xorriso - creates, loads, manipulates and writes ISO 9660 filesystem images with Rock Ridge extensions.
xorriso [settings|actions]
xorriso
is a program which copies file objects from POSIX compliant
filesystems into Rock Ridge enhanced ISO 9660 filesystems
and performs session-wise manipulation of such
filesystems. It can load the management information of
existing ISO images and it writes the session results to
optical media or to filesystem objects.
Vice versa xorriso is able to copy file objects out
of ISO 9660 filesystems.
A special property of xorriso is that it needs neither an external ISO 9660 formatter program nor an external burn program for CD, DVD or BD but rather incorporates the libraries of libburnia-project.org .
Overview of features:
Operates on an existing ISO image or creates a new one.
Copies files from disk filesystem into the ISO image.
Copies files from ISO image to disk filesystem (see
osirrox).
Renames or deletes file objects in the ISO image.
Changes file properties in the ISO image.
Updates ISO subtrees incrementally to match given disk
subtrees.
Writes result either as completely new image or as
add-on session to optical media or filesystem objects.
Can activate ISOLINUX and GRUB boot images via El Torito and
MBR.
Can perform multi-session tasks as emulation of
mkisofs and cdrecord.
Can record and restore hard links and ACL.
Content may get zisofs compressed or filtered by external
processes.
Can issue commands to mount older sessions on GNU/Linux or
FreeBSD.
Can check media for damages and copy readable blocks to
disk.
Can attach MD5 checksums to each data file and the whole
session.
Scans for optical drives, blanks re-usable optical
media.
Reads its instructions from command line arguments, dialog,
and files.
Provides navigation commands for interactive ISO image
manipulation.
Adjustable thresholds for abort, exit value, and problem
reporting.
Note that xorriso does not write audio CDs and that it does not produce UDF filesystems which are specified for official video DVD or BD.
General information paragraphs:
Session model
Media types and states
Creating, Growing, Modifying, Blind Growing
Libburn drives
Rock Ridge, POSIX, X/Open, El Torito, ACL, xattr
Command processing
Dialog, Readline, Result pager
Maybe you first want to have a look at section EXAMPLES near the end of this text before reading the next few hundred lines of background information.
Session model:
Unlike other filesystems, ISO 9660 (aka
ECMA-119) is not intended for read-write
operation but rather for being generated in a single sweep
and being written to media as a session.
The data content of the session is called filesystem
image.
The written image in its session can then be mounted by the operating system for being used read-only. GNU/Linux is able to mount ISO images from block devices, which may represent optical media, other media or via a loop device even from regular disk files. FreeBSD mounts ISO images from devices that represent arbitrary media or from regular disk files.
This session
usage model has been extended on CD media by the concept of
multi-session , which adds information to the
CD and gives the mount programs of the operating systems the
addresses of the entry points of each session. The mount
programs recognize block devices which represent CD media
and will by default mount the image in the last session.
This session usually contains an updated directory tree for
the whole medium which governs the data contents in all
recorded sessions. So in the view of the mount program all
sessions of a particular medium together form a single
filesystem image.
Adding a session to an existing ISO image is in this text
referred as growing.
The multi-session model of the MMC standard does not
apply to all media types. But program growisofs by Andy
Polyakov showed how to extend this functionality to
overwritable media or disk files which carry valid ISO 9660
filesystems.
xorriso provides growing as well as an own method named modifying which produces a completely new ISO image from the old one and the modifications. See paragraph Creating, Growing, Modifying, Blind Growing below.
xorriso
adopts the concept of multi-session by loading an
image directory tree if present, by offering to manipulate
it by several actions, and by writing the new image to the
target medium.
The first session of a xorriso run begins by the
definition of the input drive with the ISO image or by the
definition of an output drive. The session ends by command
-commit which triggers writing. A -commit is
done automatically when the program ends regularly.
After -commit a new session begins with the freshly written one as input. A new input drive can only be chosen as long as the loaded ISO image was not altered. Pending alteration can be revoked by command -rollback.
Writing a session to the target is supposed to be very expensive in terms of time and of consumed space on appendable or write-once media. Therefore all intended manipulations of a particular ISO image should be done in a single session. But in principle it is possible to store intermediate states and to continue with image manipulations.
Media types and states:
There are two families of media in the MMC standard:
Multi-session media are CD-R, CD-RW,
DVD-R, DVD+R, DVD+R/DL, BD-R, and unformatted
DVD-RW. These media provide a table of content which
describes their existing sessions. See command
-toc.
Similar to multi-session media are DVD-R DL and
minimally blanked DVD-RW. They record only a single
session of which the size must be known in advance.
xorriso will write onto them only if command
-close is set to "on".
Overwritable media are DVD-RAM, DVD+RW,
BD-RE, and formatted DVD-RW. They offer random
write access but do not provide information about their
session history. If they contain one or more ISO 9660
sessions and if the first session was written by
xorriso, then a table of content can be emulated.
Else only a single overall session will be visible.
DVD-RW media can be formatted by -format
"full". They can be made unformatted by
-blank "deformat".
Regular files and block devices are handled as overwritable
media. Pipes and other writeable file types are handled as
blank multi-session media.
The program growisofs formats by default BD-R to be
pseudo-overwritable (POW). xorriso will classify them
as
Media current: is unsuitable , is POW formatted
and will refuse to write to them or to obtain
multi-session information from them.
These media can
assume several states in which they offer different
capabilities.
Blank media can be written from scratch. They contain no
ISO image suitable for xorriso.
Blank is the state of newly purchased optical media. With
used CD-RW and DVD-RW it can be achieved by
action -blank "as_needed". Overwritable
media are considered blank if they are new or if they have
been marked as blank by xorriso. Action -blank
"as_needed" can be used to do this marking on
overwritable media, or to apply mandatory formatting to new
media if necessary.
Appendable media accept further sessions. Either they
are MMC multi-session media in appendable state, or
they are overwritable media which contain an ISO image
suitable for xorriso.
Appendable is the state after writing a session with command
-close off.
Closed media cannot be written. They may contain an ISO
image suitable for xorriso.
Closed is the state of DVD-ROM media and of
multi-session media which were written with command
-close on. If the drive is read-only hardware
then it will probably show any media as closed CD-ROM
or DVD-ROM.
Overwritable media assume this state in such read-only
drives or if they contain unrecognizable data in the first
32 data blocks.
Read-only drives may or may not show session histories
of multi-session media. Often only the first and the
last session are visible. Sometimes not even that. Command
-rom_toc_scan might or might not help in such
cases.
Creating, Growing, Modifying, Blind Growing:
A new empty ISO image gets created if there is no
input drive with a valid ISO 9660 image when the first time
an output drive is defined. This is achieved by command
-dev on blank media or by command -outdev on
media in any state.
The new empty image can be populated with directories and
files. Before it can be written, the medium in the output
drive must get into blank state if it was not blank
already.
If there is a input drive with a valid ISO image, then this image gets loaded as foundation for manipulations and extension. The constellation of input and output drive determines which write method will be used. They have quite different capabilities and constraints.
The method of
growing adds new data to the existing data on the
medium. These data comprise of new file content and they
override the existing ISO 9660 + Rock Ridge directory tree.
It is possible to hide files from previous sessions but they
still exist on the medium and with many types of optical
media it is quite easy to recover them by mounting older
sessions.
Growing is achieved by command -dev.
The write
method of modifying produces compact filesystem
images with no outdated files or directory trees. Modifying
can write its images to target media which are completely
unsuitable for multi-session operations. E.g.
DVD-RW which were treated with -blank
deformat_quickest, DVD-R DL, named pipes, character
devices, sockets. On the other hand modified sessions cannot
be written to appendable media but to blank media only.
So for this method one needs either two optical drives or
has to work with filesystem objects as source and/or target
medium.
Modifying takes place if input drive and output drive are
not the same and if command -grow_blindly is set to
its default "off". This is achieved by commands
-indev and -outdev.
If command
-grow_blindly is set to a non-negative number
and if -indev and -outdev are both set to
different drives, then blind growing is performed. It
produces an add-on session which is ready for being
written to the given block address. This is the usage model
of
mkisofs -M $indev -C $msc1,$msc2 -o
$outdev
which gives much room for wrong parameter combinations and
should thus only be employed if a strict distinction between
ISO formatter xorriso and the burn program is
desired. -C $msc1,$msc2 is equivalent to:
-load sbsector $msc1 -grow_blindly $msc2
Libburn drives:
Input drive, i.e. source of an existing or empty ISO image,
can be any random access readable libburn drive: optical
media with readable data, blank optical media, regular
files, block devices.
Output drive, i.e. target for writing, can be any libburn
drive. Some drive types do not support the method of growing
but only the methods of modifying and blind growing. They
all are suitable for newly created images.
All drive file
objects have to offer rw-permission to the user of
xorriso. Even those which will not be usable for
reading an ISO image.
With any type of drive object, the data are considered to be
organized in blocks of 2 KiB. Access happens in terms of
Logical Block Address (LBA) which gives the number of
a particular data block.
MMC compliant
(i.e. optical) drives on GNU/Linux usually get addressed by
the path of their block device or of their generic character
device. E.g.
-dev /dev/sr0
-dev /dev/hdc
-dev /dev/sg2
By default xorriso will try to map the given address to
/dev/hd* and /dev/sr*. The command -scsi_dev_family
can redirect the mapping from sr to scd or sg. The latter
does not suffer from the concurrency problems which plagued
/dev/sr of Linux kernels since version 3 up to 5.5. But it
does not yield the same addresses which are used by mount(8)
or by open(2) for read(2).
On FreeBSD the device files have names like
-dev /dev/cd0
On NetBSD:
-dev /dev/rcd0d
On OpenSolaris:
-dev /dev/rdsk/c4t0d0s2
Get a list of accessible drives by command
-device_links
It might be necessary to do this as superuser in
order to see all drives and to then allow rw-access
for the intended users. Consider to bundle the authorized
users in a group like old "floppy".
Filesystem
objects of nearly any type can be addressed by prefix
"stdio:" and their path in the filesystem. E.g.:
-dev stdio:/dev/sdc
The default setting of -drive_class allows the user to
address files outside the /dev tree without that prefix.
E.g.:
-dev /tmp/pseudo_drive
If path leads to a regular file or to a block device then
the emulated drive is random access readable and can be used
for the method of growing if it already contains a valid ISO
9660 image. Any other file type is not readable via
"stdio:" and can only be used as target for the
method of modifying or blind growing. Non-existing
paths in existing directories are handled as empty regular
files.
A very special
kind of pseudo drive are open file descriptors. They are
depicted by "stdio:/dev/fd/" and descriptor number
(see man 2 open).
Addresses "-" or "stdio:/dev/fd/1"
depict standard output, which normally is the output channel
for result texts. To prevent a fatal intermingling of ISO
image and text messages, all result texts get redirected to
stderr if -*dev "-" or
"stdio:/dev/fd/1" is among the start arguments of
the program.
Standard output is currently suitable for creating one
session per program run without dialog. Use in other
situations is discouraged and several restrictions apply:
It is not allowed to use standard output as pseudo drive if
it was not among the start arguments. Do not try to fool
this ban via backdoor addresses to stdout.
If stdout is used as drive, then -use_readline is
permanently disabled. Use of backdoors can cause severe
memory and/or tty corruption.
Be aware that
especially the superuser can write into any accessible file
or device by using its path with the "stdio:"
prefix. By default any address in the /dev tree without
prefix "stdio:" will work only if it leads to a
MMC drive.
One may use command -ban_stdio_write to surely
prevent this risk and to restrict drive usage to MMC drives.
One may prepend "mmc:" to a path to surely
disallow any automatic "stdio:".
By command -drive_class one may ban certain paths or
allow access without prefix "stdio:" to other
paths.
Rock Ridge, POSIX, X/Open, El Torito, ACL, xattr:
Rock Ridge is the name of a set of additional
information which enhance an ISO 9660 filesystem so that it
can represent a POSIX compliant filesystem with ownership,
access permissions, symbolic links, and other attributes.
This is what xorriso uses for a decent representation
of the disk files within the ISO image. xorriso
produces Rock Ridge information by default. It is strongly
discouraged to disable this feature.
xorriso is not named "porriso" because POSIX only guarantees 14 characters of filename length. It is the X/Open System Interface standard XSI which demands a file name length of up to 255 characters and paths of up to 1024 characters. Rock Ridge fulfills this demand.
An El Torito boot record points the BIOS bootstrapping
facility to one or more boot images, which are binary
program files stored in the ISO image. The content of the
boot image files is not in the scope of El Torito.
Most bootable GNU/Linux CDs are equipped with ISOLINUX or
GRUB boot images. xorriso is able to create or
maintain an El Torito object which makes such an image
bootable. For details see command -boot_image.
It is possible to make ISO images bootable from USB stick or
other hard-disk-like media. Several options
install a MBR (Master Boot Record), It may get
adjusted according to the needs of the intended boot
firmware and the involved boot loaders, e.g. GRUB2 or
ISOLINUX. A MBR contains boot code and a partition table.
The new MBR of a follow-up session can get in effect
only on overwritable media.
MBR is read by PC-BIOS when booting from USB stick or
hard disk, and by PowerPC CHRP or PReP when booting. An MBR
partition with type 0xee indicates the presence of GPT.
Emulation -as mkisofs supports the example options out
of the ISOLINUX wiki, the options used in GRUB script
grub-mkrescue, and the example in the FreeBSD
AvgLiveCD wiki.
A GPT (GUID Partition Table) marks partitions in a
more modern way. It is read by EFI when booting from USB
stick or hard disk, and may be used for finding and mounting
a HFS+ partition inside the ISO image.
An APM (Apple Partition Map) marks the HFS+
partition. It is read by Macs for booting and for mounting.
MBR, GPT and APM are combinable. APM occupies the first 8
bytes of MBR boot code. All three do not hamper El Torito
booting from CDROM.
There is support for further facilities: MIPS Big Endian
(SGI), MIPS Little Endian (DEC), SUN SPARC, HP-PA.
Those are mutually not combinable and also not combinable
with MBR, GPT, or APM.
ACL are
an advanced way of controlling access permissions to file
objects. Neither ISO 9660 nor Rock Ridge specify a way to
record ACLs. So libisofs has introduced a standard
conformant extension named AAIP for that purpose. It uses
this extension if enabled by command -acl.
AAIP enhanced images are supposed to be mountable normally,
but one cannot expect that the mounted filesystem will show
and respect the ACLs. For now, only xorriso is able
to retrieve those ACLs. It can bring them into effect when
files get restored to an ACL enabled file system or it can
print them in a format suitable for tool setfacl.
Files with ACL show as group permissions the setting of
entry "mask::" if that entry exists. Nevertheless
the non-listed group members get handled according to
entry "group::". When removing ACL from a file,
xorriso brings "group::" into effect.
Recording and restoring of ACLs from and to local files
works currently only on GNU/Linux and FreeBSD.
xattr
(aka EA, or extattr) are pairs of name and value which can
be attached to file objects. AAIP is able to represent them
and xorriso can record and restore them.
But be aware that pairs with names of non-user
namespaces are not necessarily portable between operating
systems and not even between filesystems. Only those which
begin with "user.", like "user.x" or
"user.whatever", can unconditionally be expected
to be appropriate on other machines and disks. Processing of
other xattr may need administrator privileges.
Name has to be a 0 terminated string. Value may be any array
of bytes which does not exceed the size of 4095 bytes. xattr
processing happens only if it is enabled by command
-xattr.
As with ACL, currently only xorriso is able to
retrieve xattr from AAIP enhanced images, to restore them to
xattr capable file systems, or to print them.
Recording and restoring of xattr from and to local files
works currently only on GNU/Linux and FreeBSD, where they
are known as extattr.
Command processing:
Commands are either actions which happen immediately or
settings which influence following actions. So their
sequence does matter, unless they are given as program
arguments and command -x is among them.
The list of all current settings can be inquired by command
-status "long". Command -status
"short" lists a handful of fundamental settings
and all settings which are not default at program start.
Commands consist of a command word, followed by zero or more parameter words. If the list of parameter words is of variable length (indicated by "[...]" or "[***]") then it must be terminated by either the list delimiter, occur at the end of the argument list, or occur at the end of an input line.
At program
start the list delimiter is the string
"--". This may be changed with the
-list_delimiter command in order to allow
"--" as parameter in a variable length
list. However, it is advised to reset the delimiter to
"--" immediately afterwards.
For brevity the list delimiter is referred as
"--" throughout this text.
The list delimiter is silently ignored if it appears after
the parameters of a command with a fixed list length. It is
handled as normal text if it appears among the parameters of
such a command.
Pattern expansion converts a list of pattern words into a list
of existing file addresses. Unmatched pattern words will
appear unaltered in that result list.
Pattern matching supports the usual shell parser wildcards
’*’ ’?’ ’[xyz]’ and
respects ’/’ as the path separator, which may
only be matched literally.
Pattern expansion is a property of some particular commands
and not a general feature. It is controlled by commands
-iso_rr_pattern and -disk_pattern. Commands
which use pattern expansion all have variable parameter
lists which are specified in this text by "[***]"
rather than "[...]".
Some other commands perform pattern matching
unconditionally.
Command and
parameter words are either read from the program arguments,
where one argument is one word, or from quoted input lines
where words are recognized similar to the quotation rules of
a shell parser.
xorriso is not a shell, although it might appear so at
first glimpse. Be aware that the interaction of quotation
marks and pattern symbols like "*" differs from
the usual shell parsers. In xorriso, a quotation mark
does not make a pattern symbol literal.
Quoted input converts whitespace-separated text into
words. The double quotation mark " and the single
quotation mark ’ can be used to enclose whitespace and
make it part of words (e.g. of file names). Each mark type
can enclose the marks of the other type. A trailing
backslash \ outside quotations or an open quotation cause
the next input line to be appended.
Quoted input accepts any 8-bit character except NUL
(0) as the content of the quotes. Nevertheless it can be
cumbersome for the user to produce those characters
directly. Therefore quoted input and program arguments offer
optional Backslash Interpretation which can represent
all 8-bit characters except NUL (0) via backslash
codes as in $’...’ of bash.
This is not enabled by default. See command
-backslash_codes.
When the program starts then it first looks for argument -no_rc. If this is not present then it looks for its startup files and reads their content as command input lines. Then it interprets the program arguments as commands and parameters. Finally it enters dialog mode if command -dialog "on" has been executed by this point.
The program ends either by command -end, or by the end of program arguments if dialog mode has not been enabled at that point, or by a problem event which triggers the threshold of command -abort_on.
Dialog, Readline, Result pager:
Dialog mode prompts for a quoted input line, parses it into
words, and performs them as commands with their parameters.
It provides assisting services to make dialog more
comfortable.
Readline is an
enhancement for the input line. You may already know it from
the bash shell. Whether it is available in xorriso
depends on the availability of package readline-dev at
the time when xorriso was built from its sourcecode.
Readline lets the user move the cursor over the text in the
line by help of the Left and the Right arrow keys. Text may
be inserted at the cursor position. The Delete key removes
the character under the cursor. Up and Down arrow keys
navigate through the history of previous input lines.
See man readline for more info about libreadline.
Command
-page activates a built-in result text pager
which may be convenient in dialog mode. After an action has
output the given number of terminal lines, the pager prompts
the user for a line of input.
An empty line lets xorriso resume work until the next
page is output.
The single character "@" disables paging for the
current action.
"@@@", "x", "q",
"X", or "Q" request that the current
action aborts and suppress further result output.
Any other line input will be interpreted as new dialog line.
The current action is requested to abort. Afterwards, the
input line is executed.
Some actions
apply paging to their info output, too.
The request to abort may or may not be obeyed by the current
action. All actions try to abort as soon as possible.
All command
words are shown with a leading dash although this dash is
not mandatory for the command to be recognized. Nevertheless
within command -as the dashes of the emulated commands
are mandatory.
Normally any number of leading dashes is ignored with
command words and inner dashes are interpreted as
underscores.
Execution order of program arguments:
By default the
program arguments of a xorriso run are interpreted as a
sequence of commands which get performed exactly in the
given order. This requires the user to write commands for
desired settings before the commands which shall be
influenced by those settings.
Many other programs support program arguments in an
arbitrary ordering and perform settings and actions in a
sequence at their own discretion. xorriso provides an option
to enable such a behavior at the cost of loss of
expressivity.
-x |
Enable automatic sorting of program arguments into a sequence that (most likely) is sensible. This command may be given at any position among the commands which are handed over as program arguments. |
Note: It works only if it is given as program argument and with a single dash (i.e. "-x"). It will not work in startup files, nor with -options_from_file, nor in dialog mode, nor as "x" and finally not as "--x". It affects only the commands given as program arguments.
-list_arg_sorting
List all xorriso commands in
the order which applies if command -x is in effect.
This list may also be helpful without -x for a user
who ponders over the sequence in which to put commands.
Deviations from the listed sorting order may well make
sense, though.
Acquiring source and target drive:
The effect of
acquiring a drive may depend on several commands in the next
paragraph "Influencing the behavior of image
loading". If desired, their enabling commands have to
be performed before the commands which acquire the drive.
-dev address
Set input and output drive to
the same address and load an ISO image if it is present. If
there is no ISO image then create a blank one. Set the image
expansion method to growing.
This is only allowed as long as no changes are pending in
the currently loaded ISO image. If changes are pending, then
one has to perform -commit or -rollback first.
Special address string "-" means standard
output, to which several restrictions apply. See above
paragraph "Libburn drives".
An empty address string "" gives up the current
device without acquiring a new one.
-indev address
Set input drive and load an ISO image if present. If the new input drive differs from -outdev then switch from growing to modifying or to blind growing. It depends on the setting of -grow_blindly which of both gets activated. The same rules and restrictions apply as with -dev.
-outdev address
Set output drive and if it
differs from the input drive then switch from growing to
modifying or to blind growing. Unlike -dev and
-indev this action does not load a new ISO image. So
it can be performed even if there are pending changes.
-outdev can be performed without previous -dev
or -indev. In that case an empty ISO image with no
changes pending is created. It can either be populated by
help of -map, -add et.al. or it can be discarded
silently if -dev or -indev are performed
afterwards.
Special address string "-" means standard
output, to which several restrictions apply. See above
paragraph "Libburn drives".
An empty address string "" gives up the current
output drive without acquiring a new one. No writing is
possible without an output drive.
-drive_class "harmless"|"banned"|"caution"|"clear_list" disk_pattern
Add a drive path pattern to one
of the safety lists or make those lists empty. There are
three lists defined which get tested in the following
sequence:
If a drive address path matches the "harmless"
list then the drive will be accepted. If it is not a MMC
device then the prefix "stdio:" will be prepended
automatically. This list is empty by default.
Else if the path matches the "banned" list then
the drive will not be accepted by xorriso but rather
lead to a FAILURE event. This list is empty by default.
Else if the path matches the "caution" list and if
it is not a MMC device, then its address must have the
prefix "stdio:" or it will be rejected. This list
has by default one entry: "/dev".
If a drive path matches no list then it is considered
"harmless". By default these are all paths which
do not begin with directory "/dev".
A path matches a list if one of its parent paths or itself
matches a list entry. Address prefix "stdio:" or
"mmc:" will be ignored when testing for matches.
By pseudo-class "clear_list" and
pseudo-patterns "banned",
"caution", "harmless", or
"all", the lists may be made empty.
E.g.: -drive_class clear_list banned
One will normally define the -drive_class lists in one
of the xorriso Startup Files.
Note: This is not a security feature but rather a bumper for
the superuser to prevent inadverted mishaps. For reliably
blocking access to a device file you have to deny its
rw-permissions in the filesystem.
-drive_access "exclusive"|"shared":"unrestricted"|"readonly"
Control whether device file
locking mechanisms shall be used when acquiring a drive, and
whether status or content of the medium in the drive may be
altered. Useful and most harmless are the setting
"shared:readonly" and the default setting
"exclusive:unrestricted".
"exclusive" enables tests and locks when acquiring
the drive. It depends on the operating system which locking
mechanisms get applied, if any. On GNU/Linux it is
open(O_EXCL). On FreeBSD it is flock(LOCK_EX).
"shared" disables the use of these mechanisms to
become able to acquire drives which are mounted, or opened
by some process, or guarded by /dev/pktcdvd*.
"unrestricted" enables all technically appropriate
operations on an acquired drive.
"shared:unrestricted" risks to get own burn runs
spoiled by other processes or to vice versa spoil activities
of such processes. So use "exclusive:unrestricted"
unless you know for sure that "shared" is safe.
"readonly" disables operations which might
surprise a co-user of the drive. For -outdev
these are formatting, blanking, writing, ejecting. For
-indev this is ejecting. Be aware that even reading
and drive status inquiries can disturb an ongoing burn run
on CD-R[W] and DVD-R[W].
-scsi_dev_family "default"|"sr"|"scd"|"sg"
GNU/Linux specific:
By default, xorriso tries to map Linux drive addresses to
/dev/sr* before they get opened for operating the drive.
This coordinates well with other use cases of optical
drives, like mount(8). But since year 2010 all /dev/sr*
share a global lock which allows only one drive to process
an SCSI command while all others have to wait for its
completion. This yields awful throughput if more than one
drive is writing or reading simultaneously. The global lock
is not applied to device files /dev/sg* and also not if the
xorriso drive address is prepended by "stdio:".
So for simultaneous burn runs on modern GNU/Linux it is
advisable to perform -scsi_dev_family "sg"
before any -dev, -indev, or -outdev. The
drive addresses may then well be given as /dev/sr* but will
nevertheless get used as the matching /dev/sg*.
If you decide so, consider to put the command into a global
startup file like /etc/opt/xorriso/rc.
-grow_blindly "off"|predicted_nwa
If predicted_nwa is a
non-negative number then perform blind growing rather
than modifying if -indev and -outdev are set to
different drives. "off" or "-1"
switch to modifying, which is the default.
predicted_nwa is the block address where the add-on
session of blind growing will finally end up. It is the
responsibility of the user to ensure this final position and
the presence of the older sessions. Else the overall ISO
image will not be mountable or will produce read errors when
accessing file content. xorriso will write the
session to the address as obtained from examining
-outdev and not necessarily to predicted_nwa.
During a run of blind growing, the input drive is given up
before output begins. The output drive is given up when
writing is done.
Influencing the behavior of image loading:
The following
commands should normally be performed before loading an
image by acquiring an input drive. In rare cases it is
desirable to activate them only after image loading.
-read_speed code|number[k|m|c|d|b]
Set the speed for reading.
Default is "none", which avoids to send a speed
setting command to the drive before reading begins.
Further special speed codes are:
"max" (or "0") selects maximum speed as
announced by the drive.
"min" (or "-1") selects minimum
speed as announced by the drive.
Speed can be given in media dependent numbers or as a
desired throughput per second in MMC compliant kB (= 1000)
or MB (= 1000 kB). Media x-speed factor can be set
explicitly by "c" for CD, "d" for DVD,
"b" for BD, "x" is optional.
Example speeds:
706k = 706kB/s = 4c = 4xCD
5540k = 5540kB/s = 4d = 4xDVD
If there is no hint about the speed unit attached, then the
medium in the -indev will decide. Default unit is CD =
176.4k.
Depending on the drive, the reported read speeds can be
deceivingly low or high. Therefore "min" cannot
become higher than 1x speed of the involved medium type.
Read speed "max" cannot become lower than 52xCD,
24xDVD, or 20xBD, depending on the medium type.
MMC drives usually activate their own idea of speed and take
the speed value given by the burn program only as hint for
their own decision. Friendly drives adjust their constant
angular velocity so that the desired speed is reached at the
outer rim of the medium. But often there is only the choice
between very slow and very loud.
Sometimes no speed setting is obeyed at all, but speed is
adjusted to the demand frequency of the reading program. So
xorriso offers to set an additional software enforced limit
by prefix "soft_force:". The program will take
care not to read faster than the soft_force speed. This may
be combined with setting the drive speed to a higher value.
Setting "soft_force:0" disables this feature.
"soft_force:" tries to correct in subsequent
waiting periods lost or surplus time of up to 0.25 seconds.
This smoothens the overall data stream but also enables
short times of higher speed to compensate short times of low
speed. Prefix "soft_corr:" sets this hindsight
span by giving a number of microseconds. Not more than 1
billion = 1000 seconds. Very short times can cause speed
deviations, because systematic inaccuracies of the waiting
function cannot be compensated.
Examples (combinable):
-read_speed 6xBD
-read_speed soft_force:4xBD -read_speed
soft_corr:100000
-load entity id
Load a particular (possibly
outdated) ISO session from -dev or -indev.
Usually all available sessions are shown with command
-toc.
entity depicts the kind of addressing. id depicts the
particular address. The following entities are defined:
"auto" with any id addresses the last session in
-toc. This is the default.
"session" with id being a number as of a line
"ISO session", column "Idx".
"track" with id being a number as of a line
"ISO track", column "Idx".
"lba" or "sbsector" with a number as of
a line "ISO ...", column "sbsector".
"volid" with a search pattern for a text as of a
line "ISO ...", column "Volume Id".
Addressing a non-existing entity or one which does not
represent an ISO image will either abandon -indev or
at least lead to a blank image.
If an input drive is set at the moment when -load is
executed, then the addressed ISO image is loaded
immediately. Else, the setting will be pending until the
next -dev or -indev. After the image has been
loaded once, the setting is valid for -rollback until
next -dev or -indev, where it will be reset to
"auto".
-displacement [-]lba
Compensate a displacement of
the image versus the start address for which the image was
prepared. This affects only loading of ISO images and
reading of their files. The multi-session method of
growing is not allowed as long as -displacement is
non-zero. I.e. -indev and -outdev must be
different. The displacement gets reset to 0 before the drive
gets re-acquired after writing.
Examples:
If a track of a CD starts at block 123456 and gets copied to
a disk file where it begins at block 0, then this copy can
be loaded with
-displacement -123456
If an ISO image was written onto a partition with offset of
640000 blocks of 512 bytes, then it can be loaded from the
base device by
-load sbsector 160000 -displacement 160000
(If the partition start address is not divisible by 4, then
you will have to employ a loop device instead.)
In both cases, the ISO sessions should be self contained,
i.e. not add-on sessions to an ISO image outside their
track or partition.
-read_fs "any"|"norock"|"nojoliet"|"ecma119"
Specify which kind of
filesystem tree to load if present. If the wish cannot be
fulfilled, then ECMA-119 names are loaded and
converted according to -ecma119_map.
"any" first tries to read Rock Ridge. If not
present, Joliet is tried.
"norock" does not try Rock Ridge.
"nojoliet" does not try Joliet.
"ecma119" tries neither Rock Ridge nor Joliet.
-assert_volid pattern severity
Refuse to load ISO images with
volume IDs which do not match the given search pattern. When
refusing an image, give up the input drive and issue an
event of the given severity (like FAILURE, see
-abort_on). An empty search pattern accepts any image.
This command does not hamper the creation of an empty image
from blank input media and does not discard an already
loaded image.
-in_charset character_set_name
Set the character set from which to convert file names when loading an image. See paragraph "Character sets" for more explanations. When loading the written image after -commit the setting of -out_charset will be copied to -in_charset.
-auto_charset "on"|"off"
Enable or disable recording and
interpretation of the output character set name in an xattr
attribute of the image root directory. If enabled and if a
recorded character set name is found, then this name will be
used as name of the input character set when reading an
image.
Note that the default output charset is the local character
set of the terminal where xorriso runs. Before
attributing this local character set to the produced ISO
image, check whether the terminal properly displays all
intended filenames, especially exotic national
characters.
-hardlinks mode[:mode...]
Enable or disable loading and
recording of hardlink relations.
In default mode "off", iso_rr files lose their
inode numbers at image load time. Each iso_rr file object
which has no inode number at image generation time will get
a new unique inode number if -compliance is set to
new_rr.
Mode "on" preserves inode numbers from the loaded
image if such numbers were recorded. When committing a
session it searches for families of iso_rr files which stem
from the same disk file, have identical content filtering
and have identical properties. The family members all get
the same inode number. Whether these numbers are respected
at mount time depends on the operating system.
Command -lsl displays hardlink counts if
"lsl_count" is enabled. This can slow down the
command substantially after changes to the ISO image have
been made. Therefore the default is
"no_lsl_count".
Commands -update and -update_r track splits and
fusions of hard links in filesystems which have stable
device and inode numbers. This can cause automatic last
minute changes before the session gets written. Command
-hardlinks "perform_update" may be used to
do these changes earlier, e.g. if you need to apply filters
to all updated files.
Mode "without_update" avoids hardlink processing
during update commands. Use this if your filesystem
situation does not allow -disk_dev_ino "on".
xorriso commands which extract files from an ISO image
try to hardlink files with identical inode number. The
normal scope of this operation is from image load to image
load. One may give up the accumulated hard link addresses by
-hardlinks "discard_extract".
A large number of hardlink families may exhaust
-temp_mem_limit if not -osirrox
"sort_lba_on" and -hardlinks
"cheap_sorted_extract" are both in effect. This
restricts hard linking to other files restored by the same
single extract command. -hardlinks
"normal_extract" re-enables wide and
expensive hardlink accumulation.
-acl "on"|"off"
Enable or disable processing of ACLs. If enabled, then xorriso will obtain ACLs from disk file objects, store ACLs in the ISO image using the libisofs specific AAIP format, load AAIP data from ISO images, test ACL during file comparison, and restore ACLs to disk files when extracting them from ISO images. See also commands -getfacl, -setfacl.
-xattr "on"|"user"|"any"|"off"
Enable or disable processing of
xattr attributes. If enabled, then xorriso will
handle xattr similar to ACL. See also commands
-getfattr, -setfattr and above paragraph about
xattr.
Modes "on" and "user" read and write
only attributes from namespace "user".
Mode "any" processes attributes of all namespaces.
This might need administrator privileges, even if the owner
of the disk file tries to read or write the attributes.
Note that it is not possible to set xattr of namespace
"isofs." by xorriso xattr manipulation
commands.
-md5 "on"|"all"|"off"|"load_check_off"
Enable or disable processing of
MD5 checksums for the overall session and for each single
data file. If enabled then images with checksum tags get
loaded only if the tags of superblock and directory tree
match properly. The MD5 checksums of data files and whole
session get loaded from the image if there are any.
With commands -compare and -update the recorded
MD5 of a file will be used to avoid content reading from the
image. Only the disk file content will be read and compared
with that MD5. This can save much time if
-disk_dev_ino "on" is not suitable.
Commands which copy whole data files from ISO to hard disk
will verify the copied data stream by the recorded MD5, if
-osirrox "check_md5_on" is set.
At image generation time they are computed for each file
which gets its data written into the new session. The
checksums of files which have their data in older sessions
get copied into the new session. Superblock, tree and whole
session get a checksum tag each.
Mode "all" will additionally check during image
generation whether the checksum of a data file changed
between the time when its reading began and the time when it
ended. This implies reading every file twice.
Mode "load_check_off" together with "on"
or "all" will load recorded MD5 sums but not test
the recorded checksum tags of superblock and directory tree.
This is necessary if growisofs was used as burn program,
because it does not overwrite the superblock checksum tag of
the first session. Therefore load_check_off is in effect
when xorriso -as mkisofs option -M is
performed.
The test can be re-enabled by mode
"load_check_on".
Checksums can be exploited via commands -check_md5,
-check_md5_r, via find actions get_md5, check_md5, and
via -check_media.
-for_backup
Enable all extra features which
help to produce or to restore backups with highest fidelity
of file properties. Currently this is a shortcut for:
-hardlinks on -acl on -xattr any
-md5 on
If you restore a backup with xattr from non-user
namespaces, then make sure that the target operating system
and filesystem know what these attributes mean. Possibly you
will need administrator privileges to record or restore such
attributes. At recording time, xorriso will try to tolerate
missing privileges and just record what is readable. But at
restore time, missing privileges will cause failure events.
Command -xattr "user" after command
-for_backup excludes non-user attributes from
being recorded or restored.
-ecma119_map "stripped"|"unmapped"|"lowercase"|"uppercase"
Choose the conversion of file
names when a session gets loaded, if they stem neither from
a Rock Ridge name nor from a Joliet name.
Mode "stripped" is the default. It shows the names
as found in the ISO but removes trailing ";1" or
".;1" if present.
Mode "unmapped" shows names as found without
removing characters. Warning: Multi-session converts
"xyz;1" to "xyz_1" and maybe adds new
";1".
Mode "lowercase" is like "stripped" but
also maps uppercase letters to lowercase letters. This is
compatible to default GNU/Linux mount behavior.
Mode "uppercase" is like "stripped" but
maps lowercase letters to uppercase, if any occur despite
the prescriptions of ECMA-119.
-joliet_map "stripped"|"unmapped"
Choose the conversion of file
names when a session gets loaded from a Joliet tree.
Mode "stripped" is the default. It removes
trailing ";1" or ".;1" if present.
Mode "unmapped" shows names as found without
removing characters. Warning: Multi-session converts
"xyz;1" to "xyz_1" and maybe adds new
";1".
-iso_nowtime "dynamic"|timestring
Choose whether to use the
current time ("dynamic") or a fixed time point for
timestamps of ISO 9660 nodes without a disk source file and
as default for superblock timestamps.
If a timestring is given, then it is used for such
timestamps. For the formats of timestrings see command
-alter_date.
-disk_dev_ino "on"|"ino_only"|"off"
Enable or disable processing of
recorded file identification numbers (dev_t and ino_t). If
enabled they are stored as xattr and can substantially
accelerate file comparison. The root node gets a global
start timestamp. If during comparison a file with younger
timestamps is found in the ISO image, then it is suspected
to have inconsistent content.
If device numbers and inode numbers of the disk filesystems
are persistent and if no irregular alterations of timestamps
or system clock happen, then potential content changes can
be detected without reading that content. File content
change is assumed if any of mtime, ctime, device number or
inode number have changed.
Mode "ino_only" replaces the precondition that
device numbers are stable by the precondition that mount
points in the compared tree always lead to the same
filesystems. Use this if mode "on" always sees all
files changed.
The speed advantage appears only if the loaded session was
produced with -disk_dev_ino "on" too.
Note that -disk_dev_ino "off" is totally in
effect only if -hardlinks is "off", too.
-file_name_limit [+]number
Set the maximum permissible
length for file names in the range of 64 to 255. Path
components which are longer than the given number will get
truncated and have their last 33 bytes overwritten by a
colon ’:’ and the hex representation of the MD5
of the first 4095 bytes of the whole oversized name.
Potential incomplete UTF-8 characters will get their
leading bytes replaced by ’_’.
iso_rr_paths with the long components will still be able to
access the file paths with truncated components.
If -file_name_limit is executed while an ISO tree is
present, the file names in the ISO tree get checked for
existing truncated file names of the current limit and for
name collisions between newly truncated files and existing
files. In both cases, the setting will be refused with a
SORRY event.
One may lift this ban by prepending the character
"+" to the argument of -file_name_limit.
Truncated filenames may then get truncated again,
invalidating their MD5 part. Colliding truncated names are
made unique, consuming at least 9 more bytes of the
remaining name part.
If writing of xattr is enabled, then the length will be
stored in "isofs.nt" of the root directory. If
reading of xattr is enabled and "isofs.nt" is
found, then the found length will get into effect if it is
smaller than the current setting of -file_name_limit.
File name patterns will only work if they match the
truncated name. This might change in future.
Files with truncated names get deleted and re-added
unconditionally during -update and -update_r.
This might change in future.
Linux kernels up to at least 4.1 misrepresent names of
length 254 and 255. If you expect such names in or under
disk_paths and plan to mount the ISO by such Linux kernels,
consider to set -file_name_limit 253. Else just avoid
names longer than 253 characters.
-rom_toc_scan "on"|"force"|"off"[:"emul_off"][:"emul_wide"]
Read-only drives do not
tell the actual media type but show any media as ROM (e.g.
as DVD-ROM). The session history of MMC
multi-session media might be truncated to first and
last session or even be completely false. (The emulated
history of overwritable media is not affected by this.)
To have in case of failure a chance of getting the session
history and especially the address of the last session,
there is a scan for ISO 9660 filesystem headers which might
help but also might yield worse results than the
drive’s table of content. At its end it can cause read
attempts to invalid addresses and thus ugly drive behavior.
Setting "on" enables that scan for alleged
read-only media.
Some operating systems are not able to mount the most recent
session of multi-session DVD or BD. If on such a
system xorriso has no own MMC capabilities then it
may still find that session from a scanned table of content.
Setting "force" handles any media like a ROM
medium with setting "on".
On the other hand the emulation of session history on
overwritable media can hamper reading of partly damaged
media. Setting "off:emul_off" disables the
elsewise trustworthy table-of-content scan for
those media.
The table-of-content scan on overwritable media
normally searches only up to the end of the session that is
pointed to by the superblock at block 0. Setting
"on:emul_wide" lets the scan continue up to the
end of the medium. This may be useful after copying a medium
with -check_media patch_lba0=on when not the last
session was loaded.
-calm_drive "in"|"out"|"all"|"revoke"|"on"|"off"
Reduce drive noise until it is
actually used again. Some drives stay alert for substantial
time after they have been used for reading. This reduces the
startup time for the next drive operation but can be loud
and waste energy if no i/o with the drive is expected to
happen soon.
Modes "in", "out", "all"
immediately calm down -indev, -outdev, or both,
respectively. Mode "revoke" immediately alerts
both. Mode "on" causes -calm_drive to be
performed automatically after each -dev, -indev,
and -outdev. Mode "off" disables this.
-ban_stdio_write
Allow for writing only the usage of MMC optical drives. Disallow to write the result into files of nearly arbitrary type. Once set, this command cannot be revoked.
-early_stdio_test "on"|"appendable_wo"|"off"
If enabled by "on"
then regular files and block devices get tested for
effective access permissions. This implies to try opening
those files for writing, which otherwise will happen only
later and only if actual writing is desired.
The test result is used for classifying the pseudo drives as
overwritable, read-only, write-only, or
uselessly empty. This may lead to earlier detection of
severe problems, and may avoid some less severe error
events.
Mode "appendable_wo" is like "on" with
the additional property that non-empty
write-only files are regarded as appendable rather
than blank.
-data_cache_size number_of_tiles blocks_per_tile
Set the size and granularity of
the data cache which is used when ISO images are loaded and
when file content is read from ISO images. The cache
consists of several tiles, which each consists of several
blocks. A larger cache reduces the need for tiles being read
multiple times. Larger tiles might additionally improve the
data throughput from the drive, but can be wasteful if the
data are scattered over the medium.
Larger cache sizes help best with image loading from MMC
drives. They are an inferior alternative to -osirrox
option "sort_lba_on".
blocks_per_tile must be a power of 2. E.g. 16, 32, or 64.
The overall cache size must not exceed 1 GiB. The default
values can be restored by parameter "default"
instead of one or both of the numbers. Currently the default
is 32 tiles of 32 blocks = 2 MiB.
Inserting files into ISO image:
The following
commands expect file addresses of two kinds:
disk_path is a path to an object in the local filesystem
tree.
iso_rr_path is the Rock Ridge name of a file object in
the ISO image. If no Rock Ridge information is recorded in
the loaded ISO image, then you will see ISO 9660 names which
are of limited length and character set. If no Rock Ridge
information shall be stored in an emerging ISO image, then
their names will get mapped to such restricted ISO 9660 (aka
ECMA-119) names.
Note that in the ISO image you are as powerful as the superuser. Access permissions of the existing files in the image do not apply to your write operations. They are intended to be in effect with the read-only mounted image.
If the
iso_rr_path of a newly inserted file leads to an existing
file object in the ISO image, then the following collision
handling happens:
If both objects are directories then they get merged by
recursively inserting the subobjects from filesystem into
ISO image. If other file types collide then the setting of
command -overwrite decides.
Renaming of files has similar collision handling, but
directories can only be replaced, not merged. Note that if
the target directory exists, then -mv inserts the
source objects into this directory rather than attempting to
replace it. Command -move, on the other hand, would
attempt to replace it.
The commands in
this section alter the ISO image and not the local
filesystem.
-disk_pattern
"on"|"ls"|"off"
Set the pattern expansion mode
for the disk_path parameters of several commands which
support this feature.
Setting "off" disables this feature for all
commands which are marked in this man page by
"disk_path [***]" or "disk_pattern
[***]".
Setting "on" enables it for all those commands.
Setting "ls" enables it only for those which are
marked by "disk_pattern [***]".
Default is "ls".
-add pathspec [...] | disk_path [***]
Insert the given files or
directory trees from filesystem into the ISO image.
If -pathspecs is set to "on" or
"as_mkisofs" then pattern expansion is always
disabled and character ’=’ has a special
meaning. It separates the ISO image path from the disk path:
iso_rr_path=disk_path
Character ’=’ in the iso_rr_path must be escaped
by ’\’ (i.e. as "\=").
With -pathspecs "on", the character
’\’ must not be escaped. The character
’=’ in the disk_path must not be escaped.
With -pathspecs "as_mkisofs", all characters
’\’ must be escaped in both, iso_rr_path and
disk_path. The character ’=’ may or may not be
escaped in the disk_path.
If iso_rr_path does not begin with ’/’ then
-cd is prepended. If disk_path does not begin with
’/’ then -cdx is prepended.
If no ’=’ is given then the word is used as
both, iso_rr_path and disk path. If in this case the word
does not begin with ’/’ then -cdx is
prepended to the disk_path and -cd is prepended to the
iso_rr_path.
If -pathspecs is set to "off" then
-disk_pattern expansion applies, if enabled. The
resulting words are used as both, iso_rr_path and disk path.
Relative path words get prepended the setting of -cdx
to disk_path and the setting of -cd to
iso_rr_path.
-add_plainly mode
If set to mode
"unknown" then any command word that does not
begin with "-" and is not recognized as
known command will be subject to a virtual -add
command. I.e. it will be used as pathspec or as disk_path
and added to the image. If enabled, -disk_pattern
expansion applies to disk_paths.
Mode "dashed" is similar to "unknown"
but also adds unrecognized command words even if they begin
with "-".
Mode "any" announces that all further words are to
be added as pathspecs or disk_paths. This does not work in
dialog mode.
Mode "none" is the default. It prevents any words
from being understood as files to add, if they are not
parameters to appropriate commands.
-path_list disk_path
Like -add but read the parameter words from file disk_path or standard input if disk_path is "-". The list must contain exactly one pathspec or disk_path pattern per line.
-quoted_path_list disk_path
Like -path_list but with quoted input reading rules. Lines get split into parameter words for -add. Whitespace outside quotes is discarded.
-map disk_path iso_rr_path
Insert file object disk_path into the ISO image as iso_rr_path. If disk_path is a directory then its whole sub tree is inserted into the ISO image.
-map_single disk_path iso_rr_path
Like -map, but if disk_path is a directory then its sub tree is not inserted.
-map_l disk_prefix iso_rr_prefix disk_path [***]
Perform -map with each of the disk_path parameters. iso_rr_path will be composed from disk_path by replacing disk_prefix by iso_rr_prefix.
-update disk_path iso_rr_path
Compare file object disk_path
with file object iso_rr_path. If they do not match, then
perform the necessary image manipulations to make
iso_rr_path a matching copy of disk_path. By default this
comparison will imply lengthy content reading before a
decision is made. Commands -disk_dev_ino or -md5
may accelerate comparison if they were already in effect
when the loaded session was recorded.
If disk_path is a directory and iso_rr_path does not exist
yet, then the whole subtree will be inserted. Else only
directory attributes will be updated.
-update_r disk_path iso_rr_path
Like -update but working
recursively. I.e. all file objects below both addresses get
compared whether they have counterparts below the other
address and whether both counterparts match. If there is a
mismatch then the necessary update manipulation is done.
Note that the comparison result may depend on command
-follow. Its setting should always be the same as with
the first adding of disk_path as iso_rr_path.
If iso_rr_path does not exist yet, then it gets added. If
disk_path does not exist, then iso_rr_path gets deleted.
-update_l disk_prefix iso_rr_prefix disk_path [***]
Perform -update_r with each of the disk_path parameters. iso_rr_path will be composed from disk_path by replacing disk_prefix by iso_rr_prefix.
-update_li iso_rr_prefix disk_prefix iso_rr_path [***]
Perform -update_r with each of the iso_rr_path parameters. disk_path will be composed from iso_rr_path by replacing iso_rr_prefix by disk_prefix.
-update_lxi disk_prefix iso_rr_prefix disk_path [***]
Perform -update_r with
each of the disk_path parameters and with iso_rr_paths in
the ISO filesystem which are derived from the disk_path
parameters after exchanging disk_prefix by iso_rr_prefix.
So, other than -update_l, this detects missing matches
of disk_path and deletes the corresponding iso_rr_path.
Note that relative disk_paths and disk_path patterns are
interpreted as sub paths of the current disk working
directory -cdx. The corresponding iso_rr_paths are
derived by exchanging disk_prefix by iso_rr_prefix before
pattern expansion happens. The current -cdi directory
has no influence.
-cut_out disk_path byte_offset byte_count iso_rr_path
Map a byte interval of a
regular disk file or of a device file into a regular file in
the ISO image. The file depicted by disk_path has to support
random read access.
Cutting out a byte interval may be necessary if the disk
file is larger than a single medium, or if it exceeds the
traditional limit of 2 GiB - 1 for old operating
systems, or the limit of 4 GiB - 1 for newer ones.
Contemporary Linux kernels are able to read properly files
>= 4 GiB - 1.
A clumsy remedy for such limits is to backup file pieces and
to concatenate them at restore time. A well tested chopping
size is 2047m. It is permissible to request a higher
byte_count than available. The resulting file will be
truncated to the correct size of a final piece. To request a
byte_offset higher than available yields no file in the ISO
image but a SORRY event. E.g:
-cut_out /my/disk/file 0 2047m \
/file/part_1_of_3_at_0_with_2047m_of_5753194821 \
-cut_out /my/disk/file 2047m 2047m \
/file/part_2_of_3_at_2047m_with_2047m_of_5753194821 \
-cut_out /my/disk/file 4094m 2047m \
/file/part_3_of_3_at_4094m_with_2047m_of_5753194821
If the directory /file does no yet exist, then its
permissions are not taken from directory /my/disk but rather
from /my/disk/file with additional x-permission for
those who have r-permission.
While command -split_size is set larger than 0, and if
all pieces of a file reside in the same ISO directory with
no other files, and if the names look like above, then their
ISO directory will be recognized and handled like a regular
file. This affects commands -compare*, -update*,
and overwrite situations.
See command -split_size for details.
Another use case is copying the content of a device file as
interval or as a whole into the emerging ISO filesystem. The
fact that the byte_count is allowed to be unreasonably high
enables copying of a whole device:
-cut_out /dev/sdd3 0 1000g /content_of_sdd3
-cpr disk_path [***] iso_rr_path
Insert the given files or
directory trees from filesystem into the ISO image.
The rules for generating the ISO addresses are similar as
with shell command cp -r. Nevertheless, directories of
the iso_rr_path are created if necessary. Especially a not
yet existing iso_rr_path will be handled as directory if
multiple disk_paths are present. The leafnames of the
multiple disk_paths will be grafted under that directory as
would be done with an existing directory.
If a single disk_path is present then a non-existing
iso_rr_path will get the same type as the disk_path.
If a disk_path does not begin with ’/’ then
-cdx is prepended. If the iso_rr_path does not begin
with ’/’ then -cd is prepended.
-mkdir iso_rr_path [...]
Create empty directories if they do not exist yet. Existence as directory generates a WARNING event, existence as other file causes a FAILURE event.
-lns target_text iso_rr_path
Create a symbolic link with
address iso_rr_path which points to target_text. iso_rr_path
may not exist yet.
Hint: Command -clone produces the ISO equivalent of a
hard link.
-clone iso_rr_path_original iso_rr_path_copy
Create a copy of the ISO file
object iso_rr_path_original with the new address
iso_rr_path_copy. If the original is a directory then copy
all files and directories underneath. If
iso_rr_path_original is a boot catalog file, then it gets
not copied but is silently ignored.
The copied ISO file objects have the same attributes. Copied
data files refer to the same content source as their
originals. The copies may then be manipulated independendly
of their originals.
This command will refuse execution if the address
iso_rr_path_copy already exists in the ISO tree.
-cp_clone iso_rr_path_original [***] iso_rr_path_dest
Create copies of one or more
ISO file objects as with command -clone. In case of
collision merge directories with existing ones, but do not
overwrite existing ISO file objects.
The rules for generating the copy addresses are the same as
with command -cpr (see above) or shell command cp
-r. Other than with -cpr, relative
iso_rr_path_original will get prepended the -cd path
and not the -cdx path. Consider to -mkdir
iso_rr_path_dest before -cp_clone so the copy address
does not depend on the number of iso_rr_path_original
parameters.
Settings for file insertion:
-file_size_limit value [value [...]] --
Set the maximum permissible
size for a single data file. The values get summed up for
the actual limit. If the only value is "off" then
the file size is not limited by xorriso. Default is a
limit of 100 extents, 4g -2k each:
-file_size_limit 400g -200k --
When mounting ISO 9660 filesystems, old operating systems
can handle only files up to 2g -1 --.
Newer ones are good up to 4g -1 --. You
need quite a new Linux kernel to read correctly the final
bytes of a file >= 4g if its size is not aligned to 2048
byte blocks.
xorriso’s own data read capabilities are not
affected by operating system size limits. Such limits apply
to mounting only. Nevertheless, the target filesystem of an
-extract must be able to take the file size.
-not_mgt code[:code[...]]
Control the behavior of the
exclusion lists.
Exclusion processing happens before disk_paths get mapped to
the ISO image, before disk files get compared with image
files, and before image files get extracted to disk files.
The absolute disk paths involved in such an action are
matched against the -not_paths list. The leafnames of
disk paths are matched against the patterns in the
-not_leaf list. If a match is detected then the disk
path will not be regarded as an existing file and not be
added to the ISO image.
Several codes are defined. The _on/_off settings persist
until they are revoked by their_off/_on counterparts.
"erase" empties the lists which were accumulated
by -not_paths and -not_leaf.
"reset" is like "erase" but also
re-installs default behavior.
"off" disables exclusion processing temporarily
without invalidating the lists and settings.
"on" re-enables exclusion processing.
"param_off" applies exclusion processing only to
paths below disk_path parameter of commands. I.e. explicitly
given disk_paths are exempted from exclusion processing.
"param_on" applies exclusion processing to command
parameters as well as to files below such parameters.
"subtree_off" with "param_on" excludes
parameter paths only if they match a -not_paths item
exactly.
"subtree_on" additionally excludes parameter paths
which lead to a file address below any -not_paths
item.
"ignore_off" treats excluded disk files as if they
were missing. I.e. they get reported with -compare and
deleted from the image with -update.
"ignore_on" keeps excluded files out of
-compare or -update activities.
-not_paths disk_path [***]
Add the given paths to the list
of excluded absolute disk paths. If a given path is
relative, then the current -cdx is prepended to form
an absolute path. Pattern matching, if enabled, happens at
definition time and not when exclusion checks are made.
Keep in mind that there may be alternative paths to the same
disk file. The exclusion tests are done literally, so that
they do not keep files from getting into the ISO filesystem
by other paths. Accordingly an exclusion does not prevent a
disk file from being overwritten by file extraction via an
alternative not excluded path. So the exlusions need to be
coordinated with the actual disk_path parameters given with
commands.
(Do not forget to end the list of disk_paths by
"--")
-not_leaf pattern
Add a single shell parser style pattern to the list of exclusions for disk leafnames. These patterns are evaluated when the exclusion checks are made.
-not_list disk_path
Read lines from disk_path and use each of them either as -not_paths parameter, if they contain a / character, or as -not_leaf pattern.
-quoted_not_list disk_path
Like -not_list but with quoted input reading rules. Each word is handled as one parameter for -not_paths or -not_leaf.
-follow occasion[:occasion[...]]
Enable or disable resolution of
symbolic links and mountpoints under disk_paths. This
applies to actions -add, -du*x, -ls*x,
-findx, -concat, and to -disk_pattern
expansion.
There are three kinds of follow decisison to be made:
link is the hop from a symbolic link to its target file
object for the purpose of reading. I.e. not for command
-concat. If enabled then symbolic links are handled as
their target file objects, else symbolic links are handled
as themselves.
mount is the hop from one filesystem to another
subordinate filesystem. If enabled then mountpoint
directories are handled as any other directory, else
mountpoints are handled as empty directories if they are
encountered in directory tree traversals.
concat is the hop from a symbolic link to its target
file object for the purpose of writing. I.e. for command
-concat. This is a security risk !
Less general than above occasions:
pattern is mount and link hopping, but only during
-disk_pattern expansion.
param is link hopping for parameter words (after
eventual pattern expansion). If enabled then -ls*x
will show the link targets rather than the links themselves.
-du*x, -findx, and -add will process the
link targets but not follow links in an eventual directory
tree below the targets (unless "link" is enabled).
Occasions can be combined in a colon separated list. All
occasions mentioned in the list will then lead to a positive
follow decision.
off prevents any positive follow decision. Use it if no
other occasion applies.
Shortcuts:
default is equivalent to
"pattern:mount:limit=100".
on always decides positive. Equivalent to
"link:mount:concat".
Not an occasion
but an optional setting is:
limit=<number> which sets the maximum number of
link hops. A link hop consists of a sequence of symbolic
links and a final target of different type. Nevertheless
those hops can loop. Example:
$ ln -s .. uploop
Link hopping has a built-in loop detection which stops
hopping at the first repetition of a link target. Then the
repeated link is handled as itself and not as its target.
Regrettably one can construct link networks which cause
exponential workload before their loops get detected. The
number given with "limit=" can curb this workload
at the risk of truncating an intentional sequence of link
hops.
-pathspecs "on"|"off"|"as_mkisofs"
Control parameter
interpretation with xorriso actions -add and
-path_list.
Mode "as_mkisofs" enables pathspecs of the form
iso_rr_path=disk_path
like with program mkisofs -graft-points.
All characters ’\’ must be escaped in both,
iso_rr_path and disk_path. The character ’=’
must be escaped in the iso_rr_path and may or may not be
escaped in the disk_path. This mode temporarily disables
-disk_pattern expansion for command -add.
Mode "on" does nearly the same. But
’=’ must only be escaped in the iso_rr_path and
’\’ must not be escaped at all. This has the
disadvantage that one cannot express an iso_rr_path which
ends by ’\’.
Mode "off" disables pathspecs of the form
target=source and re-enables -disk_pattern
expansion.
-overwrite "on"|"nondir"|"off"
Allow or disallow overwriting
of existing files in the ISO image by files with the same
name.
With setting "off", name collisions with at least
one non-directory file cause FAILURE events.
Collisions of two directories lead to merging of their file
lists.
With setting "nondir", only directories are
protected by such events, other existing file types get
treated with -rm before the new file gets added.
Setting "on" enables automatic -rm_r. I.e. a
non-directory can replace an existing directory and
all its subordinates.
If restoring of files is enabled, then the overwrite rule
applies to the target file objects on disk as well, but
"on" is downgraded to "nondir".
-split_size number["k"|"m"]
Set the threshold for automatic
splitting of regular files. Such splitting maps a large disk
file onto a ISO directory with several part files in it.
This is necessary if the size of the disk file exceeds
-file_size_limit. Older operating systems can handle
files in mounted ISO 9660 filesystems only if they are
smaller than 2 GiB or in other cases 4 GiB.
Default is 0 which will exclude files larger than
-file_size_limit by a FAILURE event. A well tested
-split_size is 2047m. Sizes above
-file_size_limit are not permissible.
The newly created ISO directory inherits its permissions
from the data file with additional x-permission for
those who have r-permission.
While command -split_size is set larger than 0 such a
directory with split file pieces will be recognized and
handled like a regular file by commands -compare* ,
-update*, and in overwrite situations. There are
-osirrox parameters "concat_split_on" and
"concat_split_off" which control the handling when
files get restored to disk.
In order to be recognizable, the names of the part files
have to describe the splitting by 5 numbers:
part_number,total_parts,byte_offset,byte_count,disk_file_size
which are embedded in the following text form:
part_#_of_#_at_#_with_#_of_#
Scaling characters like "m" or "k" are
taken into respect. All digits are interpreted as decimal,
even if leading zeros are present.
E.g: /file/part_1_of_3_at_0_with_2047m_of_5753194821
No other files are allowed in the directory. All parts have
to be present and their numbers have to be plausible. E.g.
byte_count must be valid as -cut_out parameter and
their contents may not overlap.
The following
commands manipulate files in the ISO image, regardless
whether they stem from the loaded image or were newly
inserted.
-iso_rr_pattern
"on"|"ls"|"off"
Set the pattern expansion mode
for the iso_rr_path parameters of several commands which
support this feature.
Setting "off" disables pattern expansion for all
commands which are marked in this man page by
"iso_rr_path [***]" or "iso_rr_pattern
[***]".
Setting "on" enables it for all those commands.
Setting "ls" enables it only for those which are
marked by "iso_rr_pattern [***]".
Default is "on".
-rm iso_rr_path [***]
Delete the given files from the
ISO image.
Note: This does not free any space on the -indev
medium, even if the deletion is committed to that same
medium.
The image size will shrink if the image is written to a
different medium in modification mode.
-rm_r iso_rr_path [***]
Delete the given files or directory trees from the ISO image. See also the note with command -rm.
-rmdir iso_rr_path [***]
Delete empty directories.
-move iso_rr_path iso_rr_path
Rename the file given by the first (origin) iso_rr_path to the second (destination) iso_rr_path. Deviate from rules of shell command mv by not moving the origin file underneath an existing destination directory. The origin file will rather replace such a directory, if this is allowed by command -overwrite.
-mv iso_rr_path [***] iso_rr_path
Rename the given file objects
in the ISO tree to the last parameter in the list. Use the
same rules as with shell command mv.
If pattern expansion is enabled and if the last parameter
contains wildcard characters then it must match exactly one
existing file address, or else the command fails with a
FAILURE event.
-chown uid iso_rr_path [***]
Set ownership of file objects in the ISO image. uid may either be a decimal number or the name of a user known to the operating system.
-chown_r uid iso_rr_path [***]
Like -chown but affecting all files below eventual directories.
-chgrp gid iso_rr_path [***]
Set group attribute of file objects in the ISO image. gid may either be a decimal number or the name of a group known to the operating system.
-chgrp_r gid iso_rr_path [***]
Like -chgrp but affecting all files below eventual directories.
-chmod mode iso_rr_path [***]
Equivalent to shell command
chmod in the ISO image. mode is either an octal number
beginning with "0" or a comma separated list of
statements of the form [ugoa]*[+-=][rwxst]* .
Like: go-rwx,u+rwx .
Personalities: u=user, g=group, o=others, a=all
Operators: + adds given permissions, - revokes
given permissions, = revokes all old permissions and then
adds the given ones.
Permissions: r=read, w=write, x=execute|inspect,
s=setuid|setgid, t=sticky bit
For octal numbers see man 2 stat.
-chmod_r mode iso_rr_path [***]
Like -chmod but affecting all files below eventual directories.
-setfacl acl_text iso_rr_path [***]
Attach the given ACL to the
given iso_rr_paths. If the files already have ACLs, then
those get deleted before the new ones get into effect. If
acl_text is empty, or contains the text "clear" or
the text "--remove-all", then
the existing ACLs will be removed and no new ones will be
attached. Any other content of acl_text will be interpreted
as a list of ACL entries. It may be in the long
multi-line format as put out by -getfacl but may
also be abbreviated as follows:
ACL entries are separated by comma or newline. If an entry
is empty text or begins with "#" then it will be
ignored. A valid entry has to begin by a letter out of
{ugom} for "user", "group",
"other", "mask". It has to contain two
colons ":". A non-empty text between those
":" gives a user id or group id. After the second
":" there may be letters out of {rwx- #}.
The first three give read, write, or execute permission.
Letters "-", " " and TAB are
ignored. "#" causes the rest of the entry to be
ignored. Letter "X" or any other letters are not
supported. Examples:
g:toolies:rw,u:lisa:rw,u:1001:rw,u::wr,g::r,o::r,m::rw
group:toolies:rw-,user::rw-,group::r--,other::r--,mask::rw-
A valid entry may be prefixed by "d", some
following characters and ":". This indicates that
the entry goes to the "default" ACL rather than to
the "access" ACL. Example:
u::rwx,g::rx,o::,d:u::rwx,d:g::rx,d:o::,d:u:lisa:rwx,d:m::rwx
-setfacl_r acl_text iso_rr_path [***]
Like -setfacl but affecting all files below eventual directories.
-setfacl_list disk_path
Read the output of
-getfacl_r or shell command getfacl -R and apply
it to the iso_rr_paths as given in lines beginning with
"# file:". This will change ownership, group and
ACL of the given files. If disk_path is "-"
then lines are read from standard input. Line "@"
ends the list, "@@@" aborts without changing the
pending iso_rr_path.
Since -getfacl and getfacl -R strip leading
"/" from file paths, the setting of -cd does
always matter.
-setfattr [-]name value iso_rr_path [***]
Attach the given xattr pair of
name and value to the given iso_rr_paths. If the given name
is prefixed by "-", then the pair with that
name gets removed from the xattr list. If name is
"--remove-all" then all user
namespace xattr of the given iso_rr_paths get deleted. In
case of deletion, value must be an empty text.
Which names are permissible depends on the setting of
command -xattr. "on" or "user"
restricts them to namespace "user". I.e. a name
has to look like "user.x" or
"user.whatever".
-xattr setting "any" enables names from all
namespaces except "isofs".
Values and names undergo the normal input processing of
xorriso. See also command -backslash_codes.
Other than with command -setfattr_list, the byte value
0 cannot be expressed via -setfattr.
-setfattr_r [-]name value iso_rr_path [***]
Like -setfattr but affecting all files below eventual directories.
-setfattr_list disk_path
Read the output format of
-getfattr_r or shell command getfattr -Rd and
apply it to the iso_rr_paths as given in lines beginning
with "# file:". All previously existing xattr of
the acceptable namespaces will be deleted before the new
xattr get attached. The set of acceptable names depends on
the setting of command -xattr.
If disk_path is "-" then lines are read from
standard input.
Since -getfattr and getfattr -Rd strip leading
"/" from file paths, the setting of -cd does
always matter.
Empty input lines and lines which begin by "#"
will be ignored (except "# file:"). Line
"@" ends the list, "@@@" aborts without
changing the pending iso_rr_path. Other input lines must
have the form
name="value"
The separator "=" is not allowed in names. Value
may contain any kind of bytes. It must be in quotes.
Trailing whitespace after the end quote will be ignored.
Non-printables bytes and quotes must be represented as
\XYZ by their octal 8-bit code XYZ. Use code \000 for
0-bytes.
-alter_date type timestring iso_rr_path [***]
Alter the date entries of files
in the ISO image. type may be one of the following:
"a" sets access time, updates ctime.
"m" sets modification time, updates ctime.
"b" sets access time and modification time,
updates ctime.
"a-c", "m-c", and
"b-c" set the times without updating ctime.
"c" sets the ctime.
timestring may be in the following formats (see also section
EXAMPLES):
As expected by program date:
MMDDhhmm[[CC]YY][.ss]]
As produced by program date:
[Day] MMM DD hh:mm:ss [TZON] YYYY
Relative times counted from current clock time:
+|-Number["s"|"h"|"d"|"w"|"m"|"y"]
where "s" means seconds, "h" hours,
"d" days, "w" weeks, "m"=30d,
"y"=365.25d plus 1d added to multiplication
result.
Absolute seconds counted from Jan 1 1970:
=Number
xorriso’s own timestamps:
YYYY.MM.DD[.hh[mm[ss]]]
scdbackup timestamps:
YYMMDD[.hhmm[ss]]
where "A0" is year 2000, "B0" is 2010,
etc.
ECMA-119 volume timestamps:
YYYYMMDDhhmmsscc
These are normally given as GMT. The suffix "LOC"
causes local timezone conversion. E.g. 2013010720574700,
2013010720574700LOC. The last two digits cc (centiseconds)
will be ignored, but must be present in order to make the
format recognizable.
Example:
-alter_date m-c 2013.11.27.103951 /file1 /file2
--
This command does not persistently apply to the boot
catalog, which gets fresh timestamps at -commit time.
Command -volume_date "uuid" can set this
time value.
-alter_date_r type timestring iso_rr_path [***]
Like -alter_date but affecting all files below eventual directories.
-hide hide_state iso_rr_path [***]
Prevent the names of the given
files from showing up in the directory trees of ISO 9660
and/or Joliet and/or HFS+ when the image gets written. The
data content of such hidden files will be included in the
resulting image, even if they do not show up in any
directory. But you will need own means to find nameless data
in the image.
Warning: Data which are hidden from the ISO 9660 tree will
not be copied by the write method of modifying.
Possible values of hide_state are: "iso_rr" for
hiding from ISO 9660 tree, "joliet" for Joliet
tree, "hfsplus" for HFS+, "on" for them
all. "off" means visibility in all directory
trees.
These values may be combined. E.g.: joliet:hfsplus
This command does not apply to the boot catalog. Rather use:
-boot_image "any"
"cat_hidden=on"
Tree traversal command -find:
-find iso_rr_path [test [op] [test ...]] [-exec
action [params]] --
A restricted substitute for
shell command find in the ISO image. It performs an action
on matching file objects at or below iso_rr_path.
If not used as last command in the line then the parameter
list needs to get terminated by "--".
Tests are optional. If they are omitted then action is
applied to all file objects. If tests are given then they
form together an expression. The action is applied only if
the expression matches the file object. Default expression
operator between tests is -and, i.e. the expression
matches only if all its tests match.
Available tests are:
-name pattern : Matches if pattern matches the
file leaf name. If the pattern does not contain any of the
characters "*?[", then it will be truncated
according to -file_name_limit and thus match the
truncated name in the ISO filesystem.
-wholename pattern : Matches if pattern matches
the file path as it would be printed by action
"echo". Character ’/’ can be matched
by wildcards. If pattern pieces between ’/’ do
not contain any of the characters "*?[", they will
be truncated according to -file_name_limit.
-disk_name pattern : Like -name but testing
the leaf name of the file source on disk. Can match only
data files which do not stem from the loaded image, or for
directories above such data files. With directories the
result can change between -find runs if their content
stems from multiple sources.
-disk_path disk_path : Matches if the given
disk_path is equal to the path of the file source on disk.
The same restrictions apply as with -disk_name.
-type type_letter : Matches files of the given
type: "block", "char", "dir",
"pipe", "file", "link",
"socket", "eltorito", and
"Xotic" which matches what is not matched by the
other types.
Only the first letter is interpreted. E.g.: -find /
-type d
-size [+-][=]number[cwbdksmg] : Matches files with
matching relation to the given size number.
The prefix defines the desired relation:
No prefix or prefix "=" means: File must have
exactly the given size.
Prefix "+" means: File must be larger than given
size.
Prefix "+=" means: File must be larger than or
equal to given size limit.
Prefix "-" means: File must be smaller than
given size limit.
Prefix "-=" means: File must be smaller than
or equal to given size limit.
Suffixes are peculiar to stay compatible with program
"find":
No suffix means blocks of 512 bytes, "c" means
single bytes, "w" means 2 bytes, "b"
means 512 bytes. The suffixes "k", "M",
and "G" mean 1024, 1024k, and 1024M respectively.
As usual with xorriso, the suffixes "d" and
"s" mean 512 and 2048 and all suffixes are
recognized as both, uppercase and lowercase letters.
E.g. match files of 4 GiB or larger:
-size +=4g
-maxdepth number : Matches only files which are at
most at the given depth level relative to the iso_rr_path
where -find starts. That path itself is at depth 0,
its directory children are at 1, their directory children at
2, and so on.
-mindepth number : Matches only files which are at
least at the given depth level.
-damaged : Matches files which use data blocks
marked as damaged by a previous run of -check_media.
The damage info vanishes when a new ISO image gets loaded.
Note that a MD5 session mismatch marks all files of the
session as damaged. If finer distinction is desired, perform
-md5 off before -check_media.
-pending_data : Matches files which get their
content from outside the loaded ISO image.
-lba_range start_lba block_count : Matches files
which use data blocks within the range of start_lba and
start_lba+block_count-1.
-has_acl : Matches files which have a
non-trivial ACL.
-has_xattr : Matches files which have xattr
name-value pairs from user namespace.
-has_aaip : Matches files which have ACL or any
xattr.
-has_any_xattr : Matches files which have any
xattr other than ACL.
-has_md5 : Matches data files which have MD5
checksums.
-has_hfs_crtp creator type : Matches files which
have the given HFS+ creator and type attached. These are
codes of 4 characters which get stored if -hfsplus is
enabled. Use a single dash ’-’ as wildcard
that matches any such code. E.g:.
-has_hfs_crtp YYDN TEXT
-has_hfs_crtp - -
-has_hfs_bless blessing : Matches files which bear
the given HFS+ blessing. It may be one of :
"ppc_bootdir", "intel_bootfile",
"show_folder", "os9_folder",
"osx_folder", "any". See also action
set_hfs_bless.
-has_filter : Matches files which are filtered by
-set_filter.
-hidden hide_state : Matches files which are
hidden in "iso_rr" tree, in "joliet"
tree, in "hfsplus" tree, in all trees
("on"), or not hidden in any tree
("off").
Those which are hidden in some tree match -not
-hidden "off".
-bad_outname namespace : Matches files with names
which change when converted forth and back between the local
character set and one of the namespaces
"rockridge", "joliet",
"ecma119", "hfsplus".
All applicable -compliance rules are taken into
respect. Rule "omit_version" is always enabled,
because else namespaces "joliet" and
"ecma119" would cause changes with every
non-directory name. Consider to also enable rules
"no_force_dots" and "no_j_force_dots".
The namespaces use different character sets and apply
further restrictions to name length, permissible characters,
and mandatory name components. "rockridge" uses
the character set defined by -out_charset,
"joliet" uses UCS-2BE, "ecma119"
uses ASCII, "hfsplus" uses UTF-16BE.
-name_limit_blocker length : Matches file names
which would prevent command -file_name_limit with the
given length. The command itself reports only the first
problem file.
-prune : If this test is reached and the tested
file is a directory then -find will not dive into that
directory. This test itself does always match.
-use_pattern "on"|"off" : This
pseudo test controls the interpretation of wildcards with
tests -name, -wholename, and -disk_name.
Default is "on". If interpretation is disabled by
"off", then the parameters of -name,
-wholename, and -disk_name have to match
literally rather than as search pattern. This test itself
does always match.
-or_use_pattern "on"|"off" :
Like -use_pattern, but automatically appending the
test by -or rather than by -and. Further the
test itself does never match. So a subsequent test -or
will cause its other operand to be performed.
-decision "yes"|"no" : If this
test is reached then the evaluation ends immediately and
action is performed if the decision is "yes" or
"true". See operator -if.
-true and -false : Always match or
match not, respectively. Evaluation goes on.
-sort_lba : Always match. This causes -find
to perform its action in a sequence sorted by the ISO image
block addresses of the files. It may improve throughput with
actions which read data from optical drives. Action will
always get the absolute path as parameter.
Available operators are:
-not : Matches if the next test or sub expression
does not match. Several tests do this specifically:
-undamaged, -lba_range with negative start_lba,
-has_no_acl, -has_no_xattr, -has_no_aaip,
-has_no_filter .
-and : Matches if both neighboring tests or
expressions match.
-or : Matches if at least one of both neighboring
tests or expressions matches.
-sub ... -subend or ( ...
) : Enclose a sub expression which gets evaluated
first before it is processed by neighboring operators.
Normal precedence is: -not, -or , -and.
-if ... -then ...
-elseif ... -then ...
-else ... -endif : Enclose one or
more sub expressions. If the -if expression matches,
then the -then expression is evaluated as the result
of the whole expression up to -endif. Else the next
-elseif expression is evaluated and if it matches, its
-then expression. Finally in case of no match, the
-else expression is evaluated. There may be more than
one -elseif. Neither -else nor -elseif are
mandatory. If -else is missing and would be hit, then
the result is a non-match.
-if-expressions are the main use case for above
test -decision.
Default action
is echo, i.e. to print the address of the found file.
Other actions are certain xorriso commands which get
performed on the found files. These commands may have
specific parameters. See also their particular descriptions.
chown and chown_r change the ownership and get
the user id as parameter. E.g.: -exec chown thomas
--
chgrp and chgrp_r change the group attribute and
get the group id as parameter. E.g.: -exec chgrp_r
staff --
chmod and chmod_r change access permissions and
get a mode string as parameter. E.g.: -exec chmod
a-w,a+r --
alter_date and alter_date_r change the
timestamps. They get a type character and a timestring as
parameters.
E.g.: -exec alter_date "m" "Dec 30
19:34:12 2007" --
set_to_mtime sets the ctime and atime to the value found
in mtime.
lsdl prints file information like shell command ls
-dl.
compare performs command -compare with the found
file address as iso_rr_path and the corresponding file
address below its parameter disk_path_start. For this the
iso_rr_path of the -find command gets replaced by the
disk_path_start.
E.g.: -find /thomas -exec compare /home/thomas
--
update performs command -update with the found
file address as iso_rr_path. The corresponding file address
is determined like with above action "compare".
update_merge is like update but does not delete the
found file if it is missing on disk. It may be run several
times and records with all visited files whether their
counterpart on disk has already been seen by one of the
update_merge runs. Finally, a -find run with action
"rm_merge" may remove all files that saw no
counterpart on disk.
Up to the next "rm_merge" or
"clear_merge" all newly inserted files will get
marked as having a disk counterpart.
rm removes the found iso_rr_path from the image if it is
not a directory with files in it. I.e. this "rm"
includes "rmdir".
rm_r removes the found iso_rr_path from the image,
including whole directory trees.
rm_merge removes the found iso_rr_path if it was visited
by one or more previous actions "update_merge" and
saw no counterpart on disk in any of them. The marking from
the update actions is removed in any case.
clear_merge removes an eventual marking from action
"update_merge".
report_damage classifies files whether they hit a data
block that is marked as damaged. The result is printed
together with the address of the first damaged byte, the
maximum span of damages, file size, and the path of the
file.
report_lba prints files which are associated to image
data blocks. It tells the logical block address, the block
number, the byte size, and the path of each file. There may
be reported more than one line per file if the file has more
than one section. In this case each line has a different
extent number in column "xt".
report_sections like report_lba but telling the byte
sizes of the particular sections rather than the overall
byte size of the file.
getfacl prints access permissions in ACL text form to
the result channel.
setfacl attaches ACLs after removing existing ones. The
new ACL is given in text form as defined with command
-setfacl.
E.g.: -exec setfacl
u:lisa:rw,u::rw,g::r,o::-,m::rw --
getfattr prints xattr name-value pairs to the
result channel. The choice of namespaces depends on the
setting of command -xattr: "on" or
"user" restricts it to the namespace
"user", "any" only omits namespace
"isofs".
get_any_xattr prints xattr name-value pairs from
any namespace except ACL to the result channel. This is
mostly for debugging of namespace "isofs".
list_extattr mode prints a script to the result channel,
which would use FreeBSD command setextattr to set the
file’s xattr name-value pairs of user namespace.
Parameter mode controls the form of the output of names and
values. Default mode "e" prints harmless
characters in shell quotation marks, but represents texts
with octal 001 to 037 and 0177 to 0377 by an embedded echo
-e command. Mode "q" prints any characters
in shell quotation marks. This might not be
terminal-safe but should work in script files. Mode
"r" uses no quotation marks. Not safe. Mode
"b" prints backslash encoding. Not suitable for
shell parsing.
E.g. -exec list_extattr e --
Command -backslash_codes does not affect the output.
get_md5 prints the MD5 sum, if recorded, together with
file path.
check_md5 compares the MD5 sum, if recorded, with the
file content and reports if mismatch.
E.g.: -find / -not -pending_data
-exec check_md5 FAILURE --
make_md5 equips a data file with an MD5 sum of its
content. Useful to upgrade the files in the loaded image to
full MD5 coverage by the next commit with -md5
"on".
E.g.: -find / -type f -not -has_md5
-exec make_md5 --
setfattr sets or deletes xattr name value pairs.
E.g.: -find / -has_xattr -exec setfattr
--remove-all ’’ --
set_hfs_crtp adds, changes, or removes HFS+ creator and
type attributes.
E.g.: -exec set_hfs_crtp YYDN TEXT
E.g.: -find /my/dir -prune -exec
set_hfs_crtp --delete -
get_hfs_crtp prints the HFS+ creator and type attributes
together with the iso_rr_path, if the file has such
attributes at all.
E.g.: -exec get_hfs_crtp
set_hfs_bless applies or removes HFS+ blessings. They
are roles which can be attributed to up to four directories
and a data file:
"ppc_bootdir", "intel_bootfile",
"show_folder", "os9_folder",
"osx_folder".
They may be abbreviated as "p", "i",
"s", "9", and "x".
Each such role can be attributed to at most one file object.
"intel_bootfile" is the one that would apply to a
data file. All others apply to directories. The -find
run will end as soon as the first blessing is issued. The
previous bearer of the blessing will lose it then. No file
object can bear more than one blessing.
E.g.: -find /my/blessed/directory -exec
set_hfs_bless p
Further there is blessing "none" or "n"
which revokes any blessing from the found files. This
-find run will not stop when the first match is
reached.
E.g.: -find / -has_hfs_bless any -exec
set_hfs_bless none
get_hfs_bless prints the HFS+ blessing role and the
iso_rr_path, if the file is blessed at all.
E.g.: -exec get_hfs_bless
set_filter applies or removes filters.
E.g.: -exec set_filter --zisofs
--
mkisofs_r applies the rules of mkisofs -r to the
file object:
user id and group id become 0, all r-permissions get
granted, all w denied. If there is any x-permission,
then all three x get granted. s- and t-bits get
removed.
sort_weight attributes a LBA weight number to regular
files.
The number may range from -2147483648 to 2147483647.
The higher it is, the lower will be the block address of the
file data in the emerging ISO image. Currently the boot
catalog has a hardcoded weight of 1 billion. Normally it
should occupy the block with the lowest possible address.
Data files which are loaded by -indev or -dev
get a weight between 1 and 2 exp 28 = 268,435,456, depending
on their block address. This shall keep them roughly in the
same order if the write method of modifying is applied.
Data files which are added by other commands get an initial
weight of 0. Boot image files have a default weight of 2.
E.g.: -exec sort_weight 3 --
show_stream shows the content stream chain of a data
file.
show_stream_id is like show_stream, but also prints
between stream type and first ":" in square
brackets libisofs id numbers: [fs_id,dev_id,ino_id].
hide brings the file into one of the hide states
"on", "iso_rr", "joliet",
"hfsplus", "off". They may be combined.
E.g.: joliet:hfsplus
E.g.:
-find / -disk_name *_secret -exec hide on
print_outname prints in the first line the filename as
registered by the program model, and in the second line the
filename after conversion forth and back between local
character set and one of the namespaces
"rockridge", "joliet",
"ecma119", or "hfsplus". The third
output line is "--" .
The name conversion does not take into respect the
possibility of name collisions in the target namespace. Such
collisions are most likely in "joliet" and
"ecma119", where they get resolved by automatic
file name changes.
E.g.:
-find / -bad_outname joliet -exec
print_outname joliet
estimate_size prints a lower and an upper estimation of
the number of blocks which the found files together will
occupy in the emerging ISO image. This does not account for
the superblock, for the directories in the -find path,
or for image padding.
find performs another run of -find on the matching
file address. It accepts the same params as -find,
except iso_rr_path.
E.g.:
-find / -name ’???’ -type d
-exec find -name ’[abc]*’
-exec chmod a-w,a+r --
Filters for data file content:
Filters
may be installed between data files in the ISO image and
their content source outside the image. They may also be
used vice versa between data content in the image and target
files on disk.
Built-in filters are "--zisofs"
and "--zisofs-decode". The
former is to be applied via -set_filter, the latter is
automatically applied if zisofs compressed content is
detected with a file when loading the ISO image.
Another built-in filter pair is
"--gzip" and
"--gunzip" with suffix
".gz". They behave about like external gzip and
gunzip but avoid forking a process for each single file. So
they are much faster if there are many small files.
-external_filter name option[:option] program_path
[arguments] --
Register a content filter by
associating a name with a program path, program arguments,
and some behavioral options. Once registered it can be
applied to multiple data files in the ISO image, regardless
whether their content resides in the loaded ISO image or in
the local filesystem. External filter processes may produce
synthetic file content by reading the original content from
stdin and writing to stdout whatever they want. They must
deliver the same output on the same input in repeated runs.
Options are:
"default" means that no other option is intended.
"suffix=..." sets a file name suffix. If it is not
empty then it will be appended to the file name or removed
from it.
"remove_suffix" will remove a file name suffix
rather than appending it.
"if_nonempty" will leave 0-sized files
unfiltered.
"if_reduction" will try filtering and revoke it if
the content size does not shrink.
"if_block_reduction" will revoke if the number of
2 kB blocks does not shrink.
"used=..." is ignored. Command -status shows
it with the number of files which currently have the filter
applied.
Examples:
-external_filter bzip2 suffix=.bz2:if_block_reduction
\
/usr/bin/bzip2 --
-external_filter bunzip2 suffix=.bz2:remove_suffix \
/usr/bin/bunzip2 --
-unregister_filter name
Remove an -external_filter registration. This is only possible if the filter is not applied to any file in the ISO image.
-close_filter_list
Irrevocably ban commands -concat "pipe", -external_filter, and -unregister_filter, but not -set_filter. Use this to prevent external filtering in general or when all intended filters are registered and -concat mode "pipe" shall be disallowed. External filters may also be banned totally at compile time of xorriso. By default they are banned if xorriso runs under setuid permission.
-set_filter name iso_rr_path [***]
Apply an -external_filter
or a built-in filter to the given data files in the
ISO image. If the filter suffix is not empty , then it will
be applied to the file name. Renaming only happens if the
filter really gets attached and is not revoked by its
options. By default files which already bear the suffix will
not get filtered. The others will get the suffix appended to
their names. If the filter has option
"remove_suffix", then the filter will only be
applied if the suffix is present and can be removed. Name
oversize or collision caused by suffix change will prevent
filtering.
With most filter types this command will immediately run the
filter once for each file in order to determine the output
size. Content reading operations like -extract ,
-compare and image generation will perform further
filter runs and deliver filtered content.
At image generation time the filter output must still be the
same as the output from the first run. Filtering for image
generation does not happen with files from the loaded ISO
image if the write method of growing is in effect (i.e
-indev and -outdev are identical).
The reserved filter name
"--remove-all-filters"
revokes filtering. This will revoke suffix renamings as
well. Use
"--remove-all-filters+" to
prevent any suffix renaming.
Attaching or detaching filters will not alter the state of
-changes_pending. If the filter manipulations shall be
the only changes in a write run, then explicitly execute
-changes_pending "yes".
-set_filter_r name iso_rr_path [***]
Like -set_filter but affecting all data files below eventual directories.
Writing the result, drive control:
(see also
paragraph about settings below)
-rollback
Discard the manipulated ISO image and reload it from -indev. (Use -rollback_end if immediate program end is desired.)
-changes_pending "no"|"yes"|"mkisofs_printed"|"show_status"
Write runs are performed only
if a change of the image has been made since the image was
loaded or created blank. Vice versa the program will start a
write run for pending changes when it ends normally (i.e.
not by abort and not by command -rollback_end).
The command -changes_pending can be used to override
the automatically determined state. This is mainly useful
for setting state "yes" despite no real changes
were made. The sequence -changes_pending
"no" -end is equivalent to the command
-rollback_end. State "mkisofs_printed" is
caused by emulation command -as mkisofs if option
-print-size is present.
The pseudo-state "show_status" can be used
to print the current state to result channel.
Image loading or manipulations which happen after this
command will again update automatically the change status of
the image.
-commit
Perform the write operation.
Afterwards, if -outdev is readable, make it the new
-dev and load the image from there. Switch to growing
mode. (A subsequent -outdev will activate modification
mode or blind growing.) -commit is performed
automatically at end of program if there are uncommitted
manipulations pending.
So, to perform a final write operation with no new
-dev and no new loading of image, rather execute
command -end. If you want to go on without image
loading, execute -commit_eject "none". To
eject after write without image loading, use
-commit_eject "all".
To suppress a final write, execute -rollback_end.
Writing can last quite a while. It is not unnormal with several types of media that there is no progress visible for the first few minutes or that the drive gnaws on the medium for a few minutes after all data have been transmitted. xorriso and the drives are in a client-server relationship. The drives have much freedom about what to do with the media. Some combinations of drives and media simply do not work, despite the promises by their vendors. If writing fails then try other media or another drive. The reason for such failure is hardly ever in the code of the various burn programs but you may well try some of those listed below under SEE ALSO.
-eject "in"|"out"|"all"
Eject the medium in -indev, -outdev, or both drives, respectively. Note: It is not possible yet to effectively eject disk files.
-commit_eject "in"|"out"|"all"|"none"
Combined -commit and -eject. When writing has finished do not make -outdev the new -dev, and load no ISO image. Rather eject -indev and/or -outdev. Give up any non-ejected drive.
-blank mode
Make media ready for writing
from scratch (if not -dummy is activated).
This affects only the -outdev not the -indev. If
both drives are the same and if the ISO image was altered
then this command leads to a FAILURE event. Defined modes
are:
as_needed, fast, all, deformat, deformat_quickest
"as_needed" cares for used CD-RW,
DVD-RW and for used overwritable media by applying
-blank "fast". It applies -format
"full" to yet unformatted DVD-RAM and
BD-RE. Other media in blank state are gracefully
ignored. Media which cannot be made ready for writing from
scratch cause a FAILURE event.
"fast" makes CD-RW and unformatted
DVD-RW re-usable, or invalidates overwritable
ISO images. "all" might work more thoroughly and
need more time.
"deformat" converts overwritable DVD-RW into
unformatted ones.
"deformat_quickest" is a faster way to deformat or
blank DVD-RW but produces media which are only
suitable for a single session. Some drives announce this
state by not offering feature 21h, but some drives offer it
anyway. If feature 21h is missing, then xorriso will
refuse to write on DVD-RW if not command -close
is set to "on".
The progress reports issued by some drives while blanking
are quite unrealistic. Do not conclude success or failure
from the reported percentages. Blanking was successful if no
SORRY event or worse occurred.
Mode may be prepended by "force:" in order to
override the evaluation of the medium state by libburn. E.g.
"force:fast". Blanking will nevertheless only
succeed if the drive is willing to do it.
-format mode
Convert unformatted
DVD-RW into overwritable ones,
"de-ice" DVD+RW, format newly purchased
BD-RE or BD-R, re-format DVD-RAM or
BD-RE.
Defined modes are:
as_needed, full, fast, by_index_<num>,
fast_by_index_<num>,
by_size_<num>, fast_by_size_<num>, without_spare
"as_needed" formats yet unformatted DVD-RW,
DVD-RAM, BD-RE, or blank unformatted BD-R.
Other media are left untouched.
"full" (re-)formats DVD-RW, DVD+RW,
DVD-RAM, BD-RE, or blank unformatted BD-R.
"fast" does the same as "full" but tries
to be quicker.
"by_index_" selects a format out of the descriptor
list issued by command -list_formats. The index number
from that list is to be appended to the mode word. E.g:
"by_index_3".
"fast_by_index_" does the same as
"by_index_" but tries to be quicker.
"by_size_" selects a format out of the descriptor
list which provides at least the given size. That size is to
be appended to the mode word. E.g:
"by_size_4100m". This applies to media with Defect
Management. On BD-RE it will not choose format 0x31,
which offers no Defect Management.
"fast_by_size_" does the same as
"by_size_" but tries to be quicker.
"without_spare" selects the largest format out of
the descriptor list which provides no Spare Area for Defect
Management. On BD-RE this will be format 0x31.
The formatting action has no effect on media if -dummy
is activated.
Formatting is normally needed only once during the lifetime
of a medium, if ever. But it is a reason for
re-formatting if:
DVD-RW was deformatted by -blank,
DVD+RW has read failures (re-format before next
write),
DVD-RAM or BD-RE shall change their amount of
defect reserve.
BD-R may be written unformatted or may be formatted
before first use. Formatting activates Defect Management
which tries to catch and repair bad spots on media during
the write process at the expense of half speed even with
flawless media.
The progress reports issued by some drives while formatting
are quite unrealistic. Do not conclude success or failure
from the reported percentages. Formatting was successful if
no SORRY event or worse occurred. Be patient with apparently
frozen progress.
-list_formats
Put out a list of format
descriptors as reported by the output drive for the current
medium. The list gives the index number after "Format
idx", a MMC format code, the announced size in blocks
(like "2236704s") and the same size in MiB.
MMC format codes are manifold. Most important are:
"00h" general formatting, "01h"
increases reserve space for DVD-RAM, "26h"
for DVD+RW, "30h" for BD-RE with reserve
space, "31h" for BD-RE without reserve
space, "32h" for BD-R.
Smaller format size with DVD-RAM, BD-RE, or
BD-R means more reserve space.
-list_speeds
Put out a list of speed values
as reported by the drives with the loaded media. The list
tells read speeds of the input drive and of the output
drive. Further it tells write speeds of the output drive.
The list of write speeds does not necessarily mean that the
medium is writable or that these speeds are actually
achievable. Especially the lists reported with empty drive
or with ROM media obviously advertise speeds for other
media.
It is not mandatory to use speed values out of the listed
range. The drive is supposed to choose a safe speed that is
as near to the desired speed as possible.
At the end of the list, "Write speed L" and
"Write speed H" are the best guesses for lower and
upper write speed limit. "Write speed l" and
"Write speed h" may appear only with CD and
eventually override the list of other speed offers.
Only if the drive reports contradicting speed information
there will appear "Write speed 0", which tells the
outcome of speed selection by command -speed 0, if it
deviates from "Write speed H".
"Read speed L" and "Read speed H" tell
the minimum and maximum read speeds, as reported by the
drive. They would be chosen by -read_speed
"min" or "max" if they undercut or
surpass the built-in limits. These are "1x",
"52xCD", "24xDVD",
"20xBD".
-list_profiles "in"|"out"|"all"
Put out a list of media types supported by -indev, -outdev, or both, respectively. The currently recognized type is marked by text "(current)".
-truncate_overwritable entity id adjust
On overwritable medium copy the
volume descriptors of an existing session to the overall
descriptors at LBA 0 ff. This makes all sessions
inaccessible which are younger than the activated
one. A reason to do this would be read errors in the younger
sessions and the wish to re-write or skip them.
This operation is only allowed if no changes to the loaded
filesystem are pending. If an -indev is acquired then
it is released before the write operation begins and
re-acquired only in case of success.
The parameters "entity" and "id" have
the same meaning as with command -load. They choose
the existing ISO session which shall become the youngest
accessible session. Available entity names are
"session", "track", "lba",
"sbsector", "volid". "auto"
makes few sense. id is a number or search text as
appropriate for the given entity.
Parameter "adjust" controls the claimed size of
the activated session. Text "new" means the size
of the newly activated session as it was before this
command. I.e. the space of the then inaccessible younger
sessions will be re-used when appending more sessions.
"old" means the size up to the end of the
previously youngest session. I.e. "old" will not
free the space of the then inaccessible younger sessions for
re-use.
A number preceded by "+" gives the number of bytes
to be added to "new". A number without
"+" gives the overall number of bytes. In any case
the result may not be smaller than "new". Numbers
may have a unit suffix: "d"=512,
"k"=1024, "s"=2048, "m"=1024k,
"g"=1024m.
Normally the volume descriptors at block 16 ff. have to be
readable. Only with entity "lba" or
"sbsector" and adjust mode "new" it is
possible to address a session if block 16 ff. yields no
valid volume descriptors.
Examples:
Activate session 4 and enable overwriting of the blocks of
younger sessions:
-truncate_overwritable session 4 new
Activate session 4 and claim the blocks of younger sessions
as useless part of session 4:
-truncate_overwritable session 4 old
Let session 4 claim additional 500 MiB as useless data:
-truncate_overwritable session 4 +500m
-close_damaged "as_needed"|"force"
Try to close the upcoming track
and session if the drive reported the medium as damaged.
This may apply to CD-R, CD-RW, DVD-R,
DVD-RW, DVD+R, DVD+R DL, or BD-R media. It is
indicated by warning messages when the drive gets acquired,
and by a remark "but next track is damaged" with
the line "Media status :" of command -toc.
The setting of command -close determines whether the
medium stays appendable.
Mode "as_needed" gracefully refuses on media which
are not reported as damaged. Mode "force" attempts
the close operation even with media which appear undamaged.
No image changes are allowed to be pending before this
command is performed. After closing was attempted, both
drives are given up.
Rock Ridge info
will be generated by default. ACLs will be written according
to the setting of command -acl.
-joliet "on"|"off"
If enabled by "on", generate Joliet tree additional to ISO 9660 + Rock Ridge tree.
-hfsplus "on"|"off"
If enabled by "on",
generate a HFS+ filesystem inside the ISO 9660 image and
mark it by Apple Partition Map (APM) entries in the System
Area, the first 32 KiB of the image.
This may collide with data submitted by -boot_image
system_area=. The first 8 bytes of the System Area get
overwritten by { 0x45, 0x52, 0x08 0x00, 0xeb, 0x02, 0xff,
0xff } which can be executed as x86 machine code without
negative effects. So if an MBR gets combined with this
feature, then its first 8 bytes should contain no essential
commands.
The next blocks of 2 KiB in the System Area will be occupied
by APM entries. The first one covers the part of the ISO
image before the HFS+ filesystem metadata. The second one
marks the range from HFS+ metadata to the end of file
content data. If more ISO image data follow, then a third
partition entry gets produced. Other features of xorriso
might cause the need for more APM entries.
The HFS+ filesystem is not suitable for add-on
sessions produced by the multi-session method of
growing. An existing ISO image may nevertheless be the base
for a new image produced by the method of modifying. If
-hfsplus is enabled when -indev or -dev
gets executed, then AAIP attributes get loaded from the
input image and checked for information about HFS creator,
filetype, or blessing. If found, then they get enabled as
settings for the next image production. Therefore it is
advisable to perform -hfsplus "on" before
-indev or -dev.
Information about HFS creator, type, and blessings gets
stored by xorriso if -hfsplus is enabled at
-commit time. It is stored as copy outside the HFS+
partition, but rather along with the Rock Ridge information.
xorriso does not read any information from the HFS+ meta
data.
Be aware that HFS+ is case-insensitive although it can
record file names with upper-case and lower-case
letters. Therefore, file names from the iso_rr name tree may
collide in the HFS+ name tree. In this case they get changed
by adding underscore characters and counting numbers. In
case of very long names, it might be necessary to map them
to "MANGLED_...".
WARNING:
The HFS+ implementation in libisofs has a limit of
125,829,120 bytes for the size of the overall directory
tree. This suffices for about 300,000 files of normal name
length. If the limit gets exceeded, a FAILURE event will be
issued and the ISO production will not happen.
-rockridge "on"|"off"
Mode "off" disables production of Rock Ridge information for the ISO 9660 file objects. The multi-session capabilities of xorriso depend much on the naming fidelity of Rock Ridge. So it is strongly discouraged to deviate from default setting "on".
-compliance rule[:rule...]
Adjust the compliance to
specifications of ISO 9660/ECMA-119 and its
contemporary extensions. In some cases it is worth to
deviate a bit in order to circumvent bugs of the intended
reader system or to get unofficial extra features.
There are several adjustable rules which have a keyword
each. If they are mentioned with this command then their
rule gets added to the relaxation list. This list can be
erased by rules "strict" or "clear". It
can be reset to its start setting by "default".
All of the following relaxation rules can be revoked
individually by appending "_off". Like
"deep_paths_off".
Rule keywords are:
"iso_9660_level="number chooses level 1 with
ECMA-119 names of the form 8.3 and
-file_size_limit <= 4g - 1, or level 2 with
ECMA-119 names up to length 32 and the same
-file_size_limit, or level 3 with ECMA-119 names
up to length 32 and -file_size_limit >= 400g
-200k. If necessary -file_size_limit gets
adjusted.
"allow_dir_id_ext" allows ECMA-119 names of
directories to have a name extension as with other file
types. It does not force dots and it omits the version
number, though. This is a bad tradition of mkisofs which
violates ECMA-119. Especially ISO level 1 only allows
8 characters in a directory name and not 8.3.
"omit_version" does not add versions
(";1") to ECMA-119 and Joliet file names.
"only_iso_version" does not add versions
(";1") to Joliet file names.
"deep_paths" allows ECMA-119 file paths
deeper than 8 levels.
"long_paths" allows ECMA-119 file paths
longer than 255 characters.
"long_names" allows up to 37 characters with
ECMA-119 file names.
"no_force_dots" does not add a dot to
ECMA-119 file names which have none.
"no_j_force_dots" does not add a dot to Joliet
file names which have none.
"lowercase" allows lowercase characters in
ECMA-119 file names.
"7bit_ascii" allows nearly all 7-bit
characters in ECMA-119 file names. Not allowed are 0x0
and ’/’. If not "lowercase" is
enabled, then lowercase letters get converted to uppercase.
"full_ascii" allows all 8-bit characters
except 0x0 and ’/’ in ECMA-119 file names.
"untranslated_names" might be dangerous for
inadverted reader programs which rely on the restriction to
at most 37 characters in ECMA-119 file names. This
rule allows ECMA-119 file names up to 96 characters
with no character conversion. If a file name has more
characters, then image production will fail deliberately.
"untranslated_name_len="number enables
untranslated_names with a smaller limit for the length of
file names. 0 disables this feature, -1 chooses
maximum length limit, numbers larger than 0 give the desired
length limit.
"joliet_long_names" allows Joliet leaf names up to
103 characters rather than 64.
"joliet_long_paths" allows Joliet paths longer
than 240 characters.
"joliet_utf16" encodes Joliet names in
UTF-16BE rather than UCS-2. The difference is
with characters which are not present in UCS-2 and get
encoded in UTF-16 by 2 words of 16 bit each. Both
words then stem from a reserved subset of UCS-2.
"always_gmt" stores timestamps in GMT
representation with timezone 0.
"rec_mtime" records with non-RockRidge
directory entries the disk file’s mtime and not the
creation time of the image. This applies to the
ECMA-119 tree (plain ISO 9660), to Joliet, and to ISO
9660:1999. "rec_mtime" is default. If disabled, it
gets automatically re-enabled by -as mkisofs
emulation when a pathspec is encountered.
"new_rr" uses Rock Ridge version 1.12 (suitable
for GNU/Linux but not for older FreeBSD or for Solaris).
This implies "aaip_susp_1_10_off" which may be
changed by subsequent "aaip_susp_1_10".
Default is "old_rr" which uses Rock Ridge version
1.10. This implies also "aaip_susp_1_10" which may
be changed by subsequent "aaip_susp_1_10_off".
"aaip_susp_1_10" allows AAIP to be written as
unofficial extension of RRIP rather than as official
extension under SUSP-1.12.
"no_emul_toc" saves 64 kB with the first session
on overwritable media but makes the image incapable of
displaying its session history.
"iso_9660_1999" causes the production of an
additional directory tree compliant to ISO 9660:1999. It can
record long filenames for readers which do not understand
Rock Ridge.
"old_empty" uses the old way of of giving block
addresses in the range of [0,31] to files with no own data
content. The new way is to have a dedicated block to which
all such files will point.
"max_ce_entries="number sets the maximum number of
SUSP CE entries and thus continuation areas. Each
continuation area can hold at most 2048 bytes of SUSP data
(Rock Ridge or AAIP). The first area can be smaller. There
might be some waste at the end of each area. When the
maximum number is exceeded during ISO filesystem production
then either xattr and ACL get dropped from the affected file
or an error gets reported and image production is prevented.
Linux silently ignores a file when encountering its 32th CE
entry. (Workaround is to mount the filesystem with option
"norock".) So the default setting is 31. Minimum
is 1, maximum is 100000. If a limit higher than 31 is chosen
and 31 gets surpassed, then a warning message gets reported.
"max_ce_drop="mode sets the behavior when the
limit of max_ce_entries= is surpassed. Mode "off"
causes an error message and prevents image production. Mode
"xattr" and "xattr_acl" report a
warning, delete from the affected file all xattr of
namespaces other than "isofs", and then try again.
If this still surpasses the limit, then mode
"xattr_acl" deletes all ACL from the file and
retries. If this still surpasses the limit, then an error
message gets reported and image production is prevented.
Default setting is
"clear:iso_9660_level=3:only_iso_version:deep_paths:long_paths:
no_j_force_dots:always_gmt:rec_mtime:old_rr:max_ce_entries=31:
max_ce_drop=xattr_acl"
Note: The term "ECMA-119 name" means the
plain ISO 9660 names and attributes which get visible if the
reader ignores Rock Ridge.
-rr_reloc_dir name
Specify the name of the
relocation directory in which deep directory subtrees shall
be placed if -compliance is set to
"deep_paths_off" or "long_paths_off". A
deep directory is one that has a chain of 8 parent
directories (including root) above itself, or one that
contains a file with an ECMA-119 path of more than 255
characters.
The overall directory tree will appear originally deep when
interpreted as Rock Ridge tree. It will appear as
re-arranged if only ECMA-119 information is
considered.
The default relocation directory is the root directory. By
giving a non-empty name with -rr_reloc_dir, a
directory in the root directory may get this role. If that
directory does not already exist at -commit time, then
it will get created and marked for Rock Ridge as relocation
artefact. At least on GNU/Linux it will not be displayed in
mounted Rock Ridge images.
The name must not contain a ’/’ character and
must not be longer than 255 bytes.
-volid text
Specify the volume ID, which
most operating systems will consider to be the volume name
of the image or medium.
xorriso accepts any text up to 32 characters, but
according to rarely obeyed specs stricter rules apply:
ECMA-119 demands ASCII characters out of
[A-Z0-9_]. Like:
"IMAGE_23"
Joliet allows 16 UCS-2 characters. Like:
"Windows name"
Be aware that the volume id might get used automatically as
the name of the mount point when the medium is inserted into
a playful computer system.
If an ISO image gets loaded while the volume ID is set to
default "ISOIMAGE" or to "", then the
volume ID of the loaded image will become the effective
volume id for the next write run. But as soon as command
-volid is performed afterwards, this pending ID is
overridden by the new setting.
Consider this when setting -volid "ISOIMAGE"
before executing -dev, -indev, or
-rollback. If you insist in -volid
"ISOIMAGE", set it again after those commands.
-volset_id text
Set the volume set ID string to be written with the next -commit. Permissible are up to 128 characters. This setting gets overridden by image loading.
-publisher text
Set the publisher ID string to be written with the next -commit. This may identify the person or organisation who specified what shall be recorded. Permissible are up to 128 characters. This setting gets overridden by image loading.
-application_id text
Set the application ID string
to be written with the next -commit. This may identify
the specification of how the data are recorded. Permissible
are up to 128 characters. This setting gets overridden by
image loading.
The special text "@xorriso@" gets converted to the
ID string of xorriso which is normally written as
-preparer_id. It is a wrong tradition to write the
program ID as -application_id.
-system_id text
Set the system ID string to be written with the next -commit. This may identify the system which can recognize and act upon the content of the System Area in image blocks 0 to 15. Permissible are up to 32 characters. This setting gets overridden by image loading.
-volume_date type timestring
Set one of the four overall
timestamps for subsequent image writing. Available types
are:
"c" time when the volume was created.
"m" time when volume was last modified.
"x" time when the information in the volume
expires.
"f" time since when the volume is effectively
valid.
"all_file_dates" sets mtime, atime, and ctime of
all files and directories to the given time. If the
timestring is "set_to_mtime", then the atime and
ctime of each file and directory get set to the value found
in their mtime.
These actions stay delayed until actual ISO production
begins. Up to then they can be revoked by
"all_file_dates" with empty timestring or
timestring "default".
The timestamps of the El Torito boot catalog file get
refreshed when the ISO is produced. They can be influenced
by "uuid".
"uuid" sets a timestring that overrides
"c" and "m" times literally and sets the
time of the El Torito boot catalog. It must consist of 16
decimal digits which form YYYYMMDDhhmmsscc, with YYYY
between 1970 and 2999. Time zone is GMT. It is supposed to
match this GRUB line:
search --fs-uuid --set
YYYY-MM-DD-hh-mm-ss-cc
E.g. 2010040711405800 is 7 Apr 2010 11:40:58 (+0
centiseconds).
Timestrings for the other types may be given as with command
-alter_date. Some of them are prone to timezone
computations. The timestrings "default" or
"overridden" cause default settings: "c"
and "m" will show the current time of image
creation. "x" and "f" will be marked as
insignificant. "uuid" will be deactivated.
At -commit time, some timestamps get set to the
maximum value of effectively written volume creation and
modification time: El Torito boot catalog, HFS+ superblock,
ECMA-119 file modification time if -compliance
"no_rec_mtime". The isohybrid MBR id is computed
from "uuid" if given, else from the effective
volume modification date.
-copyright_file text
Set the copyright file name to be written with the next -commit. This should be the ISO 9660 path of a file in the image which contains a copyright statement. Permissible are up to 37 characters. This setting gets overridden by image loading.
-abstract_file text
Set the abstract file name to be written with the next -commit. This should be the ISO 9660 path of a file in the image which contains an abstract statement about the image content. Permissible are up to 37 characters. This setting gets overridden by image loading.
-biblio_file text
Set the biblio file name to be written with the next -commit. This should be the ISO 9660 path of a file in the image which contains bibliographic records. Permissible are up to 37 characters. This setting gets overridden by image loading.
-preparer_id text
Set the preparer ID string to
be written with the next -commit. This may identify
the person or other entity which controls the preparation of
the data which shall be recorded. Normally this should be
the ID of xorriso and not of the person or program
which operates xorriso. Please avoid to change it.
Permissible are up to 128 characters.
The special text "@xorriso@" gets converted to the
ID string of xorriso which is default at program
startup.
Unlike other ID strings, this setting is not influenced by
image loading.
-application_use character|0xXY|disk_path
Specify the content of the
Application Use field which can take at most 512 bytes.
If the parameter of this command is empty, then the field is
filled with 512 0-bytes. If it is a single character,
then it gets repeated 512 times. If it begins by
"0x" followed by two hex digits
[0-9a-fA-F], then the digits are read as
byte value which gets repeated 512 times.
Any other parameter text is used as disk_path to open a data
file and to read up to 512 bytes from it. If the file is
smaller than 512 bytes, then the remaining bytes in the
field get set to binary 0.
This setting is not influenced by image loading.
-out_charset character_set_name
Set the character set to which file names get converted when writing an image. See paragraph "Character sets" for more explanations. When loading the written image after -commit the setting of -out_charset will be copied to -in_charset.
-uid uid
User id to be used for all files when the new ISO tree gets written to media.
-gid gid
Group id to be used for all files when the new ISO tree gets written to media.
-zisofs parameter[:parameters]
Set global parameters for
zisofs compression. This data format is recognized and
transparently uncompressed by some Linux kernels. It is to
be applied via command -set_filter with built-in
filter "--zisofs".
Note: This command is only permitted while no
--zisofs filters are applied to any files.
Parameters are:
"level="[0-9] zlib compression: 0=none,
1=fast,..., 9=slow
"block_size="32k|64k|128k sets the size of version
1 compression blocks.
"by_magic=on" enables an expensive test at image
generation time which checks files from disk whether they
already are zisofs compressed, e.g. by program mkzftree.
"by_magic=v2" enables processing of already
zisofs2 compressed files additionally to those of zisofs
version 1. "by_magic=off" disables both.
"version_2="off|as_needed|on controls compression
by experimental version zisofs2 which can encode files of
size 4 GiB or larger. The Linux kernel (as of 5.9) does not
yet know this format and will complain like
isofs: Unknown ZF compression algorithm: PZ
The files will then appear in their compressed form with
zisofs2 header, block pointer list, and compressed data.
zisofs2 is recognized by xorriso in files from loaded images
and gets equipped with --zisofs-decode
filters, unless restrictions on the number of block pointers
prevent this.
Mode "off" restricts compression to files smaller
than 4 GiB uncompressed size. Mode "as_needed"
uses zisofs2 for larger files. Mode "on" uses
zisofs2 for all zisofs compressed files.
"susp_z2="off|on controls production of SUSP
entries "Z2" instead of "ZF" with
zisofs2 compressed files. Unaware Linux kernels are supposed
to silently ignore "Z2" entries.
"block_size_v2="32k|64k|128k|256k|512k|1m sets the
size of compression blocks for zisofs2.
"bpt_target="-1|>0 sets a number of block
pointers per file, which is considered low enough to justify
a reduction of block size. If this number is larger than 0,
then block sizes smaller than the settings of block_size= or
block_size_v2= are tried whether they yield not more block
pointers than the given number. If so, the smallest suitable
block size is applied.
The inavoidable final block pointer counts. E.g. a file of
55 KiB has 3 block pointers if block size is 32k, and 2
block pointers with block size 64k.
bpt_target=-1 disables this automatic block size
adjustment.
"max_bpt="1k...128g sets the limit for the overall
allocated block pointer memory. Block pointers occupy
virtual memory while a file gets uncompressed and while a
file, which shall be compressed, waits for ISO filesystem
creation.
One pointer occupies 8 bytes of memory and governs
block_size or block_size_v2 uncompressed bytes. I.e. with
block size 128k, 1m of block pointer memory suffices for at
most 16g of uncompressed file size. Each file consumes one
end block pointer, independently of the file size. Partially
filled end blocks may further reduce the effective payload.
In case of overflow of the max_bpt limit while adding
compression filters the program tries to go on by discarding
all buffered block pointers of previously added
--zisofs filters. From then on all newly added
filters will discard their block pointers immediately after
being added. Discarded block pointers cause an additional
read and compression run of the input file during the
production of the ISO filesystem.
"max_bpt_f="1k...128g sets the limit for the
memory size of the block pointer list of a single file.
max_bpt_f is never larger than max_bpt. If either is set to
violate this rule, the other gets set to the same value. If
both values are the same before a change by max_bpt= or
max_bpt_f=, then both limits stick together unless the limit
is decreased by max_bpt_f=.
"bpt_free_ratio="-1|0.0...1.0 sets a
threshold for switching to block pointer discarding during
compression. If less than the given fraction of the
max_bpt_f= memory is free, then block pointers of
compression filters get discarded immediately after being
added. Value -1 disables this feature.
"default" is the same as
"level=6:block_size=32k:by_magic=off:
version_2=off:block_size_v2=128k:susp_z2=off:max_bpt=256m:max_bpt_f=256m:
bpt_free_ratio=-1".
-speed code|number[k|m|c|d|b]
Set the burn speed. Default is
"max" (or "0") = maximum speed as
announced by the drive. Further special speed codes are:
"min" (or "-1") selects minimum
speed as announced by the drive.
"none" avoids to send a speed setting command to
the drive before burning begins.
Speed can be given in media dependent numbers or as a
desired throughput per second in MMC compliant kB (= 1000)
or MB (= 1000 kB). Media x-speed factor can be set
explicitly by "c" for CD, "d" for DVD,
"b" for BD, "x" is optional.
Example speeds:
706k = 706kB/s = 4c = 4xCD
5540k = 5540kB/s = 4d = 4xDVD
If there is no hint about the speed unit attached, then the
medium in the -outdev will decide. Default unit is CD
= 176.4k.
MMC drives usually activate their own idea of speed and take
the speed value given by the burn program only as upper
limit for their own decision.
-stream_recording "on"|"off"|"full"|"data"|number
Setting "on" tries to
circumvent the management of defects on DVD-RAM,
BD-RE, or BD-R. Defect management keeps partly
damaged media usable. But it reduces write speed to half
nominal speed even if the medium is in perfect shape. For
the case of flawless media, one may use
-stream_recording "on" to get full speed.
"full" tries full speed with all write operations,
whereas "on" does this only above byte address
32s. One may give a number of at least 16s in order to set
an own address limit.
"data" causes full speed to start when superblock
and directory entries are written and writing of file
content blocks begins.
-dvd_obs "default"|"32k"|"64k"|"obs_pad"|"bdr_obs_exempt"
GNU/Linux specific: Set the
number of bytes to be transmitted with each write operation
to DVD or BD media. A number of 64 KB may improve throughput
with bus systems which show latency problems. The default
depends on media type, on command -stream_recording ,
and on compile time options.
On all systems: "obs_pad" pads the data of the
last write operation of a DVD-R[W] DAO session or
BD-R session up to the full size of an output chunk.
This padding has to be applied automatically to the other
DVD and BD media types, where it causes e.g. ISO images to
have trailing unclaimed blocks. Whether it is applied
automatically to BD-R depends on
"bdr_obs_exempt". "obs_pad" can be
disabled by "no_obs_pad".
"bdr_obs_exempt" exempts BD-R media from
automatic unconditional transaction end padding, provided
that this padding is not requested by "obs_pad"
and that no stream_recording is requested.
"bdr_obs_exempt" can be disabled by
"no_obs_exempt".
This is a new feature introduced with version 1.5.6. It
might become default in later versions.
-modesty_on_drive parameter[:parameters]
Control whether the drive
buffer shall be kept from getting completely filled.
Parameter "on" (or "1") keeps the
program from trying to write to the burner drive while its
buffer is in danger to be filled over a given limit. If this
limit is exceeded then the program will wait until the
filling reaches a given low percentage value.
This can ease the load on operating system and drive
controller and thus help with achieving better input
bandwidth if disk and burner are not on independent
controllers (like hda and hdb). It may also help with
throughput problems of simultaneous burns on different
burners with Linux kernels like 3.16, if one has reason not
to fix the problem by -scsi_dev_family "sg".
On the other hand it increases the risk of buffer underflow
and thus reduced write speed.
Some burners are not suitable because they report buffer
fill with granularity too coarse in size or time, or expect
their buffer to be filled to the top before they go to full
speed.
Parameters "off" or "0" disable this
feature.
The threshold for beginning to wait is given by parameter
"max_percent=". Parameter "min_percent="
defines the threshold for resuming transmission. Percentages
are permissible in the range of 25 to 100. Numbers in this
range without a prepended name are interpreted as
"on:min_percent=".
E.g.: -modesty_on_drive 75
The optimal values depend on the buffer behavior of the
drive.
Parameter "timeout_sec=" defines after which time
of unsuccessful waiting the modesty shall be disabled
because it does not work.
Parameter "min_usec=" defines the initial sleeping
period in microseconds. If the drive buffer appears to be
too full for sending more data, the program will wait the
given time and inquire the buffer fill state again. If
repeated inquiry shows not enough free space, the sleep time
will slowly be increased to what parameter
"max_usec=" defines.
Parameters, which are not mentioned with a
-modesty_on_drive command, stay unchanged. Default is:
-modesty_on_drive off:min_percent=90:max_percent=95:
timeout_sec=120:min_usec=5000:max_usec=25000
-use_immed_bit "on"|"off"|"default"
Control whether several long
lasting SCSI commands shall be executed with the Immed bit,
which makes the commands end early while the drive operation
is still going on. xorriso then inquires progress indication
until the drive reports to be ready again. If this feature
is turned off, then blanking and formatting will show no
progress indication.
It may depend on the operating system whether
-use_immed_bit is set to "off" by default.
Command -status will tell by appending "/on"
or "/off" if a drive has already been acquired and
-use_immed_bit is currently set to
"default". Command -use_immed_bit tolerates
and ignores such appended text.
-stdio_sync "on"|"off"|"end"|number
Set the number of bytes after which to force output to stdio: pseudo drives. This forcing keeps the memory from being clogged with lots of pending data for slow devices. Default "on" is the same as "16m". Forced output can be disabled by "off", or be delayed by "end" until all data are produced. If a number is chosen, then it must be at least 64k.
-dummy "on"|"off"
If "on" then simulate burning or refuse with FAILURE event if no simulation is possible, do neither blank nor format.
-fs number["k"|"m"]
Set the size of the fifo buffer which smoothens the data stream from ISO image generation to media burning. Default is 4 MiB, minimum 64 kiB, maximum 1 GiB. The number may be followed by letter "k" or "m" which means unit is kiB (= 1024) or MiB (= 1024 kiB).
-close "on"|"off"|"as_needed"
If -close is set to
"on" then mark the written medium as not
appendable any more. This will have no effect on
overwritable media types. Setting "on" is the
contrary of cdrecord option -multi, and is one aspect
of growisofs option -dvd-compat.
If set to "off" then keep the medium writable for
an appended session.
If set to "as_needed" then use "on" only
if "off" is predicted to fail with the given
medium and its state.
Not all drives correctly recognize fast-blanked
DVD-RW which need "on". If there is well
founded suspicion that a burn run failed due to -close
"off", then -close "as_needed"
causes a re-try with "on".
Note that emulation command -as "cdrecord"
temporarily overrides the current setting of -close by
its own default -close "on" if its option
-multi is missing.
-write_type "auto"|"tao"|"sao/dao"
Set the write type for the next burn run. "auto" will select SAO with blank CD media, DAO with blank DVD-R[W] if -close is "on", and elsewise CD TAO or the equivalent write type of the particular DVD/BD media. Choosing TAO or SAO/DAO explicitly might cause the burn run to fail if the desired write type is not possible with the given media state.
-padding number["k"|"m"]|"included"|"appended"
Append the given number of
extra bytes to the image stream. This is a traditional
remedy for a traditional bug in block device read drivers.
Needed only for CD recordings in TAO mode. Since one can
hardly predict on what media an image might end up,
xorriso adds the traditional 300k of padding by
default to all images.
For images which will never get to a CD it is safe to use
-padding 0 .
Normally padding is not written as part of the ISO image but
appended after the image end. This is -padding mode
"appended".
Emulation command -as "mkisofs" and command
-jigdo cause padding to be written as part of the
image. The same effect is achieved by -padding mode
"included".
Contrary to
published specifications many BIOSes will load an El Torito
record from the first session on media and not from the last
one, which gets mounted by default. This makes no problems
with overwritable media, because they appear to inadverted
readers as one single session.
But with multi-session media CD-R[W],
DVD-R[W], DVD+R, it implies that the whole bootable
system has to reside already in the first session and that
the last session still has to bear all files which the
booted system expects after mounting the ISO image.
If a boot image from ISOLINUX or GRUB is known to be present
on media then it is advised to patch it when a
follow-up session gets written. But one should not
rely on the capability to influence the bootability of the
existing sessions, unless one can assume overwritable media.
Normally the boot images are data files inside the ISO
filesystem. By special path
"--interval:appended_partition_NNN:all::"
it is possible to refer to an appended partition. The number
NNN gives the partition number as used with the
corresponding command -append_partition. E.g.:
-append_partition 2 0xef /tmp/efi.img
-boot_image any
efi_path=--interval:appended_partition_2:all::
There are booting mechanisms which do not use an El Torito
record but rather start at the first bytes of the image:
PC-BIOS MBR or EFI GPT for hard-disk-like
devices, APM partition entries for Macs which expect HFS+
boot images, MIPS Volume Header for old SGI computers, DEC
Boot Block for old MIPS DECstation, SUN Disk Label for SPARC
machines, HP-PA boot sector for HP PA-RISC
machines, DEC Alpha SRM boot sector for old DEC Alpha
machines.
Several of the
following commands expect disk paths as input but also
accept description strings for the libisofs interval reader,
which is able to cut out data from disk files or
-indev and to zeroize parts of the content: command
-append_partition, boot specs system_area=,
grub2_mbr=, prep_boot_part=, efi_boot_part=.
The description string consists of the following components,
separated by colon ’:’
"--interval:"Flags":"Interval":"Zeroizers":"Source
The component "--interval" states that
this is not a plain disk path but rather an interval reader
description string. The component Flags modifies the further
interpretation:
"local_fs" demands to read from a file depicted by
the path in Source.
"imported_iso" demands to read from the
-indev. This works only if -outdev is not the
same as -indev. The Source component is ignored.
"appended_partition_NNN" with a decimal number NNN
works only for -boot_image bootspecs which announce El
Torito boot image paths: bin_path=, efi_path=. The number
gives the partition number as used with the corresponding
command -append_partition.
The component Interval consists of two byte address numbers
separated by a "-" character. E.g.
"0-429" means to read bytes 0 to 429.
The component Zeroizers consists of zero or more comma
separated strings. They define which part of the read data
to zeroize. Byte number 0 means the byte read from the
Interval start address. Each string may be one of:
"zero_mbrpt" demands to zeroize the MBR partition
table if bytes 510 and 511 bear the MBR signature 0x55 0xaa.
"zero_gpt" demands to check for a GPT header in
bytes 512 to 1023, to zeroize it and its partition table
blocks.
"zero_apm" demands to check for an APM block 0 and
to zeroize its partition table blocks.
Start_byte"-"End_byte demands to zeroize the
read-in bytes beginning with number Start_byte and
ending after End_byte.
The component Source is the file path with flag
"local_fs", and ignored with flag
"imported_iso".
Byte numbers may be scaled by a suffix out of {k,m,g,t,s,d}
meaning multiplication by {1024, 1024k, 1024m, 1024g, 2048,
512}. A scaled value end number depicts the last byte of the
scaled range.
E.g. "0d-0d" is "0-511".
Examples:
"local_fs:0-32767:zero_mbrpt,zero_gpt,440-443:/tmp/template.iso"
"imported_iso:45056d-47103d::"
-boot_image
"any"|"isolinux"|"grub"
"discard"|"keep"|"patch"|"replay"|"show_status"|
bootspec|"next"
Define the equipment of the emerging filesystem with boot
entry points.
With systems which boot via BIOS or EFI this is a set of El
Torito boot images, possibly MBR boot code, and possibly
partition tables of type MBR, GPT, or APM. Such file sets
get produced by boot loader systems like ISOLINUX or
GRUB.
Each
-boot_image command has two parameters: type and
setting. More than one -boot_image command may be used
to define the handling of one or more boot images. Sequence
matters.
Types isolinux and grub care for known
peculiarities. Type any makes no assumptions about
the origin of the boot images.
When loading an
ISO filesystem, system area and El Torito boot images get
loaded, too. The default behavior is not to write loaded El
Torito boot images and to write the loaded system area
content without alterations.
discard gives up the El Torito boot catalog and its boot
images. regardless whether loaded from an ISO filesystem or
defined by commands. Any BIOS or EFI related boot options
get revoked. Nevertheless, loaded system area data stay
valid. If desired, they have to be erased by
-boot_image any system_area=/dev/zero
keep keeps or copies El Torito boot images unaltered and
writes a new catalog.
patch applies patching to existing El Torito boot images
if they seem to bear a boot info table.
A boot info table needs to be patched when the boot image
gets newly introduced into the ISO image or if an existing
image gets relocated. This is automatically done if type
"isolinux" or "grub" is given, but not
with "any".
If patching is enabled, then boot images from previous
sessions will be checked whether they seem to bear a boot
info table. If not, then they stay unpatched. This check is
not infallible. So if you do know that the images need no
patching, use "any" "keep".
"grub" "patch" will not patch EFI images
(platform_id=0xef).
replay is a more modern version of "patch",
which not only cares for existing El Torito boot equipment
but also for the recognizable boot provisions in the System
Area. It discards any existing -boot_image setting and
executes the commands proposed by command
-report_el_torito "cmd".
This action will only succeed if the file objects mentioned
in the output of command -report_el_torito
"cmd" are still available. Do not remove or rename
boot image files after -indev.
Drop unknown El Torito: -boot_image "any"
"discard"
Maintain recognizable stuff: -boot_image
"any" "replay"
El Torito only for GRUB: -boot_image "grub"
"patch"
El Torito only for ISOLINUX: -boot_image
"isolinux" "patch"
show_status will print what is known about the loaded
boot images and their designated fate.
A
bootspec is a word of the form name=value. It is used
to describe the parameters of a boot feature. The names
"dir", "bin_path", "efi_path"
lead to El Torito bootable images. Name
"system_area" activates a given file as MBR or
other disk header.
On all media types this is possible within the first
session. In further sessions an existing boot image can get
replaced by a new one, but depending on the media type this
may have few effect at boot time. See above.
El Torito boot images have to be added to the ISO image by
normal means (image loading, -map, -add, ...).
In case of ISOLINUX the files should reside either in ISO
image directory /isolinux or in /boot/isolinux . In that
case it suffices to use as bootspec the text
"dir=/isolinux" or
"dir=/boot/isolinux". E.g.:
-boot_image isolinux dir=/boot/isolinux
which bundles these individual settings:
-boot_image isolinux
bin_path=/boot/isolinux/isolinux.bin
-boot_image isolinux cat_path=/boot/isolinux/boot.cat
-boot_image isolinux load_size=2048
-boot_image any boot_info_table=on
An El Torito boot catalog file gets inserted into the ISO
image with address cat_path= with the first
-boot_image "any" "next" or at
-commit time. It is subject to normal -overwrite
and -reassure processing if there is already a file
with the same name. The catalog lists the boot images and is
read by the boot facility to choose one of the boot images.
But it is not necessary that it appears in the directory
tree at all. One may hide it in all trees by
cat_hidden=on. Other possible values are
"iso_rr", "joliet", "hfsplus",
and the default "off". The timestamps of the boot
catalog file are refreshed at commit time. Command
-volume_date "uuid" can be used to set their
value.
bin_path= depicts an El Torito boot image file, a binary
program which is to be started by the hardware boot facility
(e.g. the BIOS) at boot time.
efi_path= depicts an El Torito boot image file that is
ready for EFI booting. This is normally a FAT filesystem
image not larger than 65535 blocks of 512 bytes (= 32 MiB
- 512). Its load_size is determined automatically, no
boot info table gets written, no boot medium gets emulated,
platform_id is 0xef.
emul_type= can be one of "no_emulation",
"hard_disk", "diskette". It controls the
boot medium emulation code of a boot image. The default
"no_emulation" is suitable for ISOLINUX, GRUB,
FreeBSD cdboot.
load_size= is a value which depends on the boot image.
Default is 2048 which matches the expectations of most boot
images. The special value "full" means the full
size of the boot image file rounded up to a multiple of 2048
bytes. Maximum is 33,552,384 bytes.
boot_info_table=on causes address patching to bytes 8 to
63 of the boot image which is given by "any"
"bin_path=". "boot_info_table=off"
disables this patching.
grub2_boot_info=on causes address patching to byte 2548
of the boot image which is given by "any"
"bin_path=". The address is written as 64 bit
little-endian number. It is the 2KB block address of
the boot image content, multiplied by 4, and then
incremented by 5. "grub2_boot_info=off" disables
this patching.
platform_id= defines by a hexadecimal or decimal number
the Platform ID of the boot image. "0x00" is 80x86
PC-BIOS, "0x01" is PowerPC, "0x02"
is Mac, "0xef" is EFI (decimal "239").
id_string=text|56_hexdigits defines the ID string of the
boot catalog section where the boot image will be listed. If
the value consists of 56 characters
[0-9A-Fa-f] then it is converted into 28
bytes, else the first 28 characters become the ID string.
The ID string of the first boot image becomes the overall
catalog ID. It is limited to 24 characters. Other id_strings
become section IDs.
sel_crit=hexdigits defines the Selection Criteria of the
boot image. Up to 20 bytes get read from the given
characters [0-9A-Fa-f]. They get
attributed to the boot image entry in the catalog.
next ends the definition of a boot image and starts a
new one. Any following -bootimage bootspecs will
affect the new image. The first "next" discards
loaded boot images and their catalog.
system_area=disk_path copies at most 32768 bytes from
the given disk file to the very start of the ISO image. This
System Area is reserved for system dependent boot software,
e.g. an MBR which can be used to boot from USB stick or hard
disk.
Other than an El Torito boot image, the file disk_path needs
not to be added to the ISO image.
-boot_image isolinux system_area= implies
"partition_table=on". In this case, the disk path
should lead to one of the SYSLINUX files isohdp[fp]x*.bin or
to a file which was derived from one of those files. E.g. to
the first 512 bytes from an ISOLINUX isohybrid ISO image.
In this case, El Torito boot images (dir=, bin_path=,
efi_path=) may be augmented by isolinux partition_entry=gpt_basdat or isolinux partition_entry=gpt_hfsplus, and by isolinux partition_entry=apm_hfsplus. The boot image will then be
mentioned in an invalid GPT as Basic Data or GPT HFS+
partition, and in a valid APM as HFS+ partition. The first
three GPT partitions will also be marked by MBR partitions.
The MBR partition of type 0xEF is what actually is used by
EFI firmware for booting from USB stick.
In multi-session situations the existing System Area
is preserved by default. In in this case, the special
disk_path "." prevents reading of a disk file but
nevertheless causes adjustments in the loaded system area
data. Such adjustments may get ordered by -boot_image
commands.
-boot_image any gpt_disk_guid=value controls
whether an emerging GPT shall get a randomly generated disk
GUID or whether the GUID is supplied by the user. Value
"random" is default. Value
"volume_date_uuid" produces a low quality GUID
from the value set by -volume_date "uuid".
A string of 32 hex digits, or a RFC 4122 compliant GUID
string may be used to set the disk GUID directly. UEFI
prescribes the first three components of a RFC 4122 GUID
string to be byte-swapped in the binary
representation:
E.g.
gpt_disk_guid=2303cd2a-73c7-424a-a298-25632da7f446
equals gpt_disk_guid=2acd0323c7734a42a29825632da7f446
The partition GUIDs get generated by minimally varying the
disk GUID.
-boot_image any part_like_isohybrid=on enables
-boot_image isolinux partition_entry= even if no
-boot_image isolinux system_area= is given. No MBR
partition of type 0xee emerges, even if GPT gets produced.
Gaps between GPT and APM partitions will not be filled by
more partitions. Appended partitions get mentioned in APM if
other APM partitions emerge.
-boot_image any iso_mbr_part_type=number sets the
partition type of the MBR partition which represents the ISO
or at least protects it.
Number may be 0x00 to 0xff. The text "default"
re-enables the default types of the various occasions
to create an ISO MBR partition. This is without effect if no
such partition emerges by other settings or if the partition
type is prescribed mandatorily like 0xee for GPT protective
MBR or 0x96 for CHRP.
If instead a type_guid is given by a 32-digit hex
string like a2a0d0ebe5b9334487c068b6b72699c7 or by a
structured text like
EBD0A0A2-B9E5-4433-87C0-68B6B72699C7,
then it will be used as partition type if the ISO filesystem
appears as partition in GPT. In MBR,
C12A7328-F81F-11D2-BA4B-00A0C93EC93B
will be mapped to 0xef. Any other GUID will be mapped to
0x83.
grub2_mbr=disk_path works like "any"
system_area= with additional patching for modern GRUB MBRs.
The content start address of the first boot image is
converted to a count of 512 byte blocks, and an offset of 4
is added. The result is written as 64 bit
little-endian number to byte address 0x1b0.
This feature can be revoked either by grub2_mbr= with empty
disk path, or by submitting a disk_path via system_area=.
partition_table=on causes a simple partition table to be
written into bytes 446 to 511 of the System Area.
With type "isolinux" it shows a partition that
begins at byte 0 and it causes the LBA of the first boot
image to be written into the MBR. For the first session this
works only if also "system_area=" and
"bin_path=" or "dir=" is given.
With types "any" and "grub" it shows a
single partition which starts at byte 512 and ends where the
ISO image ends. This works with or without system_area= or
boot image.
Bootspecs chrp_boot_part=, prep_boot_part=, and
efi_boot_part= overwrite this entry in the MBR partition
table.
If types "isolinux" or "grub" are set to
"patch", then "partition_table=on" is
activated without new boot image. In this case the existing
System Area gets checked whether it bears addresses and
sizes as if it had been processed by
"partition_table=on". If so, then those parameters
get updated when the new System Area is written.
Special "system_area=/dev/zero" causes 32k of
NUL-bytes. Use this to discard an MBR which was loaded
with the ISO image.
appended_part_as=gpt marks partitions from
-append_partition in GPT rather than in MBR. In this
case the MBR shows a single partition of type 0xee which
covers the whole output data.
appended_part_as=mbr is the default. Appended partitions
get marked in GPT only if GPT is produced because of other
settings. If given explicitly, this clears setting
"gpt" and "apm". Nevertheless
"apm" may be added to "mbr".
appended_part_as=apm marks partitions from
-append_partition in APM additionally to
"mbr" or "gpt".
By default, appended partitions get marked in APM only if
APM is produced because of other options together with
part_like_isohybrid="on".
chrp_boot_part=on causes a single partition in MBR which
covers the whole ISO image and has type 0x96. This is not
compatible with any other feature that produces MBR
partition entries. It makes GPT unrecognizable.
prep_boot_part=disk_path inserts the content of a data
file into the image and marks it by an MBR partition of type
0x41. The parts of the ISO image before and after this
partition will be covered by further MBR partitions. The
data file is supposed to contain ELF executable code.
efi_boot_part=disk_path inserts the content of a data
file into the image and marks it by a GPT partition. If not
chrp_boot_part=on, then the first partition in MBR will have
type 0xee to announce the presence of GPT. The data file is
supposed to contain a FAT filesystem.
Instead of a disk_path, the word
--efi-boot-image may be given. It
exposes in GPT the content of the first El Torito EFI boot
image as EFI system partition. EFI boot images are
introduced by bootspec efi_path=. The affected EFI boot
image cannot show up in HFS+ because it is stored outside
the HFS+ partition.
partition_offset=2kb_block_adr causes a partition table
with a single partition that begins at the given block
address. This is counted in 2048 byte blocks, not in 512
byte blocks. If the block address is non-zero then it
must be at least 16. A non-zero partition offset
causes two superblocks to be generated and two sets of
directory trees. The image is then mountable from its
absolute start as well as from the partition start.
The offset value of an ISO image gets preserved when a new
session is added. So the value defined here is only in
effect if a new ISO image gets written.
partition_hd_cyl=number gives the number of heads per
cylinder for the partition table. 0 chooses a default value.
Maximum is 255.
partition_sec_hd=number gives the number of sectors per
head for the partition table. 0 chooses a default value.
Maximum is 63.
The product partition_sec_hd * partition_hd_cyl * 512 is the
cylinder size. It should be divisible by 2048 in order to
make exact alignment possible. With appended partitions and
"appended_part_as=gpt" there is no limit for the
number of cylinders. Else there may be at most 1024 of them.
If the cylinder size is too small to stay below the limit,
then appropriate values of partition_hd_cyl are chosen with
partition_sec_hd 32 or 63. If the image is larger than
8,422,686,720 bytes, then the cylinder size constraints
cannot be fulfilled for MBR.
partition_cyl_align=mode controls image size alignment
to an integer number of cylinders. It is prescribed by
isohybrid specs and it seems to please program fdisk.
Cylinder size must be divisible by 2048. Images larger than
8,323,596,288 bytes cannot be aligned in MBR partition
table.
Mode "auto" is default. Alignment by padding
happens only with "isolinux"
"partition_table=on".
Mode "on" causes alignment by padding with
"partition_table=on" for any type. Mode
"all" is like "on" but also pads up
partitions from -append_partition to an aligned size.
Mode "off" disables alignment for any type.
mbr_force_bootable=mode enforces an MBR partition with
"bootable/active" flag if options like
partition_table= or grub2_mbr= indicate production of a
bootable MBR. These options normally cause the flag to be
set if there is an MBR partition of type other than 0xee or
0xef. If no such partition exists, then no bootflag is set,
unless mbr_force_bootable="on" forces creation of
a dummy partition of type 0x00 which covers only the first
block of the ISO image.
If no bootable MBR is indicated and a partition gets created
by -append_partition, then
mbr_force_bootable="on" causes a bootflag like it
would do with a bootable MBR.
gpt_iso_bootable=on causes bit 2 of the GPT partition
flags to be set for the ISO 9660 partition if such a GPT
partition emerges. This bit is specified as "Legacy
BIOS bootable" but its true significance is unclear.
Some GPT-aware BIOS might want to see it in some
partition. Mode "off" revokes this setting.
gpt_iso_not_ro=on causes bit 60 of the GPT partition
flags to be not set for the ISO 9660 partition if such a GPT
partition emerges. This bit is specified as
"Read-only" and thus appropriate. But it is
unusual in GPT disk partitions. Mode "off" revokes
this setting and causes the read-only bit to be set.
mips_path=iso_rr_path declares a data file in the image
to be a MIPS Big Endian boot file and causes production of a
MIPS Big Endian Volume Header. This is mutually exclusive
with production of other boot blocks like MBR. It will
overwrite the first 512 bytes of any data provided by
system_area=. Up to 15 boot files can be declared by
mips_path=.
mipsel_path=iso_rr_path declares a data file in the
image to be the MIPS Little Endian boot file. This is
mutually exclusive with other boot blocks. It will overwrite
the first 512 bytes of any data provided by system_area=.
Only a single boot file can be declared by mipsel_path=.
sparc_label=text causes the production of a SUN Disk
Label with the given text as ASCII label. Partitions 2 to 8
may be occupied by appended images. Partition 1 will always
be the ISO image. See command -append_partition. The
first 512 bytes of any data provided by system_area= will be
overwritten.
grub2_sparc_core=iso_rr_path causes the content address
and size of the given file to be written after the SUN Disk
Label. Both numbers are counted in bytes. The address is
written as 64 bit big-endian number to byte 0x228. The
size is written as 32 bit big-endian number to byte
0x230.
hppa_cmdline=text sets the PALO command line for
HP-PA. Up to 1023 characters are permitted by default.
With hppa_hdrversion=4 the limit is 127.
Note that the first five hppa_ bootspecs are mandatory, if
any of the hppa_ bootspecs is used. Only hppa_hdrversion= is
allowed to be missing.
hppa_bootloader=iso_rr_path designates the given path as
HP-PA bootloader file.
hppa_kernel_32=iso_rr_path designates the given path as
HP-PA 32 bit kernel file.
hppa_kernel_64=iso_rr_path designates the given path as
HP-PA 64 bit kernel file.
hppa_ramdisk=iso_rr_path designates the given path as
HP-PA RAM disk file.
hppa_hdrversion=number chooses between PALO header
version 5 (default) and version 4. For the appropriate value
see in PALO source code: PALOHDRVERSION.
alpha_boot=iso_rr_path declares a data file in the image
to be the DEC Alpha SRM Secondary Bootstrap Loader and
causes production of a boot sector which points to it. This
is mutually exclusive with production of other boot blocks
like MBR.
mips_discard, sparc_discard, hppa_discard,
alpha_discard revoke any boot file declarations made
for mips/mipsel, sparc, hppa, or alpha, respectively. This
removes the ban on production of other boot blocks.
hfsplus_serial=hexstring sets a string of 16 digits
"0" to "9" and letters "a" to
"f", which will be used as unique serial number of
an emerging HFS+ filesystem.
hfsplus_block_size=number sets the allocation block size
to be used when producing HFS+ filesystems. Permissible are
512, 2048, or 0. The latter lets the program decide.
apm_block_size=number sets the block size to be used
when describing partitions by an Apple Partition Map.
Permissible are 512, 2048, or 0. The latter lets the program
decide.
Note that size 512 is not compatible with production of GPT,
and that size 2048 will not be mountable -t hfsplus at
least by older Linux kernels.
-append_partition partition_number type_code disk_path
Cause a prepared filesystem
image to be appended to the ISO image and to be described by
a partition table entry in a boot block at the start of the
emerging ISO image. The partition entry will bear the size
of the submitted file rounded up to the next multiple of
2048 bytes or to the next multiple of the cylinder size.
Beware of subsequent multi-session runs. The appended
partition will get overwritten.
Partitions may be appended with boot block type MBR and with
SUN Disk Label.
With MBR:
partition_number may be 1 to 4. Number 1 will put the whole
ISO image into the unclaimed space before partition 1. So
together with most xorriso MBR features, number 2
would be the most natural choice.
The type_code may be "FAT12", "FAT16",
"Linux", or a hexadecimal number between 0x00 and
0xff. Not all those numbers will yield usable results. For a
list of MBR partition type codes search the Internet for
"Partition Types" or run fdisk command
"L".
type_code may also be a type GUID as plain hex string like
a2a0d0ebe5b9334487c068b6b72699c7 or as structured text like
EBD0A0A2-B9E5-4433-87C0-68B6B72699C7.
It will be used if the partition is mentioned in GPT. In
MBR,
C12A7328-F81F-11D2-BA4B-00A0C93EC93B
will be mapped to 0xef. Any other GUID will be mapped to
0x83. In APM,
48465300-0000-11AA-AA11-00306543ECAC
will be mapped to partition type "Apple_HFS", any
other to "Data".
If some other command causes the production of GPT, then the
appended partitions will be mentioned there too.
The disk_path must provide the necessary data bytes at
commit time. An empty disk_path disables this feature for
the given partition number.
With SUN Disk Label (selected by -boot_image any
sparc_label=):
partition_number may be 2 to 8. Number 1 will always be the
ISO image. Partition start addresses are aligned to 320 KiB.
The type_code does not matter. Submit 0x0.
Partition image name "." causes the partition to
become a copy of the next lower valid one.
From man
genisoimage: "Jigdo is a tool to help in the
distribution of large files like CD and DVD images; see
http://atterer.net/jigdo/ for more details. Debian CDs and
DVD ISO images are published on the web in jigdo format to
allow end users to download them more efficiently."
xorriso can produce a .jigdo and a .template file
together with a single-session ISO image. The .jigdo
file contains checksums and symbolic file addresses. The
.template file contains the compressed ISO image with
reference tags instead of the content bytes of the listed
files.
Input for this process are the normal arguments for a
xorriso session on a blank -outdev, and a
checksum file which lists those data files which may be
listed in the .jigdo file and externally referenced in the
.template file. Each designated file is represented in the
checksum file by a single text line:
Checksum as hex digits, 2 blanks, size as 12 decimal digits
or blanks, 2 blanks, symbolic file address
The kind of checksum is chosen by -jigdo
"checksum_algorithm" with values "md5"
(32 hex digits) or "sha256" (64 hex digits). It
will also be used for the file address lines in the .jigdo
file. The default is "md5".
The file address in a checksum file line has to bear the
same basename as the disk_path of the file which it shall
match. The directory path of the file address is decisive
for To=From mapping, not for file recognition. After To=From
mapping, the file address gets written into the .jigdo file.
Jigdo restore tools will convert these addresses into really
reachable data source addresses from which they can read.
If the list of jigdo parameters is not empty, then
xorriso will refuse to write to non-blank
targets, it will disable multi-session emulation, and
padding will be counted as part of the ISO image.
-jigdo parameter_name value
Clear Jigdo Template Extraction
parameter list or add a parameter to that list. The alias
names are the corresponding genisoimage options. They are
accepted as parameter names as well. Especially they are
recognized by the -as mkisofs emulation command.
Parameter clear with any value empties the whole
list. No .jigdo and .template file will be produced.
checksum_algorithm chooses the checksum algorithm which
shall be used for the data file entries in the .jigdo file
and is expected in the checksum file. Permissible are
"md5" or "sha256". Default is
"md5".
Alias: -jigdo-checksum-algorithm
template_path sets the disk_path for the .template file
with the holed and compressed ISO image copy.
Alias: -jigdo-template
jigdo_path sets the disk_path for the .jigdo file with
the checksums and download addresses for filling the holes
in .template.
Alias: -jigdo-jigdo
checksum_path sets the disk_path where to find the
checksum file with symbolic file addresses and checksums
according to checksum_algorithm.
Alias: md5_path
Alias: -checksum-list
Alias: -md5-list
min_size sets the minimum size for a data file to be
listed in the .jigdo file and being a hole in the .template
file.
Alias: -jigdo-min-file-size
exclude adds a regular expression pattern which will get
compared with the absolute disk_path of any data file. A
match causes the file to stay in .template in any case.
Alias: -jigdo-exclude
demand_checksum adds a regular expression pattern which
will get compared with the absolute disk_path of any data
file that was not found in the checksum list file as of
"checksum_path". A match causes a MISHAP event.
Alias: demand_md5
Alias: -jigdo-force-checksum
Alias: -jigdo-force-md5
mapping adds a string pair of the form To=From to the
parameter list. If a data file gets listed in the .jigdo
file, then it is referred by the file address from its line
in the checksum file. This file address gets checked whether
it begins with the From string. If so, then this string will
be replaced by the To string and a ’:’
character, before it goes into the .jigdo file. The From
string should end by a ’/’ character.
Alias: -jigdo-map
compression chooses one of "bzip2" or
"gzip" for the compression of the template file.
The jigdo file is put out uncompressed.
Alias: -jigdo-template-compress
checksum_iso chooses one or more of "md5",
"sha1", "sha256", "sha512" for
the auxiliary "# Image Hex" checksums in the jigdo
file. The value may e.g. look like
"md5,sha1,sha512". Value "all" chooses
all available algorithms. Note that MD5 stays always
enabled.
Alias: -checksum_algorithm_iso
checksum_template is like checksum_iso but for "#
Template Hex".
Alias: -checksum_algorithm_template
File names are
strings of non-zero bytes with 8 bit each.
Unfortunately the same byte string may appear as different
peculiar national characters on differently nationalized
terminals. The meanings of byte codes are defined in
character sets which have names. Shell command iconv
-l lists them.
The file names on hard disk are assumed to be encoded by the
local character set which is also used for the
communication with the user. Byte codes 32 to 126 of the
local character set must match the US-ASCII characters
of the same code. ISO-8859 and UTF-8 fulfill
this demand.
By default, xorriso uses the character set as told by
shell command "locale" with argument
"charmap". This may be influenced by environment
variables LC_ALL, LC_CTYPE, or LANG and should match the
expectations of the terminal. In some situations it may be
necessary to set it by command -local_charset.
Local character sets should not matter as long as only
english alphanumeric characters are used for file names or
as long as all writers and readers of the media use the same
local character set. Outside these constraints it may be
necessary to let xorriso convert byte codes from and
to other character sets.
The Rock Ridge file names in ISO filesystems are assumed to
be encoded by the input character set. The Rock Ridge
file names which get written with ISO filesystems will be
encoded by the output character set.
The sets can be defined independently by commands
-in_charset and -out_charset. Normally one will
have both identical, if ever. Other than the local character
set, these two character sets may deviate from
US-ASCII.
The output character sets for Joliet and HFS+ are not
influenced by these commands. Joliet uses output character
set UCS-2 or UTF-16. HFS+ uses UTF-16.
The default output charset is the local character set of the
terminal where xorriso runs. So by default no
conversion happens between local filesystem names and
emerging Rock Ridge names in the image. The situation stays
ambiguous and the reader has to riddle what character set
was used.
By command -auto_charset it is possible to attribute
the output charset name to the image. This makes the
situation unambiguous. But if your terminal character set
does not match the character set of the local file names,
then this attribute can become plainly wrong and cause
problems at read time. To prevent this it is necessary to
check whether the terminal properly displays all intended
filenames. Check especially the exotic national characters.
To enforce recording of a particular character set name
without any conversion at image generation time, set
-charset and -local_charset to the desired name,
and enable -backslash_codes to avoid evil character
display on your terminal.
-charset character_set_name
Set the character set from which to convert file names when loading an image and to which to convert when writing an image.
-local_charset character_set_name
Override the system assumption of the local character set name. If this appears necessary, one should consider to set -backslash_codes to "on" in order to avoid dangerous binary codes being sent to the terminal.
Since the tasks
of xorriso are manifold and prone to external
influence, there may arise the need for xorriso to
report and handle problem events.
Those events get classified when they are detected by one of
the software modules and forwarded to reporting and
evaluation modules which decide about reactions. Event
classes are sorted by severity:
"NEVER" The upper end of the severity spectrum.
"ABORT" The program is being aborted and on its
way to end.
"FATAL" The main purpose of the run failed or an
important resource failed unexpectedly.
"FAILURE" An important part of the job could not
be performed.
"MISHAP" A FAILURE which can be tolerated during
ISO image generation.
"SORRY" A less important part of the job could not
be performed.
"WARNING" A situation is suspicious of being not
intended by the user.
"HINT" A proposal to the user how to achieve
better results.
"NOTE" A harmless information about noteworthy
circumstances.
"UPDATE" A pacifier message during long running
operations.
"DEBUG" A message which would only interest the
program developers.
"ALL" The lower end of the severity spectrum.
-abort_on severity
Set the severity threshold for
events to abort the program.
Useful: "NEVER", "ABORT",
"FATAL", "FAILURE" , "MISHAP",
"SORRY"
It may become necessary to abort the program anyway, despite
the setting by this command. Expect not many
"ABORT" events to be ignorable.
A special property of this command is that it works
preemptive if given as program start argument. I.e. the
first -abort_on setting among the start arguments is
in effect already when the first operations of
xorriso begin. Only "-abort_on" with
dash "-" is recognized that way.
-return_with severity exit_value
Set the threshold and
exit_value to be returned at program end if no abort has
happened. This is to allow xorriso to go on after
problems but to get a failure indicating exit value from the
program, nevertheless. Useful is a value lower than the
-abort_on threshold, down to "WARNING".
exit_value may be either 0 (indicating success to the
starter of the program) or a number between 32 and 63. Some
other exit_values are used by xorriso if it decides
to abort the program run:
1=abort due to external signal
2=no program arguments given
3=creation of xorriso main object failed
4=failure to start libburnia-project.org libraries
5=program abort during argument processing
6=program abort during dialog processing
-report_about severity
Set the threshold for events to
be reported.
Useful: "SORRY", "WARNING",
"HINT", "NOTE", "UPDATE",
"DEBUG", "ALL"
Regardless what is set by -report_about, messages get
always reported if they reach the severity threshold of
-abort_on .
Event messages are sent to the info channel "I"
which is usually stderr but may be influenced by command
-pkt_output. Info messages which belong to no event
get attributed severity "NOTE".
A special property of this command is that the first
-report_about setting among the start arguments is in
effect already when the first operations of xorriso
begin. Only "-report_about" with dash
"-" is recognized that way.
-signal_handling mode
Control the installation of a
signal handler which shall react on external signals (e.g.
from program "kill" or from keys Ctrl+C) or on
signals caused by severe program errors.
Mode "on" is the default. It uses the signal
handler of libburn which produces ugly messages but puts
much effort in releasing optical drives before
xorriso ends.
Mode "off" as first -signal_handling among
the start arguments prevents all own signal precautions of
xorriso. Inherited signal handler settings stay as
they are.
It works like "sig_dfl" if given after other
signal handling was already established at program start.
Mode "sig_dfl" uses the system provided default
handling of signals, which is normally a sudden abort of the
program. To prevent stuck drives, the libburn handler is
used during burning, blanking, and formatting on MMC drives.
Mode "sig_ign" tries to ignore as many signal
types as possible. This imposes the risk that xorriso
refuses to end until externally kill -9 if performed.
kill -9 then imposes the risk that the drive is left
in unusable state and needs poweroff to be reset. So during
burning, blanking, and formatting wait for at least their
normal run time before killing externally.
A special property of this command is that the first
-signal_handling setting among the start arguments is
in effect already when the first operations of
xorriso begin. Only
"-signal_handling" with dash
"-" is recognized that way.
-error_behavior occasion behavior
Control the program behavior at
problem event occasions. For now this applies to occasions
"image_loading" which is given while an image tree
is read from the input device, and to
"file_extraction" which is given with osirrox
commands like -extract.
With "image_loading" there are three behaviors
available:
"best_effort" goes on with reading after events
with severity below FAILURE if the threshold of command
-abort_on allows this.
"failure" aborts image tree reading on first event
of at least SORRY. It issues an own FAILURE event. This is
the default.
"fatal" acts like "failure" but issues
the own event as FATAL.
With occasion "file_extraction" there are three
behaviors:
"keep" maintains incompletely extracted files on
disk. This is the default.
"delete" removes files which encountered errors
during content extraction.
"best_effort" starts a revovery attempt by means
of -extract_cut if the file content stems from the
loaded ISO image and is not filtered.
Dialog mode control:
-dialog
"on"|"off"|"single_line"
Enable or disable to enter
dialog mode after all program arguments are processed. In
dialog mode input lines get prompted via readline or from
stdin.
If no -abort_on severity was set when dialog starts,
then "NEVER" is set to avoid abort in most cases
of wrong input or other problems. Before dialog begins, the
default is "FAILURE" which e.g. aborts on unknown
commands.
Mode "on" supports input of newline characters
within quotation marks and line continuation by trailing
backslash outside quotation marks. Mode
"single_line" does not.
-page length width
Describe terminal to the text
pager. See also above, paragraph Result pager.
If parameter length is nonzero then the user gets prompted
after that number of terminal lines. Zero length disables
paging.
Parameter width is the number of characters per terminal
line. It is used to compute the number of terminal lines
which get occupied by an output line. A usual terminal width
is 80.
-use_readline "on"|"off"
If "on" then use
readline for dialog. Else use plain stdin.
See also above, paragraph Dialog, Readline, Result
pager.
-reassure "on"|"tree"|"off"
If "on" then ask the
user for "y" or "n":
before deleting or overwriting any file in the ISO image,
before overwriting any disk file during restore operations,
before rolling back pending image changes,
before committing image changes to media,
before changing the input drive,
before blanking or formatting media,
before ending the program.
With setting "tree" the reassuring prompt will
appear for an eventual directory only once and not for each
file in its whole subtree.
Setting "off" silently kills any kind of image
file object and performs above irrevocable actions.
To really produce user prompts, command -dialog needs
to be set to "on". Note that the prompt does not
appear in situations where file removal is forbidden by
command -overwrite. -reassure only imposes an
additional curb for removing existing file objects.
Be aware that file objects get deleted from the ISO image
immediately after confirmation. They are gone even if the
running command gets aborted and its desired effect gets
revoked. In case of severe mess-up, consider to use
-rollback to revoke the whole session.
Drive and media related inquiry actions:
-devices
Show list of available MMC
drives with the addresses of their libburn standard device
files.
This is only possible when no ISO image changes are pending.
After this command was executed, there is no drive current
and no image loaded.
In order to be visible, a device has to offer
rw-permissions with its libburn standard device file.
Thus it might be only the superuser who is able to
see all drives.
Drives which are occupied by other processes get not
shown.
-device_links
Like -devices, but
presenting the drives with addresses of symbolic links which
point to the actual device files.
Modern GNU/Linux systems may shuffle drive addresses from
boot to boot. The udev daemon is supposed to create links
which always point to the same drive, regardless of its
system address. The command -device_links shows the
addresses of such links if they begin by
"/dev/dvd" or "/dev/cd". Precedence is:
"dvdrw", "cdrw", "dvd",
"cdrom", "cd".
-toc |
Show media specific tables of content. This is the session history of the medium, not the ISO image directory tree. |
In case of overwritable media
holding a valid ISO image, it may happen that only a single
session gets shown. But if the first session on the
overwritable media was written by xorriso then a
complete session history can be emulated.
A drive which is incapable of writing may show any media as
CD-ROM or DVD-ROM with only one or two sessions
on it. The last of these sessions is supposed to be the most
recent real session then.
Some read-only drives and media show no usable session
history at all. Command -rom_toc_scan might help.
If input device and output device are both acquired and not
the same, then both tables-of-content get
shown.
-toc_of "in"|"out"|"all"[":short"]
Like command -toc but
explicitly choosing which drive’s
table-of-content to show. "in" shows
-indev or -dev, "out" shows
-outdev or -dev, "all" shows the same
as -toc.
If ":short" is appended to the drive choosing
word, then only a short summary of drive state and medium
content is printed.
As further difference to -toc, this command does not
emit FAILURE events if the desired drive is not
acquired.
-assess_indev_features "plain"|"cmd"|"as_mkisofs"|"replay"
Inspect the filesystem on
-indev for the presence of Rock Ridge, Joliet, or ISO
9660:1999, and for traces of other write options which seem
to have been used when the filesystem was created.
Note that this command does not detect and report a possibly
present HFS+ tree.
Mode "cmd" lists xorriso commands which would
activate the detected settings.
Mode "as_mkisofs" lists options of the -as
mkisofs emulation, which would activate those of the
detected settings which are not default.
Mode "replay" performs the commands which get
listed by mode "cmd".
Mode "plain" lists after a "Indev feature:
" header name-value pairs as delivered by
libisofs function iso_read_image_feature_named(). See
libisofs.h. The other modes derive their output from this
list. I.e. the sequence of commands from "cmd"
follows the sequence of "plain".
Not leading to "cmd" lines are:
"size=" tells the number of 2048 byte blocks of
the filesystem.
"eltorito=1" tells that El Torito boot equipment
was detected.
"tree_loaded=" tells which tree was loaded by
-indev:
0 = ISO 9660 , 1 = Joliet , 2 = ISO 9660:1999
"tree_loaded_text=" tells the same by name:
"ISO9660", "Joliet",
"ISO9660:1999"
"rr_loaded=1" tells that Rock Ridge information
was loaded with the tree.
"aaip=1" tells that AAIP information was detected
(ACL, xattr, MD5, ...).
"relaxed_vol_atts=1" tells that the volume
attributes like -volid or -preparer_id bear
characters outside the restricted character sets which are
specified for them by ECMA-119.
"rrip_1_10_px_ino=1" tells that with Rock Ridge
1.10 a PX entry was found which looks like from Rock Ridge
1.12.
-mount_cmd drive entity id path
Emit an appropriate command
line for mounting the ISO session indicated by drive, entity
and id. The result will be different on GNU/Linux and on
FreeBSD or NetBSD.
drive can be "indev" or "outdev" to
indicate already acquired drives, or it can be the path of a
not yet acquired drive. Prefix "stdio:" for
non-MMC drives is not mandatory.
For entity and id, see also command -load. They must
be either "sbsector" with the superblock sector
address as id, or "track" with a track number as
id, or "session" with a session number, or
"volid" with a search pattern for the volume id,
or "auto" with which any text as id mounts the
first track of the last session.
path will be used as mount point and must already exist as a
directory on disk.
The command gets printed to the result channel. See command
-mount for direct execution of this command.
-mount_opts option[:option...]
Set options which influence -mount and -mount_cmd. Currently there is only option "exclusive" which is default and its counterpart "shared". The latter causes xorriso not to give up the affected drive with command -mount. On GNU/Linux it adds mount option "loop" which may enable mounting of several sessions of the same block device at the same time. One should not write to a mounted optical medium, of course. Take care to umount all sessions before ejecting.
-session_string drive entity id format
Print to the result channel a
text which gets composed according to format and the
parameters of the addressed session.
Formats "linux:"path or "freebsd:"path
produce the output of -mount_cmd for the given
operating systems.
In other texts xorriso will substitute the following
parameter names. An optional prefix "string:" will
be removed.
"%device%" will be substituted by the mountable
device path of the drive address.
"%sbsector%" will be substituted by the session
start sector.
"%track%", "%session%",
"%volid%" will be substituted by track number,
session number, or volume id of the depicted session.
-print_size
Print the foreseeable
consumption of 2048 byte blocks by next -commit. This
can last a while as a -commit gets prepared and only
in last moment is revoked by this command. The result
depends on several settings and also on the kind of output
device. If no -jigdo options are set and not command
-as "mkisofs" was used, then -padding
(300 kB by default) is not counted as part of the image
size.
If an El Torito boot image file is already depicted, then
command -print_size automatically executes
-boot_image "any" "next". This
means that the properties of that boot image cannot be
edited by subsequent commands.
-tell_media_space
Print available space on the
output medium and the free space after subtracting already
foreseeable consumption by next -commit.
Note that the title of the prediction "After commit
:" is misleading. It is rather the space that may still
be filled in this session without making the next
-commit fail from medium overflow.
The free space after the next -commit might be smaller
by several MB. This depends on medium type, number of
recorded sessions, and drive habits.
-pvd_info
Print various ID strings and timestamps which can be found in loaded ISO images. Some of the IDs may be changed by commands like -volid or -publisher. For these IDs -pvd_info reports what would be written with the next -commit. The timestamps get not automatically propagated from loaded image to newly written image. The ones for new images may be set by command -volume_date. See there for the meaning of the particular timestamps.
-report_el_torito mode
With mode plain print a
report about the information found in the El Torito boot
catalog of the loaded ISO image.
With mode help print a text which explains the
meaning of the lines put out by "plain".
Mode cmd tries to print the xorriso commands
which are necessary to produce the found boot equipment:
disk identifiers, El Torito boot images, and System Area.
Disk identifiers are strings which the booting operating
system might use to find the ISO filesystem from where it
comes. Currently known is the use of volume id and
modification date.
The intended use case is modification of the filesystem by
having -indev and -outdev pointing to different
images or drives. The result might be insufficient, if the
found equipment cannot be produced by xorriso. Various SORRY
events may arise in this case, but it is not guaranteed that
xorriso recognizes all its insufficiencies.
Mode as_mkisofs tries to print the xorriso -as mkisofs options, which are necessary to
produce the found equipment. The intended use case is to use
the mounted filesystem as input tree together with the
printed options.
If CHRP equipment is detected, then modes cmd and
as_mkisofs issue some of the relaxation commands or
options which get detected by command
-assess_indev_features. This happens because
CHRP firmware reads file paths from file /ppc/bootinfo.txt
and tries to find them case-insensitively in the
ECMA-119 tree without using Rock Ridge. If such a path
has actually forbidden properties, like the name
"powerpc-ieee1275", then the relaxations are
needed to bring it unmangled into the ECMA-119
tree.
-report_system_area mode
With mode plain print a
report about the information found in the System Area of the
loaded ISO image. The report consists of zero to many lines
with a header text, a colon, and information text.
With mode help print a text which explains the
meaning of the lines put out by "plain". You
probably will have to look for more documentation which
explains the technical details of the mentioned boot
facilities.
Modes cmd and as_mkisofs work like with
command -report_el_torito. See above.
With mode gpt_disk_guid print the GPT disk GUID of
the loaded ISO in RFC 4122 text format to result channel. It
is not considered an error if no GPT is present. In this
case nothing is printed to result channel.
With mode gpt_crc_of:disk_path read up to 32 KiB from
the disk file with the path given after the colon. Compute
the GPT compliant CRC number and print it to the result
channel. The number is shown like "0x690fd979".
The special disk_path "-" causes reading
from standard input.
With mode make_guid print a pseudo-random GUID
in RFC 4122 text format to result channel.
Navigation in ISO image and disk filesystem:
-cd iso_rr_path
Change the current working
directory in the ISO image. This is prepended to
iso_rr_paths which do not begin with ’/’.
It is possible to set the working directory to a path which
does not exist yet in the ISO image. The necessary parent
directories will be created when the first file object is
inserted into that virtual directory. Use -mkdir if
you want to enforce the existence of the directory already
at first insertion.
-cdx disk_path
Change the current working directory in the local filesystem. To be prepended to disk_paths which do not begin with ’/’.
-pwd |
Tell the current working directory in the ISO image. | ||
-pwdx |
Tell the current working directory in the local filesystem. |
-ls iso_rr_pattern [***]
List files in the ISO image
which match shell patterns (i.e. with wildcards
’*’ ’?’ ’[a-z]’).
If a pattern does not begin with ’/’ then it is
compared with addresses relative to -cd.
Directories are listed by their content rather than as
single file item.
Pattern expansion may be disabled by command
-iso_rr_pattern.
-lsd iso_rr_pattern [***]
Like -ls but listing directories as themselves and not by their content. This resembles shell command ls -d.
-lsl iso_rr_pattern [***]
Like -ls but also list
some of the file attributes. The output format resembles
shell command ls -ln.
File type ’e’ indicates the El Torito boot
catalog.
If the file has non-trivial ACL, then a
’+’ is appended to the permission info. If the
file is hidden, then ’I’ for "iso_rr",
’J’ for "joliet", ’A’ for
"hfsplus", ’H’ for multiple hiding
gets appended. Together with ACL it is ’i’,
’j’, ’a’, ’h’.
-lsdl iso_rr_pattern [***]
Like -lsd but also list some of the file attributes. The output format resembles shell command ls -dln.
-lsx disk_pattern [***]
List files in the local
filesystem which match shell patterns. Patterns which do not
begin with ’/’ are used relative to -cdx.
Directories are listed by their content rather than as
single file item.
Pattern expansion may be disabled by command
-disk_pattern.
-lsdx disk_pattern [***]
Like -lsx but listing directories as themselves and not by their content. This resembles shell command ls -d.
-lslx disk_pattern [***]
Like -lsx but also listing some of the file attributes. Output format resembles shell command ls -ln.
-lsdlx disk_pattern [***]
Like -lsdx but also listing some of the file attributes. Output format resembles shell command ls -dln.
-getfacl iso_rr_pattern [***]
Print the access permissions of the given files in the ISO image using the format of shell command getfacl. If a file has no ACL then it gets fabricated from the -chmod settings. A file may have a real ACL if it was introduced into the ISO image while command -acl was set to "on".
-getfacl_r iso_rr_pattern [***]
Like -gefacl but listing recursively the whole file trees underneath eventual directories.
-getfattr iso_rr_pattern [***]
Print the xattr of the given files in the ISO image. If a file has no such xattr then noting is printed for it. The choice of namespaces depends on the setting of command -xattr: "on" or "user" restricts it to namespace "user", "any" only omits namespace "isofs".
-getfattr_r iso_rr_pattern [***]
Like -gefattr but listing recursively the whole file trees underneath of directories.
-du iso_rr_pattern [***]
Recursively list size of directories and files in the ISO image which match one of the patterns. similar to shell command du -k.
-dus iso_rr_pattern [***]
List size of directories and files in the ISO image which match one of the patterns. Similar to shell command du -sk.
-dux disk_pattern [***]
Recursively list size of directories and files in the local filesystem which match one of the patterns. Similar to shell command du -k.
-dusx disk_pattern [***]
List size of directories and files in the local filesystem which match one of the patterns. Similar to shell command du -sk.
-findx disk_path [-name pattern] [-type t] [-exec action [params]] --
Like -find but operating
on local filesystem and not on the ISO image. This is
subject to the settings of -follow.
-findx accepts the same -type parameters as
-find. Additionally it recognizes type
"mountpoint" (or "m") which matches
subdirectories which reside on a different device than their
parent. It never matches the disk_path given as start
address for -findx.
-findx accepts the -exec actions as does
-find. But except the following few actions it will
always perform action "echo".
in_iso reports the path if its counterpart exists in the
ISO image. For this the disk_path of the -findx
command gets replaced by the iso_rr_path given as parameter.
E.g.: -findx /home/thomas -exec in_iso
/thomas_on_cd --
not_in_iso reports the path if its counterpart does not
exist in the ISO image. The report format is the same as
with command -compare.
add_missing iso_rr_path_start adds the counterpart if it
does not yet exist in the ISO image and marks it for
"rm_merge" as non-removable.
E.g.: -findx /home/thomas -exec add_missing
/thomas_on_cd --
is_full_in_iso reports if the counterpart in the ISO
image contains files. To be used with -type
"m" to report mount points.
empty_iso_dir deletes all files from the counterpart in
the ISO image. To be used with -type "m" to
truncate mount points.
estimate_size prints a lower and an upper estimation of
the number of blocks which the found files together will
occupy in the emerging ISO image. This does not account for
the superblock, for the directories in the -findx
path, or for image padding.
list_extattr mode prints a script to the result channel,
which would use FreeBSD command setextattr to set the
file’s xattr name-value pairs of user namespace.
See -find for a description of parameter mode.
E.g. -exec list_extattr e --
-compare disk_path iso_rr_path
Compare attributes and eventual
data file content of a fileobject in the local filesystem
with a file object in the ISO image. The iso_rr_path may
well point to an image file object which is not yet
committed, i.e. of which the data content still resides in
the local filesystem. Such data content is prone to
externally caused changes.
If iso_rr_path is empty then disk_path is used as path in
the ISO image too.
Differing attributes are reported in detail, differing
content is summarized. Both to the result channel. In case
of no differences no result lines are emitted.
-compare_r disk_path iso_rr_path
Like -compare but working recursively. I.e. all file objects below both addresses get compared whether they have counterparts below the other address and whether both counterparts match.
-compare_l disk_prefix iso_rr_prefix disk_path [***]
Perform -compare_r with each of the disk_path parameters. iso_rr_path will be composed from disk_path by replacing disk_prefix by iso_rr_prefix.
-show_stream iso_rr_path [***]
Display the content stream
chain of data files in the ISO image. The chain consists of
the iso_rr_name and one or more streams, separated by "
< " marks. A stream description consists of one or
more texts, separated by ":" characters. The first
text tells the stream type, the following ones, if ever,
describe its individual properties. Frequently used types
are:
disk:’disk_path’ for local filesystem objects.
image:’iso_rr_path’ for ISO image file objects.
cout:’disk_path offset count’ for -cut_out
files.
extf:’filter_name’ for external filters.
--zisofs:algorithm:block_size for zisofs
compression filters.
--zisofs-decode:algorithm:block_size for
zisofs uncompression filters.
--gzip for internal gzip compression filters.
--gunzip for internal gzip uncompression
filters.
Example:
’/abc/xyz.gz’ < extf:’gzip’ <
disk:’/home/me/x’
-show_stream_r iso_rr_path [***]
Like -show_stream but working recursively.
Evaluation of readability and recovery:
It is not
uncommon that optical media produce read errors. The reasons
may be various and get obscured by error correction which is
performed by the drives and based on extra data on the
media. If a drive returns data then one can quite trust that
they are valid. But at some degree of read problems the
correction will fail and the drive is supposed to indicate
error.
xorriso can scan a medium for readable data blocks,
classify them according to their read speed, save them to a
file, and keep track of successfully saved blocks for
further tries on the same medium.
By command -md5 checksums may get recorded with data
files and whole sessions. These checksums are reachable only
via indev and a loaded image. They work independently of the
media type and can detect transmission errors.
-check_media [option [option ...]] --
Try to read data blocks from
the indev drive, optionally copy them to a disk file, and
finally report about the encountered quality. Several
options may be used to modify the default behavior.
The parameters given with this command override the default
settings which may have been changed by command
-check_media_defaults. See there for a description of
available options.
The result list tells intervals of 2 KiB blocks with start
address, number of blocks and quality. Qualities which begin
with "+" are supposed to be valid readable data.
Qualities with "-" are unreadable or
corrupted data. "0" indicates qualities which are
not covered by the check run or are regularly allowed to be
unreadable (e.g. gaps between tracks).
Alternatively it is possible to report damaged files rather
than blocks.
If -md5 is "on" then the default mode
what=tracks looks out for libisofs checksum tags for the ISO
session data and checks them against the checksums computed
from the data stream.
-check_media_defaults [option [option ...]] --
Preset options for runs of
-check_media, -extract_cut and best_effort file
extraction. Options given with -check_media will
override the preset options. -extract_cut will
override some options automatically.
An option consists of a keyword, a "=" character,
and a value. Options may override each other. So their
sequence matters.
The default setting at program start is:
use=indev what=tracks min_lba=-1 max_lba=-1
retry=default
time_limit=28800 item_limit=100000 data_to=’’
event=ALL
abort_file=/var/opt/xorriso/do_abort_check_media
sector_map=’’ map_with_volid=off patch_lba0=off
report=blocks
bad_limit=invalid slow_limit=1.0 chunk_size=0s
async_chunks=0
Option "reset=now" restores these startup
defaults.
Non-default options are:
report="files" lists the files which use
damaged blocks (not with use=outdev). The format is like
with find -exec report_damage. Note that a MD5 session
mismatch marks all files of the session as damaged. If finer
distinction is desired, perform -md5 off before
-check_media.
report="blocks_files" first lists damaged
blocks and then affected files.
use="outdev" reads from the output drive
instead of the input drive. This avoids loading the ISO
image tree from media.
use="sector_map" does not read any media but
loads the file given by option sector_map= and processes
this virtual outcome.
what="disc" scans the payload range of a
medium without respecting track gaps.
what="image" similar to "disc", but
restricts scanning to the range of the ISO 9660 image, if
present.
min_lba=limit omits all blocks with addresses lower than
limit.
max_lba=limit switches to what=disc and omits all blocks
above limit.
chunk_size=size sets the number of bytes to be read in
one low-level read operation. This gets rounded down
to full blocks of 2048 bytes. 0 means automatic size.
retry="on" forces read retries with minimal
senseful chunk size when the normal read chunk produces a
read error. This size is 1s with CD and stdio files, 16s
with DVD (1 ECC Block), and 32s with BD (1 Cluster). By
default, retries are only enabled with CD media.
"retry=off" forbits retries for all media types.
abort_file=disk_path gives the path of the file which
may abort a scan run. Abort happens if the file exists and
its mtime is not older than the start time of the run. Use
shell command "touch" to trigger this. Other than
an aborted program run, this will report the tested and
untested blocks and go on with running xorriso.
time_limit=seconds gives the number of seconds after
which the scan shall be aborted. This is useful for
unattended scanning of media which may else overwork the
drive in its effort to squeeze out some readable blocks.
Abort may be delayed by the drive gnawing on the last single
read operation. Value -1 means unlimited time.
item_limit=number gives the number of report list items
after which to abort. Value -1 means unlimited item
number.
data_to=disk_path copies the valid blocks to the given
file, which must support random access writing, unless
disk_path is "-" which means standard
output.
In the latter case, patch_lba0= settings other than
"off" yield failure. Further the usual result
messages of -check_media get redirected to the info
channel. But beware of result messages from other commands.
Beware of -*dev "-" which redirect
standard output to standard error. Keep the run simple:
xorriso -indev /dev/sr0 -check_media
data_to=- -- | md5sum
xorriso -outdev /dev/sr0 -check_media
data_to=- use=outdev \
what=disc min_lba=0 max_lba=999999 -- |
sha256sum
event=severity sets the given severity for a problem
event which shall be issued at the end of a check run if
data blocks were unreadable or failed to match recorded MD5
checksums. Severity "ALL" disables this event.
sector_map=disk_path tries to read the file given by
disk_path as sector bitmap and to store such a map file
after the scan run. The bitmap tells which blocks have been
read successfully in previous runs. It is the persistent
memory for several scans on the same medium, even with
intermediate eject, in order to collect readable blocks
whenever the drive is lucky enough to produce them. The
stored file contains a human readable TOC of tracks and
their start block addresses, followed by binary bitmap data.
By default, untested blocks are not considered bad, but
rather as intentionally unread. If you expect time_limit= or
item_limit= to abort the run, then consider to use
bad_limit="untested".
map_with_volid="on" examines tracks whether
they are ISO images and prints their volume IDs into the
human readable TOC of sector_map=.
patch_lba0="on" transfers within the data_to=
file a copy of the currently loaded session head to the
start of that file and patches it to be valid at that
position. This makes the loaded session the last valid
session of the image file when it gets mounted or loaded as
stdio: drive. New sessions will be appended after this last
session and will overwrite any sessions which have followed
it.
patch_lba0="force" performs
patch_lba0="on" even if xorriso believes
that the copied data are not valid.
patch_lba0= may also bear a number. If it is 32 or higher it
is taken as start address of the session to be copied. In
this case it is not necessary to have an -indev and a
loaded image. ":force" may be appended after the
number.
bad_limit=threshold sets the highest quality which shall
be considered as damage. Choose one of "good",
"md5_match", "slow",
"partial", "valid",
"untested", "md5_mismatch",
"invalid", "tao_end",
"off_track", "unreadable".
"valid" and "invalid" are qualities
imported from a sector_map file. "tao_end" and
"off_track" are intentionally not readable, but
not bad either. "partial" are blocks retrieved
from a partially readable chunk. They are supposed to be ok
but stem from a suspicious neighborhood.
"md5_match" and "md5_mismatch" regions
overlap with regions of other quality. The former is a
strong confirmation for quality, the latter only tells that
one or more blocks of the region must be wrong.
By default bad_limit is set higher than md5_mismatch, so
that mismatches are classified as quality class
"0" rather than "-". This means
that the sectors of a MD5 mismatch range are recorded in the
sector_map as successfully read, if the drive handed them
out at all. Set "bad_limit=md5_mismatch" to let
the sector_map record the whole mismatching range as yet not
retrieved.
slow_limit=threshold sets the time threshold for a
single read chunk to be considered slow. This may be a
fractional number like 0.1 or 1.5.
async_chunks=number enables asynchronous MD5 processing
if number is 2 or larger. In this case the given number of
read chunks is allocated as fifo buffer. On very fast MMC
drives try: chunk_size=64s async_chunks=16.
-check_md5 severity iso_rr_path [***]
Compare the data content of the
given files in the loaded image with their recorded MD5
checksums, if there are any. In case of any mismatch an
event of the given severity is issued. It may then be
handled by appropriate settings of commands -abort_on
or -return_with which both can cause non-zero
exit values of the program run. Severity ALL suppresses that
event.
This command reports match and mismatch of data files to the
result channel. Non-data files cause NOTE events.
There will also be UPDATE events from data reading.
If no iso_rr_path is given then the whole loaded session is
compared with its MD5 sum. Be aware that this covers only
one session and not the whole image if there are older
sessions.
-check_md5_r severity iso_rr_path [***]
Like -check_md5 but checking all data files underneath the given paths. Only mismatching data files will be reported.
osirrox ISO-to-disk restore commands:
Normally
xorriso only writes to disk files which were given as
stdio: pseudo-drives or as log files. But its alter
ego osirrox is able to extract file objects from ISO images
and to create, overwrite, or delete file objects on disk.
Disk file exclusions by -not_mgt, -not_leaf,
-not_paths apply. The exclusion tests are made with
the paths and names for the disk files. If exclusion of
paths or names in the ISO image is desired, then use image
manipulation commands like -rm or -find ...
-exec rm before extraction, and end the program by
-rollback_end .
Excluded disk_path parameters of extraction commands cause
SORRY events. Implicitely given paths in trees under
disk_path parameters are excluded silently.
If disk file objects already exist then the settings of
-overwrite and -reassure apply. But
-overwrite "on" only triggers the behavior
of -overwrite "nondir". I.e. directories
cannot be deleted.
Access permissions of files in the ISO image do not restrict
restoring. The directory permissions on disk have to allow
rwx.
-osirrox setting[:option:...]
Setting off disables
disk filesystem manipulations. This is the default unless
the program was started with leafname osirrox.
Elsewise the capability to restore files can be enabled
explicitly by -osirrox on. It can be
irrevocably disabled by -osirrox banned.
The setting blocked is like off. But it can
only be revoked by setting unblock, which elsewise is
like on. This can be used to curb command scripts
which might use on undesiredly.
To enable restoring of special files by device_files
is potentially dangerous. The meaning of the number st_rdev
(see man 2 stat) depends much on the operating system. Best
is to restore device files only to the same system from
where they were copied. If not enabled, device files in the
ISO image are ignored during restore operations.
Due to a bug of previous versions, device files from
previous sessions might have been altered to major=0,
minor=1. So this combination does not get restored.
Option concat_split_on is default. It enables
restoring of split file directories as data files if the
directory contains a complete collection of -cut_out
part files. With option concat_split_off such
directories are handled like any other ISO image directory.
Option auto_chmod_off is default. If
auto_chmod_on is set then access restrictions for
disk directories get circumvented if those directories are
owned by the effective user who runs xorriso. This
happens by temporarily granting rwx permission to the owner.
Option sort_lba_on may improve read performance with
optical drives. It can restore large numbers of hard links
without exhausting -temp_mem_limit. It does not
preserve directory mtime and it needs -osirrox option
auto_chmod_on in order to extract directories which offer no
write permission. Default is sort_lba_off.
Option o_excl_on is the default unless the program
was started with leafname "osirrox". On GNU/Linux
it tries to avoid using drives which are mounted or in use
by other libburn programs. Option o_excl_off on
GNU/Linux enables access to such drives by the equivalent of
-drive_access "shared:readonly". I.e. drives
which get acquired while o_excl_off will refuse to
get blanked, formatted, written, or ejected. But be aware
that even harmless inquiries can spoil ongoing burns of
CD-R[W] and DVD-R[W].
Option strict_acl_off is default. It tolerates on
FreeBSD the presence of directory "default" ACLs
in the ISO image. With strict_acl_on these GNU/Linux
ACLs cause on FreeBSD a FAILURE event during restore with
-acl "on".
Option check_md5_off disables MD5 checking during
copy to disk. The default option check_md5_on enables
it if -md5 is "on". If a data file with
recorded MD5 is copied as a whole to the disk filesystem,
then the MD5 of the copied content gets computed and
compared with the recorded MD5. A mismatch causes an error
message of severity SORRY. Option check_md5_force
causes an error message if -md5 is "on" but
no MD5 is recorded for the data file.
Option sparse= controls production of sparse files
during extraction of files from the ISO filesystem. Default
is sparse=off.
A positive number like in sparse=1m sets the minimum
requirement for the length of a sequence of 0-bytes
which shall be represented by a gap. This saves disk space
if the disk filesystem supports sparse files. A gap gets
created by help of lseek(2) if a sequence of read buffers,
which contain only 0-bytes, bears at least the minimum
amount of bytes. Expect read buffers to be in the size range
of 32k or 64k.
Command -paste_in creates gaps only if the writing
begins at or after the end of the existing disk file. So the
sequence of -paste_in commands matters. Command
-concat does not create sparse files.
-extract iso_rr_path disk_path
Copy the file objects at and
underneath iso_rr_path to their corresponding addresses at
and underneath disk_path. This is the inverse of -map
or -update_r.
If iso_rr_path is a directory and disk_path is an existing
directory then both trees will be merged. Directory
attributes get extracted only if the disk directory is newly
created by the copy operation. Disk files get removed only
if they are to be replaced by file objects from the ISO
image.
As many attributes as possible are copied together with
restored file objects.
-extract_single iso_rr_path disk_path
Like -extract, but if iso_rr_path is a directory then its sub tree gets not restored.
-extract_l iso_rr_prefix disk_prefix iso_rr_path [***]
Perform -extract with each of the iso_rr_path parameters. disk_path will be composed from iso_rr_path by replacing iso_rr_prefix by disk_prefix.
-extract_cut iso_rr_path byte_offset byte_count disk_path
Copy a byte interval from a
data file out of an ISO image into a newly created disk
file. The main purpose for this is to offer a way of
handling large files if they are not supported by mount
-t iso9660 or if the target disk filesystem cannot
store large files.
If the data bytes of iso_rr_path are stored in the loaded
ISO image, and no filter is applied, and byte_offset is a
multiple of 2048, then a special run of -check_media
is performed. It may be quicker and more rugged than the
general reading method.
-cpx iso_rr_path [***] disk_path
Copy single leaf file objects
from the ISO image to the address given by disk_path. If
more then one iso_rr_path is given then disk_path must be a
directory or non-existent. In the latter case it gets
created and the extracted files get installed in it with the
same leafnames.
Missing directory components in disk_path will get created,
if possible.
Directories are allowed as iso_rr_path only with
-osirrox "concat_split_on" and only if they
actually represent a complete collection of -cut_out
split file parts.
-cpax iso_rr_path [***] disk_path
Like -cpx but restoring mtime, atime as in ISO image and trying to set ownership and group as in ISO image.
-cp_rx iso_rr_path [***] disk_path
Like -cpx but also
extracting whole directory trees from the ISO image.
The resulting disk paths are determined as with shell
command cp -r : If disk_path is an existing directory
then the trees will be inserted or merged underneath this
directory and will keep their leaf names. The ISO directory
"/" has no leaf name and thus gets mapped directly
to disk_path.
-cp_rax iso_rr_path [***] disk_path
Like -cp_rx but restoring mtime, atime as in ISO image and trying to set ownership and group as in ISO image.
-paste_in iso_rr_path disk_path byte_offset byte_count
Read the content of a ISO data
file and write it into a data file or device file on disk
beginning at the byte_offset. Write at most byte_count
bytes. The file depicted by disk_path has to support random
write access.
This is the inverse of command -cut_out.
-concat mode [target | lim prog [args [...]] lim] iso_rr_path [***]
Copy the data content of one or
more data files of the ISO image into a disk file object,
into a file descriptor, or start a program and copy the data
into its standard input. The latter is subject to the
security restrictions for external filters.
Modes overwrite and append write into the
target which is given by the second parameter. This may be
the path to a disk file object, or "-" which
means standard output, or a text of the form /dev/fd/number,
where number is an open file descriptor (e.g. standard error
is /dev/fd/2). An existing target file is not removed before
writing begins. If it is not able to take content data, then
this command fails. Mode overwrite truncates regular data
files to 0 size before writing into them. Example:
-concat append /home/me/accumulated_text /my/iso/text
--
Mode
pipe expects as second parameter a delimiter word
which shall mark the end of the program argument list. The
third argument is the disk_path to the program. It must
contain at least one ’/’. $PATH is not applied.
Further parameters up to the announced delimiter word are
used as arguments with the program start. Example:
-iso_rr_pattern on \
-concat pipe + /usr/bin/wc +
"/my/iso/files*" --
The further parameters in all modes are the iso_rr_paths of data files. Their content gets concatenated in the copy.
-extract_boot_images disk_path
Copy boot equipment to disk,
which is not necessarily represented as data files in the
ISO filesystem. The data get written into various files in a
disk directory, which may already exist or of which the
parent must exist so that it can get created.
Files may be missing if their corresponding information is
not present in the ISO filesystem. Existing files do not get
overwritten but rather cause a failure event.
The same data may appear in different files. E.g. the El
Torito boot image for EFI is often the same data as the EFI
partition in MBR or GPT.
File "eltorito_catalog.img" contains the El Torito
Boot Catalog.
Files "eltorito_img*_*.img" contain El Torito Boot
images. The first "*" gives the image number, the
second "*" gives the type: "bios",
"mac", "ppc", "uefi", or a hex
number.
File "mbr_code_isohybrid.img" contains the
ISOLINUX MBR template.
File "mbr_code_grub2.img" contains the GRUB2 MBR
template.
File "systemarea.img" contains the whole 32 KiB of
System Area if not all zero.
Files "mbr_part*_efi.img" contain EFI partition
images from the MBR partition table. The "*" text
part gives the partition number.
Files "mbr_part*_prep.img" contain PReP partition
images.
Files "gpt_part*_efi.img" contain EFI partition
images from GPT.
Files "gpt_part*_hfsplus.img" contain HFS+
partition images from GPT. To avoid extracting the whole
HFS+ aspect of hybrid ISO filesystems, the partition image
is extracted only if it has less than half of the size of
the ISO filesystem or if the partition is outside the ISO
filesystem.
-mount drive entity id path
Produce the same line as -mount_cmd and then execute it as external program run after giving up the depicted drive. See also -mount_opts. This demands -osirrox to be enabled and normally will succeed only for the superuser. For safety reasons the mount program is only executed if it is reachable as /bin/mount or /sbin/mount.
Command compatibility emulations:
Writing of ISO
9660 on CD is traditionally done by program mkisofs as ISO
9660 image producer and cdrecord as burn program.
xorriso does not strive for their comprehensive
emulation. Nevertheless it is ready to perform some of its
core tasks under control of commands which in said programs
trigger comparable actions.
-as personality option [options] --
Perform the variable length option list as sparse emulation of the program depicted by the personality word.
Personality
"mkisofs" accepts the options listed with:
-as mkisofs -help --
Among them: -R (always on), -r, -J,
-o, -M, -C, -dir-mode,
-file-mode, -path-list, -m,
-exclude-list, -f,
-print-size, -pad, -no-pad,
-V, -v, -version,
-graft-points, -z,
-no-emul-boot, -b, -c,
-boot-info-table,
-boot-load-size,
-input-charset, -G,
-output-charset, -U, -hide,
-hide-joliet, -hide-list,
-hide-joliet-list, file paths and
pathspecs. A lot of options are not supported and lead to
failure of the mkisofs emulation. Some are ignored, but
better do not rely on this tolerance.
The supported options are documented in detail in
xorrisofs.info and in man xorrisofs. The description here is
focused on the effect of mkisofs emulation in the context of
a xorriso run.
Other than with the "cdrecord" personality there
is no automatic -commit at the end of a
"mkisofs" option list. Verbosity settings -v
(= "UPDATE") and -quiet (=
"SORRY") persist. The output file persists until
things happen like -commit, -rollback,
-dev, or end of xorriso.
Options which affect all file objects in the ISO image, like
-r or -dir-mode, will be applied only to
files which are present in the ISO image when the command
-as ends. If you use several -as mkisofs
commands in the same run, then consider to put such options
into the last -as command.
If files are added to the image, then -pacifier gets
set to "mkisofs" and -stdio_sync is
defaulted to "off" if no such setting was made
yet.
-graft-points is equivalent to -pathspecs
on. Note that pathspecs without "=" are
interpreted differently than with xorriso command
-add. Directories get merged with the root directory
of the ISO image, other filetypes get mapped into that root
directory.
If pathspecs are given and if no output file was chosen
before or during the "mkisofs" option list, then
standard output (-outdev "-") will get
into effect. If -o points to a regular file, then it
will be truncated to 0 bytes when finally writing begins.
This truncation does not happen if the drive is chosen by
xorriso commands before -as mkisofs or after
its list delimiter. Directories and symbolic links are no
valid -o targets.
Writing to stdout is possible only if -as
"mkisofs" was among the start arguments or if
other start arguments pointed the output drive to standard
output.
-print-size inhibits automatic image production
at program end. This ban is lifted only if the pending image
changes get discarded.
Padding is counted as part of the ISO image if not option
--emul-toc is given.
If no -iso-level is given, then level 1 is
chosen when the first file or directory is added to the
image. At the same occasion directory names get allowed to
violate the standard by -compliance option
allow_dir_id_ext. This may be avoided by option
-disallow_dir_id_ext.
Option -root is supported. Option
-old-root is implemented by xorriso
commands -mkdir, -cp_clone, -find
update_merge, and -find rm_merge. -root and
-old-root set command -disk_dev_ino to
"ino_only" and -md5 to "on", by
default. -disk_dev_ino can be set to "off"
by --old-root-no-ino or to
"on" by --old-root-devno .
-md5 can be set to "off" by
--old-root-no-md5 .
Not original mkisofs options are
--quoted_path_list , --hardlinks ,
--acl , --xattr , --md5
, --stdio_sync . They work like the
xorriso commands with the same name and hardcoded
parameter "on", e.g. -acl "on".
Explicit parameters are expected by --stdio_sync
and --scdbackup_tag.
The capability to preserve multi-session history on
overwritable media gets disabled by default. It can be
enabled by using --emul-toc with the first
session. See -compliance no_emul_toc.
--sort-weight gets as parameters a number
and an iso_rr_path. The number becomes the LBA sorting
weight of regular file iso_rr_path or of all regular files
underneath directory iso_rr_path. (See -find
-exec sort_weight).
Adopted from grub-mkisofs are
--protective-msdos-label (see
-boot_image grub partition_table=on) and
--modification-date=YYYYMMDDhhmmsscc (see
-volume_date uuid). For EFI bootable GRUB boot images
use --efi-boot. It performs
-boot_image grub efi_path= surrounded by two
-boot_image "any" "next".
Alternative option -e from Fedora genisoimage sets
bin_path and platform_id for EFI, but performs no
"next".
For MBR bootable ISOLINUX images there is
-isohybrid-mbr FILE, where FILE is one of the
Syslinux files mbr/isohdp[fp]x*.bin . Use this instead of
-G to apply the effect of -boot_image isolinux
partition_table=on.
--boot-catalog-hide is
-boot_image any cat_hidden=on.
-mips-boot is the same as -boot_image any
mips_path= .
-mipsel-boot leads to mipsel_path= .
-partition_offset number is -boot_image any
partition_offset=number.
Command -append_partition is supported.
-untranslated_name_len number is -compliance
untranslated_name_len=number.
--old-empty is -compliance
old_empty.
The options of genisoimage Jigdo Template Extraction are
recognized and performed via xorriso command
-jigdo. See the "Alias:" names there for the
meaning of the genisoimage options.
Personalities
"xorrisofs",
"genisoimage", and
"genisofs" are aliases for
"mkisofs".
If xorriso is started with one of the leafnames
"xorrisofs", "genisofs",
"mkisofs", or "genisoimage", then it
performs -read_mkisofsrc and prepends -as
"genisofs" to the program arguments. I.e. all
arguments will be interpreted mkisofs style until
"--" is encountered. From then on,
arguments are interpreted as xorriso commands.
--no_rc as first argument of such a program
start prevents interpretation of startup files. See section
FILES below.
Personality
"cdrecord" accepts the options listed with:
-as cdrecord -help --
Among them: -v, dev=, speed=, blank=, fs=,
-eject, -atip, padsize=, tsize=, -isosize,
-multi, -msinfo,
--grow_overwriteable_iso, write_start_address=,
track source file path or "-" for standard
input as track source.
It ignores most other options of cdrecord and cdrskin but
refuses on -audio, -scanbus, and on blanking
modes unknown to xorriso.
The scope is only a single data track per session to be
written to blank, overwritable, or appendable media. The
medium gets closed if closing is applicable and not option
-multi is present.
If an input drive was acquired, then it is given up. This is
only allowed if no image changes are pending.
dev= must be given as xorriso device address.
Addresses like 0,0,0 or ATA:1,1,0 are not supported.
If a track source is given, then an automatic -commit
happens at the end of the "cdrecord" option list.
--grow_overwriteable_iso enables emulation of
multi-session on overwritable media. To enable
emulation of a TOC, the first session needs -C 0,32
with -as mkisofs (but no -M) and
--grow_overwriteable_iso write_start_address=32s
with -as cdrecord.
A much more elaborate libburn based cdrecord emulator is the
program cdrskin.
Personalites "xorrecord",
"wodim", and "cdrskin" are
aliases for "cdrecord".
If xorriso is started with one of the leafnames
"xorrecord", "cdrskin",
"cdrecord", or "wodim", then it
automatically prepends -as "cdrskin" to the
program arguments. I.e. all arguments will be interpreted
cdrecord style until "--" is
encountered. From then on, arguments are interpreted as
xorriso commands.
--no_rc as first argument of such a program
start prevents interpretation of xorriso startup
files. See section FILES below.
-read_mkisofsrc
Try one by one to open for
reading:
./.mkisofsrc , $MKISOFSRC , $HOME/.mkisofsrc , $(dirname
$0)/.mkisofsrc
On success interpret the file content as of man mkisofs
CONFIGURATION, and end this command. Do not try further
files. The last address is used only if start argument 0 has
a non-trivial dirname.
The reader currently interprets the following NAME=VALUE
pairs: APPI (-application_id) , PUBL
(-publisher) , SYSI (-system_id) , VOLI
(-volid) , VOLS (-volset_id)
Any other lines will be silently ignored.
-pacifier behavior_code
Control behavior of UPDATE
pacifiers during write operations. The following behavior
codes are defined:
"xorriso" is the default format:
Writing: sector XXXXX of YYYYYY [fifo active, nn% fill]
"cdrecord" looks like:
X of Y MB written (fifo nn%) [buf mmm%]
"mkisofs"
nn% done, estimate finish Tue Jul 15 20:13:28 2008
The frequency of the messages can be adjusted by
"interval=number"
where number gives the seconds between two messages.
Permissible settings are 0.1 to 60.0.
-scdbackup_tag list_path record_name
Set the parameter
"name" for a scdbackup checksum record. It will be
appended in an scdbackup checksum tag to the -md5
session tag if the image starts at LBA 0. This is the case
if it gets written as first session onto a sequential
medium, or piped into a program, named pipe or character
device.
If list_path is not empty then the record will also be
appended to the data file given by this path.
Program scdbackup_verify will recognize and verify tag and
file record.
An empty record_name disables this feature.
Scripting, dialog and program control features:
-no_rc |
Only if used as first program argument this command prevents reading and interpretation of startup files. See section FILES below. |
-options_from_file fileaddress
Read quoted input from
fileaddress and execute it like dialog lines. Empty lines
and lines which begin by # are ignored. Normally one line
should hold one xorriso command and all its
parameters. Nevertheless lines may be concatenated by a
trailing backslash.
See also section "Command processing", paragraph
"Quoted input".
-help |
Print helptext. |
-version
Print program name and version, component versions, license.
-list_extras code
Tell whether certain extra
features were enabled at compile time. Code "all"
lists all features and a headline. Other codes pick a single
feature. Code "codes" lists them. They share names
with related commands (see also there):
"acl" tells whether xorriso has an adapter for
local filesystems ACLs.
"xattr" tells whether xorriso has an adapter for
local filesystems EA.
"jigdo" tells whether production of Jigdo files is
possible.
"zisofs" tells whether zisofs and built-in
gzip filters are enabled.
"external_filter" tells whether external filter
processes are allowed and whether they are allowed if real
user id and effective user id differ.
"dvd_obs" tells whether 64 kB output to DVD media
is default.
"use_readline" tells whether readline may be
enabled in dialog mode.
-history textline
Copy textline into libreadline history.
-status mode|filter
Print the current settings of
xorriso. Modes:
short... print only important or altered settings
long ... print all settings including defaults
long_history like long plus history lines
Filters begin with ’-’ and are compared
literally against the output lines of
-status:long_history. A line is put out only if its
start matches the filter text. No wildcards.
-status_history_max number
Set maximum number of history lines to be reported with -status "long_history".
-list_delimiter word
Set the list delimiter to be
used instead of "--". It has to be a
single word, must not be empty, not longer than 80
characters, and must not contain quotation marks.
For brevity the list delimiter is referred as
"--" throughout this text.
-sh_style_result "on"|"off"
Make the result output of some
filesystem inspection commands look more like the output of
equivalent shell commands. The most important effect is to
prevent the wrapping of file addresses into quotation marks
with commands
-pwd -pwdx -ls -lsd -lsl
-lsdl -lsx -lsdx -lslx -lsdlx
-du -dus -dux -dusx -findx
-find
This will make ambiguous the representation of file names
which contain newline characters. On the other hand it
should facilitate integration of xorriso into shell scripts
which already use the corresponding shell commands.
-backslash_codes "on"|"off"|mode[:mode]
Enable or disable the
interpretation of symbolic representations of special
characters with quoted input, or with program arguments, or
with program text output. If enabled the following
translations apply:
\a=bell(007) \b=backspace(010) \e=Escape(033)
\f=formfeed(014)
\n=linefeed(012) \r=carriage_return(015) \t=tab(011)
\v=vtab(013) \\=backslash(134)
\[0-7][0-7][0-7]=octal_code
\x[0-9a-f][0-9a-f]=hex_code
\cC=control-C
Translations can occur with quoted input in 3 modes:
"in_double_quotes" translates only inside "
quotation.
"in_quotes" translates inside " and ’
quotation.
"with_quoted_input" translates inside and outside
quotes.
With the start program arguments there is mode:
"with_program_arguments" translates program
arguments.
Mode "encode_output" encodes output characters. It
combines "encode_results" with
"encode_infos". Inside single or double quotation
marks encoding applies to 8-bit characters octal 001
to 037 , 177 to 377 and to backslash(134). Outside quotation
marks some harmless ASCII control characters stay unencoded:
bell(007), backspace(010), tab(011), linefeed(012),
formfeed(014), carriage_return(015).
Mode "off" is default and disables any
translation. Mode "on" is
"with_quoted_input:with_program_arguments:encode_output".
-temp_mem_limit number["k"|"m"]
Set the maximum size of
temporary memory to be used for image dependent buffering.
Currently this applies to pattern expansion, LBA sorting,
restoring of hard links.
Default is 16m = 16 MiB, minimum 64k = 64 kiB, maximum 1024m
= 1 GiB.
-print text
Print a text line to the result channel which is by default stdout.
-print_info text
Print a text line to the info channel which is by default stderr.
-print_mark text
Print a text line to the mark channel which is by default directed to both, result and info channel. An empty text will cause no output at all.
-prompt text
Show text at beginning of output line and wait for the user to hit the Enter key or to send a line via stdin.
-sleep seconds
Wait for the given number of seconds before performing the next command. Expect coarse granularity no better than 1/100 seconds.
-errfile_log mode path|channel
If problem events are related
to input files from the filesystem, then their disk_paths
can be logged to a file or to output channels R or I.
Mode can either be "plain" or "marked".
The latter causes marker lines which give the time of log
start, burn session start, burn session end, log end or
program end. In mode "plain", only the file paths
are logged.
If path is "-" or "-R" then
the log is directed to the result channel. Path
"-I" directs it to the info message channel.
Any text that does not begin with "-" is
used as path for a file to append the log lines.
Problematic files can be recorded multiple times during one
program run. If the program run aborts then the list might
not be complete because some input files might not have been
processed at all.
The errfile paths are transported as messages of very low
severity "ERRFILE". This transport becomes visible
with -report_about "ALL".
-session_log path
If path is not empty it gives
the address of a plain text file where a log record gets
appended after each session. This log can be used to
determine the start_lba of a session for mount options
-o sbsector= (on GNU/Linux) or -s (on FreeBSD)
from date or volume ID.
Record format is: timestamp start_lba size volume-id
The first three items are single words, the rest of the line
is the volume ID.
-scsi_log "on"|"off"
Mode "on" enables
very verbose logging of SCSI commands and drive replies.
Logging messages get printed to stderr, not to any of the
xorriso output channels.
A special property of this command is that the first
-scsi_log setting among the start arguments is in
effect already when the first operations of xorriso
begin. Only "-scsi_log" with dash
"-" is recognized that way.
-end |
End program after writing pending changes. |
-rollback_end
Discard pending changes. End program immediately.
# any text
Only in dialog or file execution mode, and only as first non-whitespace in line: Do not execute the line but store it in readline history.
Support for frontend programs via stdin and stdout:
-pkt_output "on"|"off"
Consolidate text output on
stdout and classify each line by a channel indicator:
’R:’ for result lines,
’I:’ for notes and error messages,
’M:’ for -mark texts.
Next is a decimal number of which only bit 0 has a meaning
for now. 0 means no newline at end of payload, 1 means that
the newline character at the end of the output line belongs
to the payload. After another colon and a blank follows the
payload text.
Example:
I:1: enter option and parameters :
-logfile channel fileaddress
Copy output of a channel to the given file. Channel may be one of: "." for all channels, "I" for info messages, "R" for result lines, "M" for -mark texts.
-mark text
If text is not empty it will get put out on "M" channel each time xorriso is ready for the next dialog line or before xorriso performs a command that was entered to the pager prompt.
-msg_op opcode parameter_text
This command shall facilitate
extraction of particular information from the message output
of other commands. It gives access to the C API function
Xorriso_parse_line() and to the message sieve that is
provided by the C API. Please refer to their descriptions in
file xorriso.h. Further it helps to interpret the severity
codes of info messages.
Intended users are frontend programs which operate xorriso
in dialog mode.
The result output of this command is not caught by the
message sieve.
The following opcodes are defined:
start_sieve
Install the message sieve as of Xorriso_sieve_big() and
start watching program messages. The parameter_text has no
meaning.
show_sieve
Show a list of filter rule names. The parameter_text has no
meaning. The list begins by a line with the return value of
Xorriso_sieve_get_result() with flag bit3. If this value is
larger than 0, then the next line tells the number of names.
The following lines show one name each.
read_sieve
Use the parameter_text as name of a filter rule and inquire
its next recorded result. See Xorriso_sieve_big() for a list
of names and reply strings.
The recorded strings are put out on result channel. They get
wrapped into lines which tell their structure. The first
line tells the return value of Xorriso_sieve_get_result().
The next line tells the number of strings. Each string
begins by a line that tells the number of lines of the
string. Then follow these lines. They are to be concatenated
with a newline character between each of them. Finally the
number of still available recorded results of the given name
is put out.
clear_sieve
Dispose all recorded strings and continue watching program
messages. The parameter_text has no meaning.
end_sieve
Dispose the sieve with its filter rules and stop watching
program messages. The parameter_text has no meaning.
parse
Read a text from dialog input and submit it to
Xorriso_parse_line(). The parameter_text word shall consist
of several words separated by blanks. It will be necessary
to use both kinds of quotation marks.
E.g. "’ISO session :’ ’’ 0 0
1"
The five parameter words are: prefix, separators, max_words,
flag, number_of_input_lines. The former four are handed over
to Xorriso_parse_line(). The number of input lines minus one
tells xorriso how many newline characters are part of the
input text.
The announced number of text lines will be read from dialog
input, concatenated with a newline character between each of
them, and submitted to Xorriso_parse_line() as parameter
line. Note that newlines outside of quotation marks are
interpreted as separators if the separators parameter is
empty.
The parsed strings are put out on result channel. They get
wrapped into lines which tell their structure. The first
line tells the return value of Xorriso_parse_line(). The
next line tells the number of strings. Each string begins by
a line that tells the number of lines of the string. Then
follow these lines. They are to be concatenated with a
newline character between each of them.
If -backslash_codes "encode_output" is
enabled, then the strings undergo encoding as if they were
enclosed in quotes. Escpecially each string will be put out
as a single result line.
parse_bulk
Like "parse", but with the fifth parameter word
being number_of_input_texts rather than
number_of_input_lines. Each input text has to be preceded by
a line that tells number_of_input_lines as with
"parse". Then come the announced number of text
lines.
All input texts will be read before printing of result lines
begins. This consumes memory in xorriso. So the
number_of_input_texts should not be extremely high. On the
other hand, large transactions of command, input texts, and
results are desirable if connection latency is an issue.
parse_silently
Like "parse" but not issuing a prompting message.
Confusing to humans.
parse_bulk_silently
Like "parse_bulk" but not issuing a prompting
message. Confusing to humans.
compare_sev
The parameter_text should contain two comma separated
severity texts as issued by this program. Like
"SORRY,UPDATE". See also paragraph "Exception
processing".
These two severity texts get compared and a number gets
printed to the result channel. This number is 0 if both
severities are equal. It is -1 if the first severity
is lower than the second one. It is 1 is the first severity
is higher than the second one.
Above example "SORRY,UPDATE" will yield 1.
list_sev
Print to the result channel a blank separated list of all
severity names. Sorted from low to high severity.
-named_pipe_loop mode[:mode] disk_path_stdin disk_path_stdout disk_path_stderr
Temporarily replace standard
input, standard output and standard error by named pipes.
Enter dialog mode without readline.
Defined modes are:
"cleanup" removes the submitted pipe files when
the loop ends.
"keep" does not delete them. This is the default.
"buffered" reads all lines from the input pipe
until EOF before it opens the output pipes and processes the
input lines.
"direct" opens the output pipes after the first
input line was read. Each line is executed directly after it
is read. This is the default.
The other three parameters must either be disk paths to
existing named pipes, or be "-" to leave the
according standard i/o channel unreplaced.
xorriso will open the stdin pipe, read and execute dialog
lines from it until the sender closes the pipe. The output
pipes get opened depending on mode "buffered" or
"direct". After all lines are executed, xorriso
will close its side of the pipes and enter a new cycle of
opening, reading and executing.
If an input line consists only of the word
"end_named_pipe_loop" then -named_pipe_loop
will end and further xorriso commands may be executed from
other sources.
-launch_frontend program [arguments ...] --
Start the program that is given
as first parameter. Submit the other parameters as program
arguments. Enable xorriso dialog mode.
Two nameless pipe objects are created. xorriso standard
input gets connected to the standard output of the started
program. xorriso standard output and standard error get
connected to the standard input of that program.
xorriso will abort when the started program ends or if it
cannot be started at all. In both cases it will return a
non-zero exit value. The exit value will be zero if
the frontend sends -end or -rollback_end before
ending itself.
This command may be totaly banned at compile time. It is
banned by default if xorriso runs under setuid permissions.
The program name will not be searched in the $PATH
directories. To make this clear, it must contain at least
one /-character. Best is an absolute path.
Example:
xorriso -launch_frontend "$(which
xorriso-tcltk)" -stdio --
The frontend program should first send via its standard
output:
-mark 0 -pkt_output on -msg_op start_sieve
- -reassure off
It should be ready to decode -pkt_output and to react
on -mark messages. Best is to increment the
-mark number after each sent command sequence and then
to wait for the new number to show up in a mark message:
...some...commands... -mark <incremented_number>
Further are advised:
-report_about UPDATE -abort_on NEVER
-iso_rr_pattern off -disk_pattern off
A check of the xorriso version should be done, in order to
make sure that all desired features are present.
Command -launch_frontend will only work once per
xorriso run. If no command parameters are submitted or if
program is an empty text, then no program will be started
but nevertheless -launch_frontend will be irrevocably
disabled.
-prog text
Use text as name of this program in subsequent messages
-prog_help text
Use text as name of this program and perform -help.
Overview of examples:
As superuser learn about available drives
Blank medium and compose a new ISO image as batch run
A dialog session doing about the same
Manipulate an existing ISO image on the same medium
Copy modified ISO image from one medium to another
Bring a prepared ISOLINUX tree onto medium and make it
bootable
Change existing file name tree from ISO-8859-1 to UTF-8
Operate on storage facilities other than optical drives
Burn an existing ISO image file to medium
Perform multi-session runs as of cdrtools traditions
Let xorriso work underneath growisofs
Adjust thresholds for verbosity, exit value and program
abort
Examples of input timestrings
Incremental backup of a few directory trees
Restore directory trees from a particular ISO session to
disk
Try to retrieve blocks from a damaged medium
As superuser learn about available drives
On Linux, FreeBSD or NetBSD consider to give
rw-permissions to those users or groups which shall be
able to use the drives with xorriso. On Solaris use
pfexec. Consider to restrict privileges of xorriso to
"base,sys_devices" and to give r-permission
to user or group.
$ xorriso -device_links
1 -dev ’/dev/cdrom1’ rwrw-- :
’TSSTcorp’ ’DVD-ROM SH-D162C
1 -dev ’/dev/cdrw’ rwrw-- :
’TSSTcorp’ ’CDDVDW SH-S223B’
2 -dev ’/dev/cdrw3’ rwrw-- :
’HL-DT-ST’
’BDDVDRW_GGC-H20L’
Blank medium and compose a new ISO image as batch run
Acquire drive /dev/sr2, make medium ready for writing a new
image, fill the image with the files from hard disk
directories /home/me/sounds and /home/me/pictures.
Because no -dialog "on" is given, the
program will then end by writing the session to the medium.
$ xorriso -outdev /dev/sr2 \
-blank as_needed \
-map /home/me/sounds /sounds \
-map /home/me/pictures /pictures
The ISO image
may be shaped in a more elaborate way like the following:
Omit some unwanted stuff by removing it from the image
directory tree. Reintroduce some wanted stuff.
$ cd /home/me
$ xorriso -outdev /dev/sr2 \
-blank as_needed \
-map /home/me/sounds /sounds \
-map /home/me/pictures /pictures \
-rm_r \
/sounds/indecent \
’/pictures/*private*’ \
/pictures/confidential \
-- \
-cd / \
-add pictures/confidential/work* --
Note that ’/pictures/*private*’ is a pattern for
iso_rr_paths while pictures/confidential/work* gets expanded
by the shell with addresses from the hard disk. Commands
-add and -map have different parameter rules but
finally the same effect: they put files into the image.
A dialog session doing about the same
Some settings are already given as start argument. The other
activities are done as dialog input. The pager gets set to
20 lines of 80 characters.
The drive is acquired by command -dev rather than
-outdev in order to see the message about its current
content. By command -blank this content is made ready
for being overwritten and the loaded ISO image is made
empty.
In order to be able to eject the medium, the session needs
to be committed explicitly.
$ xorriso -dialog on -page 20 80 -disk_pattern on
enter option and arguments :
-dev /dev/sr2
enter option and arguments :
-blank as_needed
enter option and arguments :
-map /home/me/sounds /sounds -map /home/me/pictures /pictures
enter option and arguments :
-rm_r /sounds/indecent /pictures/*private* /pictures/confidential
enter option and arguments :
-cdx /home/me/pictures -cd /pictures
enter option and arguments :
-add confidential/office confidential/factory
enter option and arguments :
-du /
enter option and arguments :
-commit_eject all -end
Manipulate an existing ISO image on the same medium
Load image from drive. Remove (i.e. hide) directory /sounds
and its subordinates. Rename directory
/pictures/confidential to /pictures/restricted. Change
access permissions of directory /pictures/restricted. Add
new directory trees /sounds and /movies. Burn to the same
medium, check whether the tree can be loaded, and eject.
$ xorriso -dev /dev/sr2 \
-rm_r /sounds -- \
-mv \
/pictures/confidential \
/pictures/restricted \
-- \
-chmod go-rwx /pictures/restricted
-- \
-map /home/me/prepared_for_dvd/sounds_dummy /sounds \
-map /home/me/prepared_for_dvd/movies /movies \
-commit -eject all
Copy modified ISO image from one medium to another
Load image from input drive. Do the same manipulations as in
the previous example. Acquire output drive and blank it.
Burn the modified image as first and only session to the
output drive.
$ xorriso -indev /dev/sr2 \
-rm_r /sounds -- \
...
-outdev /dev/sr0 -blank as_needed \
-commit -eject all
Bring a prepared ISOLINUX tree onto medium and make it bootable
The user has already created a suitable file tree on disk
and copied the ISOLINUX files into subdirectory
./boot/isolinux of that tree. Now xorriso can burn an
El Torito bootable medium:
$ xorriso -outdev /dev/sr0 -blank as_needed \
-map /home/me/ISOLINUX_prepared_tree / \
-boot_image isolinux dir=/boot/isolinux
Change existing file name tree from ISO-8859-1 to UTF-8
This example assumes that the existing ISO image was written
with character set ISO-8859-1 but that the
readers expected UTF-8. Now a new session gets added
with converted file names. Command -changes_pending
"yes" enables writing despite the lack of any
manipulation command.
In order to avoid any weaknesses of the local character set,
this command pretends that it uses already the final target
set UTF-8. Therefore strange file names may appear in
messages, which will be made terminal-safe by command
-backslash_codes.
$ xorriso -in_charset ISO-8859-1
-local_charset UTF-8 \
-out_charset UTF-8 -backslash_codes on
-dev /dev/sr0 \
-changes_pending yes -commit -eject
all
Operate on storage facilities other than optical drives
Full read-write operation is possible with regular
files and block devices:
$ xorriso -dev /tmp/regular_file ...
Paths underneath /dev normally need prefix
"stdio:"
$ xorriso -dev stdio:/dev/sdb ...
If /dev/sdb is to be used frequently and /dev/sda is the
system disk, then consider to place the following lines in a
xorriso Startup File. They allow you to use /dev/sdb
without prefix and protect disk /dev/sda from
xorriso:
-drive_class banned /dev/sda*
-drive_class harmless /dev/sdb
Other writeable file types are supported write-only:
$ xorriso -outdev /tmp/named_pipe ...
Among the write-only drives is standard output:
$ xorriso -outdev - \
...
| gzip >image.iso.gz
Burn an existing ISO image file to medium
Actually this works with any kind of data, not only ISO
images:
$ xorriso -as cdrecord -v dev=/dev/sr0
blank=as_needed image.iso
Perform multi-session runs as of cdrtools traditions
Between both processes there can be performed arbitrary
transportation or filtering.
The first session is written like this:
$ xorriso -as mkisofs prepared_for_iso/tree1 | \
xorriso -as cdrecord -v dev=/dev/sr0 blank=fast
-multi -eject -
Follow-up sessions are written like this (the run of
dd is only to give demons a chance to spoil it):
$ m=$(xorriso -as cdrecord dev=/dev/sr0 -msinfo)
$ dd if=/dev/sr0 count=1 >/dev/null 2>&1
$ xorriso -as mkisofs -M /dev/sr0 -C $m
prepared_for_iso/tree2 | \
xorriso -as cdrecord -v dev=/dev/sr0
-waiti -multi -eject -
Always eject the drive tray between sessions.
The run of xorriso -as mkisofs will read old sessions
via the CD-ROM driver of /dev/sr0. This driver might
not be aware of the changed content as long as the medium is
not loaded again. In this case the previous session would
not be properly assessed by xorriso and the new session
would contain only the newly added files.
Some systems have not enough patience with automatic tray
loading and some demons may interfere with a first
CD-ROM driver read attempt from a freshly loaded
medium.
When loading the tray manually, wait 10 seconds after the
drive has stopped blinking.
A safe automatic way seems to be a separate run of xorriso
for loading the tray with proper waiting, and a subsequent
run of dd which shall offer itself to any problems caused by
demons assessing the changed drive status. If this does not
help, insert a run of "sleep 10" between xorriso
and dd.
This example works for multi-session media only. Add
cdrskin option --grow_overwriteable_iso to all
-as cdrecord runs in order to enable
multi-session emulation on overwritable media.
Let xorriso work underneath growisofs
growisofs expects an ISO formatter program which understands
options -C and -M. If xorriso gets
started by name "xorrisofs" then it is suitable
for that.
$ export MKISOFS="xorrisofs"
$ growisofs -Z /dev/dvd /some/files
$ growisofs -M /dev/dvd /more/files
If no "xorrisofs" is available on your system,
then you will have to create a link pointing to the
xorriso binary and tell growisofs to use it. E.g. by:
$ ln -s $(which xorriso) "$HOME/xorrisofs"
$ export MKISOFS="$HOME/xorrisofs"
One may quit mkisofs emulation by argument
"--" and make use of all
xorriso commands. growisofs dislikes options which
start with "-o" but -outdev must be
set to "-". So use "outdev"
instead:
$ growisofs -Z /dev/dvd -- outdev -
-update_r /my/files /files
$ growisofs -M /dev/dvd -- outdev -
-update_r /my/files /files
growisofs has excellent burn capabilities with DVD and BD.
It does not emulate session history on overwritable media,
though.
Adjust thresholds for verbosity, exit value and program abort
Be quite verbose, exit 32 if severity "FAILURE"
was encountered, do not abort prematurely but forcibly go on
until the end of commands.
$ xorriso ... \
-report_about UPDATE \
-return_with FAILURE 32 \
-abort_on NEVER \
...
Examples of input timestrings
As printed by program date: ’Thu Nov 8 14:51:13 CET 2007’
The same without ignored parts: ’Nov 8 14:51:13 2007’
The same as expected by date: 110814512007.13
Four weeks in the future: +4w
The current time: +0
Three hours ago: -3h
Seconds since Jan 1 1970: =1194531416
Incremental backup of a few directory trees
This changes the directory trees /projects and
/personal_mail in the ISO image so that they become exact
copies of their disk counterparts. ISO file objects get
created, deleted or get their attributes adjusted
accordingly.
ACL, xattr, hard links and MD5 checksums will be recorded.
Accelerated comparison is enabled at the expense of
potentially larger backup size. Only media with the expected
volume ID or blank media are accepted. Files with names
matching *.o or *.swp get excluded explicitly.
When done with writing the new session gets checked by its
recorded MD5.
$ xorriso \
-abort_on FATAL \
-for_backup -disk_dev_ino on \
-assert_volid ’PROJECTS_MAIL_*’ FATAL \
-dev /dev/sr0 \
-volid PROJECTS_MAIL_"$(date
’+%Y_%m_%d_%H%M%S’)" \
-not_leaf ’*.o’ -not_leaf
’*.swp’ \
-update_r /home/thomas/projects /projects \
-update_r /home/thomas/personal_mail /personal_mail \
-commit -toc -check_md5 FAILURE
-- -eject all
To be used several times on the same medium, whenever an
update of the two disk trees to the medium is desired. Begin
with a blank medium and update it until the run fails
gracefully due to lack of remaining space on the old one.
This makes sense if the full backup leaves substantial
remaining capacity on media and if the expected changes are
much smaller than the full backup. To apply zisofs
compression to those data files which get newly copied from
the local filesystem, insert these commands immediately
before -commit :
-hardlinks perform_update \
-find / -type f -pending_data -exec
set_filter --zisofs -- \
Commands -disk_dev_ino and -for_backup depend on
stable device and inode numbers on disk. Without them, an
update run may use -md5 "on" to match
recorded MD5 sums against the current file content on hard
disk. This is usually much faster than the default which
compares both contents directly.
With mount option -o "sbsector=" on GNU/Linux or -s on
FreeBSD or NetBSD it is possible to access the session trees
which represent the older backup versions. With CD media,
GNU/Linux mount accepts session numbers directly by its
option "session=".
Multi-session media and most overwritable media
written by xorriso can tell the sbsectors of their
sessions by xorriso command -toc. Used after
-commit the following command prints the matching
mount command for the newly written session (here for mount
point /mnt):
-mount_cmd "indev" "auto"
"auto" /mnt
Commands -mount_cmd and -mount are also able to
produce the mount commands for older sessions in the
table-of-content. E.g. as superuser:
# osirrox -mount /dev/sr0 "volid"
’*2008_12_05*’ /mnt
Above example
produces a result similar to -root /
-old-root / with mkisofs. For getting the
session trees accumulated in the new sessions, let all
-update commands use a common parent directory and
clone it after updating is done:
-update_r /home/thomas/projects /current/projects \
-update_r /home/thomas/personal_mail
/current/personal_mail \
-clone /current /"$(date
’+%Y_%m_%d_%H%M%S’)" \
The cloned tree will have a name like
/2011_02_12_155700.
Sessions on multi-session media are separated by several MB of unused blocks. So with small sessions the payload capacity can become substantially lower than the overall media capacity. If the remaining space on a medium does not suffice for the next gap, the drive is supposed to close the medium automatically.
Better do not use your youngest backup for -update_r. Have
at least two media which you use alternatingly. So only
older backups get endangered by the new write operation,
while the newest backup is stored safely on a different
medium.
Always have a blank medium ready to perform a full backup in
case the update attempt fails due to insufficient remaining
capacity. This failure will not spoil the old medium, of
course.
Restore directory trees from a particular ISO session to disk
This is an alternative to mounting the medium and using
normal file operations.
First check which backup sessions are on the medium:
$ xorriso -outdev /dev/sr0 -toc
Then enable restoring of ACL, xattr and hard links. Load the
desired session and copy the file trees to disk. Avoid to
create /home/thomas/restored without rwx-permission.
$ xorriso -for_backup \
-load volid ’PROJECTS_MAIL_2008_06_19*’ \
-indev /dev/sr0 \
-osirrox on:auto_chmod_on \
-chmod u+rwx / -- \
-extract /projects /home/thomas/restored/projects \
-extract /personal_mail
/home/thomas/restored/personal_mail \
-rollback_end
The final command -rollback_end prevents an error
message about the altered image being discarded.
Try to retrieve blocks from a damaged medium
$ xorriso -abort_on NEVER -indev /dev/sr0 \
-check_media time_limit=1800 report=blocks_files \
data_to="$HOME"/dvd_copy
sector_map="$HOME"/dvd_copy.map --
This can be repeated several times, if necessary with
-eject or with other -indev drives. See the
human readable part of "$HOME"/dvd_copy.map for
addresses which can be used on "$HOME"/dvd_copy
with mount option -o sbsector= or -s.
Program alias names:
Normal installation of xorriso creates three links or
copies which by their program name pre-select certain
settings:
xorrisofs starts xorriso with -as mkisofs
emulation.
xorrecord starts xorriso with -as cdrecord
emulation.
osirrox starts with -osirrox
"on:o_excl_off" which allows further commands to
copy files from ISO image to disk and to apply command
-mount to one or more of the existing ISO
sessions.
Startup files:
If not -no_rc is given as the first argument then
xorriso attempts on startup to read and execute lines
from the following files:
/etc/default/xorriso
/etc/opt/xorriso/rc
/etc/xorriso/xorriso.conf
$HOME/.xorrisorc
The files are read in the sequence given above, but none of
them is required to exist. The line format is described with
command -options_from_file.
If mkisofs emulation was enabled by program name
"xorrisofs", "mkisofs",
"genisoimage", or "genisofs", then
afterwards -read_mkisofsrc is performed, which reads
.mkisofsrc files. See there.
Runtime control files:
The default setting of -check_media abort_file= is:
/var/opt/xorriso/do_abort_check_media
The following
environment variables influence the program behavior:
HOME is used to find startup files of xorriso and mkisofs.
SOURCE_DATE_EPOCH belongs to the specs of
reproducible-builds.org. It is supposed to be either
undefined or to contain a decimal number which tells the
seconds since january 1st 1970. If it contains a number,
then it is used as time value to set the default of
-volume date "uuid", sets -boot_image
"any" "gpt_disk_guid=" to
"volume_date_uuid", -volume_date
"all_file_dates" to "set_to_mtime", and
-iso_nowtime to "=$SOURCE_DATE_EPOCH".
Startup files and program options can override the effect of
SOURCE_DATE_EPOCH.
For the mkisofs emulation of xorriso
xorrisofs(1)
For the cdrecord emulation of xorriso
xorrecord(1)
For mounting xorriso generated ISO 9660 images (-t iso9660)
mount(8)
Libreadline, a comfortable input line facility
readline(3)
Other programs which produce ISO 9660 images
mkisofs(8), genisoimage(1)
Other programs which burn sessions to optical media
growisofs(1), cdrecord(1), wodim(1), cdrskin(1)
ACL and xattr
getfacl(1), setfacl(1), getfattr(1), setfattr(1)
MD5 checksums
md5sum(1)
On FreeBSD the commands for xattr and MD5 differ
getextattr(8), setextattr(8), md5(1)
To report bugs,
request help, or suggest enhancements for xorriso,
please send electronic mail to the public list
<[email protected]>. If more privacy is
desired, mail to <[email protected]>.
Please describe what you expect xorriso to do, the
program arguments or dialog commands by which you tried to
achieve it, the messages of xorriso, and the
undesirable outcome of your program run.
Expect to get asked more questions before solutions can be
proposed.
Thomas Schmitt
<[email protected]>
for libburnia-project.org
Copyright (c)
2007 - 2023 Thomas Schmitt
Permission is granted to distribute this text freely. It
shall only be modified in sync with the technical properties
of xorriso. If you make use of the license to derive
modified versions of xorriso then you are entitled to
modify this text under that same license.
xorriso
is in part based on work by Vreixo Formoso who provides
libisofs together with Mario Danic who also leads the
libburnia team. Vladimir Serbinenko contributed the HFS+
filesystem code and related knowledge. Thanks to Andy
Polyakov who invented emulated growing, to Derek Foreman and
Ben Jansens who once founded libburn.
Compliments towards Joerg Schilling whose cdrtools served me
for ten years.