libisoburn/libisoburn/libisoburn.h

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/*
API definition of libisoburn.
Copyright 2007-2008 Vreixo Formoso Lopes <metalpain2002@yahoo.es>
and Thomas Schmitt <scdbackup@gmx.net>
*/
/** Overview
libisoburn is a frontend for libraries libburn and libisofs which enables
creation and expansion of ISO-9660 filesystems on all CD/DVD media supported
by libburn. This includes media like DVD+RW, which do not support multi-session
management on media level and even plain disk files or block devices.
The price for that is thorough specialization on data files in ISO-9660
filesystem images. So libisoburn is not suitable for audio (CD-DA) or any
other CD layout which does not entirely consist of ISO-9660 sessions.
Wrapper functions
The priciple of this frontend is that you may use any call of libisofs or
libburn unless it has a isoburn_*() wrapper listed in the following function
documentation.
E.g. call isoburn_initialize() rather than iso_init(); burn_initialize();
and call isoburn_drive_scan_and_grab() rather than burn_drive_scan_and_grab().
But you may call burn_disc_get_profile() directly if you want to display
the media type.
The wrappers will transparently provide the necessary emulations which
are appropriate for particular target drives and media states.
To learn about them you have to read both API descriptions: the one of
the wrapper and the one of the underlying libburn or libisofs call.
Usage model
Additionally there are own libisoburn API calls which allow to implement the
following usage model (see also man xorriso for a end user's view):
There may be an input drive and an output drive. Either of them may be missing
with the consequence that no reading resp. writing is possible.
Both drive roles can be fulfilled by the same drive.
Input can be a random access readable libburn drive:
optical media, regular files, block devices.
Output can be any writeable libburn drive:
writeable optical media in burner, writeable file objects (no directories).
libburn demands rw-permissions to drive device file resp. file object.
If the input drive provides a suitable ISO RockRidge image, then its tree
may be loaded into memory and can then be manipulated by libisofs API calls.
The loading is done by isoburn_read_image() under control of
struct isoburn_read_opts which the application obtains from libisoburn.
It may be manipulated by the family of isoburn_ropt_set_*() functions.
Writing of result images is controlled by libisofs related parameters
in a struct isoburn_imgen_opts which the application obtains from libisoburn.
It may be manipulated by the family of isoburn_igopt_set_*() functions.
All multi-session aspects are handled by libisoburn according to these
settings. The application does not have to analyze media state and write
job parameters. It rather states its desires which libisoburn tries to
fulfill, or else will refuse to start the write run.
Setup for Growing or Modifying
There are two alternative API calls for performing the setup for two
alternative image generation strategies.
Growing:
If input and output drive is the same, then isoburn_prepare_disc() is to
be used. It will lead to an add-on session on appendable or overwriteable
media with existing ISO image. With blank media it will produce a first
session.
Modifying:
If the output drive is not the input drive, then it has to bear blank media
or overwriteable without a valid ISO image. To prepare for such an image
generation run, use isoburn_prepare_new_image(). The run will copy file data
from an eventual input drive with valid image, add any newly introduced data
from the local filesystem, and produce a first session on output media.
After either of these setups, some peripheral libburn drive parameter settings
like burn_write_opts_set_simulate(), burn_write_opts_set_multi(),
burn_drive_set_speed(), burn_write_opts_set_underrun_proof() should be made.
Do not set the write mode. It will be chosen by libisoburn so it matches job
and media state.
Writing the image
Then one may start image generation and write threads by isoburn_disc_write().
Progress may be watched at the output drive by burn_drive_get_status() and
isoburn_get_fifo_status().
At some time, the output drive will be BURN_DRIVE_IDLE indicating that
writing has ended.
One should inquire isoburn_drive_wrote_well() to learn about overall success.
Finally one must call isoburn_activate_session() which will finalize any
eventual multi-session emulation.
*/
/* API functions */
/** Initialize libisoburn, libisofs and libburn.
Wrapper for : iso_init() and burn_initialize()
@param reason A character array for eventual messages (e.g. with errors)
@param flag Bitfield for control purposes (unused yet, submit 0)
@return 1 indicates success, 0 is failure
*/
int isoburn_initialize(char msg[1024], int flag);
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/** Check whether all features of header file libisoburn.h from the given
major.minor.micro revision triple can be delivered by the library version
which is performing this call.
An application of libisoburn can easily memorize the version of the
libisofs.h header in its own code. Immediately after isoburn_initialize()
it should simply do this check:
if (! isoburn_is_compatible(isoburn_header_version_major,
isoburn_header_version_minor,
isoburn_header_version_micro, 0))
...refuse to start the program with this dynamic library version...
@param major obtained at build time
@param minor obtained at build time
@param micro obtained at build time
@param flag Bitfield for control purposes. Unused yet. Submit 0.
@return 1= library can work for caller
0= library is not usable in some aspects. Caller must restrict
itself to an earlier API version or must not use this libray
at all.
*/
int isoburn_is_compatible(int major, int minor, int micro, int flag);
/** Obtain the three release version numbers of the library. These are the
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numbers encountered by the application when linking with libisoburn,
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i.e. possibly not before run time.
Better do not base the fundamental compatibility decision of an application
on these numbers. For a reliable check use isoburn_is_compatible().
@param major The maturity version (0 for now, as we are still learning)
@param minor The development goal version.
@param micro The development step version. This has an additional meaning:
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Pare numbers indicate a version with frozen API. I.e. you can
rely on the same set of features to be present in all
published releases with that major.minor.micro combination.
Odd numbers indicate that API upgrades are in progress.
I.e. new features might be already present or they might
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be still missing.
So micro revisions {1,3,5,7,9} should never be used for
dynamic linking unless the proper library match can be
guaranteed by external circumstances.
*/
void isoburn_version(int *major, int *minor, int *micro);
/** The minimum version of libisofs to be used with this version of libisoburn
*/
#define isoburn_libisofs_req_major 0
#define isoburn_libisofs_req_minor 6
#define isoburn_libisofs_req_micro 1
/** The minimum version of libburn to be used with this version of libisoburn
*/
#define isoburn_libburn_req_major 0
#define isoburn_libburn_req_minor 4
#define isoburn_libburn_req_micro 2
/** These three release version numbers tell the revision of this header file
and of the API it describes. They are memorized by applications at build
time.
*/
#define isoburn_header_version_major 0
#define isoburn_header_version_minor 0
#define isoburn_header_version_micro 1
/** Note:
Above version numbers are also recorded in configure.ac because libtool
wants them as parameters at build time.
For the library compatibility check ISOBURN_*_VERSION in configure.ac
are not decisive. Only the three numbers above do matter.
*/
/** Usage discussion:
Some developers of the libburnia project have differing
opinions how to ensure the compatibility of libaries
and applications.
It is about whether to use at compile time and at runtime
the version numbers isoburn_header_version_* provided here.
Thomas Schmitt advises to use them.
Vreixo Formoso advises to use other means.
At compile time:
Vreixo Formoso advises to leave proper version matching
to properly programmed checks in the the application's
build system, which will eventually refuse compilation.
Thomas Schmitt advises to use the macros defined here
for comparison with the application's requirements of
library revisions and to eventually break compilation.
Both advises are combinable. I.e. be master of your
build system and have #if checks in the source code
of your application, nevertheless.
At runtime (via *_is_compatible()):
Vreixo Formoso advises to compare the application's
requirements of library revisions with the runtime
library. This is to allow runtime libraries which are
young enough for the application but too old for
the lib*.h files seen at compile time.
Thomas Schmitt advises to compare the header
revisions defined here with the runtime library.
This is to enforce a strictly monotonous chain
of revisions from app to header to library,
at the cost of excluding some older libraries.
These two advises are mutually exclusive.
For an implementation of the Thomas Schmitt approach,
see libisoburn/burn_wrap.c : isoburn_initialize()
*/
/** Aquire a target drive by its filesystem path resp. libburn persistent
address.
Wrapper for: burn_drive_scan_and_grab()
*/
int isoburn_drive_scan_and_grab(struct burn_drive_info *drive_infos[],
char* adr, int load);
/** Aquire a drive from the burn_drive_info[] array which was obtained by
a previous call of burn_drive_scan().
Wrapper for: burn_drive_grab()
*/
int isoburn_drive_grab(struct burn_drive *drive, int load);
/** Inquire the media status. Expect the whole spectrum of libburn BURN_DISC_*
with multi-session media. Emulated states with random access media are
BURN_DISC_BLANK and BURN_DISC_APPENDABLE.
Wrapper for: burn_disc_get_status()
*/
enum burn_disc_status isoburn_disc_get_status(struct burn_drive *drive);
/** Tells whether the media can be treated by isoburn_disc_erase().
Wrapper for: burn_disc_erasable()
*/
int isoburn_disc_erasable(struct burn_drive *d);
/** Mark the media as blank. With multi-session media this will call
burn_disc_erase(). With random access media, an eventual ISO-9660
filesystem will get invalidated by altering its start blocks on media.
In case of success, the media is in status BURN_DISC_BLANK afterwards.
Wrapper for: burn_disc_erase()
*/
void isoburn_disc_erase(struct burn_drive *drive, int fast);
/* ----------------------------------------------------------------------- */
/*
Options for image reading.
An application shall create an option set object by isoburn_ropt_new(),
program it by isoburn_ropt_set_*(), use it with isoburn_read_image(),
and finally delete it by isoburn_ropt_destroy().
*/
/* ----------------------------------------------------------------------- */
struct isoburn_read_opts;
/** Produces a set of image read options, initialized with default values.
@param o the newly created option set object
@return 1=ok , <0 = failure
*/
int isoburn_ropt_new(struct isoburn_read_opts **o, int flag);
/** Deletes an option set which was created by isoburn_ropt_new().
@return 1= **o destroyed , 0= *o was already NULL (harmless)
*/
int isoburn_ropt_destroy(struct isoburn_read_opts **o, int flag);
/** Which existing ISO 9660 extensions in the image to read or not to read.
Whether to read the content of an existing image at all.
The bits can be combined by | resp. inquired by &.
@param ext Bitfield:
bit0= norock
Do not read Rock Ridge extensions
bit1= nojoliet
Do not read Joliet extensions
bit2= noiso1999
Do not read ISO 9660:1999 enhanced tree
bit3= preferjoliet
When both Joliet and RR extensions are present, the RR
tree is used. If you prefer using Joliet, set this to 1.
bit4= pretend_blank
Always create empty image.Ignore any image on input drive.
*/
#define isoburn_ropt_norock 1
#define isoburn_ropt_nojoliet 2
#define isoburn_ropt_noiso1999 4
#define isoburn_ropt_preferjoliet 8
#define isoburn_ropt_pretend_blank 16
int isoburn_ropt_set_extensions(struct isoburn_read_opts *o, int ext);
int isoburn_ropt_get_extensions(struct isoburn_read_opts *o, int *ext);
/** Default attributes to use if no RockRidge extension gets loaded.
@param uid user id number (see /etc/passwd)
@param gid group id number (see /etc/group)
@param mode permissions (not file type) as of man 2 stat.
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With directories, r-permissions will automatically imply
x-permissions. See isoburn_ropt_set_default_dirperms() below.
*/
int isoburn_ropt_set_default_perms(struct isoburn_read_opts *o,
uid_t uid, gid_t gid, mode_t mode);
int isoburn_ropt_get_default_perms(struct isoburn_read_opts *o,
uid_t *uid, gid_t *gid, mode_t *mode);
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/** Default attributes to use on directories if no RockRidge extension
gets loaded.
Above call isoburn_ropt_set_default_perms() automatically adds
x-permissions to r-permissions for directories. This call here may
be done afterwards to set independend permissions for directories,
especially to override the automatically added x-permissions.
*/
int isoburn_ropt_set_default_dirperms(struct isoburn_read_opts *o,
mode_t mode);
int isoburn_ropt_get_default_dirperms(struct isoburn_read_opts *o,
mode_t *mode);
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/** Set the character set for reading RR file names from ISO images.
@param input_charset Set this to NULL to use the default locale charset.
For selecting a particular character set, submit its
name, e.g. as listed by program iconv -l.
Example: "UTF-8".
*/
int isoburn_ropt_set_input_charset(struct isoburn_read_opts *o,
char *input_charset);
int isoburn_ropt_get_input_charset(struct isoburn_read_opts *o,
char **input_charset);
/** After calling function isoburn_read_image() there are informations
available in the option set.
This info can be obtained as bits in parameter has_what. Like:
joliet_available = (has_what & isoburn_ropt_has_joliet);
@param size Number of image data blocks, 2048 bytes each.
@param has_what Bitfield:
bit0= has_rockridge
RockRidge extension info is available (POSIX filesystem)
bit1= has_joliet
Joliet extension info is available (suitable for MS-Windows)
bit2= has_iso1999
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ISO version 2 Enhanced Volume Descriptor is available.
This is rather exotic.
bit3= has_el_torito
El-Torito boot record is present
*/
#define isoburn_ropt_has_rockridge 1
#define isoburn_ropt_has_joliet 2
#define isoburn_ropt_has_iso1999 4
#define isoburn_ropt_has_el_torito 8
int isoburn_ropt_get_size_what(struct isoburn_read_opts *o,
uint32_t *size, int *has_what);
/* ----------------------------------------------------------------------- */
/* End of Options for image reading */
/* ----------------------------------------------------------------------- */
/* ----------------------------------------------------------------------- */
/*
Options for image generation by libisofs and image transport to libburn.
An application shall create an option set by isoburn_igopt_new(),
program it by isoburn_igopt_set_*(), use it with either
isoburn_prepare_new_image() or isoburn_prepare_disc(), and finally delete
it by isoburn_igopt_destroy().
*/
/* ----------------------------------------------------------------------- */
struct isoburn_imgen_opts;
/** Produces a set of generation and transfer options, initialized with default
values.
@param o the newly created option set object
@return 1=ok , <0 = failure
*/
int isoburn_igopt_new(struct isoburn_imgen_opts **o, int flag);
/** Deletes an option set which was created by isoburn_igopt_new().
@return 1= **o destroyed , 0= *o was already NULL (harmless)
*/
int isoburn_igopt_destroy(struct isoburn_imgen_opts **o, int flag);
/** ISO level to write at.
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@param level is a term of the ISO 9660 standard. It should be one of:
1= filenames restricted to form 8.3
2= filenames allowed up to 31 characters
*/
int isoburn_igopt_set_level(struct isoburn_imgen_opts *o, int level);
int isoburn_igopt_get_level(struct isoburn_imgen_opts *o, int *level);
/** Which extensions to support.
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@param ext Bitfield:
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bit0= rockridge
Rock Ridge extensions add POSIX file attributes like
owner, group, access permissions, long filenames. Very
advisable if the designed audience has Unix style systems.
bit1= joliet
Longer filenames for Windows systems.
Weaker than RockRidge, but also readable with Linux.
bit2= iso1999
This is rather exotic. Better do not surprise the readers.
*/
#define isoburn_igopt_rockridge 1
#define isoburn_igopt_joliet 2
#define isoburn_igopt_iso1999 4
int isoburn_igopt_set_extensions(struct isoburn_imgen_opts *o, int ext);
int isoburn_igopt_get_extensions(struct isoburn_imgen_opts *o, int *ext);
/** Relaxed constraints. Setting any of the bits to 1 break the specifications,
but it is supposed to work on most moderns systems. Use with caution.
@param relax Bitfield:
bit0= omit_version_numbers
Omit the version number (";1") at the end of the
ISO-9660 identifiers. Version numbers are usually
not used.
bit1= allow_deep_paths
Allow ISO-9660 directory hierarchy to be deeper
than 8 levels.
bit2= allow_longer_paths
Allow path in the ISO-9660 tree to have more than
255 characters.
bit3= max_37_char_filenames
Allow a single file or directory hierarchy to have
up to 37 characters. This is larger than the 31
characters allowed by ISO level 2, and the extra space
is taken from the version number, so this also forces
omit_version_numbers.
bit4= no_force_dots
ISO-9660 forces filenames to have a ".", that separates
file name from extension. libisofs adds it if original
filename has none. Set this to 1 to prevent this
behavior.
bit5= allow_lowercase
Allow lowercase characters in ISO-9660 filenames.
By default, only uppercase characters, numbers and
a few other characters are allowed.
bit6= allow_full_ascii
Allow all ASCII characters to be appear on an ISO-9660
filename. Note * that "/" and "\0" characters are never
allowed, even in RR names.
bit7= joliet_longer_paths
Allow paths in the Joliet tree to have more than
240 characters.
*/
#define isoburn_igopt_omit_version_numbers 1
#define isoburn_igopt_allow_deep_paths 2
#define isoburn_igopt_allow_longer_paths 4
#define isoburn_igopt_max_37_char_filenames 8
#define isoburn_igopt_no_force_dots 16
#define isoburn_igopt_allow_lowercase 32
#define isoburn_igopt_allow_full_ascii 64
#define isoburn_igopt_joliet_longer_paths 128
int isoburn_igopt_set_relaxed(struct isoburn_imgen_opts *o, int relax);
int isoburn_igopt_get_relaxed(struct isoburn_imgen_opts *o, int *relax);
/** Whether and how files should be sorted.
@param value Bitfield: bit0= sort_files_by_weight
files should be sorted based on their weight.
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Weight is attributed to files in the image
by libisofs call iso_node_set_sort_weight().
*/
#define isoburn_igopt_sort_files_by_weight 1
int isoburn_igopt_set_sort_files(struct isoburn_imgen_opts *o, int value);
int isoburn_igopt_get_sort_files(struct isoburn_imgen_opts *o, int *value);
/** Set the override values for files and directory permissions.
The parameters replace_* these take one of three values: 0, 1 or 2.
If 0, the corresponding attribute will be kept as set in the IsoNode
at the time of image generation.
If set to 1, the corresponding attrib. will be changed by a default
suitable value.
With value 2, the attrib. will be changed with the value specified
in the corresponding *_mode options. Note that only the permissions
are set, the file type remains unchanged.
@param replace_dir_mode whether and how to override directories
@param replace_file_mode whether and how to override files of other type
@param dir_mode Mode to use on dirs with replace_dir_mode == 2.
@param file_mode; Mode to use on files with replace_file_mode == 2.
*/
int isoburn_igopt_set_over_mode(struct isoburn_imgen_opts *o,
int replace_dir_mode, int replace_file_mode,
mode_t dir_mode, mode_t file_mode);
int isoburn_igopt_get_over_mode(struct isoburn_imgen_opts *o,
int *replace_dir_mode, int *replace_file_mode,
mode_t *dir_mode, mode_t *file_mode);
/** Set the override values values for group id and user id.
The rules are like with above overriding of mode values. replace_* controls
whether and how. The other two parameters provide values for eventual use.
@param replace_uid whether and how to override user ids
@param replace_gid whether and how to override group ids
@param uid User id to use with replace_uid == 2.
@param gid Group id to use on files with replace_gid == 2.
*/
int isoburn_igopt_set_over_ugid(struct isoburn_imgen_opts *o,
int replace_uid, int replace_gid,
uid_t uid, gid_t gid);
int isoburn_igopt_get_over_ugid(struct isoburn_imgen_opts *o,
int *replace_uid, int *replace_gid,
uid_t *uid, gid_t *gid);
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/** Set the charcter set to use for representing filenames in the image.
@param output_charset Set this to NULL to use the default output charset.
For selecting a particular character set, submit its
name, e.g. as listed by program iconv -l.
Example: "UTF-8".
*/
int isoburn_igopt_set_out_charset(struct isoburn_imgen_opts *o,
char *output_charset);
int isoburn_igopt_get_out_charset(struct isoburn_imgen_opts *o,
char **output_charset);
/** The number of bytes to be used for the fifo which decouples libisofs
and libburn for better throughput and for reducing the risk of
interrupting signals hitting the libburn thread which operates the
MMC drive.
The size will be rounded up to the next full 2048.
Minimum is 64kiB, maximum is 1 GiB (but that is too much anyway).
*/
int isoburn_igopt_set_fifo_size(struct isoburn_imgen_opts *o, int fifo_size);
int isoburn_igopt_get_fifo_size(struct isoburn_imgen_opts *o, int *fifo_size);
/* ----------------------------------------------------------------------- */
/* End of Options for image generation */
/* ----------------------------------------------------------------------- */
/** Get the image attached to a drive, if any.
@return A reference to attached image, or NULL if the drive has no image
attached. This reference needs to be released via iso_image_unref()
when it is not longer needed.
*/
IsoImage *isoburn_get_attached_image(struct burn_drive *d);
/** Load the ISO filesystem directory tree from the media in the given drive.
This will give libisoburn the base on which it can let libisofs perform
image growing or image modification. The loaded volset gets attached
to the drive object and handed out to the application.
Not a wrapper, but peculiar to libisoburn.
@param d The drive which holds an existing ISO filesystem or blank media.
d is allowed to be NULL which produces an empty ISO image. In
this case one has to call before writing isoburn_attach_volset()
with the volset from this call and with the intended output
drive.
@param read_opts The read options which can be chosen by the application
@param image the image read, if the disc is blank it will have no files.
This reference needs to be released via iso_image_unref() when
it is not longer needed. The drive, if not NULL, will hold an
own reference which it will release when it gets a new volset
or when it gets released via isoburn_drive_release().
You can pass NULL if you already have a reference or you plan to
obtain it later with isoburn_get_attached_image(). Of course, if
you haven't specified a valid drive (i.e., if d == NULL), this
parameter can't be NULL.
@return <=0 error , 1 = success
*/
int isoburn_read_image(struct burn_drive *d,
struct isoburn_read_opts *read_opts,
IsoImage **image);
/** Set the IsoImage to be used with a drive. This eventually releases
the reference to the old IsoImage attached to the drive.
Caution: Use with care. It hardly makes sense to replace an image that
reflects a valid ISO image on media.
This call is rather intended for writing a newly created and populated
image to blank media. The use case in xorriso is to let an image survive
the change or demise of the outdev target drive.
@param d The drive which shall be write target of the volset.
@param image The image that represents the image to be written.
This image pointer MUST already be a valid reference suitable
for iso_image_unref().
It may have been obtained by appropriate libisofs calls or by
isoburn_read_image() with d==NULL.
@return <=0 error , 1 = success
*/
int isoburn_attach_image(struct burn_drive *d, IsoImage *image);
/** Obtain the start block number of the most recent session on media. In
case of random access media this will always be 0. Succesfull return is
not a guarantee that there is a ISO-9660 image at all. The call will fail,
nevertheless,if isoburn_disc_get_status() returns not BURN_DISC_APPENDABLE.
Wrapper for: burn_disc_get_msc1()
*/
int isoburn_disc_get_msc1(struct burn_drive *d, int *start_lba);
/** Use this with trackno==0 to obtain the predicted start block number of the
new session. The interesting number is returned in parameter nwa.
Wrapper for: burn_disc_track_lba_nwa()
*/
int isoburn_disc_track_lba_nwa(struct burn_drive *d, struct burn_write_opts *o,
int trackno, int *lba, int *nwa);
/** Obtain the size which was attributed to an emulated appendable on actually
overwriteable media. This value is supposed to be <= 2048 * nwa as of
isoburn_disc_track_lba_nwa().
@param drive The drive holding the media.
@param start_byte The reply value counted in bytes, not in sectors.
@param flag Unused yet. Submit 0.
@return 1=stat_byte is valid, 0=not an emulated appendable, -1=error
*/
int isoburn_get_min_start_byte(struct burn_drive *d, off_t *start_byte,
int flag);
/** Create a disc object for writing the new session from the created or loaded
iso_volset which has been manipulated via libisofs, to the same media from
where the image was eventually loaded. This struct burn_disc is ready for
use by a subsequent call to isoburn_disc_write().
After this asynchronous writing has ended and the drive is BURN_DRIVE_IDLE
again, the burn_disc object has to be disposed by burn_disc_free().
@param drive The combined source and target drive, grabbed with
isoburn_drive_scan_and_grab(). .
@param disc Returns the newly created burn_disc object.
@return <=0 error , 1 = success
*/
int isoburn_prepare_disc(struct burn_drive *drive, struct burn_disc **disc,
struct isoburn_imgen_opts *opts);
/** Create a disc object for producing a new image from a previous image
plus the changes made by user. The generated burn_disc is suitable
to be written to any grabbed libburn drive with blank writeable media.
But you must not use the same drive for input and output, because data
will be read from the source drive while at the same time the target
drive is already writing.
The resulting burn_disc object has to be disposed when all its writing
is done and the drive is BURN_DRIVE_IDLE again after asynchronous
burn_disc_write().
@param in_drive The input drive,grabbed with isoburn_drive_scan_and_grab().
@param disc Returns the newly created burn_disc object.
@param opts Options for image generation and data transport to media.
@param out_drive The libburn drive which shall be write target.
If the drive was grabbed via libisoburn then it can later
access the libisofs source fifo via
isoburn_get_fifo_status().
Mere libburn drives cannot obtain this info.
In that case out_drive may be NULL, as well.
@return <=0 error , 1 = success
*/
int isoburn_prepare_new_image(struct burn_drive *in_drive,
struct burn_disc **disc,
struct isoburn_imgen_opts *opts,
struct burn_drive *out_drive);
/** @since 0.1.0
Revoke isoburn_prepare_new_image() or isoburn_prepare_disc() instead of
running isoburn_disc_write().
libisofs reserves resources and maybe already starts generating the
image stream when one of above two calls is performed. It is mandatory to
either run isoburn_disc_write() or to revoke the preparations by the
call described here.
@param input_drive The drive resp. in_drive which was used with the
preparation call.
@param output_drive The out_drive used with isoburn_prepare_new_image(),
NULL if none.
@param flag Bitfield, submit 0 for now.
bit0= -reserved for internal use-
@return <0 error, 0= no pending preparations detectable, 1 = canceled
*/
int isoburn_cancel_prepared_write(struct burn_drive *input_drive,
struct burn_drive *output_drive, int flag);
/** Start writing of the new session.
This call is asynchrounous. I.e. it returns quite soon and the progress has
to be watched by a loop with call burn_drive_get_status() until
BURN_DRIVE_IDLE is returned.
Wrapper for: burn_disc_write()
*/
void isoburn_disc_write(struct burn_write_opts *o, struct burn_disc *disc);
/** Inquire state and fill parameters of the fifo which is attached to
the emerging track. This should be done in the pacifier loop while
isoburn_disc_write() or burn_disc_write() are active.
This works only with drives obtained by isoburn_drive_scan_and_grab()
or isoburn_drive_grab(). If isoburn_prepare_new_image() was used, then
parameter out_drive must have announced the track output drive.
Hint: If only burn_write_opts and not burn_drive is known, then the drive
can be obtained by burn_write_opts_get_drive().
@parm d The drive to which the track with the fifo gets burned.
@param size The total size of the fifo
@param free_bytes The current free capacity of the fifo
@param status_text Returns a pointer to a constant text, see below
@return <0 reply invalid, >=0 fifo status code:
bit0+1=input status, bit2=consumption status, i.e:
0="standby" : data processing not started yet
1="active" : input and consumption are active
2="ending" : input has ended without error
3="failing" : input had error and ended,
4="unused" : ( consumption has ended before processing start )
5="abandoned" : consumption has ended prematurely
6="ended" : consumption has ended without input error
7="aborted" : consumption has ended after input error
*/
int isoburn_get_fifo_status(struct burn_drive *d, int *size, int *free_bytes,
char **status_text);
/** Inquire whether the most recent write run was successful.
Wrapper for: burn_drive_wrote_well()
*/
int isoburn_drive_wrote_well(struct burn_drive *d);
/** Call this after isoburn_disc_write has finished and burn_drive_wrote_well()
indicates success. It will eventually complete the emulation of
multi-session functionality, if needed at all. Let libisoburn decide.
Not a wrapper, but peculiar to libisoburn.
*/
int isoburn_activate_session(struct burn_drive *drive);
/** @since 0.1.0
Wait after normal end of operations until libisofs ended all write
threads and freed resource reservations.
This call is not mandatory. But without it, messages from the ending
threads might appear after the application ended its write procedure.
@param input_drive The drive resp. in_drive which was used with the
preparation call.
@param output_drive The out_drive used with isoburn_prepare_new_image(),
NULL if none.
@param flag Bitfield, submit 0 for now.
@return <=0 error , 1 = success
*/
int isoburn_sync_after_write(struct burn_drive *input_drive,
struct burn_drive *output_drive, int flag);
#if 0
/* >>> NOT YET IMPLEMENTED <<< */
/** Write a new session to a disc.
This is a synchronous call equivalent to isoburn_prepare_disc +
isoburn_disc_write + isoburn_activate_session
@param pacifier_func If not NULL: a function to produce appeasing messages.
See burn_abort_pacifier() in libburn.h for an example.
*/
/* TODO implement this */
int isoburn_perform_write(struct burn_write_opts *o,
int (*pacifier_func)(void *handle, int patience,
int elapsed));
#endif /* 0 */
/** Release an aquired drive.
Wrapper for: burn_drive_release()
*/
void isoburn_drive_release(struct burn_drive *drive, int eject);
/** Shutdown all three libraries.
Wrapper for : iso_finish() and burn_finish().
*/
void isoburn_finish(void);
/*
The following calls are for expert applications only.
An application should have a special reason to use them.
*/
/** Inquire wether the media needs emulation or would be suitable for
generic multi-session via libburn.
@return 0 is generic multi-session
1 is emulated multi-session
-1 is not suitable for isoburn
*/
int isoburn_needs_emulation(struct burn_drive *drive);