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1420 1421 1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 1563 | // Copyright 2009 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
import (
"bytes"
"cmd/internal/codesign"
imacho "cmd/internal/macho"
"cmd/internal/objabi"
"cmd/internal/sys"
"cmd/link/internal/loader"
"cmd/link/internal/sym"
"debug/macho"
"encoding/binary"
"fmt"
"internal/buildcfg"
"io"
"os"
"sort"
"strings"
"unsafe"
)
type MachoHdr struct {
cpu uint32
subcpu uint32
}
type MachoSect struct {
name string
segname string
addr uint64
size uint64
off uint32
align uint32
reloc uint32
nreloc uint32
flag uint32
res1 uint32
res2 uint32
}
type MachoSeg struct {
name string
vsize uint64
vaddr uint64
fileoffset uint64
filesize uint64
prot1 uint32
prot2 uint32
nsect uint32
msect uint32
sect []MachoSect
flag uint32
}
// MachoPlatformLoad represents a LC_VERSION_MIN_* or
// LC_BUILD_VERSION load command.
type MachoPlatformLoad struct {
platform MachoPlatform // One of PLATFORM_* constants.
cmd MachoLoad
}
type MachoLoad struct {
type_ uint32
data []uint32
}
type MachoPlatform int
/*
* Total amount of space to reserve at the start of the file
* for Header, PHeaders, and SHeaders.
* May waste some.
*/
const (
INITIAL_MACHO_HEADR = 4 * 1024
)
const (
MACHO_CPU_AMD64 = 1<<24 | 7
MACHO_CPU_386 = 7
MACHO_SUBCPU_X86 = 3
MACHO_CPU_ARM = 12
MACHO_SUBCPU_ARM = 0
MACHO_SUBCPU_ARMV7 = 9
MACHO_CPU_ARM64 = 1<<24 | 12
MACHO_SUBCPU_ARM64_ALL = 0
MACHO_SUBCPU_ARM64_V8 = 1
MACHO_SUBCPU_ARM64E = 2
MACHO32SYMSIZE = 12
MACHO64SYMSIZE = 16
MACHO_X86_64_RELOC_UNSIGNED = 0
MACHO_X86_64_RELOC_SIGNED = 1
MACHO_X86_64_RELOC_BRANCH = 2
MACHO_X86_64_RELOC_GOT_LOAD = 3
MACHO_X86_64_RELOC_GOT = 4
MACHO_X86_64_RELOC_SUBTRACTOR = 5
MACHO_X86_64_RELOC_SIGNED_1 = 6
MACHO_X86_64_RELOC_SIGNED_2 = 7
MACHO_X86_64_RELOC_SIGNED_4 = 8
MACHO_ARM_RELOC_VANILLA = 0
MACHO_ARM_RELOC_PAIR = 1
MACHO_ARM_RELOC_SECTDIFF = 2
MACHO_ARM_RELOC_BR24 = 5
MACHO_ARM64_RELOC_UNSIGNED = 0
MACHO_ARM64_RELOC_SUBTRACTOR = 1
MACHO_ARM64_RELOC_BRANCH26 = 2
MACHO_ARM64_RELOC_PAGE21 = 3
MACHO_ARM64_RELOC_PAGEOFF12 = 4
MACHO_ARM64_RELOC_GOT_LOAD_PAGE21 = 5
MACHO_ARM64_RELOC_GOT_LOAD_PAGEOFF12 = 6
MACHO_ARM64_RELOC_POINTER_TO_GOT = 7
MACHO_ARM64_RELOC_ADDEND = 10
MACHO_GENERIC_RELOC_VANILLA = 0
MACHO_FAKE_GOTPCREL = 100
)
const (
MH_MAGIC = 0xfeedface
MH_MAGIC_64 = 0xfeedfacf
MH_OBJECT = 0x1
MH_EXECUTE = 0x2
MH_NOUNDEFS = 0x1
MH_DYLDLINK = 0x4
MH_PIE = 0x200000
)
const (
S_REGULAR = 0x0
S_ZEROFILL = 0x1
S_NON_LAZY_SYMBOL_POINTERS = 0x6
S_SYMBOL_STUBS = 0x8
S_MOD_INIT_FUNC_POINTERS = 0x9
S_ATTR_PURE_INSTRUCTIONS = 0x80000000
S_ATTR_DEBUG = 0x02000000
S_ATTR_SOME_INSTRUCTIONS = 0x00000400
)
const (
PLATFORM_MACOS MachoPlatform = 1
PLATFORM_IOS MachoPlatform = 2
PLATFORM_TVOS MachoPlatform = 3
PLATFORM_WATCHOS MachoPlatform = 4
PLATFORM_BRIDGEOS MachoPlatform = 5
PLATFORM_MACCATALYST MachoPlatform = 6
)
// rebase table opcode
const (
REBASE_TYPE_POINTER = 1
REBASE_TYPE_TEXT_ABSOLUTE32 = 2
REBASE_TYPE_TEXT_PCREL32 = 3
REBASE_OPCODE_MASK = 0xF0
REBASE_IMMEDIATE_MASK = 0x0F
REBASE_OPCODE_DONE = 0x00
REBASE_OPCODE_SET_TYPE_IMM = 0x10
REBASE_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB = 0x20
REBASE_OPCODE_ADD_ADDR_ULEB = 0x30
REBASE_OPCODE_ADD_ADDR_IMM_SCALED = 0x40
REBASE_OPCODE_DO_REBASE_IMM_TIMES = 0x50
REBASE_OPCODE_DO_REBASE_ULEB_TIMES = 0x60
REBASE_OPCODE_DO_REBASE_ADD_ADDR_ULEB = 0x70
REBASE_OPCODE_DO_REBASE_ULEB_TIMES_SKIPPING_ULEB = 0x80
)
// bind table opcode
const (
BIND_TYPE_POINTER = 1
BIND_TYPE_TEXT_ABSOLUTE32 = 2
BIND_TYPE_TEXT_PCREL32 = 3
BIND_SPECIAL_DYLIB_SELF = 0
BIND_SPECIAL_DYLIB_MAIN_EXECUTABLE = -1
BIND_SPECIAL_DYLIB_FLAT_LOOKUP = -2
BIND_SPECIAL_DYLIB_WEAK_LOOKUP = -3
BIND_SYMBOL_FLAGS_WEAK_IMPORT = 0x1
BIND_OPCODE_MASK = 0xF0
BIND_IMMEDIATE_MASK = 0x0F
BIND_OPCODE_DONE = 0x00
BIND_OPCODE_SET_DYLIB_ORDINAL_IMM = 0x10
BIND_OPCODE_SET_DYLIB_ORDINAL_ULEB = 0x20
BIND_OPCODE_SET_DYLIB_SPECIAL_IMM = 0x30
BIND_OPCODE_SET_SYMBOL_TRAILING_FLAGS_IMM = 0x40
BIND_OPCODE_SET_TYPE_IMM = 0x50
BIND_OPCODE_SET_ADDEND_SLEB = 0x60
BIND_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB = 0x70
BIND_OPCODE_ADD_ADDR_ULEB = 0x80
BIND_OPCODE_DO_BIND = 0x90
BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB = 0xA0
BIND_OPCODE_DO_BIND_ADD_ADDR_IMM_SCALED = 0xB0
BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB = 0xC0
BIND_OPCODE_THREADED = 0xD0
BIND_SUBOPCODE_THREADED_SET_BIND_ORDINAL_TABLE_SIZE_ULEB = 0x00
BIND_SUBOPCODE_THREADED_APPLY = 0x01
)
const machoHeaderSize64 = 8 * 4 // size of 64-bit Mach-O header
// Mach-O file writing
// https://developer.apple.com/mac/library/DOCUMENTATION/DeveloperTools/Conceptual/MachORuntime/Reference/reference.html
var machohdr MachoHdr
var load []MachoLoad
var machoPlatform MachoPlatform
var seg [16]MachoSeg
var nseg int
var ndebug int
var nsect int
const (
SymKindLocal = 0 + iota
SymKindExtdef
SymKindUndef
NumSymKind
)
var nkind [NumSymKind]int
var sortsym []loader.Sym
var nsortsym int
// Amount of space left for adding load commands
// that refer to dynamic libraries. Because these have
// to go in the Mach-O header, we can't just pick a
// "big enough" header size. The initial header is
// one page, the non-dynamic library stuff takes
// up about 1300 bytes; we overestimate that as 2k.
var loadBudget = INITIAL_MACHO_HEADR - 2*1024
func getMachoHdr() *MachoHdr {
return &machohdr
}
// Create a new Mach-O load command. ndata is the number of 32-bit words for
// the data (not including the load command header).
func newMachoLoad(arch *sys.Arch, type_ uint32, ndata uint32) *MachoLoad {
if arch.PtrSize == 8 && (ndata&1 != 0) {
ndata++
}
load = append(load, MachoLoad{})
l := &load[len(load)-1]
l.type_ = type_
l.data = make([]uint32, ndata)
return l
}
func newMachoSeg(name string, msect int) *MachoSeg {
if nseg >= len(seg) {
Exitf("too many segs")
}
s := &seg[nseg]
nseg++
s.name = name
s.msect = uint32(msect)
s.sect = make([]MachoSect, msect)
return s
}
func newMachoSect(seg *MachoSeg, name string, segname string) *MachoSect {
if seg.nsect >= seg.msect {
Exitf("too many sects in segment %s", seg.name)
}
s := &seg.sect[seg.nsect]
seg.nsect++
s.name = name
s.segname = segname
nsect++
return s
}
// Generic linking code.
var dylib []string
var linkoff int64
func machowrite(ctxt *Link, arch *sys.Arch, out *OutBuf, linkmode LinkMode) int {
o1 := out.Offset()
loadsize := 4 * 4 * ndebug
for i := range load {
loadsize += 4 * (len(load[i].data) + 2)
}
if arch.PtrSize == 8 {
loadsize += 18 * 4 * nseg
loadsize += 20 * 4 * nsect
} else {
loadsize += 14 * 4 * nseg
loadsize += 17 * 4 * nsect
}
if arch.PtrSize == 8 {
out.Write32(MH_MAGIC_64)
} else {
out.Write32(MH_MAGIC)
}
out.Write32(machohdr.cpu)
out.Write32(machohdr.subcpu)
if linkmode == LinkExternal {
out.Write32(MH_OBJECT) /* file type - mach object */
} else {
out.Write32(MH_EXECUTE) /* file type - mach executable */
}
out.Write32(uint32(len(load)) + uint32(nseg) + uint32(ndebug))
out.Write32(uint32(loadsize))
flags := uint32(0)
if nkind[SymKindUndef] == 0 {
flags |= MH_NOUNDEFS
}
if ctxt.IsPIE() && linkmode == LinkInternal {
flags |= MH_PIE | MH_DYLDLINK
}
out.Write32(flags) /* flags */
if arch.PtrSize == 8 {
out.Write32(0) /* reserved */
}
for i := 0; i < nseg; i++ {
s := &seg[i]
if arch.PtrSize == 8 {
out.Write32(imacho.LC_SEGMENT_64)
out.Write32(72 + 80*s.nsect)
out.WriteStringN(s.name, 16)
out.Write64(s.vaddr)
out.Write64(s.vsize)
out.Write64(s.fileoffset)
out.Write64(s.filesize)
out.Write32(s.prot1)
out.Write32(s.prot2)
out.Write32(s.nsect)
out.Write32(s.flag)
} else {
out.Write32(imacho.LC_SEGMENT)
out.Write32(56 + 68*s.nsect)
out.WriteStringN(s.name, 16)
out.Write32(uint32(s.vaddr))
out.Write32(uint32(s.vsize))
out.Write32(uint32(s.fileoffset))
out.Write32(uint32(s.filesize))
out.Write32(s.prot1)
out.Write32(s.prot2)
out.Write32(s.nsect)
out.Write32(s.flag)
}
for j := uint32(0); j < s.nsect; j++ {
t := &s.sect[j]
if arch.PtrSize == 8 {
out.WriteStringN(t.name, 16)
out.WriteStringN(t.segname, 16)
out.Write64(t.addr)
out.Write64(t.size)
out.Write32(t.off)
out.Write32(t.align)
out.Write32(t.reloc)
out.Write32(t.nreloc)
out.Write32(t.flag)
out.Write32(t.res1) /* reserved */
out.Write32(t.res2) /* reserved */
out.Write32(0) /* reserved */
} else {
out.WriteStringN(t.name, 16)
out.WriteStringN(t.segname, 16)
out.Write32(uint32(t.addr))
out.Write32(uint32(t.size))
out.Write32(t.off)
out.Write32(t.align)
out.Write32(t.reloc)
out.Write32(t.nreloc)
out.Write32(t.flag)
out.Write32(t.res1) /* reserved */
out.Write32(t.res2) /* reserved */
}
}
}
for i := range load {
l := &load[i]
out.Write32(l.type_)
out.Write32(4 * (uint32(len(l.data)) + 2))
for j := 0; j < len(l.data); j++ {
out.Write32(l.data[j])
}
}
return int(out.Offset() - o1)
}
func (ctxt *Link) domacho() {
if *FlagD {
return
}
// Copy platform load command.
for _, h := range hostobj {
load, err := hostobjMachoPlatform(&h)
if err != nil {
Exitf("%v", err)
}
if load != nil {
machoPlatform = load.platform
ml := newMachoLoad(ctxt.Arch, load.cmd.type_, uint32(len(load.cmd.data)))
copy(ml.data, load.cmd.data)
break
}
}
if machoPlatform == 0 {
machoPlatform = PLATFORM_MACOS
if buildcfg.GOOS == "ios" {
machoPlatform = PLATFORM_IOS
}
if ctxt.LinkMode == LinkInternal && machoPlatform == PLATFORM_MACOS {
var version uint32
switch ctxt.Arch.Family {
case sys.ARM64, sys.AMD64:
// This must be fairly recent for Apple signing (go.dev/issue/30488).
// Having too old a version here was also implicated in some problems
// calling into macOS libraries (go.dev/issue/56784).
// CL 460476 noted that in general this can be the most recent supported
// macOS version, but we haven't tested if going higher than Go's oldest
// supported macOS version could cause new problems.
version = 12<<16 | 0<<8 | 0<<0 // 12.0.0
}
ml := newMachoLoad(ctxt.Arch, imacho.LC_BUILD_VERSION, 4)
ml.data[0] = uint32(machoPlatform)
ml.data[1] = version // OS version
ml.data[2] = version // SDK version
ml.data[3] = 0 // ntools
}
}
// empirically, string table must begin with " \x00".
s := ctxt.loader.LookupOrCreateSym(".machosymstr", 0)
sb := ctxt.loader.MakeSymbolUpdater(s)
sb.SetType(sym.SMACHOSYMSTR)
sb.SetReachable(true)
sb.AddUint8(' ')
sb.AddUint8('\x00')
s = ctxt.loader.LookupOrCreateSym(".machosymtab", 0)
sb = ctxt.loader.MakeSymbolUpdater(s)
sb.SetType(sym.SMACHOSYMTAB)
sb.SetReachable(true)
if ctxt.IsInternal() {
s = ctxt.loader.LookupOrCreateSym(".plt", 0) // will be __symbol_stub
sb = ctxt.loader.MakeSymbolUpdater(s)
sb.SetType(sym.SMACHOPLT)
sb.SetReachable(true)
s = ctxt.loader.LookupOrCreateSym(".got", 0) // will be __got
sb = ctxt.loader.MakeSymbolUpdater(s)
if ctxt.UseRelro() {
sb.SetType(sym.SMACHORELROSECT)
} else {
sb.SetType(sym.SMACHOGOT)
}
sb.SetReachable(true)
sb.SetAlign(4)
s = ctxt.loader.LookupOrCreateSym(".linkedit.plt", 0) // indirect table for .plt
sb = ctxt.loader.MakeSymbolUpdater(s)
sb.SetType(sym.SMACHOINDIRECTPLT)
sb.SetReachable(true)
s = ctxt.loader.LookupOrCreateSym(".linkedit.got", 0) // indirect table for .got
sb = ctxt.loader.MakeSymbolUpdater(s)
sb.SetType(sym.SMACHOINDIRECTGOT)
sb.SetReachable(true)
}
// Add a dummy symbol that will become the __asm marker section.
if ctxt.IsExternal() {
s = ctxt.loader.LookupOrCreateSym(".llvmasm", 0)
sb = ctxt.loader.MakeSymbolUpdater(s)
sb.SetType(sym.SMACHO)
sb.SetReachable(true)
sb.AddUint8(0)
}
// Un-export runtime symbols from plugins. Since the runtime
// is included in both the main binary and each plugin, these
// symbols appear in both images. If we leave them exported in
// the plugin, then the dynamic linker will resolve
// relocations to these functions in the plugin's functab to
// point to the main image, causing the runtime to think the
// plugin's functab is corrupted. By unexporting them, these
// become static references, which are resolved to the
// plugin's text.
//
// It would be better to omit the runtime from plugins. (Using
// relative PCs in the functab instead of relocations would
// also address this.)
//
// See issue #18190.
if ctxt.BuildMode == BuildModePlugin {
for _, name := range []string{"_cgo_topofstack", "__cgo_topofstack", "_cgo_panic", "crosscall2"} {
// Most of these are data symbols or C
// symbols, so they have symbol version 0.
ver := 0
// _cgo_panic is a Go function, so it uses ABIInternal.
if name == "_cgo_panic" {
ver = abiInternalVer
}
s := ctxt.loader.Lookup(name, ver)
if s != 0 {
ctxt.loader.SetAttrCgoExportDynamic(s, false)
}
}
}
}
func machoadddynlib(lib string, linkmode LinkMode) {
if seenlib[lib] || linkmode == LinkExternal {
return
}
seenlib[lib] = true
// Will need to store the library name rounded up
// and 24 bytes of header metadata. If not enough
// space, grab another page of initial space at the
// beginning of the output file.
loadBudget -= (len(lib)+7)/8*8 + 24
if loadBudget < 0 {
HEADR += 4096
*FlagTextAddr += 4096
loadBudget += 4096
}
dylib = append(dylib, lib)
}
func machoshbits(ctxt *Link, mseg *MachoSeg, sect *sym.Section, segname string) {
buf := "__" + strings.ReplaceAll(sect.Name[1:], ".", "_")
msect := newMachoSect(mseg, buf, segname)
if sect.Rellen > 0 {
msect.reloc = uint32(sect.Reloff)
msect.nreloc = uint32(sect.Rellen / 8)
}
for 1<<msect.align < sect.Align {
msect.align++
}
msect.addr = sect.Vaddr
msect.size = sect.Length
if sect.Vaddr < sect.Seg.Vaddr+sect.Seg.Filelen {
// data in file
if sect.Length > sect.Seg.Vaddr+sect.Seg.Filelen-sect.Vaddr {
Errorf("macho cannot represent section %s crossing data and bss", sect.Name)
}
msect.off = uint32(sect.Seg.Fileoff + sect.Vaddr - sect.Seg.Vaddr)
} else {
msect.off = 0
msect.flag |= S_ZEROFILL
}
if sect.Rwx&1 != 0 {
msect.flag |= S_ATTR_SOME_INSTRUCTIONS
}
if sect.Name == ".text" {
msect.flag |= S_ATTR_PURE_INSTRUCTIONS
}
if sect.Name == ".plt" {
msect.name = "__symbol_stub1"
msect.flag = S_ATTR_PURE_INSTRUCTIONS | S_ATTR_SOME_INSTRUCTIONS | S_SYMBOL_STUBS
msect.res1 = 0 //nkind[SymKindLocal];
msect.res2 = 6
}
if sect.Name == ".got" {
msect.name = "__got"
msect.flag = S_NON_LAZY_SYMBOL_POINTERS
msect.res1 = uint32(ctxt.loader.SymSize(ctxt.ArchSyms.LinkEditPLT) / 4) /* offset into indirect symbol table */
}
if sect.Name == ".init_array" {
msect.name = "__mod_init_func"
msect.flag = S_MOD_INIT_FUNC_POINTERS
}
// Some platforms such as watchOS and tvOS require binaries with
// bitcode enabled. The Go toolchain can't output bitcode, so use
// a marker section in the __LLVM segment, "__asm", to tell the Apple
// toolchain that the Go text came from assembler and thus has no
// bitcode. This is not true, but Kotlin/Native, Rust and Flutter
// are also using this trick.
if sect.Name == ".llvmasm" {
msect.name = "__asm"
msect.segname = "__LLVM"
}
if segname == "__DWARF" {
msect.flag |= S_ATTR_DEBUG
}
}
func asmbMacho(ctxt *Link) {
machlink := doMachoLink(ctxt)
if ctxt.IsExternal() {
symo := int64(Segdwarf.Fileoff + uint64(Rnd(int64(Segdwarf.Filelen), *FlagRound)) + uint64(machlink))
ctxt.Out.SeekSet(symo)
machoEmitReloc(ctxt)
}
ctxt.Out.SeekSet(0)
ldr := ctxt.loader
/* apple MACH */
va := *FlagTextAddr - int64(HEADR)
mh := getMachoHdr()
switch ctxt.Arch.Family {
default:
Exitf("unknown macho architecture: %v", ctxt.Arch.Family)
case sys.AMD64:
mh.cpu = MACHO_CPU_AMD64
mh.subcpu = MACHO_SUBCPU_X86
case sys.ARM64:
mh.cpu = MACHO_CPU_ARM64
mh.subcpu = MACHO_SUBCPU_ARM64_ALL
}
var ms *MachoSeg
if ctxt.LinkMode == LinkExternal {
/* segment for entire file */
ms = newMachoSeg("", 40)
ms.fileoffset = Segtext.Fileoff
ms.filesize = Segdwarf.Fileoff + Segdwarf.Filelen - Segtext.Fileoff
ms.vsize = Segdwarf.Vaddr + Segdwarf.Length - Segtext.Vaddr
}
/* segment for zero page */
if ctxt.LinkMode != LinkExternal {
ms = newMachoSeg("__PAGEZERO", 0)
ms.vsize = uint64(va)
}
/* text */
v := Rnd(int64(uint64(HEADR)+Segtext.Length), *FlagRound)
var mstext *MachoSeg
if ctxt.LinkMode != LinkExternal {
ms = newMachoSeg("__TEXT", 20)
ms.vaddr = uint64(va)
ms.vsize = uint64(v)
ms.fileoffset = 0
ms.filesize = uint64(v)
ms.prot1 = 7
ms.prot2 = 5
mstext = ms
}
for _, sect := range Segtext.Sections {
machoshbits(ctxt, ms, sect, "__TEXT")
}
/* rodata */
if ctxt.LinkMode != LinkExternal && Segrelrodata.Length > 0 {
ms = newMachoSeg("__DATA_CONST", 20)
ms.vaddr = Segrelrodata.Vaddr
ms.vsize = Segrelrodata.Length
ms.fileoffset = Segrelrodata.Fileoff
ms.filesize = Segrelrodata.Filelen
ms.prot1 = 3
ms.prot2 = 3
ms.flag = 0x10 // SG_READ_ONLY
}
for _, sect := range Segrelrodata.Sections {
machoshbits(ctxt, ms, sect, "__DATA_CONST")
}
/* data */
if ctxt.LinkMode != LinkExternal {
ms = newMachoSeg("__DATA", 20)
ms.vaddr = Segdata.Vaddr
ms.vsize = Segdata.Length
ms.fileoffset = Segdata.Fileoff
ms.filesize = Segdata.Filelen
ms.prot1 = 3
ms.prot2 = 3
}
for _, sect := range Segdata.Sections {
machoshbits(ctxt, ms, sect, "__DATA")
}
/* dwarf */
if !*FlagW {
if ctxt.LinkMode != LinkExternal {
ms = newMachoSeg("__DWARF", 20)
ms.vaddr = Segdwarf.Vaddr
ms.vsize = 0
ms.fileoffset = Segdwarf.Fileoff
ms.filesize = Segdwarf.Filelen
}
for _, sect := range Segdwarf.Sections {
machoshbits(ctxt, ms, sect, "__DWARF")
}
}
if ctxt.LinkMode != LinkExternal {
switch ctxt.Arch.Family {
default:
Exitf("unknown macho architecture: %v", ctxt.Arch.Family)
case sys.AMD64:
ml := newMachoLoad(ctxt.Arch, imacho.LC_UNIXTHREAD, 42+2)
ml.data[0] = 4 /* thread type */
ml.data[1] = 42 /* word count */
ml.data[2+32] = uint32(Entryvalue(ctxt)) /* start pc */
ml.data[2+32+1] = uint32(Entryvalue(ctxt) >> 32)
case sys.ARM64:
ml := newMachoLoad(ctxt.Arch, imacho.LC_MAIN, 4)
ml.data[0] = uint32(uint64(Entryvalue(ctxt)) - (Segtext.Vaddr - uint64(HEADR)))
ml.data[1] = uint32((uint64(Entryvalue(ctxt)) - (Segtext.Vaddr - uint64(HEADR))) >> 32)
}
}
var codesigOff int64
if !*FlagD {
// must match doMachoLink below
s1 := ldr.SymSize(ldr.Lookup(".machorebase", 0))
s2 := ldr.SymSize(ldr.Lookup(".machobind", 0))
s3 := ldr.SymSize(ldr.Lookup(".machosymtab", 0))
s4 := ldr.SymSize(ctxt.ArchSyms.LinkEditPLT)
s5 := ldr.SymSize(ctxt.ArchSyms.LinkEditGOT)
s6 := ldr.SymSize(ldr.Lookup(".machosymstr", 0))
s7 := ldr.SymSize(ldr.Lookup(".machocodesig", 0))
if ctxt.LinkMode != LinkExternal {
ms := newMachoSeg("__LINKEDIT", 0)
ms.vaddr = uint64(Rnd(int64(Segdata.Vaddr+Segdata.Length), *FlagRound))
ms.vsize = uint64(s1 + s2 + s3 + s4 + s5 + s6 + s7)
ms.fileoffset = uint64(linkoff)
ms.filesize = ms.vsize
ms.prot1 = 1
ms.prot2 = 1
codesigOff = linkoff + s1 + s2 + s3 + s4 + s5 + s6
}
if ctxt.LinkMode != LinkExternal && ctxt.IsPIE() {
ml := newMachoLoad(ctxt.Arch, imacho.LC_DYLD_INFO_ONLY, 10)
ml.data[0] = uint32(linkoff) // rebase off
ml.data[1] = uint32(s1) // rebase size
ml.data[2] = uint32(linkoff + s1) // bind off
ml.data[3] = uint32(s2) // bind size
ml.data[4] = 0 // weak bind off
ml.data[5] = 0 // weak bind size
ml.data[6] = 0 // lazy bind off
ml.data[7] = 0 // lazy bind size
ml.data[8] = 0 // export
ml.data[9] = 0 // export size
}
ml := newMachoLoad(ctxt.Arch, imacho.LC_SYMTAB, 4)
ml.data[0] = uint32(linkoff + s1 + s2) /* symoff */
ml.data[1] = uint32(nsortsym) /* nsyms */
ml.data[2] = uint32(linkoff + s1 + s2 + s3 + s4 + s5) /* stroff */
ml.data[3] = uint32(s6) /* strsize */
if ctxt.LinkMode != LinkExternal {
machodysymtab(ctxt, linkoff+s1+s2)
ml := newMachoLoad(ctxt.Arch, imacho.LC_LOAD_DYLINKER, 6)
ml.data[0] = 12 /* offset to string */
stringtouint32(ml.data[1:], "/usr/lib/dyld")
for _, lib := range dylib {
ml = newMachoLoad(ctxt.Arch, imacho.LC_LOAD_DYLIB, 4+(uint32(len(lib))+1+7)/8*2)
ml.data[0] = 24 /* offset of string from beginning of load */
ml.data[1] = 0 /* time stamp */
ml.data[2] = 0 /* version */
ml.data[3] = 0 /* compatibility version */
stringtouint32(ml.data[4:], lib)
}
}
if ctxt.IsInternal() && len(buildinfo) > 0 {
ml := newMachoLoad(ctxt.Arch, imacho.LC_UUID, 4)
// Mach-O UUID is 16 bytes
if len(buildinfo) < 16 {
buildinfo = append(buildinfo, make([]byte, 16)...)
}
// By default, buildinfo is already in UUIDv3 format
// (see uuidFromGoBuildId).
ml.data[0] = ctxt.Arch.ByteOrder.Uint32(buildinfo)
ml.data[1] = ctxt.Arch.ByteOrder.Uint32(buildinfo[4:])
ml.data[2] = ctxt.Arch.ByteOrder.Uint32(buildinfo[8:])
ml.data[3] = ctxt.Arch.ByteOrder.Uint32(buildinfo[12:])
}
if ctxt.IsInternal() && ctxt.NeedCodeSign() {
ml := newMachoLoad(ctxt.Arch, imacho.LC_CODE_SIGNATURE, 2)
ml.data[0] = uint32(codesigOff)
ml.data[1] = uint32(s7)
}
}
a := machowrite(ctxt, ctxt.Arch, ctxt.Out, ctxt.LinkMode)
if int32(a) > HEADR {
Exitf("HEADR too small: %d > %d", a, HEADR)
}
// Now we have written everything. Compute the code signature (which
// is a hash of the file content, so it must be done at last.)
if ctxt.IsInternal() && ctxt.NeedCodeSign() {
cs := ldr.Lookup(".machocodesig", 0)
data := ctxt.Out.Data()
if int64(len(data)) != codesigOff {
panic("wrong size")
}
codesign.Sign(ldr.Data(cs), bytes.NewReader(data), "a.out", codesigOff, int64(mstext.fileoffset), int64(mstext.filesize), ctxt.IsExe() || ctxt.IsPIE())
ctxt.Out.SeekSet(codesigOff)
ctxt.Out.Write(ldr.Data(cs))
}
}
func symkind(ldr *loader.Loader, s loader.Sym) int {
if t := ldr.SymType(s); t == sym.SDYNIMPORT || t == sym.SHOSTOBJ || t == sym.SUNDEFEXT {
return SymKindUndef
}
if ldr.AttrCgoExport(s) {
return SymKindExtdef
}
return SymKindLocal
}
func collectmachosyms(ctxt *Link) {
ldr := ctxt.loader
addsym := func(s loader.Sym) {
sortsym = append(sortsym, s)
nkind[symkind(ldr, s)]++
}
// On Mach-O, even with -s, we still need to keep dynamically exported and
// referenced symbols. We can strip defined local text and data symbols.
// So *FlagS is applied based on symbol type.
// Add special runtime.text and runtime.etext symbols (which are local).
// We've already included this symbol in Textp on darwin if ctxt.DynlinkingGo().
// See data.go:/textaddress
// NOTE: runtime.text.N symbols (if we split text sections) are not added, though,
// so we handle them here.
if !*FlagS {
if !ctxt.DynlinkingGo() {
s := ldr.Lookup("runtime.text", 0)
if ldr.SymType(s).IsText() {
addsym(s)
}
}
for n := range Segtext.Sections[1:] {
s := ldr.Lookup(fmt.Sprintf("runtime.text.%d", n+1), 0)
if s != 0 {
addsym(s)
} else {
break
}
}
if !ctxt.DynlinkingGo() {
s := ldr.Lookup("runtime.etext", 0)
if ldr.SymType(s).IsText() {
addsym(s)
}
}
}
// Add text symbols.
for _, s := range ctxt.Textp {
if *FlagS && !ldr.AttrCgoExportDynamic(s) {
continue
}
addsym(s)
}
shouldBeInSymbolTable := func(s loader.Sym) bool {
if ldr.AttrNotInSymbolTable(s) {
return false
}
name := ldr.SymName(s) // TODO: try not to read the name
if name == "" || name[0] == '.' {
return false
}
return true
}
// Add data symbols and external references.
for s := loader.Sym(1); s < loader.Sym(ldr.NSym()); s++ {
if !ldr.AttrReachable(s) {
continue
}
t := ldr.SymType(s)
if t >= sym.SELFRXSECT && t < sym.SFirstUnallocated { // data sections handled in dodata
if t == sym.STLSBSS {
// TLSBSS is not used on darwin. See data.go:allocateDataSections
continue
}
if !shouldBeInSymbolTable(s) {
continue
}
if *FlagS && !ldr.AttrCgoExportDynamic(s) {
continue
}
addsym(s)
continue
}
switch t {
case sym.SDYNIMPORT, sym.SHOSTOBJ, sym.SUNDEFEXT:
// Keep dynamic symbol references even if *FlagS.
addsym(s)
}
// Some 64-bit functions have a "$INODE64" or "$INODE64$UNIX2003" suffix.
if t == sym.SDYNIMPORT && ldr.SymDynimplib(s) == "/usr/lib/libSystem.B.dylib" {
// But only on macOS.
if machoPlatform == PLATFORM_MACOS || machoPlatform == PLATFORM_MACCATALYST {
switch n := ldr.SymExtname(s); n {
case "fdopendir":
switch buildcfg.GOARCH {
case "amd64":
ldr.SetSymExtname(s, n+"$INODE64")
}
case "readdir_r", "getfsstat":
switch buildcfg.GOARCH {
case "amd64":
ldr.SetSymExtname(s, n+"$INODE64")
}
}
}
}
}
nsortsym = len(sortsym)
}
func machosymorder(ctxt *Link) {
ldr := ctxt.loader
// On Mac OS X Mountain Lion, we must sort exported symbols
// So we sort them here and pre-allocate dynid for them
// See https://golang.org/issue/4029
for _, s := range ctxt.dynexp {
if !ldr.AttrReachable(s) {
panic("dynexp symbol is not reachable")
}
}
collectmachosyms(ctxt)
sort.Slice(sortsym[:nsortsym], func(i, j int) bool {
s1 := sortsym[i]
s2 := sortsym[j]
k1 := symkind(ldr, s1)
k2 := symkind(ldr, s2)
if k1 != k2 {
return k1 < k2
}
return ldr.SymExtname(s1) < ldr.SymExtname(s2) // Note: unnamed symbols are not added in collectmachosyms
})
for i, s := range sortsym {
ldr.SetSymDynid(s, int32(i))
}
}
// AddMachoSym adds s to Mach-O symbol table, used in GenSymLate.
// Currently only used on ARM64 when external linking.
func AddMachoSym(ldr *loader.Loader, s loader.Sym) {
ldr.SetSymDynid(s, int32(nsortsym))
sortsym = append(sortsym, s)
nsortsym++
nkind[symkind(ldr, s)]++
}
// machoShouldExport reports whether a symbol needs to be exported.
//
// When dynamically linking, all non-local variables and plugin-exported
// symbols need to be exported.
func machoShouldExport(ctxt *Link, ldr *loader.Loader, s loader.Sym) bool {
if !ctxt.DynlinkingGo() || ldr.AttrLocal(s) {
return false
}
if ctxt.BuildMode == BuildModePlugin && strings.HasPrefix(ldr.SymExtname(s), objabi.PathToPrefix(*flagPluginPath)) {
return true
}
name := ldr.SymName(s)
if strings.HasPrefix(name, "go:itab.") {
return true
}
if strings.HasPrefix(name, "type:") && !strings.HasPrefix(name, "type:.") {
// reduce runtime typemap pressure, but do not
// export alg functions (type:.*), as these
// appear in pclntable.
return true
}
if strings.HasPrefix(name, "go:link.pkghash") {
return true
}
return ldr.SymType(s) >= sym.SFirstWritable // only writable sections
}
func machosymtab(ctxt *Link) {
ldr := ctxt.loader
symtab := ldr.CreateSymForUpdate(".machosymtab", 0)
symstr := ldr.CreateSymForUpdate(".machosymstr", 0)
for _, s := range sortsym[:nsortsym] {
symtab.AddUint32(ctxt.Arch, uint32(symstr.Size()))
export := machoShouldExport(ctxt, ldr, s)
// Prefix symbol names with "_" to match the system toolchain.
// (We used to only prefix C symbols, which is all required for the build.
// But some tools don't recognize Go symbols as symbols, so we prefix them
// as well.)
symstr.AddUint8('_')
// replace "·" as ".", because DTrace cannot handle it.
name := strings.ReplaceAll(ldr.SymExtname(s), "·", ".")
name = mangleABIName(ctxt, ldr, s, name)
symstr.Addstring(name)
if t := ldr.SymType(s); t == sym.SDYNIMPORT || t == sym.SHOSTOBJ || t == sym.SUNDEFEXT {
symtab.AddUint8(0x01) // type N_EXT, external symbol
symtab.AddUint8(0) // no section
symtab.AddUint16(ctxt.Arch, 0) // desc
symtab.AddUintXX(ctxt.Arch, 0, ctxt.Arch.PtrSize) // no value
} else {
if export || ldr.AttrCgoExportDynamic(s) {
symtab.AddUint8(0x0f) // N_SECT | N_EXT
} else if ldr.AttrCgoExportStatic(s) {
// Only export statically, not dynamically. (N_PEXT is like hidden visibility)
symtab.AddUint8(0x1f) // N_SECT | N_EXT | N_PEXT
} else {
symtab.AddUint8(0x0e) // N_SECT
}
o := s
if outer := ldr.OuterSym(o); outer != 0 {
o = outer
}
if ldr.SymSect(o) == nil {
ldr.Errorf(s, "missing section for symbol")
symtab.AddUint8(0)
} else {
symtab.AddUint8(uint8(ldr.SymSect(o).Extnum))
}
symtab.AddUint16(ctxt.Arch, 0) // desc
symtab.AddUintXX(ctxt.Arch, uint64(ldr.SymAddr(s)), ctxt.Arch.PtrSize)
}
}
}
func machodysymtab(ctxt *Link, base int64) {
ml := newMachoLoad(ctxt.Arch, imacho.LC_DYSYMTAB, 18)
n := 0
ml.data[0] = uint32(n) /* ilocalsym */
ml.data[1] = uint32(nkind[SymKindLocal]) /* nlocalsym */
n += nkind[SymKindLocal]
ml.data[2] = uint32(n) /* iextdefsym */
ml.data[3] = uint32(nkind[SymKindExtdef]) /* nextdefsym */
n += nkind[SymKindExtdef]
ml.data[4] = uint32(n) /* iundefsym */
ml.data[5] = uint32(nkind[SymKindUndef]) /* nundefsym */
ml.data[6] = 0 /* tocoffset */
ml.data[7] = 0 /* ntoc */
ml.data[8] = 0 /* modtaboff */
ml.data[9] = 0 /* nmodtab */
ml.data[10] = 0 /* extrefsymoff */
ml.data[11] = 0 /* nextrefsyms */
ldr := ctxt.loader
// must match domacholink below
s1 := ldr.SymSize(ldr.Lookup(".machosymtab", 0))
s2 := ldr.SymSize(ctxt.ArchSyms.LinkEditPLT)
s3 := ldr.SymSize(ctxt.ArchSyms.LinkEditGOT)
ml.data[12] = uint32(base + s1) /* indirectsymoff */
ml.data[13] = uint32((s2 + s3) / 4) /* nindirectsyms */
ml.data[14] = 0 /* extreloff */
ml.data[15] = 0 /* nextrel */
ml.data[16] = 0 /* locreloff */
ml.data[17] = 0 /* nlocrel */
}
func doMachoLink(ctxt *Link) int64 {
machosymtab(ctxt)
machoDyldInfo(ctxt)
ldr := ctxt.loader
// write data that will be linkedit section
s1 := ldr.Lookup(".machorebase", 0)
s2 := ldr.Lookup(".machobind", 0)
s3 := ldr.Lookup(".machosymtab", 0)
s4 := ctxt.ArchSyms.LinkEditPLT
s5 := ctxt.ArchSyms.LinkEditGOT
s6 := ldr.Lookup(".machosymstr", 0)
size := ldr.SymSize(s1) + ldr.SymSize(s2) + ldr.SymSize(s3) + ldr.SymSize(s4) + ldr.SymSize(s5) + ldr.SymSize(s6)
// Force the linkedit section to end on a 16-byte
// boundary. This allows pure (non-cgo) Go binaries
// to be code signed correctly.
//
// Apple's codesign_allocate (a helper utility for
// the codesign utility) can do this fine itself if
// it is run on a dynamic Mach-O binary. However,
// when it is run on a pure (non-cgo) Go binary, where
// the linkedit section is mostly empty, it fails to
// account for the extra padding that it itself adds
// when adding the LC_CODE_SIGNATURE load command
// (which must be aligned on a 16-byte boundary).
//
// By forcing the linkedit section to end on a 16-byte
// boundary, codesign_allocate will not need to apply
// any alignment padding itself, working around the
// issue.
if size%16 != 0 {
n := 16 - size%16
s6b := ldr.MakeSymbolUpdater(s6)
s6b.Grow(s6b.Size() + n)
s6b.SetSize(s6b.Size() + n)
size += n
}
if size > 0 {
linkoff = Rnd(int64(uint64(HEADR)+Segtext.Length), *FlagRound) + Rnd(int64(Segrelrodata.Filelen), *FlagRound) + Rnd(int64(Segdata.Filelen), *FlagRound) + Rnd(int64(Segdwarf.Filelen), *FlagRound)
ctxt.Out.SeekSet(linkoff)
ctxt.Out.Write(ldr.Data(s1))
ctxt.Out.Write(ldr.Data(s2))
ctxt.Out.Write(ldr.Data(s3))
ctxt.Out.Write(ldr.Data(s4))
ctxt.Out.Write(ldr.Data(s5))
ctxt.Out.Write(ldr.Data(s6))
// Add code signature if necessary. This must be the last.
s7 := machoCodeSigSym(ctxt, linkoff+size)
size += ldr.SymSize(s7)
}
return Rnd(size, *FlagRound)
}
func machorelocsect(ctxt *Link, out *OutBuf, sect *sym.Section, syms []loader.Sym) {
// If main section has no bits, nothing to relocate.
if sect.Vaddr >= sect.Seg.Vaddr+sect.Seg.Filelen {
return
}
ldr := ctxt.loader
for i, s := range syms {
if !ldr.AttrReachable(s) {
continue
}
if uint64(ldr.SymValue(s)) >= sect.Vaddr {
syms = syms[i:]
break
}
}
eaddr := sect.Vaddr + sect.Length
for _, s := range syms {
if !ldr.AttrReachable(s) {
continue
}
if ldr.SymValue(s) >= int64(eaddr) {
break
}
// Compute external relocations on the go, and pass to Machoreloc1
// to stream out.
relocs := ldr.Relocs(s)
for ri := 0; ri < relocs.Count(); ri++ {
r := relocs.At(ri)
rr, ok := extreloc(ctxt, ldr, s, r)
if !ok {
continue
}
if rr.Xsym == 0 {
ldr.Errorf(s, "missing xsym in relocation")
continue
}
if !ldr.AttrReachable(rr.Xsym) {
ldr.Errorf(s, "unreachable reloc %d (%s) target %v", r.Type(), sym.RelocName(ctxt.Arch, r.Type()), ldr.SymName(rr.Xsym))
}
if !thearch.Machoreloc1(ctxt.Arch, out, ldr, s, rr, int64(uint64(ldr.SymValue(s)+int64(r.Off()))-sect.Vaddr)) {
ldr.Errorf(s, "unsupported obj reloc %d (%s)/%d to %s", r.Type(), sym.RelocName(ctxt.Arch, r.Type()), r.Siz(), ldr.SymName(r.Sym()))
}
}
}
// sanity check
if uint64(out.Offset()) != sect.Reloff+sect.Rellen {
panic("machorelocsect: size mismatch")
}
}
func machoEmitReloc(ctxt *Link) {
for ctxt.Out.Offset()&7 != 0 {
ctxt.Out.Write8(0)
}
sizeExtRelocs(ctxt, thearch.MachorelocSize)
relocSect, wg := relocSectFn(ctxt, machorelocsect)
relocSect(ctxt, Segtext.Sections[0], ctxt.Textp)
for _, sect := range Segtext.Sections[1:] {
if sect.Name == ".text" {
relocSect(ctxt, sect, ctxt.Textp)
} else {
relocSect(ctxt, sect, ctxt.datap)
}
}
for _, sect := range Segrelrodata.Sections {
relocSect(ctxt, sect, ctxt.datap)
}
for _, sect := range Segdata.Sections {
relocSect(ctxt, sect, ctxt.datap)
}
for i := 0; i < len(Segdwarf.Sections); i++ {
sect := Segdwarf.Sections[i]
si := dwarfp[i]
if si.secSym() != sect.Sym ||
ctxt.loader.SymSect(si.secSym()) != sect {
panic("inconsistency between dwarfp and Segdwarf")
}
relocSect(ctxt, sect, si.syms)
}
wg.Wait()
}
// hostobjMachoPlatform returns the first platform load command found
// in the host object, if any.
func hostobjMachoPlatform(h *Hostobj) (*MachoPlatformLoad, error) {
f, err := os.Open(h.file)
if err != nil {
return nil, fmt.Errorf("%s: failed to open host object: %v\n", h.file, err)
}
defer f.Close()
sr := io.NewSectionReader(f, h.off, h.length)
m, err := macho.NewFile(sr)
if err != nil {
// Not a valid Mach-O file.
return nil, nil
}
return peekMachoPlatform(m)
}
// peekMachoPlatform returns the first LC_VERSION_MIN_* or LC_BUILD_VERSION
// load command found in the Mach-O file, if any.
func peekMachoPlatform(m *macho.File) (*MachoPlatformLoad, error) {
for _, cmd := range m.Loads {
raw := cmd.Raw()
ml := MachoLoad{
type_: m.ByteOrder.Uint32(raw),
}
// Skip the type and command length.
data := raw[8:]
var p MachoPlatform
switch ml.type_ {
case imacho.LC_VERSION_MIN_IPHONEOS:
p = PLATFORM_IOS
case imacho.LC_VERSION_MIN_MACOSX:
p = PLATFORM_MACOS
case imacho.LC_VERSION_MIN_WATCHOS:
p = PLATFORM_WATCHOS
case imacho.LC_VERSION_MIN_TVOS:
p = PLATFORM_TVOS
case imacho.LC_BUILD_VERSION:
p = MachoPlatform(m.ByteOrder.Uint32(data))
default:
continue
}
ml.data = make([]uint32, len(data)/4)
r := bytes.NewReader(data)
if err := binary.Read(r, m.ByteOrder, &ml.data); err != nil {
return nil, err
}
return &MachoPlatformLoad{
platform: p,
cmd: ml,
}, nil
}
return nil, nil
}
// A rebase entry tells the dynamic linker the data at sym+off needs to be
// relocated when the in-memory image moves. (This is somewhat like, say,
// ELF R_X86_64_RELATIVE).
// For now, the only kind of entry we support is that the data is an absolute
// address. That seems all we need.
// In the binary it uses a compact stateful bytecode encoding. So we record
// entries as we go and build the table at the end.
type machoRebaseRecord struct {
sym loader.Sym
off int64
}
var machorebase []machoRebaseRecord
func MachoAddRebase(s loader.Sym, off int64) {
machorebase = append(machorebase, machoRebaseRecord{s, off})
}
// A bind entry tells the dynamic linker the data at GOT+off should be bound
// to the address of the target symbol, which is a dynamic import.
// For now, the only kind of entry we support is that the data is an absolute
// address, and the source symbol is always the GOT. That seems all we need.
// In the binary it uses a compact stateful bytecode encoding. So we record
// entries as we go and build the table at the end.
type machoBindRecord struct {
off int64
targ loader.Sym
}
var machobind []machoBindRecord
func MachoAddBind(off int64, targ loader.Sym) {
machobind = append(machobind, machoBindRecord{off, targ})
}
// Generate data for the dynamic linker, used in LC_DYLD_INFO_ONLY load command.
// See mach-o/loader.h, struct dyld_info_command, for the encoding.
// e.g. https://opensource.apple.com/source/xnu/xnu-6153.81.5/EXTERNAL_HEADERS/mach-o/loader.h
func machoDyldInfo(ctxt *Link) {
ldr := ctxt.loader
rebase := ldr.CreateSymForUpdate(".machorebase", 0)
bind := ldr.CreateSymForUpdate(".machobind", 0)
if !(ctxt.IsPIE() && ctxt.IsInternal()) {
return
}
segId := func(seg *sym.Segment) uint8 {
switch seg {
case &Segtext:
return 1
case &Segrelrodata:
return 2
case &Segdata:
if Segrelrodata.Length > 0 {
return 3
}
return 2
}
panic("unknown segment")
}
dylibId := func(s loader.Sym) int {
slib := ldr.SymDynimplib(s)
for i, lib := range dylib {
if lib == slib {
return i + 1
}
}
return BIND_SPECIAL_DYLIB_FLAT_LOOKUP // don't know where it is from
}
// Rebase table.
// TODO: use more compact encoding. The encoding is stateful, and
// we can use delta encoding.
rebase.AddUint8(REBASE_OPCODE_SET_TYPE_IMM | REBASE_TYPE_POINTER)
for _, r := range machorebase {
seg := ldr.SymSect(r.sym).Seg
off := uint64(ldr.SymValue(r.sym)+r.off) - seg.Vaddr
rebase.AddUint8(REBASE_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB | segId(seg))
rebase.AddUleb(off)
rebase.AddUint8(REBASE_OPCODE_DO_REBASE_IMM_TIMES | 1)
}
rebase.AddUint8(REBASE_OPCODE_DONE)
sz := Rnd(rebase.Size(), 8)
rebase.Grow(sz)
rebase.SetSize(sz)
// Bind table.
// TODO: compact encoding, as above.
// TODO: lazy binding?
got := ctxt.GOT
seg := ldr.SymSect(got).Seg
gotAddr := ldr.SymValue(got)
bind.AddUint8(BIND_OPCODE_SET_TYPE_IMM | BIND_TYPE_POINTER)
for _, r := range machobind {
off := uint64(gotAddr+r.off) - seg.Vaddr
bind.AddUint8(BIND_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB | segId(seg))
bind.AddUleb(off)
d := dylibId(r.targ)
if d > 0 && d < 128 {
bind.AddUint8(BIND_OPCODE_SET_DYLIB_ORDINAL_IMM | uint8(d)&0xf)
} else if d >= 128 {
bind.AddUint8(BIND_OPCODE_SET_DYLIB_ORDINAL_ULEB)
bind.AddUleb(uint64(d))
} else { // d <= 0
bind.AddUint8(BIND_OPCODE_SET_DYLIB_SPECIAL_IMM | uint8(d)&0xf)
}
flags := uint8(0)
if ldr.SymWeakBinding(r.targ) {
flags |= BIND_SYMBOL_FLAGS_WEAK_IMPORT
}
bind.AddUint8(BIND_OPCODE_SET_SYMBOL_TRAILING_FLAGS_IMM | flags)
// target symbol name as a C string, with _ prefix
bind.AddUint8('_')
bind.Addstring(ldr.SymExtname(r.targ))
bind.AddUint8(BIND_OPCODE_DO_BIND)
}
bind.AddUint8(BIND_OPCODE_DONE)
sz = Rnd(bind.Size(), 16) // make it 16-byte aligned, see the comment in doMachoLink
bind.Grow(sz)
bind.SetSize(sz)
// TODO: export table.
// The symbols names are encoded as a trie. I'm really too lazy to do that
// for now.
// Without it, the symbols are not dynamically exported, so they cannot be
// e.g. dlsym'd. But internal linking is not the default in that case, so
// it is fine.
}
// machoCodeSigSym creates and returns a symbol for code signature.
// The symbol context is left as zeros, which will be generated at the end
// (as it depends on the rest of the file).
func machoCodeSigSym(ctxt *Link, codeSize int64) loader.Sym {
ldr := ctxt.loader
cs := ldr.CreateSymForUpdate(".machocodesig", 0)
if !ctxt.NeedCodeSign() || ctxt.IsExternal() {
return cs.Sym()
}
sz := codesign.Size(codeSize, "a.out")
cs.Grow(sz)
cs.SetSize(sz)
return cs.Sym()
}
// machoCodeSign code-signs Mach-O file fname with an ad-hoc signature.
// This is used for updating an external linker generated binary.
func machoCodeSign(ctxt *Link, fname string) error {
f, err := os.OpenFile(fname, os.O_RDWR, 0)
if err != nil {
return err
}
defer f.Close()
mf, err := macho.NewFile(f)
if err != nil {
return err
}
if mf.Magic != macho.Magic64 {
Exitf("not 64-bit Mach-O file: %s", fname)
}
// Find existing LC_CODE_SIGNATURE and __LINKEDIT segment
var sigOff, sigSz, csCmdOff, linkeditOff int64
var linkeditSeg, textSeg *macho.Segment
loadOff := int64(machoHeaderSize64)
get32 := mf.ByteOrder.Uint32
for _, l := range mf.Loads {
data := l.Raw()
cmd, sz := get32(data), get32(data[4:])
if cmd == imacho.LC_CODE_SIGNATURE {
sigOff = int64(get32(data[8:]))
sigSz = int64(get32(data[12:]))
csCmdOff = loadOff
}
if seg, ok := l.(*macho.Segment); ok {
switch seg.Name {
case "__LINKEDIT":
linkeditSeg = seg
linkeditOff = loadOff
case "__TEXT":
textSeg = seg
}
}
loadOff += int64(sz)
}
if sigOff == 0 {
// The C linker doesn't generate a signed binary, for some reason.
// Skip.
return nil
}
fi, err := f.Stat()
if err != nil {
return err
}
if sigOff+sigSz != fi.Size() {
// We don't expect anything after the signature (this will invalidate
// the signature anyway.)
return fmt.Errorf("unexpected content after code signature")
}
sz := codesign.Size(sigOff, "a.out")
if sz != sigSz {
// Update the load command,
var tmp [8]byte
mf.ByteOrder.PutUint32(tmp[:4], uint32(sz))
_, err = f.WriteAt(tmp[:4], csCmdOff+12)
if err != nil {
return err
}
// Uodate the __LINKEDIT segment.
segSz := sigOff + sz - int64(linkeditSeg.Offset)
mf.ByteOrder.PutUint64(tmp[:8], uint64(segSz))
_, err = f.WriteAt(tmp[:8], linkeditOff+int64(unsafe.Offsetof(macho.Segment64{}.Memsz)))
if err != nil {
return err
}
_, err = f.WriteAt(tmp[:8], linkeditOff+int64(unsafe.Offsetof(macho.Segment64{}.Filesz)))
if err != nil {
return err
}
}
cs := make([]byte, sz)
codesign.Sign(cs, f, "a.out", sigOff, int64(textSeg.Offset), int64(textSeg.Filesz), ctxt.IsExe() || ctxt.IsPIE())
_, err = f.WriteAt(cs, sigOff)
if err != nil {
return err
}
err = f.Truncate(sigOff + sz)
return err
}
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