New in version 2.3.
Source code: Lib/tarfile.py
The tarfile module makes it possible to read and write tar archives, including those using gzip or bz2 compression. Use the zipfile module to read or write .zip files, or the higher-level functions in shutil.
Some facts and figures:
read/write support for the POSIX.1-1988 (ustar) format.
read/write support for the GNU tar format including longname and longlink extensions, read-only support for the sparse extension.
read/write support for the POSIX.1-2001 (pax) format.
New in version 2.6.
handles directories, regular files, hardlinks, symbolic links, fifos, character devices and block devices and is able to acquire and restore file information like timestamp, access permissions and owner.
mode has to be a string of the form 'filemode[:compression]', it defaults to 'r'. Here is a full list of mode combinations:
|'r' or 'r:*'||Open for reading with transparent compression (recommended).|
|'r:'||Open for reading exclusively without compression.|
|'r:gz'||Open for reading with gzip compression.|
|'r:bz2'||Open for reading with bzip2 compression.|
|'a' or 'a:'||Open for appending with no compression. The file is created if it does not exist.|
|'w' or 'w:'||Open for uncompressed writing.|
|'w:gz'||Open for gzip compressed writing.|
|'w:bz2'||Open for bzip2 compressed writing.|
Note that 'a:gz' or 'a:bz2' is not possible. If mode is not suitable to open a certain (compressed) file for reading, ReadError is raised. Use mode 'r' to avoid this. If a compression method is not supported, CompressionError is raised.
If fileobj is specified, it is used as an alternative to a file object opened for name. It is supposed to be at position 0.
For modes 'w:gz', 'r:gz', 'w:bz2', 'r:bz2', tarfile.open() accepts the keyword argument compresslevel to specify the compression level of the file.
For special purposes, there is a second format for mode: 'filemode|[compression]'. tarfile.open() will return a TarFile object that processes its data as a stream of blocks. No random seeking will be done on the file. If given, fileobj may be any object that has a read() or write() method (depending on the mode). bufsize specifies the blocksize and defaults to 20 * 512 bytes. Use this variant in combination with e.g. sys.stdin, a socket file object or a tape device. However, such a TarFile object is limited in that it does not allow to be accessed randomly, see Examples. The currently possible modes:
|'r|*'||Open a stream of tar blocks for reading with transparent compression.|
|'r|'||Open a stream of uncompressed tar blocks for reading.|
|'r|gz'||Open a gzip compressed stream for reading.|
|'r|bz2'||Open a bzip2 compressed stream for reading.|
|'w|'||Open an uncompressed stream for writing.|
|'w|gz'||Open an gzip compressed stream for writing.|
|'w|bz2'||Open an bzip2 compressed stream for writing.|
Constant for an uncompressed tar archive.
Constant for a gzip compressed tar archive.
Deprecated since version 2.6: The TarFileCompat class has been removed in Python 3.
Base class for all tarfile exceptions.
Is raised when a tar archive is opened, that either cannot be handled by the tarfile module or is somehow invalid.
Is raised when a compression method is not supported or when the data cannot be decoded properly.
Is raised for the limitations that are typical for stream-like TarFile objects.
Is raised for non-fatal errors when using TarFile.extract(), but only if TarFile.errorlevel== 2.
The following constants are available at the module level:
The default character encoding: 'utf-8' on Windows, the value returned by sys.getfilesystemencoding() otherwise.
Is raised by TarInfo.frombuf() if the buffer it gets is invalid.
New in version 2.6.
POSIX.1-1988 (ustar) format.
GNU tar format.
POSIX.1-2001 (pax) format.
The default format for creating archives. This is currently GNU_FORMAT.
The TarFile object provides an interface to a tar archive. A tar archive is a sequence of blocks. An archive member (a stored file) is made up of a header block followed by data blocks. It is possible to store a file in a tar archive several times. Each archive member is represented by a TarInfo object, see TarInfo Objects for details.
A TarFile object can be used as a context manager in a with statement. It will automatically be closed when the block is completed. Please note that in the event of an exception an archive opened for writing will not be finalized; only the internally used file object will be closed. See the Examples section for a use case.
New in version 2.7: Added support for the context management protocol.
All following arguments are optional and can be accessed as instance attributes as well.
name is the pathname of the archive. It can be omitted if fileobj is given. In this case, the file object’s name attribute is used if it exists.
mode is either 'r' to read from an existing archive, 'a' to append data to an existing file or 'w' to create a new file overwriting an existing one.
If fileobj is given, it is used for reading or writing data. If it can be determined, mode is overridden by fileobj‘s mode. fileobj will be used from position 0.
fileobj is not closed, when TarFile is closed.
New in version 2.6.
The tarinfo argument can be used to replace the default TarInfo class with a different one.
New in version 2.6.
If dereference is False, add symbolic and hard links to the archive. If it is True, add the content of the target files to the archive. This has no effect on systems that do not support symbolic links.
If ignore_zeros is False, treat an empty block as the end of the archive. If it is True, skip empty (and invalid) blocks and try to get as many members as possible. This is only useful for reading concatenated or damaged archives.
debug can be set from 0 (no debug messages) up to 3 (all debug messages). The messages are written to sys.stderr.
If errorlevel is 0, all errors are ignored when using TarFile.extract(). Nevertheless, they appear as error messages in the debug output, when debugging is enabled. If 1, all fatal errors are raised as OSError or IOError exceptions. If 2, all non-fatal errors are raised as TarError exceptions as well.
The encoding and errors arguments control the way strings are converted to unicode objects and vice versa. The default settings will work for most users. See section Unicode issues for in-depth information.
New in version 2.6.
The pax_headers argument is an optional dictionary of unicode strings which will be added as a pax global header if format is PAX_FORMAT.
New in version 2.6.
Alternative constructor. The tarfile.open() function is actually a shortcut to this classmethod.
If a member occurs more than once in the archive, its last occurrence is assumed to be the most up-to-date version.
Return the members of the archive as a list of TarInfo objects. The list has the same order as the members in the archive.
Return the members as a list of their names. It has the same order as the list returned by getmembers().
Extract all members from the archive to the current working directory or directory path. If optional members is given, it must be a subset of the list returned by getmembers(). Directory information like owner, modification time and permissions are set after all members have been extracted. This is done to work around two problems: A directory’s modification time is reset each time a file is created in it. And, if a directory’s permissions do not allow writing, extracting files to it will fail.
Never extract archives from untrusted sources without prior inspection. It is possible that files are created outside of path, e.g. members that have absolute filenames starting with "/" or filenames with two dots "..".
New in version 2.5.
Extract a member from the archive to the current working directory, using its full name. Its file information is extracted as accurately as possible. member may be a filename or a TarInfo object. You can specify a different directory using path.
See the warning for extractall().
Extract a member from the archive as a file object. member may be a filename or a TarInfo object. If member is a regular file, a file-like object is returned. If member is a link, a file-like object is constructed from the link’s target. If member is none of the above, None is returned.
Add the file name to the archive. name may be any type of file (directory, fifo, symbolic link, etc.). If given, arcname specifies an alternative name for the file in the archive. Directories are added recursively by default. This can be avoided by setting recursive to False. If exclude is given it must be a function that takes one filename argument and returns a boolean value. Depending on this value the respective file is either excluded (True) or added (False). If filter is specified it must be a function that takes a TarInfo object argument and returns the changed TarInfo object. If it instead returns None the TarInfo object will be excluded from the archive. See Examples for an example.
Changed in version 2.6: Added the exclude parameter.
Changed in version 2.7: Added the filter parameter.
Deprecated since version 2.7: The exclude parameter is deprecated, please use the filter parameter instead. For maximum portability, filter should be used as a keyword argument rather than as a positional argument so that code won’t be affected when exclude is ultimately removed.
On Windows platforms, fileobj should always be opened with mode 'rb' to avoid irritation about the file size.
Create a TarInfo object for either the file name or the file object fileobj (using os.fstat() on its file descriptor). You can modify some of the TarInfo‘s attributes before you add it using addfile(). If given, arcname specifies an alternative name for the file in the archive.
Close the TarFile. In write mode, two finishing zero blocks are appended to the archive.
Changed in version 2.4: posix defaults to False.
Deprecated since version 2.6: Use the format attribute instead.
A dictionary containing key-value pairs of pax global headers.
New in version 2.6.
A TarInfo object represents one member in a TarFile. Aside from storing all required attributes of a file (like file type, size, time, permissions, owner etc.), it provides some useful methods to determine its type. It does not contain the file’s data itself.
Create a TarInfo object.
Create and return a TarInfo object from string buffer buf.
New in version 2.6: Raises HeaderError if the buffer is invalid..
New in version 2.6.
Changed in version 2.6: The arguments were added.
A TarInfo object has the following public data attributes:
Name of the archive member.
Size in bytes.
Time of last modification.
File type. type is usually one of these constants: REGTYPE, AREGTYPE, LNKTYPE, SYMTYPE, DIRTYPE, FIFOTYPE, CONTTYPE, CHRTYPE, BLKTYPE, GNUTYPE_SPARSE. To determine the type of a TarInfo object more conveniently, use the is*() methods below.
Name of the target file name, which is only present in TarInfo objects of type LNKTYPE and SYMTYPE.
User ID of the user who originally stored this member.
Group ID of the user who originally stored this member.
A dictionary containing key-value pairs of an associated pax extended header.
New in version 2.6.
A TarInfo object also provides some convenient query methods:
Return True if the Tarinfo object is a regular file.
Same as isfile().
Return True if it is a directory.
Return True if it is a symbolic link.
Return True if it is a hard link.
Return True if it is a character device.
Return True if it is a block device.
Return True if it is a FIFO.
Return True if it is one of character device, block device or FIFO.
How to extract an entire tar archive to the current working directory:
import tarfile tar = tarfile.open("sample.tar.gz") tar.extractall() tar.close()
How to extract a subset of a tar archive with TarFile.extractall() using a generator function instead of a list:
import os import tarfile def py_files(members): for tarinfo in members: if os.path.splitext(tarinfo.name) == ".py": yield tarinfo tar = tarfile.open("sample.tar.gz") tar.extractall(members=py_files(tar)) tar.close()
How to create an uncompressed tar archive from a list of filenames:
import tarfile tar = tarfile.open("sample.tar", "w") for name in ["foo", "bar", "quux"]: tar.add(name) tar.close()
The same example using the with statement:
import tarfile with tarfile.open("sample.tar", "w") as tar: for name in ["foo", "bar", "quux"]: tar.add(name)
How to read a gzip compressed tar archive and display some member information:
import tarfile tar = tarfile.open("sample.tar.gz", "r:gz") for tarinfo in tar: print tarinfo.name, "is", tarinfo.size, "bytes in size and is", if tarinfo.isreg(): print "a regular file." elif tarinfo.isdir(): print "a directory." else: print "something else." tar.close()
How to create an archive and reset the user information using the filter parameter in TarFile.add():
import tarfile def reset(tarinfo): tarinfo.uid = tarinfo.gid = 0 tarinfo.uname = tarinfo.gname = "root" return tarinfo tar = tarfile.open("sample.tar.gz", "w:gz") tar.add("foo", filter=reset) tar.close()
There are three tar formats that can be created with the tarfile module:
The POSIX.1-1988 ustar format (USTAR_FORMAT). It supports filenames up to a length of at best 256 characters and linknames up to 100 characters. The maximum file size is 8 gigabytes. This is an old and limited but widely supported format.
The GNU tar format (GNU_FORMAT). It supports long filenames and linknames, files bigger than 8 gigabytes and sparse files. It is the de facto standard on GNU/Linux systems. tarfile fully supports the GNU tar extensions for long names, sparse file support is read-only.
The POSIX.1-2001 pax format (PAX_FORMAT). It is the most flexible format with virtually no limits. It supports long filenames and linknames, large files and stores pathnames in a portable way. However, not all tar implementations today are able to handle pax archives properly.
The pax format is an extension to the existing ustar format. It uses extra headers for information that cannot be stored otherwise. There are two flavours of pax headers: Extended headers only affect the subsequent file header, global headers are valid for the complete archive and affect all following files. All the data in a pax header is encoded in UTF-8 for portability reasons.
There are some more variants of the tar format which can be read, but not created:
The tar format was originally conceived to make backups on tape drives with the main focus on preserving file system information. Nowadays tar archives are commonly used for file distribution and exchanging archives over networks. One problem of the original format (that all other formats are merely variants of) is that there is no concept of supporting different character encodings. For example, an ordinary tar archive created on a UTF-8 system cannot be read correctly on a Latin-1 system if it contains non-ASCII characters. Names (i.e. filenames, linknames, user/group names) containing these characters will appear damaged. Unfortunately, there is no way to autodetect the encoding of an archive.
The pax format was designed to solve this problem. It stores non-ASCII names using the universal character encoding UTF-8. When a pax archive is read, these UTF-8 names are converted to the encoding of the local file system.
The details of unicode conversion are controlled by the encoding and errors keyword arguments of the TarFile class.
The default value for encoding is the local character encoding. It is deduced from sys.getfilesystemencoding() and sys.getdefaultencoding(). In read mode, encoding is used exclusively to convert unicode names from a pax archive to strings in the local character encoding. In write mode, the use of encoding depends on the chosen archive format. In case of PAX_FORMAT, input names that contain non-ASCII characters need to be decoded before being stored as UTF-8 strings. The other formats do not make use of encoding unless unicode objects are used as input names. These are converted to 8-bit character strings before they are added to the archive.
The errors argument defines how characters are treated that cannot be converted to or from encoding. Possible values are listed in section Codec Base Classes. In read mode, there is an additional scheme 'utf-8' which means that bad characters are replaced by their UTF-8 representation. This is the default scheme. In write mode the default value for errors is 'strict' to ensure that name information is not altered unnoticed.