AFIO(1)AFIO(1)NAMEafio - manipulate archives and files
SYNOPSISafio-o [ options ] archive
afio-t [ options ] archive
afio-i [ options ] archive
afio-p [ options ] directory [ ... ]
DESCRIPTION
Afio manipulates groups of files, copying them within the (collective)
filesystem or between the filesystem and an afio archive. Note that
afio archives are portable, as they contain only ASCII-formatted header
information. They are also compatible with ASCII cpio(1) archives (ala
cpio -c).
With -o, reads pathnames from the standard input and writes an archive.
With -t, reads an archive and writes a table-of-contents to the stan‐
dard output.
With -i, installs the contents of an archive relative to the working
directory.
With -p, reads pathnames from the standard input and copies the files
to each directory.
Creates missing directories as necessary, with permissions to match
their parents.
Generates sparse filesystem blocks (with lseek(2)) when possible.
Supports multi-volume archives during interactive operation (i.e., when
/dev/tty is accessible and SIGINT is not being ignored).
Options:
-b size Read or write size-character archive blocks. Suffices of
b, k and m denote multiples of 512, 1024 and 1048576,
respectively. Defaults to 5120 for compatibility with
cpio(1).
-c count Buffer count archive blocks between I/O operations. A
large count is recommended with streaming magnetic tape
drives.
-d Don't create missing directories.
-e bound Pad the archive to a multiple of bound characters. Recog‐
nizes the same suffices as -s. Defaults to 1x (the -b
block size) for compatibility with cpio(1).
-f Spawn a child process to actually write to the archive;
provides a clumsy form of double-buffering. Requires -s
for multi-volume archive support.
-g Change to input file directories. Avoids quadratic
filesystem behavior with long similar pathnames. Requires
all absolute pathnames, including those for the -o archive
and the -p directories.
-h Follow symbolic links, treating them as ordinary files and
directories.
-j Don't generate sparse filesystem blocks.
-k Skip corrupt data at the beginning of an archive (rather
than complaining about unrecognizable input).
-l With -o, write file contents with each hard link.
With -t, report hard links.
With -p, attempt to link files rather than copying them.
-m Mark output files with a common current timestamp (rather
than with input file modification times).
-n Protect newer existing files (comparing file modification
times).
-s limit Restrict each portion of a multi-volume archive to limit
characters. Recognizes the same suffices as -b. Also,
the suffix x denotes a multiple of the -b block size (and
must follow any -b specification). Useful with finite-
length devices which do not return short counts at end of
media (sigh); output to magnetic tape typically falls into
this category.
-u Report files with unseen links.
-v Verbose. Report pathnames as they are processed. With -t,
gives an ls -l style report (including link information).
-x Retain file ownership and setuid/setgid permissions. This
is the default for the super-user; he may use -X to over‐
ride it.
-y prefix Restrict archive processing to names beginning with pre‐
fix. Specify once for each prefix to be recognized. Use
-Y to supply prefixes which are not to be processed.
-z Print execution statistics. This is meant for human con‐
sumption; use by other programs is officially discouraged.
Special-case archive names:
o Specify - to read or write the standard input or output, respec‐
tively. This disables multi-volume archive handling.
o Prefix a command string to be executed with an exclamation mark
(!). The command is executed once for each archive volume, with
its standard input or output piped to afio. It is expected to
produce a zero exit code when all is well.
o Use system:file to access an archive in file on system. This is
really just a special case of pipelining. It requires a 4.2BSD-
style remote shell (rsh(1C)) and a remote copy of afio.
o Anything else specifies a local file or device. An output file
will be created if it does not already exist.
Recognizes obsolete binary cpio(1) archives (including those from
machines with reversed byte order), but cannot write them.
Recovers from archive corruption by searching for a valid magic number.
This is rather simplistic, but, much like a disassembler, almost always
works.
Optimizes pathnames with respect to the current and parent directories.
For example, ./src/sh/../misc/afio.c becomes src/misc/afio.c.
BUGS
There are too many options.
Restricts pathnames to 1023 characters and 255 meaningful elements.
There is no sequence information within multi-volume archives. Input
sequence errors generally masquerade as data corruption. A solution
would probably be mutually exclusive with cpio(1) compatibility.
Degenerate uses of symbolic links are mangled by pathname optimization.
For example, assuming that "usr.src" is a symbolic link to "/usr/src",
the pathname "usr.src/../bin/cu" is mis-optimized into "bin/cu" (rather
than "/usr/bin/cu").
SEE ALSOcpio(1), find(1), tar(1), tp(1).
AUTHOR
Mark Brukhartz
..!ihnp4!laidbak!mdb
AFIO(1)