mirror of
https://github.com/golang/go
synced 2024-11-18 10:14:45 -07:00
7be61e1b0e
Unify the two files rather than have to maintain two copies of the +build line. Fixes golang/go#32212 Change-Id: I1f9ee4956183aa6248a5a2e83b5760d02532bacb Reviewed-on: https://go-review.googlesource.com/c/tools/+/178699 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
409 lines
14 KiB
Go
409 lines
14 KiB
Go
// Copyright 2018 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// +build !js,!nacl,!plan9,!solaris,!windows
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/*
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Splitdwarf uncompresses and copies the DWARF segment of a Mach-O
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executable into the "dSYM" file expected by lldb and ports of gdb
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on OSX.
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Usage: splitdwarf osxMachoFile [ osxDsymFile ]
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Unless a dSYM file name is provided on the command line,
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splitdwarf will place it where the OSX tools expect it, in
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"<osxMachoFile>.dSYM/Contents/Resources/DWARF/<osxMachoFile>",
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creating directories as necessary.
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*/
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package main // import "golang.org/x/tools/cmd/splitdwarf"
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import (
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"crypto/sha256"
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"fmt"
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"io"
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"os"
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"path/filepath"
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"strings"
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"syscall"
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"golang.org/x/tools/cmd/splitdwarf/internal/macho"
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)
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const (
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pageAlign = 12 // 4096 = 1 << 12
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)
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func note(format string, why ...interface{}) {
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fmt.Fprintf(os.Stderr, format+"\n", why...)
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}
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func fail(format string, why ...interface{}) {
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note(format, why...)
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os.Exit(1)
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}
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// splitdwarf inputexe [ outputdwarf ]
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func main() {
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if len(os.Args) < 2 || len(os.Args) > 3 {
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fmt.Printf(`
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Usage: %s input_exe [ output_dsym ]
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Reads the executable input_exe, uncompresses and copies debugging
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information into output_dsym. If output_dsym is not specified,
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the path
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input_exe.dSYM/Contents/Resources/DWARF/input_exe
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is used instead. That is the path that gdb and lldb expect
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on OSX. Input_exe needs a UUID segment; if that is missing,
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then one is created and added. In that case, the permissions
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for input_exe need to allow writing.
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`, os.Args[0])
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return
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}
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// Read input, find DWARF, be sure it looks right
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inputExe := os.Args[1]
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exeFile, err := os.Open(inputExe)
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if err != nil {
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fail("%v", err)
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}
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exeMacho, err := macho.NewFile(exeFile)
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if err != nil {
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fail("(internal) Couldn't create macho, %v", err)
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}
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// Postpone dealing with output till input is known-good
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// describe(&exeMacho.FileTOC)
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// Offsets into __LINKEDIT:
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//
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// Command LC_SYMTAB =
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// (1) number of symbols at file offset (within link edit section) of 16-byte symbol table entries
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// struct {
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// StringTableIndex uint32
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// Type, SectionIndex uint8
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// Description uint16
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// Value uint64
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// }
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//
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// (2) string table offset and size. Strings are zero-byte terminated. First must be " ".
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//
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// Command LC_DYSYMTAB = indices within symtab (above), except for IndSym
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// IndSym Offset = file offset (within link edit section) of 4-byte indices within symtab.
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//
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// Section __TEXT.__symbol_stub1.
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// Offset and size (Reserved2) locate and describe a table for thios section.
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// Symbols beginning at IndirectSymIndex (Reserved1) (see LC_DYSYMTAB.IndSymOffset) refer to this table.
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// (These table entries are apparently PLTs [Procedure Linkage Table/Trampoline])
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//
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// Section __DATA.__nl_symbol_ptr.
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// Reserved1 seems to be an index within the Indirect symbols (see LC_DYSYMTAB.IndSymOffset)
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// Some of these symbols appear to be duplicates of other indirect symbols appearing early
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//
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// Section __DATA.__la_symbol_ptr.
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// Reserved1 seems to be an index within the Indirect symbols (see LC_DYSYMTAB.IndSymOffset)
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// Some of these symbols appear to be duplicates of other indirect symbols appearing early
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//
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// Create a File for the output dwarf.
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// Copy header, file type is MH_DSYM
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// Copy the relevant load commands
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// LoadCmdUuid
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// Symtab -- very abbreviated (Use DYSYMTAB Iextdefsym, Nextdefsym to identify these).
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// Segment __PAGEZERO
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// Segment __TEXT (zero the size, zero the offset of each section)
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// Segment __DATA (zero the size, zero the offset of each section)
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// Segment __LINKEDIT (contains the symbols and strings from Symtab)
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// Segment __DWARF (uncompressed)
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var uuid *macho.Uuid
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for _, l := range exeMacho.Loads {
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switch l.Command() {
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case macho.LcUuid:
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uuid = l.(*macho.Uuid)
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}
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}
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// Ensure a given load is not nil
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nonnilC := func(l macho.Load, s string) {
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if l == nil {
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fail("input file %s lacks load command %s", inputExe, s)
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}
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}
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// Find a segment by name and ensure it is not nil
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nonnilS := func(s string) *macho.Segment {
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l := exeMacho.Segment(s)
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if l == nil {
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fail("input file %s lacks segment %s", inputExe, s)
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}
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return l
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}
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newtoc := exeMacho.FileTOC.DerivedCopy(macho.MhDsym, 0)
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symtab := exeMacho.Symtab
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dysymtab := exeMacho.Dysymtab // Not appearing in output, but necessary to construct output
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nonnilC(symtab, "symtab")
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nonnilC(dysymtab, "dysymtab")
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text := nonnilS("__TEXT")
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data := nonnilS("__DATA")
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linkedit := nonnilS("__LINKEDIT")
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pagezero := nonnilS("__PAGEZERO")
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newtext := text.CopyZeroed()
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newdata := data.CopyZeroed()
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newsymtab := symtab.Copy()
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// Linkedit segment contain symbols and strings;
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// Symtab refers to offsets into linkedit.
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// This next bit initializes newsymtab and sets up data structures for the linkedit segment
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linkeditsyms := []macho.Nlist64{}
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linkeditstrings := []string{}
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// Linkedit will begin at the second page, i.e., offset is one page from beginning
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// Symbols come first
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linkeditsymbase := uint32(1) << pageAlign
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// Strings come second, offset by the number of symbols times their size.
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// Only those symbols from dysymtab.defsym are written into the debugging information.
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linkeditstringbase := linkeditsymbase + exeMacho.FileTOC.SymbolSize()*dysymtab.Nextdefsym
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// The first two bytes of the strings are reserved for space, null (' ', \000)
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linkeditstringcur := uint32(2)
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newsymtab.Syms = newsymtab.Syms[:0]
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newsymtab.Symoff = linkeditsymbase
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newsymtab.Stroff = linkeditstringbase
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newsymtab.Nsyms = dysymtab.Nextdefsym
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for i := uint32(0); i < dysymtab.Nextdefsym; i++ {
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ii := i + dysymtab.Iextdefsym
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oldsym := symtab.Syms[ii]
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newsymtab.Syms = append(newsymtab.Syms, oldsym)
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linkeditsyms = append(linkeditsyms, macho.Nlist64{Name: uint32(linkeditstringcur),
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Type: oldsym.Type, Sect: oldsym.Sect, Desc: oldsym.Desc, Value: oldsym.Value})
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linkeditstringcur += uint32(len(oldsym.Name)) + 1
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linkeditstrings = append(linkeditstrings, oldsym.Name)
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}
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newsymtab.Strsize = linkeditstringcur
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exeNeedsUuid := uuid == nil
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if exeNeedsUuid {
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uuid = &macho.Uuid{macho.UuidCmd{LoadCmd: macho.LcUuid}}
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uuid.Len = uuid.LoadSize(newtoc)
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copy(uuid.Id[0:], contentuuid(&exeMacho.FileTOC)[0:16])
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uuid.Id[6] = uuid.Id[6]&^0xf0 | 0x40 // version 4 (pseudo-random); see section 4.1.3
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uuid.Id[8] = uuid.Id[8]&^0xc0 | 0x80 // variant bits; see section 4.1.1
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}
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newtoc.AddLoad(uuid)
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// For the specified segment (assumed to be in exeMacho) make a copy of its
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// sections with appropriate fields zeroed out, and append them to the
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// currently-last segment in newtoc.
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copyZOdSections := func(g *macho.Segment) {
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for i := g.Firstsect; i < g.Firstsect+g.Nsect; i++ {
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s := exeMacho.Sections[i].Copy()
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s.Offset = 0
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s.Reloff = 0
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s.Nreloc = 0
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newtoc.AddSection(s)
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}
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}
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newtoc.AddLoad(newsymtab)
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newtoc.AddSegment(pagezero)
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newtoc.AddSegment(newtext)
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copyZOdSections(text)
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newtoc.AddSegment(newdata)
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copyZOdSections(data)
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newlinkedit := linkedit.Copy()
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newlinkedit.Offset = uint64(linkeditsymbase)
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newlinkedit.Filesz = uint64(linkeditstringcur)
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newlinkedit.Addr = macho.RoundUp(newdata.Addr+newdata.Memsz, 1<<pageAlign) // Follows data sections in file
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newlinkedit.Memsz = macho.RoundUp(newlinkedit.Filesz, 1<<pageAlign)
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// The rest should copy over fine.
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newtoc.AddSegment(newlinkedit)
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dwarf := nonnilS("__DWARF")
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newdwarf := dwarf.CopyZeroed()
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newdwarf.Offset = macho.RoundUp(newlinkedit.Offset+newlinkedit.Filesz, 1<<pageAlign)
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newdwarf.Filesz = dwarf.UncompressedSize(&exeMacho.FileTOC, 1)
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newdwarf.Addr = newlinkedit.Addr + newlinkedit.Memsz // Follows linkedit sections in file.
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newdwarf.Memsz = macho.RoundUp(newdwarf.Filesz, 1<<pageAlign)
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newtoc.AddSegment(newdwarf)
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// Map out Dwarf sections (that is, this is section descriptors, not their contents).
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offset := uint32(newdwarf.Offset)
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for i := dwarf.Firstsect; i < dwarf.Firstsect+dwarf.Nsect; i++ {
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o := exeMacho.Sections[i]
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s := o.Copy()
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s.Offset = offset
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us := o.UncompressedSize()
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if s.Size < us {
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s.Size = uint64(us)
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s.Align = 0 // This is apparently true for debugging sections; not sure if it generalizes.
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}
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offset += uint32(us)
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if strings.HasPrefix(s.Name, "__z") {
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s.Name = "__" + s.Name[3:] // remove "z"
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}
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s.Reloff = 0
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s.Nreloc = 0
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newtoc.AddSection(s)
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}
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// Write segments/sections.
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// Only dwarf and linkedit contain anything interesting.
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// Memory map the output file to get the buffer directly.
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outDwarf := inputExe + ".dSYM/Contents/Resources/DWARF"
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if len(os.Args) > 2 {
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outDwarf = os.Args[2]
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} else {
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err := os.MkdirAll(outDwarf, 0755)
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if err != nil {
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fail("%v", err)
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}
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outDwarf = filepath.Join(outDwarf, filepath.Base(inputExe))
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}
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dwarfFile, buffer := CreateMmapFile(outDwarf, int64(newtoc.FileSize()))
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// (1) Linkedit segment
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// Symbol table
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offset = uint32(newlinkedit.Offset)
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for i := range linkeditsyms {
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if exeMacho.Magic == macho.Magic64 {
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offset += linkeditsyms[i].Put64(buffer[offset:], newtoc.ByteOrder)
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} else {
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offset += linkeditsyms[i].Put32(buffer[offset:], newtoc.ByteOrder)
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}
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}
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// Initial two bytes of string table, followed by actual zero-terminated strings.
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buffer[linkeditstringbase] = ' '
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buffer[linkeditstringbase+1] = 0
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offset = linkeditstringbase + 2
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for _, str := range linkeditstrings {
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for i := 0; i < len(str); i++ {
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buffer[offset] = str[i]
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offset++
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}
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buffer[offset] = 0
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offset++
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}
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// (2) DWARF segment
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ioff := newdwarf.Firstsect - dwarf.Firstsect
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for i := dwarf.Firstsect; i < dwarf.Firstsect+dwarf.Nsect; i++ {
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s := exeMacho.Sections[i]
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j := i + ioff
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s.PutUncompressedData(buffer[newtoc.Sections[j].Offset:])
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}
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// Because "text" overlaps the header and the loads, write them afterwards, just in case.
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// Write header.
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newtoc.Put(buffer)
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err = syscall.Munmap(buffer)
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if err != nil {
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fail("Munmap %s for dwarf output failed, %v", outDwarf, err)
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}
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err = dwarfFile.Close()
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if err != nil {
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fail("Close %s for dwarf output after mmap/munmap failed, %v", outDwarf, err)
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}
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if exeNeedsUuid { // Map the original exe, modify the header, and write the UUID command
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hdr := exeMacho.FileTOC.FileHeader
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oldCommandEnd := hdr.SizeCommands + newtoc.HdrSize()
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hdr.NCommands += 1
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hdr.SizeCommands += uuid.LoadSize(newtoc)
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mapf, err := os.OpenFile(inputExe, os.O_RDWR, 0)
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if err != nil {
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fail("Updating UUID in binary failed, %v", err)
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}
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exebuf, err := syscall.Mmap(int(mapf.Fd()), 0, int(macho.RoundUp(uint64(hdr.SizeCommands), 1<<pageAlign)),
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syscall.PROT_READ|syscall.PROT_WRITE, syscall.MAP_FILE|syscall.MAP_SHARED)
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if err != nil {
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fail("Mmap of %s for UUID update failed, %v", inputExe, err)
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}
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_ = hdr.Put(exebuf, newtoc.ByteOrder)
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_ = uuid.Put(exebuf[oldCommandEnd:], newtoc.ByteOrder)
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err = syscall.Munmap(exebuf)
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if err != nil {
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fail("Munmap of %s for UUID update failed, %v", inputExe, err)
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}
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}
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}
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// CreateMmapFile creates the file 'outDwarf' of the specified size, mmaps that file,
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// and returns the file descriptor and mapped buffer.
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func CreateMmapFile(outDwarf string, size int64) (*os.File, []byte) {
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dwarfFile, err := os.OpenFile(outDwarf, os.O_RDWR|os.O_CREATE|os.O_TRUNC, 0666)
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if err != nil {
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fail("Open for mmap failed, %v", err)
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}
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err = os.Truncate(outDwarf, size)
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if err != nil {
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fail("Truncate/extend of %s to %d bytes failed, %v", dwarfFile, size, err)
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}
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buffer, err := syscall.Mmap(int(dwarfFile.Fd()), 0, int(size), syscall.PROT_READ|syscall.PROT_WRITE, syscall.MAP_FILE|syscall.MAP_SHARED)
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if err != nil {
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fail("Mmap %s for dwarf output update failed, %v", outDwarf, err)
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}
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return dwarfFile, buffer
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}
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func describe(exem *macho.FileTOC) {
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note("Type = %s, Flags=0x%x", exem.Type, uint32(exem.Flags))
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for i, l := range exem.Loads {
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if s, ok := l.(*macho.Segment); ok {
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fmt.Printf("Load %d is Segment %s, offset=0x%x, filesz=%d, addr=0x%x, memsz=%d, nsect=%d\n", i, s.Name,
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s.Offset, s.Filesz, s.Addr, s.Memsz, s.Nsect)
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for j := uint32(0); j < s.Nsect; j++ {
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c := exem.Sections[j+s.Firstsect]
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fmt.Printf(" Section %s, offset=0x%x, size=%d, addr=0x%x, flags=0x%x, nreloc=%d, res1=%d, res2=%d, res3=%d\n", c.Name, c.Offset, c.Size, c.Addr, c.Flags, c.Nreloc, c.Reserved1, c.Reserved2, c.Reserved3)
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}
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} else {
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fmt.Printf("Load %d is %v\n", i, l)
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}
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}
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if exem.SizeCommands != exem.LoadSize() {
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fail("recorded command size %d does not equal computed command size %d", exem.SizeCommands, exem.LoadSize())
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} else {
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note("recorded command size %d, computed command size %d", exem.SizeCommands, exem.LoadSize())
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}
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note("File size is %d", exem.FileSize())
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}
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// contentuuid returns a UUID derived from (some of) the content of an executable.
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// specifically included are the non-DWARF sections, specifically excluded are things
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// that surely depend on the presence or absence of DWARF sections (e.g., section
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// numbers, positions with file, number of load commands).
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// (It was considered desirable if this was insensitive to the presence of the
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// __DWARF segment, however because it is not last, it moves other segments,
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// whose contents appear to contain file offset references.)
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func contentuuid(exem *macho.FileTOC) []byte {
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h := sha256.New()
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for _, l := range exem.Loads {
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if l.Command() == macho.LcUuid {
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continue
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}
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if s, ok := l.(*macho.Segment); ok {
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if s.Name == "__DWARF" || s.Name == "__PAGEZERO" {
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continue
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}
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for j := uint32(0); j < s.Nsect; j++ {
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c := exem.Sections[j+s.Firstsect]
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io.Copy(h, c.Open())
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}
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} // Getting dependence on other load commands right is fiddly.
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}
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return h.Sum(nil)
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}
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