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Update format manpages for libarchive.
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2020-12-20 02:59:44 +00:00
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@ -1,4 +1,4 @@
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.\" Copyright (c) 2003-2007 Tim Kientzle
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.\" Copyright (c) 2003-2009 Tim Kientzle
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.\" All rights reserved.
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.\"
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.\" Redistribution and use in source and binary forms, with or without
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@ -24,7 +24,7 @@
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.\"
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.\" $FreeBSD$
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.\"
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.Dd April 17, 2009
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.Dd December 27, 2009
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.Dt libarchive-formats 5
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.Os
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.Sh NAME
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@ -45,7 +45,8 @@ limitations of the current library support.
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Note that just because a format is supported by libarchive does not
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imply that a program that uses libarchive will support that format.
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Applications that use libarchive specify which formats they wish
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to support.
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to support, though many programs do use libarchive convenience
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functions to enable all supported formats.
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.Ss Tar Formats
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The
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.Xr libarchive 3
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@ -83,8 +84,8 @@ library can read and write POSIX-compliant pax interchange format
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archives.
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Pax interchange format archives are an extension of the older ustar
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format that adds a separate entry with additional attributes stored
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as key/value pairs.
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The presence of this additional entry is the only difference between
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as key/value pairs immediately before each regular entry.
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The presence of these additional entries is the only difference between
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pax interchange format and the older ustar format.
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The extended attributes are of unlimited length and are stored
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as UTF-8 Unicode strings.
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@ -131,16 +132,30 @@ This name is limited to 100 bytes.
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Extended attributes, file flags, and other extended
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security information cannot be stored.
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.It
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Archive entries are limited to 2 gigabytes in size.
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Archive entries are limited to 8 gigabytes in size.
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.El
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Note that the pax interchange format has none of these restrictions.
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.El
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.Pp
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The libarchive library can also read a variety of commonly-used extensions to
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The libarchive library also reads a variety of commonly-used extensions to
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the basic tar format.
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In particular, it supports base-256 values in certain numeric fields.
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This essentially removes the limitations on file size, modification time,
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These extensions are recognized automatically whenever they appear.
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.Bl -tag -width indent
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.It Numeric extensions.
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The POSIX standards require fixed-length numeric fields to be written with
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some character position reserved for terminators.
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Libarchive allows these fields to be written without terminator characters.
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This extends the allowable range; in particular, ustar archives with this
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extension can support entries up to 64 gigabytes in size.
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Libarchive also recognizes base-256 values in most numeric fields.
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This essentially removes all limitations on file size, modification time,
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and device numbers.
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.It Solaris extensions
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Libarchive recognizes ACL and extended attribute records written
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by Solaris tar.
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Currently, libarchive only has support for old-style ACLs; the
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newer NFSv4 ACLs are recognized but discarded.
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.El
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.Pp
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The first tar program appeared in Seventh Edition Unix in 1979.
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The first official standard for the tar file format was the
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@ -159,13 +174,13 @@ A cpio archive stores each entry as a fixed-size header followed
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by a variable-length filename and variable-length data.
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Unlike the tar format, the cpio format does only minimal padding
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of the header or file data.
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There are a variety of cpio formats, which differ primarily in
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There are several cpio variants, which differ primarily in
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how they store the initial header: some store the values as
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octal or hexadecimal numbers in ASCII, others as binary values of
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varying byte order and length.
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.Bl -tag -width indent
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.It Cm binary
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The libarchive library can read both big-endian and little-endian
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The libarchive library transparently reads both big-endian and little-endian
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variants of the original binary cpio format.
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This format used 32-bit binary values for file size and mtime,
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and 16-bit binary values for the other fields.
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@ -243,20 +258,24 @@ shardump archives less portable than plain shar archives.
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.Ss ISO9660 format
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Libarchive can read and extract from files containing ISO9660-compliant
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CDROM images.
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It also has partial support for Rockridge extensions.
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In many cases, this can remove the need to burn a physical CDROM
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just in order to read the files contained in an ISO9660 image.
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It also avoids security and complexity issues that come with
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virtual mounts and loopback devices.
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Libarchive supports the most common Rockridge extensions and has partial
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support for Joliet extensions.
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If both extensions are present, the Joliet extensions will be
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used and the Rockridge extensions will be ignored.
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In particular, this can create problems with hardlinks and symlinks,
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which are supported by Rockridge but not by Joliet.
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.Ss Zip format
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Libarchive can extract from most zip format archives, including
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jar archives, archives that use Zip64 extensions and many
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self-extracting zip archives.
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It currently only supports uncompressed entries and entries
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compressed with the
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Libarchive can read and write zip format archives that have
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uncompressed entries and entries compressed with the
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.Dq deflate
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algorithm.
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Older zip compression algorithms are not supported.
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It can extract jar archives, archives that use Zip64 extensions and many
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self-extracting zip archives.
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Libarchive reads Zip archives as they are being streamed,
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which allows it to read archives of arbitrary size.
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It currently does not use the central directory; this
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@ -273,7 +292,20 @@ The ar format has never been standardised.
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There are two common variants:
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the GNU format derived from SVR4,
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and the BSD format, which first appeared in 4.4BSD.
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Libarchive provides read and write support for both variants.
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The two differ primarily in their handling of filenames
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longer than 15 characters:
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the GNU/SVR4 variant writes a filename table at the beginning of the archive;
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the BSD format stores each long filename in an extension
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area adjacent to the entry.
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Libarchive can read both extensions,
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including archives that may include both types of long filenames.
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Programs using libarchive can write GNU/SVR4 format
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if they provide a filename table to be written into
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the archive before any of the entries.
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Any entries whose names are not in the filename table
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will be written using BSD-style long filenames.
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This can cause problems for programs such as
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GNU ld that do not support the BSD-style long filenames.
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.Ss mtree
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Libarchive can read and write files in
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.Xr mtree 5
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@ -287,20 +319,29 @@ the NetBSD and FreeBSD versions of
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although many of the keywords cannot currently be stored in an
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.Tn archive_entry
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object.
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When reading, libarchive supports an extension that allows it
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to obtain the contents of the files described by the
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.Xr mtree 5
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description from files on disk.
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When writing, libarchive supports use of the
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.Xr archive_write_set_options 3
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interface to specify which keywords should be included in the
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output.
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This includes the ability to compute hash entries such
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as
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If libarchive was compiled with access to suitable
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cryptographic libraries (such as the OpenSSL libraries),
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it can compute hash entries such as
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.Cm sha512
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or
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.Cm md5
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from file data being written to the mtree writer.
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.Pp
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When reading an mtree file, libarchive will locate the corresponding
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files on disk using the
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.Cm contents
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keyword if present or the regular filename.
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If it can locate and open the file on disk, it will use that
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to fill in any metadata that is missing from the mtree file
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and will read the file contents and return those to the program
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using libarchive.
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If it cannot locate and open the file on disk, libarchive
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will return an error for any attempt to read the entry
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body.
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.Sh SEE ALSO
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.Xr ar 1 ,
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.Xr cpio 1 ,
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@ -24,7 +24,7 @@
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.\"
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.\" $FreeBSD$
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.\"
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.Dd April 19, 2009
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.Dd December 27, 2009
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.Dt tar 5
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.Os
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.Sh NAME
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@ -55,8 +55,11 @@ number of records with each I/O operation.
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These
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.Dq blocks
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are always a multiple of the record size.
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The most common block size\(emand the maximum supported by historic
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implementations\(emis 10240 bytes or 20 records.
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The maximum block size supported by early
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implementations was 10240 bytes or 20 records.
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This is still the default for most implementations
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although block sizes of 1MiB (2048 records) or larger are
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commonly used with modern high-speed tape drives.
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(Note: the terms
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.Dq block
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and
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@ -272,16 +275,19 @@ when they are set and the corresponding names exist on
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the system.
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.It Va devmajor , Va devminor
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Major and minor numbers for character device or block device entry.
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.It Va prefix
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First part of pathname.
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.It Va name , Va prefix
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If the pathname is too long to fit in the 100 bytes provided by the standard
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format, it can be split at any
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.Pa /
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character with the first portion going here.
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character with the first portion going into the prefix field.
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If the prefix field is not empty, the reader will prepend
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the prefix value and a
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.Pa /
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character to the regular name field to obtain the full pathname.
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The standard does not require a trailing
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.Pa /
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character on directory names, though most implementations still
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include this for compatibility reasons.
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.El
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.Pp
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Note that all unused bytes must be set to
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@ -308,7 +314,7 @@ unless they fill the entire field.
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happens to have a
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.Pa /
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as the 156th character.)
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POSIX requires numeric fields to be zero-padded in the front, and allows
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POSIX requires numeric fields to be zero-padded in the front, and requires
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them to be terminated with either space or
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.Dv NUL
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characters.
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@ -809,9 +815,17 @@ John Gilmore's
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.Nm pdtar
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public-domain implementation (circa 1987) was highly influential
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and formed the basis of
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.Nm GNU tar .
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.Nm GNU tar
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(circa 1988).
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Joerg Shilling's
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.Nm star
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archiver is another open-source (GPL) archiver (originally developed
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circa 1985) which features complete support for pax interchange
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format.
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.Pp
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This documentation was written as part of the
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.Nm libarchive
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and
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.Nm bsdtar
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project by
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.An Tim Kientzle Aq kientzle@FreeBSD.org .
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