// Copyright 2014 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 objfile import ( "bufio" "bytes" "container/list" "debug/gosym" "encoding/binary" "fmt" "io" "os" "path/filepath" "regexp" "sort" "strings" "text/tabwriter" "cmd/internal/src" "golang.org/x/arch/arm/armasm" "golang.org/x/arch/arm64/arm64asm" "golang.org/x/arch/ppc64/ppc64asm" "golang.org/x/arch/x86/x86asm" ) // Disasm is a disassembler for a given File. type Disasm struct { syms []Sym //symbols in file, sorted by address pcln Liner // pcln table text []byte // bytes of text segment (actual instructions) textStart uint64 // start PC of text textEnd uint64 // end PC of text goarch string // GOARCH string disasm disasmFunc // disassembler function for goarch byteOrder binary.ByteOrder // byte order for goarch } // Disasm returns a disassembler for the file f. func (e *Entry) Disasm() (*Disasm, error) { syms, err := e.Symbols() if err != nil { return nil, err } pcln, err := e.PCLineTable() if err != nil { return nil, err } textStart, textBytes, err := e.Text() if err != nil { return nil, err } goarch := e.GOARCH() disasm := disasms[goarch] byteOrder := byteOrders[goarch] if disasm == nil || byteOrder == nil { return nil, fmt.Errorf("unsupported architecture") } // Filter out section symbols, overwriting syms in place. keep := syms[:0] for _, sym := range syms { switch sym.Name { case "runtime.text", "text", "_text", "runtime.etext", "etext", "_etext": // drop default: keep = append(keep, sym) } } syms = keep d := &Disasm{ syms: syms, pcln: pcln, text: textBytes, textStart: textStart, textEnd: textStart + uint64(len(textBytes)), goarch: goarch, disasm: disasm, byteOrder: byteOrder, } return d, nil } // lookup finds the symbol name containing addr. func (d *Disasm) lookup(addr uint64) (name string, base uint64) { i := sort.Search(len(d.syms), func(i int) bool { return addr < d.syms[i].Addr }) if i > 0 { s := d.syms[i-1] if s.Addr != 0 && s.Addr <= addr && addr < s.Addr+uint64(s.Size) { return s.Name, s.Addr } } return "", 0 } // base returns the final element in the path. // It works on both Windows and Unix paths, // regardless of host operating system. func base(path string) string { path = path[strings.LastIndex(path, "/")+1:] path = path[strings.LastIndex(path, `\`)+1:] return path } // CachedFile contains the content of a file split into lines. type CachedFile struct { FileName string Lines [][]byte } // FileCache is a simple LRU cache of file contents. type FileCache struct { files *list.List maxLen int } // NewFileCache returns a FileCache which can contain up to maxLen cached file contents. func NewFileCache(maxLen int) *FileCache { return &FileCache{ files: list.New(), maxLen: maxLen, } } // Line returns the source code line for the given file and line number. // If the file is not already cached, reads it, inserts it into the cache, // and removes the least recently used file if necessary. // If the file is in cache, it is moved to the front of the list. func (fc *FileCache) Line(filename string, line int) ([]byte, error) { if filepath.Ext(filename) != ".go" { return nil, nil } // Clean filenames returned by src.Pos.SymFilename() // or src.PosBase.SymFilename() removing // the leading src.FileSymPrefix. filename = strings.TrimPrefix(filename, src.FileSymPrefix) // Expand literal "$GOROOT" rewritten by obj.AbsFile() filename = filepath.Clean(os.ExpandEnv(filename)) var cf *CachedFile var e *list.Element for e = fc.files.Front(); e != nil; e = e.Next() { cf = e.Value.(*CachedFile) if cf.FileName == filename { break } } if e == nil { content, err := os.ReadFile(filename) if err != nil { return nil, err } cf = &CachedFile{ FileName: filename, Lines: bytes.Split(content, []byte{'\n'}), } fc.files.PushFront(cf) if fc.files.Len() >= fc.maxLen { fc.files.Remove(fc.files.Back()) } } else { fc.files.MoveToFront(e) } // because //line directives can be out-of-range. (#36683) if line-1 >= len(cf.Lines) || line-1 < 0 { return nil, nil } return cf.Lines[line-1], nil } // Print prints a disassembly of the file to w. // If filter is non-nil, the disassembly only includes functions with names matching filter. // If printCode is true, the disassembly includs corresponding source lines. // The disassembly only includes functions that overlap the range [start, end). func (d *Disasm) Print(w io.Writer, filter *regexp.Regexp, start, end uint64, printCode bool, gnuAsm bool) { if start < d.textStart { start = d.textStart } if end > d.textEnd { end = d.textEnd } printed := false bw := bufio.NewWriter(w) var fc *FileCache if printCode { fc = NewFileCache(8) } tw := tabwriter.NewWriter(bw, 18, 8, 1, '\t', tabwriter.StripEscape) for _, sym := range d.syms { symStart := sym.Addr symEnd := sym.Addr + uint64(sym.Size) relocs := sym.Relocs if sym.Code != 'T' && sym.Code != 't' || symStart < d.textStart || symEnd <= start || end <= symStart || filter != nil && !filter.MatchString(sym.Name) { continue } if printed { fmt.Fprintf(bw, "\n") } printed = true file, _, _ := d.pcln.PCToLine(sym.Addr) fmt.Fprintf(bw, "TEXT %s(SB) %s\n", sym.Name, file) if symEnd > end { symEnd = end } code := d.text[:end-d.textStart] var lastFile string var lastLine int d.Decode(symStart, symEnd, relocs, gnuAsm, func(pc, size uint64, file string, line int, text string) { i := pc - d.textStart if printCode { if file != lastFile || line != lastLine { if srcLine, err := fc.Line(file, line); err == nil { fmt.Fprintf(tw, "%s%s%s\n", []byte{tabwriter.Escape}, srcLine, []byte{tabwriter.Escape}) } lastFile, lastLine = file, line } fmt.Fprintf(tw, " %#x\t", pc) } else { fmt.Fprintf(tw, " %s:%d\t%#x\t", base(file), line, pc) } if size%4 != 0 || d.goarch == "386" || d.goarch == "amd64" { // Print instruction as bytes. fmt.Fprintf(tw, "%x", code[i:i+size]) } else { // Print instruction as 32-bit words. for j := uint64(0); j < size; j += 4 { if j > 0 { fmt.Fprintf(tw, " ") } fmt.Fprintf(tw, "%08x", d.byteOrder.Uint32(code[i+j:])) } } fmt.Fprintf(tw, "\t%s\t\n", text) }) tw.Flush() } bw.Flush() } // Decode disassembles the text segment range [start, end), calling f for each instruction. func (d *Disasm) Decode(start, end uint64, relocs []Reloc, gnuAsm bool, f func(pc, size uint64, file string, line int, text string)) { if start < d.textStart { start = d.textStart } if end > d.textEnd { end = d.textEnd } code := d.text[:end-d.textStart] lookup := d.lookup for pc := start; pc < end; { i := pc - d.textStart text, size := d.disasm(code[i:], pc, lookup, d.byteOrder, gnuAsm) file, line, _ := d.pcln.PCToLine(pc) sep := "\t" for len(relocs) > 0 && relocs[0].Addr < i+uint64(size) { text += sep + relocs[0].Stringer.String(pc-start) sep = " " relocs = relocs[1:] } f(pc, uint64(size), file, line, text) pc += uint64(size) } } type lookupFunc = func(addr uint64) (sym string, base uint64) type disasmFunc func(code []byte, pc uint64, lookup lookupFunc, ord binary.ByteOrder, _ bool) (text string, size int) func disasm_386(code []byte, pc uint64, lookup lookupFunc, _ binary.ByteOrder, gnuAsm bool) (string, int) { return disasm_x86(code, pc, lookup, 32, gnuAsm) } func disasm_amd64(code []byte, pc uint64, lookup lookupFunc, _ binary.ByteOrder, gnuAsm bool) (string, int) { return disasm_x86(code, pc, lookup, 64, gnuAsm) } func disasm_x86(code []byte, pc uint64, lookup lookupFunc, arch int, gnuAsm bool) (string, int) { inst, err := x86asm.Decode(code, arch) var text string size := inst.Len if err != nil || size == 0 || inst.Op == 0 { size = 1 text = "?" } else { if gnuAsm { text = fmt.Sprintf("%-36s // %s", x86asm.GoSyntax(inst, pc, lookup), x86asm.GNUSyntax(inst, pc, nil)) } else { text = x86asm.GoSyntax(inst, pc, lookup) } } return text, size } type textReader struct { code []byte pc uint64 } func (r textReader) ReadAt(data []byte, off int64) (n int, err error) { if off < 0 || uint64(off) < r.pc { return 0, io.EOF } d := uint64(off) - r.pc if d >= uint64(len(r.code)) { return 0, io.EOF } n = copy(data, r.code[d:]) if n < len(data) { err = io.ErrUnexpectedEOF } return } func disasm_arm(code []byte, pc uint64, lookup lookupFunc, _ binary.ByteOrder, gnuAsm bool) (string, int) { inst, err := armasm.Decode(code, armasm.ModeARM) var text string size := inst.Len if err != nil || size == 0 || inst.Op == 0 { size = 4 text = "?" } else if gnuAsm { text = fmt.Sprintf("%-36s // %s", armasm.GoSyntax(inst, pc, lookup, textReader{code, pc}), armasm.GNUSyntax(inst)) } else { text = armasm.GoSyntax(inst, pc, lookup, textReader{code, pc}) } return text, size } func disasm_arm64(code []byte, pc uint64, lookup lookupFunc, byteOrder binary.ByteOrder, gnuAsm bool) (string, int) { inst, err := arm64asm.Decode(code) var text string if err != nil || inst.Op == 0 { text = "?" } else if gnuAsm { text = fmt.Sprintf("%-36s // %s", arm64asm.GoSyntax(inst, pc, lookup, textReader{code, pc}), arm64asm.GNUSyntax(inst)) } else { text = arm64asm.GoSyntax(inst, pc, lookup, textReader{code, pc}) } return text, 4 } func disasm_ppc64(code []byte, pc uint64, lookup lookupFunc, byteOrder binary.ByteOrder, gnuAsm bool) (string, int) { inst, err := ppc64asm.Decode(code, byteOrder) var text string size := inst.Len if err != nil || size == 0 { size = 4 text = "?" } else { if gnuAsm { text = fmt.Sprintf("%-36s // %s", ppc64asm.GoSyntax(inst, pc, lookup), ppc64asm.GNUSyntax(inst, pc)) } else { text = ppc64asm.GoSyntax(inst, pc, lookup) } } return text, size } var disasms = map[string]disasmFunc{ "386": disasm_386, "amd64": disasm_amd64, "arm": disasm_arm, "arm64": disasm_arm64, "ppc64": disasm_ppc64, "ppc64le": disasm_ppc64, } var byteOrders = map[string]binary.ByteOrder{ "386": binary.LittleEndian, "amd64": binary.LittleEndian, "arm": binary.LittleEndian, "arm64": binary.LittleEndian, "ppc64": binary.BigEndian, "ppc64le": binary.LittleEndian, "s390x": binary.BigEndian, } type Liner interface { // Given a pc, returns the corresponding file, line, and function data. // If unknown, returns "",0,nil. PCToLine(uint64) (string, int, *gosym.Func) }