fmt.Sprintf("%s %s %s %s", obj.Getgoos(), obj.Getgoarch(), obj.Getgoversion(), obj.Expstring())
if p[10:] != q {
Warn("WARNING ONLY: import %s: object is [%s] expected [%s]", file, p[10:], q)
//errorexit()
}
}
// assume files move (get installed)
// so don't record the full path.
linehist(file[len(file)-len(path_)-2:], -1, 1) // acts as #pragma lib
/*
* position the input right
* after $$ and return
*/
pushedio = curio
curio.bin = imp
curio.peekc = 0
curio.peekc1 = 0
curio.infile = file
curio.nlsemi = 0
typecheckok = 1
var c int32
for {
c = int32(getc())
if c == EOF {
break
}
if c != '$' {
continue
}
c = int32(getc())
if c == EOF {
break
}
if c != '$' {
continue
}
return
}
Yyerror("no import in %q", f.U.Sval)
unimportfile()
}
func Main() {
defer hidePanic()
// Allow GOARCH=thearch.thestring or GOARCH=thearch.thestringsuffix,
// but not other values.
p := obj.Getgoarch()
if !strings.HasPrefix(p, Thearch.Thestring) {
log.Fatalf("cannot use %cg with GOARCH=%s", Thearch.Thechar, p)
}
goarch = p
Thearch.Linkarchinit()
Ctxt = obj.Linknew(Thearch.Thelinkarch)
Ctxt.Diag = Yyerror
Ctxt.Bso = &bstdout
bstdout = *obj.Binitw(os.Stdout)
localpkg = mkpkg("")
localpkg.Prefix = "\"\""
// pseudo-package, for scoping
builtinpkg = mkpkg("go.builtin")
builtinpkg.Prefix = "go.builtin" // not go%2ebuiltin
// pseudo-package, accessed by import "unsafe"
unsafepkg = mkpkg("unsafe")
unsafepkg.Name = "unsafe"
// real package, referred to by generated runtime calls
Runtimepkg = mkpkg("runtime")
Runtimepkg.Name = "runtime"
// pseudo-packages used in symbol tables
gostringpkg = mkpkg("go.string")
gostringpkg.Name = "go.string"
gostringpkg.Prefix = "go.string" // not go%2estring
itabpkg = mkpkg("go.itab")
itabpkg.Name = "go.itab"
itabpkg.Prefix = "go.itab" // not go%2eitab
weaktypepkg = mkpkg("go.weak.type")
weaktypepkg.Name = "go.weak.type"
weaktypepkg.Prefix = "go.weak.type" // not go%2eweak%2etype
typelinkpkg = mkpkg("go.typelink")
typelinkpkg.Name = "go.typelink"
typelinkpkg.Prefix = "go.typelink" // not go%2etypelink
trackpkg = mkpkg("go.track")
trackpkg.Name = "go.track"
trackpkg.Prefix = "go.track" // not go%2etrack
typepkg = mkpkg("type")
typepkg.Name = "type"
goroot = obj.Getgoroot()
goos = obj.Getgoos()
Nacl = goos == "nacl"
if Nacl {
flag_largemodel = 1
}
outfile = ""
obj.Flagcount("+", "compiling runtime", &compiling_runtime)
obj.Flagcount("%", "debug non-static initializers", &Debug['%'])
obj.Flagcount("A", "for bootstrapping, allow 'any' type", &Debug['A'])
obj.Flagcount("B", "disable bounds checking", &Debug['B'])
obj.Flagstr("D", "path: set relative path for local imports", &localimport)
obj.Flagcount("E", "debug symbol export", &Debug['E'])
obj.Flagfn1("I", "dir: add dir to import search path", addidir)
obj.Flagcount("K", "debug missing line numbers", &Debug['K'])
obj.Flagcount("L", "use full (long) path in error messages", &Debug['L'])
obj.Flagcount("M", "debug move generation", &Debug['M'])
obj.Flagcount("N", "disable optimizations", &Debug['N'])
obj.Flagcount("P", "debug peephole optimizer", &Debug['P'])
obj.Flagcount("R", "debug register optimizer", &Debug['R'])
obj.Flagcount("S", "print assembly listing", &Debug['S'])
obj.Flagfn0("V", "print compiler version", doversion)
obj.Flagcount("W", "debug parse tree after type checking", &Debug['W'])
obj.Flagstr("asmhdr", "file: write assembly header to named file", &asmhdr)
obj.Flagcount("complete", "compiling complete package (no C or assembly)", &pure_go)
obj.Flagstr("d", "list: print debug information about items in list", &debugstr)
obj.Flagcount("e", "no limit on number of errors reported", &Debug['e'])
obj.Flagcount("f", "debug stack frames", &Debug['f'])
obj.Flagcount("g", "debug code generation", &Debug['g'])
obj.Flagcount("h", "halt on error", &Debug['h'])
obj.Flagcount("i", "debug line number stack", &Debug['i'])
obj.Flagstr("installsuffix", "pkg directory suffix", &flag_installsuffix)
obj.Flagcount("j", "debug runtime-initialized variables", &Debug['j'])
obj.Flagcount("l", "disable inlining", &Debug['l'])
obj.Flagcount("live", "debug liveness analysis", &debuglive)
obj.Flagcount("m", "print optimization decisions", &Debug['m'])
obj.Flagcount("nolocalimports", "reject local (relative) imports", &nolocalimports)
obj.Flagstr("o", "obj: set output file", &outfile)
obj.Flagstr("p", "path: set expected package import path", &myimportpath)
obj.Flagcount("pack", "write package file instead of object file", &writearchive)
obj.Flagcount("r", "debug generated wrappers", &Debug['r'])
obj.Flagcount("race", "enable race detector", &flag_race)
obj.Flagcount("s", "warn about composite literals that can be simplified", &Debug['s'])
obj.Flagstr("trimpath", "prefix: remove prefix from recorded source file paths", &Ctxt.LineHist.TrimPathPrefix)
obj.Flagcount("u", "reject unsafe code", &safemode)
obj.Flagcount("v", "increase debug verbosity", &Debug['v'])
obj.Flagcount("w", "debug type checking", &Debug['w'])
use_writebarrier = 1
obj.Flagcount("wb", "enable write barrier", &use_writebarrier)
obj.Flagcount("x", "debug lexer", &Debug['x'])
obj.Flagcount("y", "debug declarations in canned imports (with -d)", &Debug['y'])
var flag_shared int
var flag_dynlink bool
if Thearch.Thechar == '6' {
obj.Flagcount("largemodel", "generate code that assumes a large memory model", &flag_largemodel)
obj.Flagcount("shared", "generate code that can be linked into a shared library", &flag_shared)
flag.BoolVar(&flag_dynlink, "dynlink", false, "support references to Go symbols defined in other shared libraries")
}
obj.Flagstr("cpuprofile", "file: write cpu profile to file", &cpuprofile)
obj.Flagstr("memprofile", "file: write memory profile to file", &memprofile)
obj.Flagint64("memprofilerate", "set runtime.MemProfileRate", &memprofilerate)
obj.Flagparse(usage)
if flag_dynlink {
flag_shared = 1
}
Ctxt.Flag_shared = int32(flag_shared)
Ctxt.Flag_dynlink = flag_dynlink
Ctxt.Debugasm = int32(Debug['S'])
Ctxt.Debugvlog = int32(Debug['v'])
if flag.NArg() < 1 {
usage()
}
startProfile()
if flag_race != 0 {
racepkg = mkpkg("runtime/race")
racepkg.Name = "race"
}
// parse -d argument
if debugstr != "" {
Split:
for _, name := range strings.Split(debugstr, ",") {
if name == "" {
continue
}
val := 1
if i := strings.Index(name, "="); i >= 0 {
var err error
val, err = strconv.Atoi(name[i+1:])
if err != nil {
log.Fatalf("invalid debug value %v", name)
}
name = name[:i]
}
for _, t := range debugtab {
if t.name == name {
if t.val != nil {
*t.val = val
continue Split
}
}
}
log.Fatalf("unknown debug key -d %s\n", name)
}
}
// enable inlining. for now:
// default: inlining on. (debug['l'] == 1)
// -l: inlining off (debug['l'] == 0)
// -ll, -lll: inlining on again, with extra debugging (debug['l'] > 1)
if Debug['l'] <= 1 {
Debug['l'] = 1 - Debug['l']
}
Thearch.Betypeinit()
if Widthptr == 0 {
Fatal("betypeinit failed")
}
lexinit()
typeinit()
lexinit1()
// TODO(rsc): Restore yytinit?
blockgen = 1
dclcontext = PEXTERN
nerrors = 0
lexlineno = 1
for _, infile = range flag.Args() {
linehist(infile, 0, 0)
curio.infile = infile
var err error
curio.bin, err = obj.Bopenr(infile)
if err != nil {
fmt.Printf("open %s: %v\n", infile, err)
errorexit()
}
curio.peekc = 0
curio.peekc1 = 0
curio.nlsemi = 0
curio.eofnl = 0
curio.last = 0
// Skip initial BOM if present.
if obj.Bgetrune(curio.bin) != obj.BOM {
obj.Bungetrune(curio.bin)
}
block = 1
iota_ = -1000000
imported_unsafe = 0
yyparse()
if nsyntaxerrors != 0 {
errorexit()
}
linehist("<pop>", 0, 0)
if curio.bin != nil {
obj.Bterm(curio.bin)
}
}
testdclstack()
mkpackage(localpkg.Name) // final import not used checks
lexfini()
typecheckok = 1
if Debug['f'] != 0 {
frame(1)
}
// Process top-level declarations in phases.
// Phase 1: const, type, and names and types of funcs.
// This will gather all the information about types
// and methods but doesn't depend on any of it.
defercheckwidth()
for l := xtop; l != nil; l = l.Next {
if l.N.Op != ODCL && l.N.Op != OAS {
typecheck(&l.N, Etop)
}
}
// Phase 2: Variable assignments.
// To check interface assignments, depends on phase 1.
for l := xtop; l != nil; l = l.Next {
if l.N.Op == ODCL || l.N.Op == OAS {
typecheck(&l.N, Etop)
}
}
resumecheckwidth()
// Phase 3: Type check function bodies.
for l := xtop; l != nil; l = l.Next {
if l.N.Op == ODCLFUNC || l.N.Op == OCLOSURE {
Curfn = l.N
decldepth = 1
saveerrors()
typechecklist(l.N.Nbody, Etop)
checkreturn(l.N)
if nerrors != 0 {
l.N.Nbody = nil // type errors; do not compile
}
}
}
// Phase 4: Decide how to capture closed variables.
// This needs to run before escape analysis,
// because variables captured by value do not escape.
for l := xtop; l != nil; l = l.Next {
if l.N.Op == ODCLFUNC && l.N.Closure != nil {
Curfn = l.N
capturevars(l.N)
}
}
Curfn = nil
if nsavederrors+nerrors != 0 {
errorexit()
}
// Phase 5: Inlining
if Debug['l'] > 1 {
// Typecheck imported function bodies if debug['l'] > 1,
// otherwise lazily when used or re-exported.
for l := importlist; l != nil; l = l.Next {
if l.N.Func.Inl != nil {
saveerrors()
typecheckinl(l.N)
}
}
if nsavederrors+nerrors != 0 {
errorexit()
}
}
if Debug['l'] != 0 {
// Find functions that can be inlined and clone them before walk expands them.
visitBottomUp(xtop, func(list *NodeList, recursive bool) {
for l := list; l != nil; l = l.Next {
if l.N.Op == ODCLFUNC {
caninl(l.N)
inlcalls(l.N)
}
}
})
}
// Phase 6: Escape analysis.
// Required for moving heap allocations onto stack,
// which in turn is required by the closure implementation,
// which stores the addresses of stack variables into the closure.
// If the closure does not escape, it needs to be on the stack
// or else the stack copier will not update it.
escapes(xtop)
// Escape analysis moved escaped values off stack.
// Move large values off stack too.
movelarge(xtop)
// Phase 7: Transform closure bodies to properly reference captured variables.
// This needs to happen before walk, because closures must be transformed
// before walk reaches a call of a closure.
for l := xtop; l != nil; l = l.Next {
if l.N.Op == ODCLFUNC && l.N.Closure != nil {
Curfn = l.N
transformclosure(l.N)
}
}
Curfn = nil
// Phase 8: Compile top level functions.
for l := xtop; l != nil; l = l.Next {
if l.N.Op == ODCLFUNC {
funccompile(l.N)
}
}
if nsavederrors+nerrors == 0 {
fninit(xtop)
}
// Phase 9: Check external declarations.
for l := externdcl; l != nil; l = l.Next {
if l.N.Op == ONAME {
typecheck(&l.N, Erv)
}
}
if nerrors+nsavederrors != 0 {
errorexit()
}
dumpobj()
if asmhdr != "" {
dumpasmhdr()
}
if nerrors+nsavederrors != 0 {
errorexit()
}
Flusherrors()
}
func ldobj(f *Biobuf, pkg string, length int64, pn string, file string, whence int) {
eof := Boffset(f) + length
start := Boffset(f)
c1 := Bgetc(f)
c2 := Bgetc(f)
c3 := Bgetc(f)
c4 := Bgetc(f)
Bseek(f, start, 0)
magic := uint32(c1)<<24 | uint32(c2)<<16 | uint32(c3)<<8 | uint32(c4)
if magic == 0x7f454c46 { // \x7F E L F
ldhostobj(ldelf, f, pkg, length, pn, file)
return
}
if magic&^1 == 0xfeedface || magic&^0x01000000 == 0xcefaedfe {
ldhostobj(ldmacho, f, pkg, length, pn, file)
return
}
if c1 == 0x4c && c2 == 0x01 || c1 == 0x64 && c2 == 0x86 {
ldhostobj(ldpe, f, pkg, length, pn, file)
return
}
/* check the header */
line := Brdline(f, '\n')
if line == "" {
if Blinelen(f) > 0 {
Diag("%s: not an object file", pn)
return
}
Diag("truncated object file: %s", pn)
return
}
if !strings.HasPrefix(line, "go object ") {
if strings.HasSuffix(pn, ".go") {
Exitf("%cl: input %s is not .%c file (use %cg to compile .go files)", Thearch.Thechar, pn, Thearch.Thechar, Thearch.Thechar)
}
if line == Thestring {
// old header format: just $GOOS
Diag("%s: stale object file", pn)
return
}
Diag("%s: not an object file", pn)
return
}
// First, check that the basic goos, goarch, and version match.
t := fmt.Sprintf("%s %s %s ", goos, obj.Getgoarch(), obj.Getgoversion())
line = strings.TrimRight(line, "\n")
if !strings.HasPrefix(line[10:]+" ", t) && Debug['f'] == 0 {
Diag("%s: object is [%s] expected [%s]", pn, line[10:], t)
return
}
// Second, check that longer lines match each other exactly,
// so that the Go compiler and write additional information
// that must be the same from run to run.
if len(line) >= len(t)+10 {
if theline == "" {
theline = line[10:]
} else if theline != line[10:] {
Diag("%s: object is [%s] expected [%s]", pn, line[10:], theline)
return
}
}
/* skip over exports and other info -- ends with \n!\n */
import0 := Boffset(f)
c1 = '\n' // the last line ended in \n
c2 = Bgetc(f)
c3 = Bgetc(f)
for c1 != '\n' || c2 != '!' || c3 != '\n' {
c1 = c2
c2 = c3
c3 = Bgetc(f)
if c3 == Beof {
Diag("truncated object file: %s", pn)
return
}
}
import1 := Boffset(f)
Bseek(f, import0, 0)
ldpkg(f, pkg, import1-import0-2, pn, whence) // -2 for !\n
Bseek(f, import1, 0)
ldobjfile(Ctxt, f, pkg, eof-Boffset(f), pn)
}
func dumpobj() {
var err error
bout, err = obj.Bopenw(outfile)
if err != nil {
Flusherrors()
fmt.Printf("can't create %s: %v\n", outfile, err)
errorexit()
}
startobj := int64(0)
var arhdr [ArhdrSize]byte
if writearchive != 0 {
obj.Bwritestring(bout, "!<arch>\n")
arhdr = [ArhdrSize]byte{}
obj.Bwrite(bout, arhdr[:])
startobj = obj.Boffset(bout)
}
fmt.Fprintf(bout, "go object %s %s %s %s\n", obj.Getgoos(), obj.Getgoarch(), obj.Getgoversion(), obj.Expstring())
dumpexport()
if writearchive != 0 {
obj.Bflush(bout)
size := obj.Boffset(bout) - startobj
if size&1 != 0 {
obj.Bputc(bout, 0)
}
obj.Bseek(bout, startobj-ArhdrSize, 0)
formathdr(arhdr[:], "__.PKGDEF", size)
obj.Bwrite(bout, arhdr[:])
obj.Bflush(bout)
obj.Bseek(bout, startobj+size+(size&1), 0)
arhdr = [ArhdrSize]byte{}
obj.Bwrite(bout, arhdr[:])
startobj = obj.Boffset(bout)
fmt.Fprintf(bout, "go object %s %s %s %s\n", obj.Getgoos(), obj.Getgoarch(), obj.Getgoversion(), obj.Expstring())
}
if pragcgobuf != "" {
if writearchive != 0 {
// write empty export section; must be before cgo section
fmt.Fprintf(bout, "\n$$\n\n$$\n\n")
}
fmt.Fprintf(bout, "\n$$ // cgo\n")
fmt.Fprintf(bout, "%s\n$$\n\n", pragcgobuf)
}
fmt.Fprintf(bout, "\n!\n")
var externs *NodeList
if externdcl != nil {
externs = externdcl.End
}
dumpglobls()
dumptypestructs()
// Dump extra globals.
tmp := externdcl
if externs != nil {
externdcl = externs.Next
}
dumpglobls()
externdcl = tmp
zero := Pkglookup("zerovalue", Runtimepkg)
ggloblsym(zero, int32(zerosize), obj.DUPOK|obj.RODATA)
dumpdata()
obj.Writeobjdirect(Ctxt, bout)
if writearchive != 0 {
obj.Bflush(bout)
size := obj.Boffset(bout) - startobj
if size&1 != 0 {
obj.Bputc(bout, 0)
}
obj.Bseek(bout, startobj-ArhdrSize, 0)
name := fmt.Sprintf("_go_.%c", Thearch.Thechar)
formathdr(arhdr[:], name, size)
obj.Bwrite(bout, arhdr[:])
}
obj.Bterm(bout)
}
func linknew(arch *LinkArch) *Link {
ctxt := new(Link)
ctxt.Hash = make(map[symVer]*LSym)
ctxt.Arch = arch
ctxt.Version = obj.HistVersion
ctxt.Goroot = obj.Getgoroot()
p := obj.Getgoarch()
if p != arch.Name {
log.Fatalf("invalid goarch %s (want %s)", p, arch.Name)
}
var buf string
buf, _ = os.Getwd()
if buf == "" {
buf = "/???"
}
buf = filepath.ToSlash(buf)
ctxt.Headtype = headtype(obj.Getgoos())
if ctxt.Headtype < 0 {
log.Fatalf("unknown goos %s", obj.Getgoos())
}
// Record thread-local storage offset.
// TODO(rsc): Move tlsoffset back into the linker.
switch ctxt.Headtype {
default:
log.Fatalf("unknown thread-local storage offset for %s", Headstr(ctxt.Headtype))
case obj.Hplan9, obj.Hwindows:
break
/*
* ELF uses TLS offset negative from FS.
* Translate 0(FS) and 8(FS) into -16(FS) and -8(FS).
* Known to low-level assembly in package runtime and runtime/cgo.
*/
case obj.Hlinux,
obj.Hfreebsd,
obj.Hnetbsd,
obj.Hopenbsd,
obj.Hdragonfly,
obj.Hsolaris:
ctxt.Tlsoffset = -1 * ctxt.Arch.Ptrsize
case obj.Hnacl:
switch ctxt.Arch.Thechar {
default:
log.Fatalf("unknown thread-local storage offset for nacl/%s", ctxt.Arch.Name)
case '5':
ctxt.Tlsoffset = 0
case '6':
ctxt.Tlsoffset = 0
case '8':
ctxt.Tlsoffset = -8
}
/*
* OS X system constants - offset from 0(GS) to our TLS.
* Explained in ../../runtime/cgo/gcc_darwin_*.c.
*/
case obj.Hdarwin:
switch ctxt.Arch.Thechar {
default:
log.Fatalf("unknown thread-local storage offset for darwin/%s", ctxt.Arch.Name)
case '5':
ctxt.Tlsoffset = 0 // dummy value, not needed
case '6':
ctxt.Tlsoffset = 0x8a0
case '7':
ctxt.Tlsoffset = 0 // dummy value, not needed
case '8':
ctxt.Tlsoffset = 0x468
}
}
// On arm, record goarm.
if ctxt.Arch.Thechar == '5' {
p := obj.Getgoarm()
if p != "" {
ctxt.Goarm = int32(obj.Atoi(p))
} else {
ctxt.Goarm = 6
}
}
return ctxt
}