// Copyright 2013 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package archive implements reading of archive files generated by the Go // toolchain. package archive import ( "bufio" "bytes" "cmd/internal/bio" "cmd/internal/goobj" "errors" "fmt" "io" "log" "os" "strconv" "strings" "time" "unicode/utf8" ) /* The archive format is: First, on a line by itself ! Then zero or more file records. Each file record has a fixed-size one-line header followed by data bytes followed by an optional padding byte. The header is: %-16s%-12d%-6d%-6d%-8o%-10d` name mtime uid gid mode size (note the trailing backquote). The %-16s here means at most 16 *bytes* of the name, and if shorter, space padded on the right. */ // A Data is a reference to data stored in an object file. // It records the offset and size of the data, so that a client can // read the data only if necessary. type Data struct { Offset int64 Size int64 } type Archive struct { f *os.File Entries []Entry } func (a *Archive) File() *os.File { return a.f } type Entry struct { Name string Type EntryType Mtime int64 Uid int Gid int Mode os.FileMode Data Obj *GoObj // nil if this entry is not a Go object file } type EntryType int const ( EntryPkgDef EntryType = iota EntryGoObj EntryNativeObj ) func (e *Entry) String() string { return fmt.Sprintf("%s %6d/%-6d %12d %s %s", (e.Mode & 0777).String(), e.Uid, e.Gid, e.Size, time.Unix(e.Mtime, 0).Format(timeFormat), e.Name) } type GoObj struct { TextHeader []byte Arch string Data } const ( entryHeader = "%s%-12d%-6d%-6d%-8o%-10d`\n" // In entryHeader the first entry, the name, is always printed as 16 bytes right-padded. entryLen = 16 + 12 + 6 + 6 + 8 + 10 + 1 + 1 timeFormat = "Jan _2 15:04 2006" ) var ( archiveHeader = []byte("!\n") archiveMagic = []byte("`\n") goobjHeader = []byte("go objec") // truncated to size of archiveHeader errCorruptArchive = errors.New("corrupt archive") errTruncatedArchive = errors.New("truncated archive") errCorruptObject = errors.New("corrupt object file") errNotObject = errors.New("unrecognized object file format") ) // An objReader is an object file reader. type objReader struct { a *Archive b *bio.Reader err error offset int64 limit int64 tmp [256]byte } func (r *objReader) init(f *os.File) { r.a = &Archive{f, nil} r.offset, _ = f.Seek(0, io.SeekCurrent) r.limit, _ = f.Seek(0, io.SeekEnd) f.Seek(r.offset, io.SeekStart) r.b = bio.NewReader(f) } // error records that an error occurred. // It returns only the first error, so that an error // caused by an earlier error does not discard information // about the earlier error. func (r *objReader) error(err error) error { if r.err == nil { if err == io.EOF { err = io.ErrUnexpectedEOF } r.err = err } // panic("corrupt") // useful for debugging return r.err } // peek returns the next n bytes without advancing the reader. func (r *objReader) peek(n int) ([]byte, error) { if r.err != nil { return nil, r.err } if r.offset >= r.limit { r.error(io.ErrUnexpectedEOF) return nil, r.err } b, err := r.b.Peek(n) if err != nil { if err != bufio.ErrBufferFull { r.error(err) } } return b, err } // readByte reads and returns a byte from the input file. // On I/O error or EOF, it records the error but returns byte 0. // A sequence of 0 bytes will eventually terminate any // parsing state in the object file. In particular, it ends the // reading of a varint. func (r *objReader) readByte() byte { if r.err != nil { return 0 } if r.offset >= r.limit { r.error(io.ErrUnexpectedEOF) return 0 } b, err := r.b.ReadByte() if err != nil { if err == io.EOF { err = io.ErrUnexpectedEOF } r.error(err) b = 0 } else { r.offset++ } return b } // read reads exactly len(b) bytes from the input file. // If an error occurs, read returns the error but also // records it, so it is safe for callers to ignore the result // as long as delaying the report is not a problem. func (r *objReader) readFull(b []byte) error { if r.err != nil { return r.err } if r.offset+int64(len(b)) > r.limit { return r.error(io.ErrUnexpectedEOF) } n, err := io.ReadFull(r.b, b) r.offset += int64(n) if err != nil { return r.error(err) } return nil } // skip skips n bytes in the input. func (r *objReader) skip(n int64) { if n < 0 { r.error(fmt.Errorf("debug/goobj: internal error: misuse of skip")) } if n < int64(len(r.tmp)) { // Since the data is so small, a just reading from the buffered // reader is better than flushing the buffer and seeking. r.readFull(r.tmp[:n]) } else if n <= int64(r.b.Buffered()) { // Even though the data is not small, it has already been read. // Advance the buffer instead of seeking. for n > int64(len(r.tmp)) { r.readFull(r.tmp[:]) n -= int64(len(r.tmp)) } r.readFull(r.tmp[:n]) } else { // Seek, giving up buffered data. r.b.MustSeek(r.offset+n, io.SeekStart) r.offset += n } } // New writes to f to make a new archive. func New(f *os.File) (*Archive, error) { _, err := f.Write(archiveHeader) if err != nil { return nil, err } return &Archive{f: f}, nil } // Parse parses an object file or archive from f. func Parse(f *os.File, verbose bool) (*Archive, error) { var r objReader r.init(f) t, err := r.peek(8) if err != nil { if err == io.EOF { err = io.ErrUnexpectedEOF } return nil, err } switch { default: return nil, errNotObject case bytes.Equal(t, archiveHeader): if err := r.parseArchive(verbose); err != nil { return nil, err } case bytes.Equal(t, goobjHeader): off := r.offset o := &GoObj{} if err := r.parseObject(o, r.limit-off); err != nil { return nil, err } r.a.Entries = []Entry{{ Name: f.Name(), Type: EntryGoObj, Data: Data{off, r.limit - off}, Obj: o, }} } return r.a, nil } // trimSpace removes trailing spaces from b and returns the corresponding string. // This effectively parses the form used in archive headers. func trimSpace(b []byte) string { return string(bytes.TrimRight(b, " ")) } // parseArchive parses a Unix archive of Go object files. func (r *objReader) parseArchive(verbose bool) error { r.readFull(r.tmp[:8]) // consume header (already checked) for r.offset < r.limit { if err := r.readFull(r.tmp[:60]); err != nil { return err } data := r.tmp[:60] // Each file is preceded by this text header (slice indices in first column): // 0:16 name // 16:28 date // 28:34 uid // 34:40 gid // 40:48 mode // 48:58 size // 58:60 magic - `\n // We only care about name, size, and magic, unless in verbose mode. // The fields are space-padded on the right. // The size is in decimal. // The file data - size bytes - follows the header. // Headers are 2-byte aligned, so if size is odd, an extra padding // byte sits between the file data and the next header. // The file data that follows is padded to an even number of bytes: // if size is odd, an extra padding byte is inserted betw the next header. if len(data) < 60 { return errTruncatedArchive } if !bytes.Equal(data[58:60], archiveMagic) { return errCorruptArchive } name := trimSpace(data[0:16]) var err error get := func(start, end, base, bitsize int) int64 { if err != nil { return 0 } var v int64 v, err = strconv.ParseInt(trimSpace(data[start:end]), base, bitsize) return v } size := get(48, 58, 10, 64) var ( mtime int64 uid, gid int mode os.FileMode ) if verbose { mtime = get(16, 28, 10, 64) uid = int(get(28, 34, 10, 32)) gid = int(get(34, 40, 10, 32)) mode = os.FileMode(get(40, 48, 8, 32)) } if err != nil { return errCorruptArchive } data = data[60:] fsize := size + size&1 if fsize < 0 || fsize < size { return errCorruptArchive } switch name { case "__.PKGDEF": r.a.Entries = append(r.a.Entries, Entry{ Name: name, Type: EntryPkgDef, Mtime: mtime, Uid: uid, Gid: gid, Mode: mode, Data: Data{r.offset, size}, }) r.skip(size) default: var typ EntryType var o *GoObj offset := r.offset p, err := r.peek(8) if err != nil { return err } if bytes.Equal(p, goobjHeader) { typ = EntryGoObj o = &GoObj{} r.parseObject(o, size) } else { typ = EntryNativeObj r.skip(size) } r.a.Entries = append(r.a.Entries, Entry{ Name: name, Type: typ, Mtime: mtime, Uid: uid, Gid: gid, Mode: mode, Data: Data{offset, size}, Obj: o, }) } if size&1 != 0 { r.skip(1) } } return nil } // parseObject parses a single Go object file. // The object file consists of a textual header ending in "\n!\n" // and then the part we want to parse begins. // The format of that part is defined in a comment at the top // of src/liblink/objfile.c. func (r *objReader) parseObject(o *GoObj, size int64) error { h := make([]byte, 0, 256) var c1, c2, c3 byte for { c1, c2, c3 = c2, c3, r.readByte() h = append(h, c3) // The new export format can contain 0 bytes. // Don't consider them errors, only look for r.err != nil. if r.err != nil { return errCorruptObject } if c1 == '\n' && c2 == '!' && c3 == '\n' { break } } o.TextHeader = h hs := strings.Fields(string(h)) if len(hs) >= 4 { o.Arch = hs[3] } o.Offset = r.offset o.Size = size - int64(len(h)) p, err := r.peek(8) if err != nil { return err } if !bytes.Equal(p, []byte(goobj.Magic)) { return r.error(errCorruptObject) } r.skip(o.Size) return nil } // AddEntry adds an entry to the end of a, with the content from r. func (a *Archive) AddEntry(typ EntryType, name string, mtime int64, uid, gid int, mode os.FileMode, size int64, r io.Reader) { off, err := a.f.Seek(0, io.SeekEnd) if err != nil { log.Fatal(err) } n, err := fmt.Fprintf(a.f, entryHeader, exactly16Bytes(name), mtime, uid, gid, mode, size) if err != nil || n != entryLen { log.Fatal("writing entry header: ", err) } n1, _ := io.CopyN(a.f, r, size) if n1 != size { log.Fatal(err) } if (off+size)&1 != 0 { a.f.Write([]byte{0}) // pad to even byte } a.Entries = append(a.Entries, Entry{ Name: name, Type: typ, Mtime: mtime, Uid: uid, Gid: gid, Mode: mode, Data: Data{off + entryLen, size}, }) } // exactly16Bytes truncates the string if necessary so it is at most 16 bytes long, // then pads the result with spaces to be exactly 16 bytes. // Fmt uses runes for its width calculation, but we need bytes in the entry header. func exactly16Bytes(s string) string { for len(s) > 16 { _, wid := utf8.DecodeLastRuneInString(s) s = s[:len(s)-wid] } const sixteenSpaces = " " s += sixteenSpaces[:16-len(s)] return s }