(The
BSD 4.3
option syntax is implemented for backward compatibility, but
is not documented here.)
DESCRIPTION
The
utility performs the inverse function of
dump(8).
A full backup of a file system may be restored and
subsequent incremental backups layered on top of it.
Single files and
directory subtrees may be restored from full or partial
backups.
The
utility works across a network;
to do this see the
-f
and
-P
flags described below.
Other arguments to the command are file or directory
names specifying the files that are to be restored.
Unless the
-h
flag is specified (see below),
the appearance of a directory name refers to
the files and (recursively) subdirectories of that directory.
Exactly one of the following flags is required:
-i
This mode allows interactive restoration of files from a dump.
After reading in the directory information from the dump,
provides a shell like interface that allows the user to move
around the directory tree selecting files to be extracted.
The available commands are given below;
for those commands that require an argument,
the default is the current directory.
add [arg
]
The current directory or specified argument is added to the list of
files to be extracted.
If a directory is specified, then it and all its descendents are
added to the extraction list
(unless the
-h
flag is specified on the command line).
Files that are on the extraction list are prepended with a ``*''
when they are listed by
ls
cd arg
Change the current working directory to the specified argument.
delete [arg
]
The current directory or specified argument is deleted from the list of
files to be extracted.
If a directory is specified, then it and all its descendents are
deleted from the extraction list
(unless the
-h
flag is specified on the command line).
The most expedient way to extract most of the files from a directory
is to add the directory to the extraction list and then delete
those files that are not needed.
extract
All the files that are on the extraction list are extracted
from the dump.
The
utility will ask which volume the user wishes to mount.
The fastest way to extract a few files is to
start with the last volume, and work towards the first volume.
help
List a summary of the available commands.
ls [arg
]
List the current or specified directory.
Entries that are directories are appended with a ``/''.
Entries that have been marked for extraction are prepended with a ``*''.
If the verbose
flag is set the inode number of each entry is also listed.
pwd
Print the full pathname of the current working directory.
quit
Exit immediately,
even if the extraction list is not empty.
setmodes
All the directories that have been added to the extraction list
have their owner, modes, and times set;
nothing is extracted from the dump.
This is useful for cleaning up after a restore has been prematurely aborted.
verbose
The sense of the
-v
flag is toggled.
When set, the verbose flag causes the
ls
command to list the inode numbers of all entries.
It also causes
to print out information about each file as it is extracted.
what
Display dump header information, which includes: date,
level, label, and the file system and host dump was made
from.
-R
Request a particular tape of a multi volume set on which to restart
a full restore
(see the
-r
flag below).
This is useful if the restore has been interrupted.
-r
Restore (rebuild a file system).
The target file system should be made pristine with
newfs(8),
mounted and the user
cd(1)Ns'd
into the pristine file system
before starting the restoration of the initial level 0 backup.
If the
level 0 restores successfully, the
-r
flag may be used to restore
any necessary incremental backups on top of the level 0.
The
-r
flag precludes an interactive file extraction and can be
detrimental to one's health if not used carefully (not to mention
the disk).
An example:
newfs /dev/da0s1a
mount /dev/da0s1a /mnt
cd /mnt
restore rf /dev/sa0
Note that
leaves a file
restoresymtable
in the root directory to pass information between incremental
restore passes.
This file should be removed when the last incremental has been
restored.
The
utility ,
in conjunction with
newfs(8)
and
dump(8),
may be used to modify file system parameters
such as size or block size.
-t
The names of the specified files are listed if they occur
on the backup.
If no file argument is given,
then the root directory is listed,
which results in the entire content of the
backup being listed,
unless the
-h
flag has been specified.
Note that the
-t
flag replaces the function of the old
dumpdir(8)
program.
-x
The named files are read from the given media.
If a named file matches a directory whose contents
are on the backup
and the
-h
flag is not specified,
the directory is recursively extracted.
The owner, modification time,
and mode are restored (if possible).
If no file argument is given,
then the root directory is extracted,
which results in the entire content of the
backup being extracted,
unless the
-h
flag has been specified.
The following additional options may be specified:
-b blocksize
The number of kilobytes per dump record.
If the
-b
option is not specified,
tries to determine the media block size dynamically.
-d
Sends verbose debugging output to the standard error.
-D
This puts
into degraded mode,
causing restore to operate less efficiently
but to try harder to read corrupted backups.
-f file
Read the backup from
filefile
may be a special device file
like
/dev/sa0
(a tape drive),
/dev/da1c
(a disk drive),
an ordinary file,
or
`-
'
(the standard input).
If the name of the file is of the form
``host:file''
or
``user@host:file''
reads from the named file on the remote host using
rmt(8).
-P pipecommand
Use
popen(3)
to execute the
sh(1)
script string defined by
pipecommand
as the input for every volume in the backup.
This child pipeline's
stdout
(/dev/fd/1
)
is redirected to the
input stream, and the environment variable
RESTORE_VOLUME
is set to the current volume number being read.
The
pipecommand
script is started each time a volume is loaded, as if it were a tape drive.
-h
Extract the actual directory,
rather than the files that it references.
This prevents hierarchical restoration of complete subtrees
from the dump.
-m
Extract by inode numbers rather than by file name.
This is useful if only a few files are being extracted,
and one wants to avoid regenerating the complete pathname
to the file.
-N
Do the extraction normally, but do not actually write any changes
to disk.
This can be used to check the integrity of dump media
or other test purposes.
-s fileno
Read from the specified
fileno
on a multi-file tape.
File numbering starts at 1.
-u
When creating certain types of files, restore may generate a warning
diagnostic if they already exist in the target directory.
To prevent this, the
-u
(unlink) flag causes restore to remove old entries before attempting
to create new ones.
-v
Normally
does its work silently.
The
-v
(verbose)
flag causes it to type the name of each file it treats
preceded by its file type.
-y
Do not ask the user whether to abort the restore in the event of an error.
Always try to skip over the bad block(s) and continue.
ENVIRONMENT
TAPE
Device from which to read backup.
TMPDIR
Name of directory where temporary files are to be created.
FILES
/dev/sa0
the default tape drive
/tmp/rstdir*
file containing directories on the tape.
/tmp/rstmode*
owner, mode, and time stamps for directories.
./restoresymtable
information passed between incremental restores.
DIAGNOSTICS
The
utility complains if it gets a read error.
If
-y
has been specified, or the user responds
`y'
,
will attempt to continue the restore.
If a backup was made using more than one tape volume,
will notify the user when it is time to mount the next volume.
If the
-x
or
-i
flag has been specified,
will also ask which volume the user wishes to mount.
The fastest way to extract a few files is to
start with the last volume, and work towards the first volume.
There are numerous consistency checks that can be listed by
.
Most checks are self-explanatory or can ``never happen''.
Common errors are given below.
<filename>: not found on tape
The specified file name was listed in the tape directory,
but was not found on the tape.
This is caused by tape read errors while looking for the file,
and from using a dump tape created on an active file system.
expected next file <inumber>, got <inumber>
A file that was not listed in the directory showed up.
This can occur when using a dump created on an active file system.
Incremental dump too low
When doing incremental restore,
a dump that was written before the previous incremental dump,
or that has too low an incremental level has been loaded.
Incremental dump too high
When doing incremental restore,
a dump that does not begin its coverage where the previous incremental
dump left off,
or that has too high an incremental level has been loaded.
Tape read error while restoring <filename>
Tape read error while skipping over inode <inumber>
Tape read error while trying to resynchronize
A tape (or other media) read error has occurred.
If a file name is specified,
then its contents are probably partially wrong.
If an inode is being skipped or the tape is trying to resynchronize,
then no extracted files have been corrupted,
though files may not be found on the tape.
resync restore, skipped <num> blocks
After a dump read error,
may have to resynchronize itself.
This message lists the number of blocks that were skipped over.
The
utility can get confused when doing incremental restores from
dumps that were made on active file systems without the
-L
option (see
dump(8)).
A level zero dump must be done after a full restore.
Because restore runs in user code,
it has no control over inode allocation;
thus a full dump must be done to get a new set of directories
reflecting the new inode numbering,
even though the contents of the files is unchanged.
To do a network restore, you have to run restore as root.
This is due
to the previous security history of dump and restore.
(restore is
written to be setuid root, but we are not certain all bugs are gone
from the restore code - run setuid at your own risk.)
The temporary files
/tmp/rstdir*
and
/tmp/rstmode*
are generated with a unique name based on the date of the dump
and the process ID (see
mktemp(3)),
except for when
-r
or
-R
is used.
Because
-R
allows you to restart a
-r
operation that may have been interrupted, the temporary files should
be the same across different processes.
In all other cases, the files are unique because it is possible to
have two different dumps started at the same time, and separate
operations should not conflict with each other.