// Copyright 2010 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 zip provides support for reading and writing ZIP archives. See: http://www.pkware.com/documents/casestudies/APPNOTE.TXT This package does not support disk spanning. A note about ZIP64: To be backwards compatible the FileHeader has both 32 and 64 bit Size fields. The 64 bit fields will always contain the correct value and for normal archives both fields will be the same. For files requiring the ZIP64 format the 32 bit fields will be 0xffffffff and the 64 bit fields must be used instead. Can read/write AES encrypted files that use Winzip's AES encryption method. See: http://www.winzip.com/aes_info.htm */ package zip import ( "os" "path" "time" ) // Compression methods. const ( Store uint16 = 0 Deflate uint16 = 8 ) const ( fileHeaderSignature = 0x04034b50 directoryHeaderSignature = 0x02014b50 directoryEndSignature = 0x06054b50 directory64LocSignature = 0x07064b50 directory64EndSignature = 0x06064b50 dataDescriptorSignature = 0x08074b50 // de-facto standard; required by OS X Finder fileHeaderLen = 30 // + filename + extra directoryHeaderLen = 46 // + filename + extra + comment directoryEndLen = 22 // + comment dataDescriptorLen = 16 // four uint32: descriptor signature, crc32, compressed size, size dataDescriptor64Len = 24 // descriptor with 8 byte sizes directory64LocLen = 20 // directory64EndLen = 56 // + extra // Constants for the first byte in CreatorVersion creatorFAT = 0 creatorUnix = 3 creatorNTFS = 11 creatorVFAT = 14 creatorMacOSX = 19 // version numbers zipVersion20 = 20 // 2.0 zipVersion45 = 45 // 4.5 (reads and writes zip64 archives) // limits for non zip64 files uint16max = (1 << 16) - 1 uint32max = (1 << 32) - 1 // extra header id's zip64ExtraId = 0x0001 // zip64 Extended Information Extra Field winzipAesExtraId = 0x9901 // winzip AES Extra Field ) // FileHeader describes a file within a zip file. // See the zip spec for details. type FileHeader struct { // Name is the name of the file. // It must be a relative path: it must not start with a drive // letter (e.g. C:) or leading slash, and only forward slashes // are allowed. Name string CreatorVersion uint16 ReaderVersion uint16 Flags uint16 Method uint16 ModifiedTime uint16 // MS-DOS time ModifiedDate uint16 // MS-DOS date CRC32 uint32 CompressedSize uint32 // Deprecated: Use CompressedSize64 instead. UncompressedSize uint32 // Deprecated: Use UncompressedSize64 instead. CompressedSize64 uint64 UncompressedSize64 uint64 Extra []byte ExternalAttrs uint32 // Meaning depends on CreatorVersion Comment string // encryption fields Password PasswordFn // The password to use when reading/writing ae uint16 aesStrength byte } // PasswordFn is a function that returns the password // as a byte slice type PasswordFn func() []byte // IsEncrypted indicates whether this file's data is encrypted. func (f *FileHeader) IsEncrypted() bool { return f.Flags&0x1 == 1 } func (f *FileHeader) isAE2() bool { return f.ae == 2 } // FileInfo returns an os.FileInfo for the FileHeader. func (h *FileHeader) FileInfo() os.FileInfo { return headerFileInfo{h} } // headerFileInfo implements os.FileInfo. type headerFileInfo struct { fh *FileHeader } func (fi headerFileInfo) Name() string { return path.Base(fi.fh.Name) } func (fi headerFileInfo) Size() int64 { if fi.fh.UncompressedSize64 > 0 { return int64(fi.fh.UncompressedSize64) } return int64(fi.fh.UncompressedSize) } func (fi headerFileInfo) IsDir() bool { return fi.Mode().IsDir() } func (fi headerFileInfo) ModTime() time.Time { return fi.fh.ModTime() } func (fi headerFileInfo) Mode() os.FileMode { return fi.fh.Mode() } func (fi headerFileInfo) Sys() interface{} { return fi.fh } // FileInfoHeader creates a partially-populated FileHeader from an // os.FileInfo. // Because os.FileInfo's Name method returns only the base name of // the file it describes, it may be necessary to modify the Name field // of the returned header to provide the full path name of the file. func FileInfoHeader(fi os.FileInfo) (*FileHeader, error) { size := fi.Size() fh := &FileHeader{ Name: fi.Name(), UncompressedSize64: uint64(size), } fh.SetModTime(fi.ModTime()) fh.SetMode(fi.Mode()) if fh.UncompressedSize64 > uint32max { fh.UncompressedSize = uint32max } else { fh.UncompressedSize = uint32(fh.UncompressedSize64) } return fh, nil } type directoryEnd struct { diskNbr uint32 // unused dirDiskNbr uint32 // unused dirRecordsThisDisk uint64 // unused directoryRecords uint64 directorySize uint64 directoryOffset uint64 // relative to file commentLen uint16 comment string } // msDosTimeToTime converts an MS-DOS date and time into a time.Time. // The resolution is 2s. // See: http://msdn.microsoft.com/en-us/library/ms724247(v=VS.85).aspx func msDosTimeToTime(dosDate, dosTime uint16) time.Time { return time.Date( // date bits 0-4: day of month; 5-8: month; 9-15: years since 1980 int(dosDate>>9+1980), time.Month(dosDate>>5&0xf), int(dosDate&0x1f), // time bits 0-4: second/2; 5-10: minute; 11-15: hour int(dosTime>>11), int(dosTime>>5&0x3f), int(dosTime&0x1f*2), 0, // nanoseconds time.UTC, ) } // timeToMsDosTime converts a time.Time to an MS-DOS date and time. // The resolution is 2s. // See: http://msdn.microsoft.com/en-us/library/ms724274(v=VS.85).aspx func timeToMsDosTime(t time.Time) (fDate uint16, fTime uint16) { t = t.In(time.UTC) fDate = uint16(t.Day() + int(t.Month())<<5 + (t.Year()-1980)<<9) fTime = uint16(t.Second()/2 + t.Minute()<<5 + t.Hour()<<11) return } // ModTime returns the modification time in UTC. // The resolution is 2s. func (h *FileHeader) ModTime() time.Time { return msDosTimeToTime(h.ModifiedDate, h.ModifiedTime) } // SetModTime sets the ModifiedTime and ModifiedDate fields to the given time in UTC. // The resolution is 2s. func (h *FileHeader) SetModTime(t time.Time) { h.ModifiedDate, h.ModifiedTime = timeToMsDosTime(t) } const ( // Unix constants. The specification doesn't mention them, // but these seem to be the values agreed on by tools. s_IFMT = 0xf000 s_IFSOCK = 0xc000 s_IFLNK = 0xa000 s_IFREG = 0x8000 s_IFBLK = 0x6000 s_IFDIR = 0x4000 s_IFCHR = 0x2000 s_IFIFO = 0x1000 s_ISUID = 0x800 s_ISGID = 0x400 s_ISVTX = 0x200 msdosDir = 0x10 msdosReadOnly = 0x01 ) // Mode returns the permission and mode bits for the FileHeader. func (h *FileHeader) Mode() (mode os.FileMode) { switch h.CreatorVersion >> 8 { case creatorUnix, creatorMacOSX: mode = unixModeToFileMode(h.ExternalAttrs >> 16) case creatorNTFS, creatorVFAT, creatorFAT: mode = msdosModeToFileMode(h.ExternalAttrs) } if len(h.Name) > 0 && h.Name[len(h.Name)-1] == '/' { mode |= os.ModeDir } return mode } // SetMode changes the permission and mode bits for the FileHeader. func (h *FileHeader) SetMode(mode os.FileMode) { h.CreatorVersion = h.CreatorVersion&0xff | creatorUnix<<8 h.ExternalAttrs = fileModeToUnixMode(mode) << 16 // set MSDOS attributes too, as the original zip does. if mode&os.ModeDir != 0 { h.ExternalAttrs |= msdosDir } if mode&0200 == 0 { h.ExternalAttrs |= msdosReadOnly } } // isZip64 reports whether the file size exceeds the 32 bit limit func (fh *FileHeader) isZip64() bool { return fh.CompressedSize64 > uint32max || fh.UncompressedSize64 > uint32max } func msdosModeToFileMode(m uint32) (mode os.FileMode) { if m&msdosDir != 0 { mode = os.ModeDir | 0777 } else { mode = 0666 } if m&msdosReadOnly != 0 { mode &^= 0222 } return mode } func fileModeToUnixMode(mode os.FileMode) uint32 { var m uint32 switch mode & os.ModeType { default: m = s_IFREG case os.ModeDir: m = s_IFDIR case os.ModeSymlink: m = s_IFLNK case os.ModeNamedPipe: m = s_IFIFO case os.ModeSocket: m = s_IFSOCK case os.ModeDevice: if mode&os.ModeCharDevice != 0 { m = s_IFCHR } else { m = s_IFBLK } } if mode&os.ModeSetuid != 0 { m |= s_ISUID } if mode&os.ModeSetgid != 0 { m |= s_ISGID } if mode&os.ModeSticky != 0 { m |= s_ISVTX } return m | uint32(mode&0777) } func unixModeToFileMode(m uint32) os.FileMode { mode := os.FileMode(m & 0777) switch m & s_IFMT { case s_IFBLK: mode |= os.ModeDevice case s_IFCHR: mode |= os.ModeDevice | os.ModeCharDevice case s_IFDIR: mode |= os.ModeDir case s_IFIFO: mode |= os.ModeNamedPipe case s_IFLNK: mode |= os.ModeSymlink case s_IFREG: // nothing to do case s_IFSOCK: mode |= os.ModeSocket } if m&s_ISGID != 0 { mode |= os.ModeSetgid } if m&s_ISUID != 0 { mode |= os.ModeSetuid } if m&s_ISVTX != 0 { mode |= os.ModeSticky } return mode }