Trying to prepare 0.2.5 release

This commit is contained in:
Mario Danic 2007-07-31 10:18:30 +00:00
commit 445755af40
44 changed files with 6315 additions and 0 deletions

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Developers:
Mario Danic

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Joe Neeman
Philippe Rouquier

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GNU GENERAL PUBLIC LICENSE
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END OF TERMS AND CONDITIONS

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Derek Foreman <derek@signalmarketing.com> and Ben Jansens <xor@orodu.net>
Copyright (C) 2002-2006 Derek Foreman and Ben Jansens
Mario Danic <mario.danic@gmail.com>, Thomas Schmitt <scdbackup@gmx.net>
Copyright (C) 2006 Mario Danic, Thomas Schmitt
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

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nothing here now

234
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Installation Instructions
*************************
Copyright (C) 1994, 1995, 1996, 1999, 2000, 2001, 2002, 2004, 2005,
2006 Free Software Foundation, Inc.
This file is free documentation; the Free Software Foundation gives
unlimited permission to copy, distribute and modify it.
Basic Installation
==================
Briefly, the shell commands `./configure; make; make install' should
configure, build, and install this package. The following
more-detailed instructions are generic; see the `README' file for
instructions specific to this package.
The `configure' shell script attempts to guess correct values for
various system-dependent variables used during compilation. It uses
those values to create a `Makefile' in each directory of the package.
It may also create one or more `.h' files containing system-dependent
definitions. Finally, it creates a shell script `config.status' that
you can run in the future to recreate the current configuration, and a
file `config.log' containing compiler output (useful mainly for
debugging `configure').
It can also use an optional file (typically called `config.cache'
and enabled with `--cache-file=config.cache' or simply `-C') that saves
the results of its tests to speed up reconfiguring. Caching is
disabled by default to prevent problems with accidental use of stale
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If you need to do unusual things to compile the package, please try
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may remove or edit it.
The file `configure.ac' (or `configure.in') is used to create
`configure' by a program called `autoconf'. You need `configure.ac' if
you want to change it or regenerate `configure' using a newer version
of `autoconf'.
The simplest way to compile this package is:
1. `cd' to the directory containing the package's source code and type
`./configure' to configure the package for your system.
Running `configure' might take a while. While running, it prints
some messages telling which features it is checking for.
2. Type `make' to compile the package.
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the package.
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Compilers and Options
=====================
Some systems require unusual options for compilation or linking that the
`configure' script does not know about. Run `./configure --help' for
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You can give `configure' initial values for configuration parameters
by setting variables in the command line or in the environment. Here
is an example:
./configure CC=c99 CFLAGS=-g LIBS=-lposix
*Note Defining Variables::, for more details.
Compiling For Multiple Architectures
====================================
You can compile the package for more than one kind of computer at the
same time, by placing the object files for each architecture in their
own directory. To do this, you can use GNU `make'. `cd' to the
directory where you want the object files and executables to go and run
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source code in the directory that `configure' is in and in `..'.
With a non-GNU `make', it is safer to compile the package for one
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reconfiguring for another architecture.
Installation Names
==================
By default, `make install' installs the package's commands under
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Documentation and other data files still use the regular prefix.
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Optional Features
=================
Some packages pay attention to `--enable-FEATURE' options to
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For packages that use the X Window System, `configure' can usually
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Specifying the System Type
==========================
There may be some features `configure' cannot figure out automatically,
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Usually, assuming the package is built to be run on the _same_
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type, such as `sun4', or a canonical name which has the form:
CPU-COMPANY-SYSTEM
where SYSTEM can have one of these forms:
OS KERNEL-OS
See the file `config.sub' for the possible values of each field. If
`config.sub' isn't included in this package, then this package doesn't
need to know the machine type.
If you are _building_ compiler tools for cross-compiling, you should
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produce code for.
If you want to _use_ a cross compiler, that generates code for a
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eventually be run) with `--host=TYPE'.
Sharing Defaults
================
If you want to set default values for `configure' scripts to share, you
can create a site shell script called `config.site' that gives default
values for variables like `CC', `cache_file', and `prefix'.
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`PREFIX/etc/config.site' if it exists. Or, you can set the
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A warning: not all `configure' scripts look for a site script.
Defining Variables
==================
Variables not defined in a site shell script can be set in the
environment passed to `configure'. However, some packages may run
configure again during the build, and the customized values of these
variables may be lost. In order to avoid this problem, you should set
them in the `configure' command line, using `VAR=value'. For example:
./configure CC=/usr/local2/bin/gcc
causes the specified `gcc' to be used as the C compiler (unless it is
overridden in the site shell script).
Unfortunately, this technique does not work for `CONFIG_SHELL' due to
an Autoconf bug. Until the bug is fixed you can use this workaround:
CONFIG_SHELL=/bin/bash /bin/bash ./configure CONFIG_SHELL=/bin/bash
`configure' Invocation
======================
`configure' recognizes the following options to control how it operates.
`--help'
`-h'
Print a summary of the options to `configure', and exit.
`--version'
`-V'
Print the version of Autoconf used to generate the `configure'
script, and exit.
`--cache-file=FILE'
Enable the cache: use and save the results of the tests in FILE,
traditionally `config.cache'. FILE defaults to `/dev/null' to
disable caching.
`--config-cache'
`-C'
Alias for `--cache-file=config.cache'.
`--quiet'
`--silent'
`-q'
Do not print messages saying which checks are being made. To
suppress all normal output, redirect it to `/dev/null' (any error
messages will still be shown).
`--srcdir=DIR'
Look for the package's source code in directory DIR. Usually
`configure' can determine that directory automatically.
`configure' also accepts some other, not widely useful, options. Run
`configure --help' for more details.

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pkgconfigdir=$(libdir)/pkgconfig
libincludedir=$(includedir)/libisofs
lib_LTLIBRARIES = libisofs/libisofs.la
## ========================================================================= ##
# Build libraries
libisofs_libisofs_la_LDFLAGS = \
-version-info $(LT_CURRENT):$(LT_REVISION):$(LT_AGE)
libisofs_libisofs_la_SOURCES = \
libisofs/tree.h \
libisofs/tree.c \
libisofs/volume.h \
libisofs/volume.c \
libisofs/util.h \
libisofs/util.c \
libisofs/ecma119.c \
libisofs/ecma119.h \
libisofs/ecma119_tree.c \
libisofs/ecma119_tree.h \
libisofs/susp.h \
libisofs/susp.c \
libisofs/rockridge.h \
libisofs/rockridge.c \
libisofs/joliet.c \
libisofs/joliet.h \
libisofs/exclude.c \
libisofs/exclude.h \
libisofs/hash.h \
libisofs/hash.c
libinclude_HEADERS = \
libisofs/libisofs.h
## ========================================================================= ##
## Build test applications
noinst_PROGRAMS = \
test/iso
test_iso_CPPFLAGS = -Ilibisofs
test_iso_LDADD = $(libisofs_libisofs_la_OBJECTS) $(THREAD_LIBS)
test_iso_SOURCES = test/iso.c
## ========================================================================= ##
## Build documentation (You need Doxygen for this to work)
webhost = http://libburn-api.pykix.org
webpath = /
docdir = $(DESTDIR)$(prefix)/share/doc/$(PACKAGE)-$(VERSION)
doc: doc/html
doc/html: doc/doxygen.conf
if [ -f ./doc/doc.lock ]; then \
$(RM) -r doc/html; \
doxygen doc/doxygen.conf; \
fi
doc-upload: doc/html
scp -r $</* $(webhost):$(webpath)
all: doc
install-data-local:
if [ -f ./doc/doc.lock ]; then \
$(mkinstalldirs) $(docdir)/html; \
$(INSTALL_DATA) doc/html/* $(docdir)/html; \
fi
uninstall-local:
rm -rf $(docdir)
## ========================================================================= ##
# Indent source files
indent_files = \
$(libisofs_libisofs_la_SOURCES) \
$(test_iso_SOURCES)
indent: $(indent_files)
indent -bad -bap -nbbb -nbbo -nbc -bli0 -br -bls \
-cdw -ce -cli0 -ncs -nbfda -i8 -l79 -lc79 \
-lp -saf -sai -nprs -npsl -saw -sob -ss -ut \
-sbi0 -nsc -ts8 -npcs -ncdb -fca \
$^
.PHONY: indent
## ========================================================================= ##
# Extra things
nodist_pkgconfig_DATA = \
libisofs-1.pc
EXTRA_DIST = \
libisofs-1.pc.in \
version.h.in \
doc/comments \
doc/doxygen.conf.in \
README \
AUTHORS \
CONTRIBUTORS \
COPYRIGHT \
COPYING \
NEWS \
INSTALL \
ChangeLog

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------------------------------------------------------------------------------
libburnia.pykix.org
------------------------------------------------------------------------------
This all is under GPL.
(See GPL reference, our clarification and commitment at the end of this text)
------------------------------------------------------------------------------
libburnia.pykix.org
By Mario Danic <mario.danic@gmail.com> and Thomas Schmitt <scdbackup@gmx.net>
Copyright (C) 2006 Mario Danic, Thomas Schmitt
Still containing parts of
Libburn. By Derek Foreman <derek@signalmarketing.com> and
Ben Jansens <xor@orodu.net>
Copyright (C) 2002-2006 Derek Foreman and Ben Jansens
These parts are to be replaced by own code of above libburnia.pykix.org
copyright holders and then libburnia.pykix.org is to be their sole copyright.
This is done to achieve the right to issue the clarification and the
commitment as written at the end of this text.
The rights and merits of the Libburn-copyright holders Derek Foreman and
Ben Jansens will be duely respected.
This libburnia.pykix.org toplevel README (C) 2006 Thomas Schmitt
------------------------------------------------------------------------------
Build and Installation
Our build system is based on autotools. For preparing the build of a SVN
snapshot you will need autotools of at least version 1.7.
Check out from SVN by
svn co http://libburnia-svn.pykix.org/libburn/trunk libburn_pykix
go into directory libburn_pykix and apply autotools by
./bootstrap
Alternatively you may unpack a release tarball for which you do not need
autotools installed.
To build a libburnia.pykix.org subproject it should be sufficient to go
into its toplevel directory (here: "libburn_pykix") and execute
./configure
make
To make the libraries accessible for running resp. developing applications
make install
The other half of the project, libisofs, is hosted in the libburnia SVN, too:
svn co http://libburnia-svn.pykix.org/libisofs/trunk libisofs_pykix
See README file there.
------------------------------------------------------------------------------
Overview of libburnia.pykix.org
libburnia.pykix.org is an open-source software project for reading, mastering
and writing optical discs. For now this means only CD-R and CD-RW.
The project comprises of several more or less interdependent parts which
together strive to be a usable foundation for application development.
These are libraries, language bindings, and middleware binaries which emulate
classical (and valuable) Linux tools.
Our scope is currently Linux 2.4 and 2.6 only. For ports to other systems
we would need : login on a development machine resp. a live OS on CD or DVD,
advise from a system person about the equivalent of Linux sg or FreeBSD CAM,
volunteers for testing of realistic use cases.
We do have a workable code base for burning data CDs, though. The burn API is
quite comprehensively documented and can be used to build a presentable
application.
We do have a functional binary which emulates parts of cdrecord in order to
prove that usability, and in order to allow you to explore libburnia's scope
by help of existing cdrecord frontends.
The project components (list subject to growth, hopefully):
- libburn is the library by which preformatted data get onto optical media.
It uses either /dev/sgN (e.g. on kernel 2.4 with ide-scsi) or
/dev/hdX (e.g. on kernel 2.6).
libburn is the foundation of our cdrecord emulation.
- libisofs is the library to pack up hard disk files and directories into a
ISO 9660 disk image. This may then be brought to CD via libburn.
libisofs is to be the foundation of our upcoming mkisofs emulation.
- cdrskin is a limited cdrecord compatibility wrapper for libburn.
Cdrecord is a powerful GPL'ed burn program included in Joerg
Schilling's cdrtools. cdrskin strives to be a second source for
the services traditionally provided by cdrecord.
cdrskin does not contain any bytes copied from cdrecord's sources.
Many bytes have been copied from the message output of cdrecord
runs, though.
See cdrskin/README for more.
- test is a collection of application gestures and examples given by the
authors of the library features. The main API example for libburn
is test/libburner.c .
Explore these examples if you look for inspiration.
We plan to be a responsive upstream. Bear with us. We are still practicing.
------------------------------------------------------------------------------
Project history as far as known to me:
- Founded in 2002 as it seems. See mailing list archives
http://lists.freedesktop.org/archives/libburn/
The site of this founder team is reachable and offers download of a
(somewhat outdated) tarball and from CVS :
http://icculus.org/burn/
Copyright holders and most probably founders:
Derek Foreman and Ben Jansens.
- I came to using libburn in 2005. Founded the cdrskin project and submitted
necessary patches which were accepted or implemented better. Except one
remaining patch which prevented cdrskin from using vanilla libburn from CVS.
The cdrskin project site is reachable and offers download of the heavily
patched (elsewise outdated) tarball under the name cdrskin-0.1.2 :
http://scdbackup.sourceforge.net/cdrskin_eng.html
It has meanwhile moved to use vanilla libburn.pykix.org , though.
Version 0.1.4 constitutes the first release of this kind.
- In Juli 2006 our team mate Mario Danic announced a revival of libburn
which by about nearly everybody else was perceived as unfriendly fork.
Derek Foreman four days later posted a message which expressed his
discontent.
The situation first caused me to publically regret it and then - after i
got the opportunity to move in with cdrskin - gave me true reason to
personally apologize to Derek Foreman, Ben Jansens and the contibutors at
icculus.org/burn. Posted to both projects:
http://lists.freedesktop.org/archives/libburn/2006-August/000446.html
http://mailman-mail1.webfaction.com/pipermail/libburn-hackers/2006-August/000024.html
- Mid August 2006 project cdrskin established a branch office in
libburn.pykix.org so that all maintainers of our tools have one single place
to get the current (at least slightely) usable coordinated versions of
everything.
Project cdrskin will live forth independendly for a while but it is committed
to stay in sync with libburn.pykix.org (or some successor, if ever).
cdrskin is also committed to support icculus.org/burn if the pending fork
is made reality by content changes in that project. It will cease to maintain
a patched version of icculus.org/burn though. Precondition for a new
release of cdrskin on base of icculus.org/burn would be the pending
"whitelist patch" therefore.
I would rather prefer if both projects find consense and merge, or at least
cooperate. I have not given up hope totally, yet.
I, personally, will honor any approach.
- 2nd September 2006 the decision is made to strive for a consolidation of
copyright and a commitment to GPL in a reasonable and open minded way.
This is to avoid long term problems with code of unknown origin and
with finding consense among the not so clearly defined group of copyright
claimers and -holders.
libisofs is already claimed sole copyright Mario Danic.
cdrskin and libburner are already claimed sole copyright Thomas Schmitt.
Rewrites of other components will follow and concluded by claiming full
copyright within the group of libburn.pykix.org-copyright holders.
- 16th September 2006 feature freeze for release of libburn-0.2.2 .
- 20th September 2006 release of libburn-0.2.2 .
- 26th October 2006 feature freeze for cdrskin-0.2.4 based on libburn-0.2.3 .
This version of cdrskin is much more cdrecord compatible in repect
to drive addressing and audio features.
- 30th October 2006 release of cdrskin-0.2.4 .
- 13th November 2006 splitting releases of libburn+cdrskin from libisofs.
- 24th November 2006 release of libburn-0.2.6 and cdrskin-0.2.6 . cdrskin has
become suitable for unaware frontends as long as they perform only the core
of cdrecord use cases (including open-ended input streams, audio, and
multi-session).
- 28th November 2006 the umbrella project which encloses both, libisofs and
libburn, is now called libburnia. For the origin of this name, see
http://en.wikipedia.org/wiki/Liburnians .
------------------------------------------------------------------------------
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
------------------------------------------------------------------------------
Clarification in my name and in the name of Mario Danic, upcoming copyright
holders on toplevel of libburnia. To be fully in effect after the remaining
other copyrighted code has been replaced by ours and by copyright-free
contributions of our friends:
------------------------------------------------------------------------------
We, the copyright holders, agree on the interpretation that
dynamical linking of our libraries constitutes "use of" and
not "derivation from" our work in the sense of GPL, provided
those libraries are compiled from our unaltered code.
Thus you may link our libraries dynamically with applications
which are not under GPL. You may distribute our libraries and
application tools in binary form, if you fulfill the usual
condition of GPL to offer a copy of the source code -altered
or unaltered- under GPL.
We ask you politely to use our work in open source spirit
and with the due reference to the entire open source community.
If there should really arise the case where above clarification
does not suffice to fulfill a clear and neat request in open source
spirit that would otherwise be declined for mere formal reasons,
only in that case we will duely consider to issue a special license
covering only that special case.
It is the open source idea of responsible freedom which will be
decisive and you will have to prove that you exhausted all own
means to qualify for GPL.
For now we are firmly committed to maintain one single license: GPL.
signed: Mario Danic, Thomas Schmitt

22
acinclude.m4 Normal file
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AC_DEFUN([TARGET_SHIZZLE],
[
ARCH=""
AC_MSG_CHECKING([target operating system])
case $target in
*-*-linux*)
ARCH=linux
LIBBURN_ARCH_LIBS=
;;
*-*-freebsd*)
ARCH=freebsd
LIBBURN_ARCH_LIBS=-lcam
;;
*)
AC_ERROR([You are attempting to compile for an unsupported platform])
;;
esac
AC_MSG_RESULT([$ARCH])
])

10
bootstrap Executable file
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#!/bin/sh -x
aclocal
libtoolize --copy --force
autoconf
# ts A61101 : libburn is not prepared for config.h
# autoheader
automake --foreign --add-missing --copy --include-deps

117
configure.ac Normal file
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AC_INIT([libisofs], [0.2.4], [http://libburnia.pykix.org])
AC_PREREQ([2.50])
dnl AC_CONFIG_HEADER([config.h])
AC_CANONICAL_HOST
AC_CANONICAL_TARGET
AM_INIT_AUTOMAKE([subdir-objects])
dnl A61101 This breaks Linux build (makes 32 bit off_t)
dnl http://sourceware.org/autobook/autobook/autobook_96.html says
dnl one must include some config.h and this was a pitfall.
dnl So why dig the pit at all ?
dnl AM_CONFIG_HEADER(config.h)
dnl Making releases:
dnl BURN_MICRO_VERSION += 1;
dnl BURN_INTERFACE_AGE += 1;
dnl BURN_BINARY_AGE += 1;
dnl if any functions have been added, set BURN_INTERFACE_AGE to 0.
dnl if backwards compatibility has been broken,
dnl set BURN_BINARY_AGE and BURN_INTERFACE_AGE to 0.
dnl
dnl if MAJOR or MINOR version changes, be sure to change AC_INIT above to match
dnl
BURN_MAJOR_VERSION=0
BURN_MINOR_VERSION=2
BURN_MICRO_VERSION=4
BURN_INTERFACE_AGE=0
BURN_BINARY_AGE=0
BURN_VERSION=$BURN_MAJOR_VERSION.$BURN_MINOR_VERSION.$BURN_MICRO_VERSION
AC_SUBST(BURN_MAJOR_VERSION)
AC_SUBST(BURN_MINOR_VERSION)
AC_SUBST(BURN_MICRO_VERSION)
AC_SUBST(BURN_INTERFACE_AGE)
AC_SUBST(BURN_BINARY_AGE)
AC_SUBST(BURN_VERSION)
dnl Libtool versioning
LT_RELEASE=$BURN_MAJOR_VERSION.$BURN_MINOR_VERSION
LT_CURRENT=`expr $BURN_MICRO_VERSION - $BURN_INTERFACE_AGE`
LT_REVISION=$BURN_INTERFACE_AGE
LT_AGE=`expr $BURN_BINARY_AGE - $BURN_INTERFACE_AGE`
LT_CURRENT_MINUS_AGE=`expr $LT_CURRENT - $LT_AGE`
AC_SUBST(LT_RELEASE)
AC_SUBST(LT_CURRENT)
AC_SUBST(LT_REVISION)
AC_SUBST(LT_AGE)
AC_SUBST(LT_CURRENT_MINUS_AGE)
AC_PREFIX_DEFAULT([/usr/local])
test "$prefix" = "NONE" && prefix=$ac_default_prefix
AM_MAINTAINER_MODE
AM_PROG_CC_C_O
AC_C_CONST
AC_C_INLINE
AC_C_BIGENDIAN
dnl Large file support
AC_SYS_LARGEFILE
AC_FUNC_FSEEKO
AC_CHECK_FUNC([fseeko])
if test ! $ac_cv_func_fseeko; then
AC_ERROR([Libisofs requires largefile support.])
fi
AC_PROG_LIBTOOL
AC_SUBST(LIBTOOL_DEPS)
LIBTOOL="$LIBTOOL --silent"
AC_PROG_INSTALL
AC_CHECK_HEADERS()
AC_CHECK_MEMBER([struct tm.tm_gmtoff],
[AC_DEFINE(HAVE_TM_GMTOFF, 1,
[Define this if tm structure includes a tm_gmtoff entry.])],
,
[#include <time.h>])
THREAD_LIBS=-lpthread
AC_SUBST(THREAD_LIBS)
TARGET_SHIZZLE
AC_SUBST(ARCH)
AC_SUBST(LIBBURN_ARCH_LIBS)
dnl Add compiler-specific flags
dnl See if the user wants aggressive optimizations of the code
AC_ARG_ENABLE(debug,
[ --enable-debug Disable aggressive optimizations [default=yes]],
, enable_debug=yes)
if test x$enable_debug != xyes; then
if test x$GCC = xyes; then
CFLAGS="$CFLAGS -O3"
CFLAGS="$CFLAGS -fexpensive-optimizations"
fi
CFLAGS="$CFLAGS -DNDEBUG"
else
if test x$GCC = xyes; then
CFLAGS="$CFLAGS -g -pedantic -Wall"
fi
CFLAGS="$CFLAGS -DDEBUG"
fi
AC_CONFIG_FILES([
Makefile
doc/doxygen.conf
version.h
libisofs-1.pc
])
AC_OUTPUT

4
doc/Makefile Normal file
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all clean:
$(MAKE) -C .. -$(MAKEFLAGS) $@
.PHONY: all clean

123
doc/comments Normal file
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/**
@author Mario Danic, Thomas Schmitt
@mainpage Libburn Documentation Index
@section intro Introduction
Libburn is an open-source library for reading, mastering and writing
optical discs. For now this means only CD-R and CD-RW.
The project comprises of several more or less interdependent parts which
together strive to be a usable foundation for application development.
These are libraries, language bindings, and middleware binaries which emulate
classical (and valuable) Linux tools.
Our scope is currently Linux 2.4 and 2.6 only. For ports to other systems
we would need : login on a development machine resp. a live OS on CD or DVD,
advise from a system person about the equivalent of Linux sg or FreeBSD CAM,
volunteers for testing of realistic use cases.
We do have a workable code base for burning data CDs, though. The burn API is
quite comprehensively documented and can be used to build a presentable
application.
We do have a functional binary which emulates parts of cdrecord in order to
prove that usability, and in order to allow you to explore libburn's scope
by help of existing cdrecord frontends.
@subsection components The project components (list subject to growth, hopefully):
- libburn is the library by which preformatted data get onto optical media.
It uses either /dev/sgN (e.g. on kernel 2.4 with ide-scsi) or
/dev/hdX (e.g. on kernel 2.6).
libburn is the foundation of our cdrecord emulation.
- libisofs is the library to pack up hard disk files and directories into a
ISO 9660 disk image. This may then be brought to CD via libburn.
libisofs is to be the foundation of our upcoming mkisofs emulation.
- cdrskin is a limited cdrecord compatibility wrapper for libburn.
cdrecord is a powerful GPL'ed burn program included in Joerg
Schilling's cdrtools. cdrskin strives to be a second source for
the services traditionally provided by cdrecord.
cdrskin does not contain any bytes copied from cdrecord's sources.
Many bytes have been copied from the message output of cdrecord
runs, though.
See cdrskin/README for more.
- "test" is a collection of application gestures and examples given by the
authors of the library features. The main API example of libburn
is named test/libburner.c .
Explore these examples if you look for inspiration.
We plan to be a responsive upstream. Bear with us.
@section using Using the libraries
Our build system is based on autotools.
User experience tells us that you will need at least autotools version 1.7.
To build libburn and its subprojects it should be sufficient to go into
its toplevel directory and execute
- ./bootstrap (needed if you downloaded from SVN)
- ./configure
- make
To make the libraries accessible for running resp. developing applications
- make install
Both libraries are written in C language and get built by autotools.
Thus we expect them to be useable by a wide range of Linux-implemented
languages and development tools.
@section libburner Libburner
libburner is a minimal demo application for the library libburn
(see: libburn/libburn.h) as provided on http://libburn.pykix.org .
It can list the available devices, can blank a CD-RW and
can burn to CD-R or CD-RW.
It's main purpose, nevertheless, is to show you how to use libburn and also
to serve the libburn team as reference application. libburner does indeed
define the standard way how above three gestures can be implemented and
stay upward compatible for a good while.
@subsection libburner-help Libburner --help
<pre>
Usage: test/libburner
[--drive <address>|<driveno>|"-"]
[--blank_fast|--blank_full] [--audio]
[--try_to_simulate] [--stdin_size <bytes>]
[<one or more imagefiles>|"-"]
Examples
A bus scan (needs rw-permissions to see a drive):
test/libburner --drive -
Burn a file to drive chosen by number:
test/libburner --drive 0 my_image_file
Burn a file to drive chosen by persistent address:
test/libburner --drive /dev/hdc my_image_file
Blank a used CD-RW (is combinable with burning in one run):
test/libburner --drive /dev/hdc --blank_fast
Burn two audio tracks
lame --decode -t /path/to/track1.mp3 track1.cd
test/dewav /path/to/track2.wav -o track2.cd
test/libburner --drive /dev/hdc --audio track1.cd track2.cd
Burn a compressed afio archive on-the-fly, pad up to 700 MB:
( cd my_directory ; find . -print | afio -oZ - ) | \
test/libburner --drive /dev/hdc --stdin_size 734003200 -
To be read from *not mounted* CD via: afio -tvZ /dev/hdc
Program tar would need a clean EOF which our padded CD cannot deliver.
</pre>
@subsection libburner-source Sourceode of libburner
Click on blue names of functions, structures, variables, etc in oder to
get to the according specs of libburn API or libburner sourcecode.
*/

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/**
@author Mario Danic, Thomas Schmitt
@mainpage Libburn Documentation Index
@section intro Introduction
Libburn is an open-source library for reading, mastering and writing
optical discs. For now this means only CD-R and CD-RW.
The project comprises of several more or less interdependent parts which
together strive to be a usable foundation for application development.
These are libraries, language bindings, and middleware binaries which emulate
classical (and valuable) Linux tools.
Our scope is currently Linux 2.4 and 2.6 and we will have a hard time to widen
this for now, because of our history. The project could need advise from or
membership of skilled kernel people and people who know how to talk CD/DVD
drives into doing things.
We do have a workable code base for burning data CDs, though. The burn API is
quite comprehensively documented and can be used to build a presentable
application.
We do have a functional binary which emulates parts of cdrecord in order to
prove that usability, and in order to allow you to explore libburn's scope
by help of existing cdrecord frontends.
@subsection components The project components (list subject to growth, hopefully):
- libburn is the library by which preformatted data get onto optical media.
It uses either /dev/sgN (e.g. on kernel 2.4 with ide-scsi) or
/dev/hdX (e.g. on kernel 2.6).
libburn is the foundation of our cdrecord emulation.
- libisofs is the library to pack up hard disk files and directories into a
ISO 9660 disk image. This may then be brought to CD via libburn.
libisofs is to be the foundation of our upcoming mkisofs emulation.
- cdrskin is a limited cdrecord compatibility wrapper for libburn.
cdrecord is a powerful GPL'ed burn program included in Joerg
Schilling's cdrtools. cdrskin strives to be a second source for
the services traditionally provided by cdrecord.
cdrskin does not contain any bytes copied from cdrecord's sources.
Many bytes have been copied from the message output of cdrecord
runs, though.
See cdrskin/README for more.
- "test" is a collection of application gestures and examples given by the
authors of the library features. The main API example of libburn
is named test/libburner.c .
Explore these examples if you look for inspiration.
We plan to be a responsive upstream. Bear with us.
@section using Using the libraries
Our build system is based on autotools.
User experience tells us that you will need at least autotools version 1.7.
To build libburn and its subprojects it should be sufficient to go into
its toplevel directory and execute
- ./bootstrap (needed if you downloaded from SVN)
- ./configure
- make
To make the libraries accessible for running resp. developing applications
- make install
Both libraries are written in C language and get built by autotools.
Thus we expect them to be useable by a wide range of Linux-implemented
languages and development tools.
@section libburner Libburner
libburner is a minimal demo application for the library libburn
(see: libburn/libburn.h) as provided on http://libburn.pykix.org .
It can list the available devices, can blank a CD-RW and
can burn to CD-R or CD-RW.
It's main purpose, nevertheless, is to show you how to use libburn and also
to serve the libburn team as reference application. libburner does indeed
define the standard way how above three gestures can be implemented and
stay upward compatible for a good while.
@subsection libburner-help Libburner --help
<pre>
Usage: test/libburner
[--drive <address>|<driveno>|"-"]
[--verbose <level>] [--blank_fast|--blank_full]
[--burn_for_real|--try_to_simulate] [--stdin_size <bytes>]
[<imagefile>|"-"]
Examples
A bus scan (needs rw-permissions to see a drive):
test/libburner --drive -
Burn a file to drive chosen by number:
test/libburner --drive 0 --burn_for_real my_image_file
Burn a file to drive chosen by persistent address:
test/libburner --drive /dev/hdc --burn_for_real my_image_file
Blank a used CD-RW (is combinable with burning in one run):
test/libburner --drive 0 --blank_fast
Burn a compressed afio archive on-the-fly, pad up to 700 MB:
( cd my_directory ; find . -print | afio -oZ - ) | \
test/libburner --drive /dev/hdc --burn_for_real --stdin_size 734003200 -
To be read from *not mounted* CD via:
afio -tvZ /dev/hdc
Program tar would need a clean EOF which our padded CD cannot deliver.
</pre>
@subsection libburner-source Sourceode of libburner
Click on blue names of functions, structures, variables, etc in oder to
get to the according specs of libburn API or libburner sourcecode.
@include libburner.c
*/

186
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# Doxyfile 1.2.18
#---------------------------------------------------------------------------
# General configuration options
#---------------------------------------------------------------------------
PROJECT_NAME = @PACKAGE_NAME@
PROJECT_NUMBER = @PACKAGE_VERSION@
OUTPUT_DIRECTORY =
OUTPUT_LANGUAGE = English
EXTRACT_ALL = YES
EXTRACT_PRIVATE = YES
EXTRACT_STATIC = YES
EXTRACT_LOCAL_CLASSES = YES
HIDE_UNDOC_MEMBERS = NO
HIDE_UNDOC_CLASSES = NO
HIDE_FRIEND_COMPOUNDS = NO
BRIEF_MEMBER_DESC = YES
REPEAT_BRIEF = YES
ALWAYS_DETAILED_SEC = NO
INLINE_INHERITED_MEMB = NO
FULL_PATH_NAMES = YES
STRIP_FROM_PATH = @top_srcdir@
INTERNAL_DOCS = NO
STRIP_CODE_COMMENTS = NO
CASE_SENSE_NAMES = NO
SHORT_NAMES = NO
HIDE_SCOPE_NAMES = NO
VERBATIM_HEADERS = YES
SHOW_INCLUDE_FILES = YES
JAVADOC_AUTOBRIEF = YES
MULTILINE_CPP_IS_BRIEF = YES
DETAILS_AT_TOP = YES
INHERIT_DOCS = YES
INLINE_INFO = YES
SORT_MEMBER_DOCS = YES
DISTRIBUTE_GROUP_DOC = NO
TAB_SIZE = 4
GENERATE_TODOLIST = YES
GENERATE_TESTLIST = YES
GENERATE_BUGLIST = YES
GENERATE_DEPRECATEDLIST= YES
ALIASES =
ENABLED_SECTIONS =
MAX_INITIALIZER_LINES = 30
OPTIMIZE_OUTPUT_FOR_C = YES
OPTIMIZE_OUTPUT_JAVA = NO
SHOW_USED_FILES = YES
#---------------------------------------------------------------------------
# configuration options related to warning and progress messages
#---------------------------------------------------------------------------
QUIET = YES
WARNINGS = YES
WARN_IF_UNDOCUMENTED = YES
WARN_FORMAT = "$file:$line: $text"
WARN_LOGFILE =
#---------------------------------------------------------------------------
# configuration options related to the input files
#---------------------------------------------------------------------------
INPUT = libisofs doc
FILE_PATTERNS = libisofs.h comments
RECURSIVE = NO
EXCLUDE =
EXCLUDE_SYMLINKS = NO
EXCLUDE_PATTERNS =
EXAMPLE_PATH = test
EXAMPLE_PATTERNS =
EXAMPLE_RECURSIVE = NO
IMAGE_PATH =
INPUT_FILTER =
FILTER_SOURCE_FILES = NO
#---------------------------------------------------------------------------
# configuration options related to source browsing
#---------------------------------------------------------------------------
SOURCE_BROWSER = YES
INLINE_SOURCES = YES
REFERENCED_BY_RELATION = YES
REFERENCES_RELATION = YES
#---------------------------------------------------------------------------
# configuration options related to the alphabetical class index
#---------------------------------------------------------------------------
ALPHABETICAL_INDEX = NO
COLS_IN_ALPHA_INDEX = 5
IGNORE_PREFIX = OB OTK _
#---------------------------------------------------------------------------
# configuration options related to the HTML output
#---------------------------------------------------------------------------
GENERATE_HTML = YES
HTML_OUTPUT = doc/html
HTML_FILE_EXTENSION = .html
HTML_HEADER =
HTML_FOOTER =
HTML_STYLESHEET =
HTML_ALIGN_MEMBERS = YES
GENERATE_HTMLHELP = NO
CHM_FILE =
HHC_LOCATION =
GENERATE_CHI = NO
BINARY_TOC = NO
TOC_EXPAND = NO
DISABLE_INDEX = NO
ENUM_VALUES_PER_LINE = 4
GENERATE_TREEVIEW = NO
TREEVIEW_WIDTH = 200
#---------------------------------------------------------------------------
# configuration options related to the LaTeX output
#---------------------------------------------------------------------------
GENERATE_LATEX = NO
LATEX_OUTPUT = latex
LATEX_CMD_NAME = latex
MAKEINDEX_CMD_NAME = makeindex
COMPACT_LATEX = NO
PAPER_TYPE = letter
EXTRA_PACKAGES =
LATEX_HEADER =
PDF_HYPERLINKS = YES
USE_PDFLATEX = NO
LATEX_BATCHMODE = NO
#---------------------------------------------------------------------------
# configuration options related to the RTF output
#---------------------------------------------------------------------------
GENERATE_RTF = NO
RTF_OUTPUT = rtf
COMPACT_RTF = NO
RTF_HYPERLINKS = NO
RTF_STYLESHEET_FILE =
RTF_EXTENSIONS_FILE =
#---------------------------------------------------------------------------
# configuration options related to the man page output
#---------------------------------------------------------------------------
GENERATE_MAN = NO
MAN_OUTPUT = man
MAN_EXTENSION = .3
MAN_LINKS = NO
#---------------------------------------------------------------------------
# configuration options related to the XML output
#---------------------------------------------------------------------------
GENERATE_XML = NO
XML_SCHEMA =
XML_DTD =
#---------------------------------------------------------------------------
# configuration options for the AutoGen Definitions output
#---------------------------------------------------------------------------
GENERATE_AUTOGEN_DEF = NO
#---------------------------------------------------------------------------
# Configuration options related to the preprocessor
#---------------------------------------------------------------------------
ENABLE_PREPROCESSING = YES
MACRO_EXPANSION = NO
EXPAND_ONLY_PREDEF = NO
SEARCH_INCLUDES = YES
INCLUDE_PATH =
INCLUDE_FILE_PATTERNS =
PREDEFINED = DOXYGEN
EXPAND_AS_DEFINED =
SKIP_FUNCTION_MACROS = YES
#---------------------------------------------------------------------------
# Configuration::addtions related to external references
#---------------------------------------------------------------------------
TAGFILES =
GENERATE_TAGFILE =
ALLEXTERNALS = NO
EXTERNAL_GROUPS = YES
PERL_PATH = /usr/bin/perl
#---------------------------------------------------------------------------
# Configuration options related to the dot tool
#---------------------------------------------------------------------------
CLASS_DIAGRAMS = YES
HIDE_UNDOC_RELATIONS = YES
HAVE_DOT = YES
CLASS_GRAPH = YES
COLLABORATION_GRAPH = YES
TEMPLATE_RELATIONS = YES
INCLUDE_GRAPH = YES
INCLUDED_BY_GRAPH = YES
GRAPHICAL_HIERARCHY = NO
DOT_IMAGE_FORMAT = png
DOT_PATH =
DOTFILE_DIRS =
MAX_DOT_GRAPH_WIDTH = 1024
MAX_DOT_GRAPH_HEIGHT = 1024
GENERATE_LEGEND = YES
DOT_CLEANUP = YES
#---------------------------------------------------------------------------
# Configuration::addtions related to the search engine
#---------------------------------------------------------------------------
SEARCHENGINE = NO

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prefix=@prefix@
exec_prefix=@exec_prefix@
libdir=@libdir@
includedir=@includedir@
Name: libisofs
Description: ISO9660 filesystem creation library
Version: @VERSION@
Requires:
Libs: -L${libdir} -lisofs
Cflags: -I${includedir}/libisofs

4
libisofs/Makefile Executable file
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all clean:
$(MAKE) -C .. -$(MAKEFLAGS) $@
.PHONY: all clean

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libisofs/ecma119.c Executable file
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/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set noet ts=8 sts=8 sw=8 : */
#include <string.h>
#include <wchar.h>
#include <stdlib.h>
#include <time.h>
#include <assert.h>
#include <err.h>
#include "ecma119.h"
#include "ecma119_tree.h"
#include "susp.h"
#include "rockridge.h"
#include "joliet.h"
#include "volume.h"
#include "tree.h"
#include "util.h"
#include "libisofs.h"
#include "libburn/libburn.h"
/* burn-source compatible stuff */
static int
bs_read(struct burn_source *bs, unsigned char *buf, int size);
static off_t
bs_get_size(struct burn_source *bs);
static void
bs_free_data(struct burn_source *bs);
typedef void (*write_fn)(struct ecma119_write_target*, uint8_t*);
/* return true if the given state is only required for Joliet volumes */
static int
is_joliet_state(enum ecma119_write_state);
static void
next_state(struct ecma119_write_target *t);
/* write t->state_data to the buf, one block at a time */
static void
write_data_chunk(struct ecma119_write_target *t, uint8_t *buf);
/* writing functions. All these functions assume the buf is large enough */
static void
write_pri_vol_desc(struct ecma119_write_target *t, uint8_t *buf);
static void
write_vol_desc_terminator(struct ecma119_write_target *t, uint8_t *buf);
static void
write_path_table(struct ecma119_write_target *t, int l_type, uint8_t *buf);
static void
write_l_path_table(struct ecma119_write_target *t, uint8_t *buf);
static void
write_m_path_table(struct ecma119_write_target *t, uint8_t *buf);
static void
write_one_dir_record(struct ecma119_write_target *t,
struct ecma119_tree_node *dir,
int file_id,
uint8_t *buf);
static void
write_one_dir(struct ecma119_write_target *t,
struct ecma119_tree_node *dir,
uint8_t *buf);
static void
write_dirs(struct ecma119_write_target *t, uint8_t *buf);
/* wrapper functions for writing */
static void wr_system_area(struct ecma119_write_target*, uint8_t*);
static void wr_pri_vol_desc(struct ecma119_write_target*, uint8_t*);
static void wr_vol_desc_term(struct ecma119_write_target*, uint8_t*);
static void wr_l_path_table(struct ecma119_write_target*, uint8_t*);
static void wr_m_path_table(struct ecma119_write_target*, uint8_t*);
static void wr_dir_records(struct ecma119_write_target*, uint8_t*);
static void wr_files(struct ecma119_write_target*, uint8_t*);
static const write_fn writers[] =
{
NULL,
wr_system_area,
wr_pri_vol_desc,
joliet_wr_sup_vol_desc,
wr_vol_desc_term,
wr_l_path_table,
wr_m_path_table,
joliet_wr_l_path_table,
joliet_wr_m_path_table,
wr_dir_records,
joliet_wr_dir_records,
wr_files
};
/* When a writer is created, we
* 1) create an ecma119 tree
* 2) add SUSP fields (if necessary)
* 3) calculate the size and position of all nodes in the tree
* 4) finalize SUSP fields (if necessary)
*/
static void
add_susp_fields_rec(struct ecma119_write_target *t,
struct ecma119_tree_node *node)
{
size_t i;
if (!node->iso_self)
return;
rrip_add_PX(t, node);
rrip_add_NM(t, node);
rrip_add_TF(t, node);
if (node->iso_self->attrib.st_rdev)
rrip_add_PN(t, node);
if (S_ISLNK(node->iso_self->attrib.st_mode))
rrip_add_SL(t, node);
if (node->type == ECMA119_FILE && node->file.real_me)
rrip_add_CL(t, node);
if (node->type == ECMA119_DIR
&& node->dir.real_parent != node->parent) {
rrip_add_RE(t, node);
rrip_add_PL(t, node);
}
susp_add_CE(t, node);
if (node->type == ECMA119_DIR) {
for (i = 0; i < node->dir.nchildren; i++) {
add_susp_fields_rec(t, node->dir.children[i]);
}
}
}
static void
add_susp_fields(struct ecma119_write_target *t)
{
susp_add_SP(t, t->root);
rrip_add_ER(t, t->root);
add_susp_fields_rec(t, t->root);
}
/**
* Fill out the dir.len and dir.CE_len fields for each
* ecma119_tree_node that is a directory. Also calculate the total number of
* directories and the number of files for which we need to write out data.
* (dirlist_len and filelist_len)
*/
static void
calc_dir_size(struct ecma119_write_target *t,
struct ecma119_tree_node *dir)
{
size_t i;
size_t newlen;
assert(dir->type == ECMA119_DIR);
t->dirlist_len++;
dir->dir.len = 34 + dir->dir.self_susp.non_CE_len
+ 34 + dir->dir.parent_susp.non_CE_len;
dir->dir.CE_len = dir->dir.self_susp.CE_len
+ dir->dir.parent_susp.CE_len;
for (i = 0; i < dir->dir.nchildren; i++) {
struct ecma119_tree_node *ch = dir->dir.children[i];
newlen = dir->dir.len + ch->dirent_len + ch->susp.non_CE_len;
if ((newlen % 2048) < (dir->dir.len % 2048)) {
dir->dir.len = newlen + (2048 - (dir->dir.len % 2048));
}
else {
dir->dir.len += ch->dirent_len + ch->susp.non_CE_len;
}
dir->dir.CE_len += ch->susp.CE_len;
}
t->total_dir_size += round_up(dir->dir.len + dir->dir.CE_len,
t->block_size);
for (i = 0; i < dir->dir.nchildren; i++) {
struct ecma119_tree_node *ch = dir->dir.children[i];
struct iso_tree_node *iso = ch->iso_self;
if (ch->type == ECMA119_DIR) {
calc_dir_size(t, ch);
} else if (iso && iso->attrib.st_size
&& iso->loc.type == LIBISO_FILESYS
&& iso->loc.path) {
t->filelist_len++;
}
}
}
/**
* Fill out the block field in each ecma119_tree_node that is a directory and
* fill out t->dirlist.
*/
static void
calc_dir_pos(struct ecma119_write_target *t,
struct ecma119_tree_node *dir)
{
size_t i;
assert(dir->type == ECMA119_DIR);
/* we don't need to set iso_self->block since each tree writes
* its own directories */
dir->block = t->curblock;
t->curblock += div_up(dir->dir.len + dir->dir.CE_len, t->block_size);
t->dirlist[t->curfile++] = dir;
for (i = 0; i < dir->dir.nchildren; i++) {
struct ecma119_tree_node *ch = dir->dir.children[i];
if (ch->type == ECMA119_DIR)
calc_dir_pos(t, ch);
}
/* reset curfile when we're finished */
if (!dir->parent) {
t->curfile = 0;
}
}
/**
* Fill out the block field for each ecma119_tree_node that is a file and fill
* out t->filelist.
*/
static void
calc_file_pos(struct ecma119_write_target *t,
struct ecma119_tree_node *dir)
{
size_t i;
assert(dir->type == ECMA119_DIR);
for (i = 0; i < dir->dir.nchildren; i++) {
struct ecma119_tree_node *ch = dir->dir.children[i];
if (ch->type == ECMA119_FILE && ch->iso_self) {
struct iso_tree_node *iso = ch->iso_self;
off_t size = iso->attrib.st_size;
iso->block = ch->block = t->curblock;
t->curblock += div_up(size, t->block_size);
if (size && iso->loc.type == LIBISO_FILESYS
&& iso->loc.path)
t->filelist[t->curfile++] = ch;
}
}
for (i = 0; i < dir->dir.nchildren; i++) {
struct ecma119_tree_node *ch = dir->dir.children[i];
if (ch->type == ECMA119_DIR)
calc_file_pos(t, ch);
}
/* reset curfile when we're finished */
if (!dir->parent) {
t->curfile = 0;
}
}
struct ecma119_write_target*
ecma119_target_new(struct iso_volset *volset,
int volnum,
int level,
int flags)
{
struct ecma119_write_target *t =
calloc(1, sizeof(struct ecma119_write_target));
size_t i, j, cur;
struct iso_tree_node *iso_root = volset->volume[volnum]->root;
volset->refcount++;
t->root = ecma119_tree_create(t, iso_root);
t->joliet = (flags & ECMA119_JOLIET) ? 1 : 0;
if (t->joliet)
t->joliet_root = joliet_tree_create(t, iso_root);
t->volset = volset;
t->volnum = volnum;
t->now = time(NULL);
t->rockridge = (flags & ECMA119_ROCKRIDGE) ? 1 : 0;
t->iso_level = level;
t->block_size = 2048;
if (t->rockridge)
add_susp_fields(t);
calc_dir_size(t, t->root);
if (t->joliet) {
joliet_calc_dir_size(t, t->joliet_root);
t->pathlist_joliet = calloc(1, sizeof(void*) * t->dirlist_len);
t->dirlist_joliet = calloc(1, sizeof(void*) * t->dirlist_len);
}
t->dirlist = calloc(1, sizeof(void*) * t->dirlist_len);
t->pathlist = calloc(1, sizeof(void*) * t->dirlist_len);
t->filelist = calloc(1, sizeof(void*) * t->filelist_len);
/* fill out the pathlist */
t->pathlist[0] = t->root;
t->path_table_size = 10; /* root directory record */
cur = 1;
for (i = 0; i < t->dirlist_len; i++) {
struct ecma119_tree_node *dir = t->pathlist[i];
for (j = 0; j < dir->dir.nchildren; j++) {
struct ecma119_tree_node *ch = dir->dir.children[j];
if (ch->type == ECMA119_DIR) {
size_t len = 8 + strlen(ch->name);
t->pathlist[cur++] = ch;
t->path_table_size += len + len % 2;
}
}
}
t->curblock = 16 /* system area */
+ 1 /* volume desc */
+ 1; /* volume desc terminator */
if (t->joliet) /* supplementary vol desc */
t->curblock += div_up (2048, t->block_size);
t->l_path_table_pos = t->curblock;
t->curblock += div_up(t->path_table_size, t->block_size);
t->m_path_table_pos = t->curblock;
t->curblock += div_up(t->path_table_size, t->block_size);
if (t->joliet) {
joliet_prepare_path_tables(t);
t->l_path_table_pos_joliet = t->curblock;
t->curblock += div_up(t->path_table_size_joliet, t->block_size);
t->m_path_table_pos_joliet = t->curblock;
t->curblock += div_up(t->path_table_size_joliet, t->block_size);
}
calc_dir_pos(t, t->root);
if (t->joliet)
joliet_calc_dir_pos(t, t->joliet_root);
calc_file_pos(t, t->root);
if (t->joliet)
joliet_update_file_pos (t, t->joliet_root);
if (t->rockridge) {
susp_finalize(t, t->root);
rrip_finalize(t, t->root);
}
t->total_size = t->curblock * t->block_size;
t->vol_space_size = t->curblock;
/* prepare for writing */
t->curblock = 0;
t->state = ECMA119_WRITE_SYSTEM_AREA;
return t;
}
static int
is_joliet_state(enum ecma119_write_state state)
{
return state == ECMA119_WRITE_SUP_VOL_DESC_JOLIET
|| state == ECMA119_WRITE_L_PATH_TABLE_JOLIET
|| state == ECMA119_WRITE_M_PATH_TABLE_JOLIET
|| state == ECMA119_WRITE_DIR_RECORDS_JOLIET;
}
static void
next_state(struct ecma119_write_target *t)
{
t->state++;
while (!t->joliet && is_joliet_state(t->state))
t->state++;
printf ("now in state %d, curblock=%d\n", (int)t->state, (int)t->curblock);
}
static void
wr_system_area(struct ecma119_write_target *t, uint8_t *buf)
{
memset(buf, 0, t->block_size);
if (t->curblock == 15) {
next_state(t);
}
}
static void
wr_pri_vol_desc(struct ecma119_write_target *t, uint8_t *buf)
{
ecma119_start_chunking(t, write_pri_vol_desc, 2048, buf);
}
static void
wr_vol_desc_term(struct ecma119_write_target *t, uint8_t *buf)
{
ecma119_start_chunking(t, write_vol_desc_terminator, 2048, buf);
}
static void
wr_l_path_table(struct ecma119_write_target *t, uint8_t *buf)
{
ecma119_start_chunking(t, write_l_path_table, t->path_table_size, buf);
}
static void
wr_m_path_table(struct ecma119_write_target *t, uint8_t *buf)
{
ecma119_start_chunking(t, write_m_path_table, t->path_table_size, buf);
}
static void
wr_dir_records(struct ecma119_write_target *t, uint8_t *buf)
{
ecma119_start_chunking(t, write_dirs, t->total_dir_size, buf);
}
static void
wr_files(struct ecma119_write_target *t, uint8_t *buf)
{
struct state_files *f_st = &t->state_files;
size_t nread;
struct ecma119_tree_node *f = t->filelist[f_st->file];
const char *path = f->iso_self->loc.path;
if (!f_st->fd) {
f_st->data_len = f->iso_self->attrib.st_size;
f_st->fd = fopen(path, "r");
if (!f_st->fd)
err(1, "couldn't open %s for reading", path);
assert(t->curblock == f->block);
}
nread = fread(buf, 1, t->block_size, f_st->fd);
f_st->pos += t->block_size;
if (nread < 0)
warn("problem reading from %s", path);
else if (nread != t->block_size && f_st->pos < f_st->data_len)
warnx("incomplete read from %s", path);
if (f_st->pos >= f_st->data_len) {
fclose(f_st->fd);
f_st->fd = 0;
f_st->pos = 0;
f_st->file++;
if (f_st->file >= t->filelist_len)
next_state(t);
}
}
static void
write_pri_vol_desc(struct ecma119_write_target *t, uint8_t *buf)
{
struct ecma119_pri_vol_desc *vol = (struct ecma119_pri_vol_desc*)buf;
struct iso_volume *volume = t->volset->volume[t->volnum];
char *vol_id = str2ascii(volume->volume_id);
char *pub_id = str2ascii(volume->publisher_id);
char *data_id = str2ascii(volume->data_preparer_id);
char *volset_id = str2ascii(t->volset->volset_id);
vol->vol_desc_type[0] = 1;
memcpy(vol->std_identifier, "CD001", 5);
vol->vol_desc_version[0] = 1;
memcpy(vol->system_id, "SYSID", 5);
if (vol_id)
strncpy((char*)vol->volume_id, vol_id, 32);
iso_bb(vol->vol_space_size, t->vol_space_size, 4);
iso_bb(vol->vol_set_size, t->volset->volset_size, 2);
iso_bb(vol->vol_seq_number, t->volnum + 1, 2);
iso_bb(vol->block_size, t->block_size, 2);
iso_bb(vol->path_table_size, t->path_table_size, 4);
iso_lsb(vol->l_path_table_pos, t->l_path_table_pos, 4);
iso_msb(vol->m_path_table_pos, t->m_path_table_pos, 4);
write_one_dir_record(t, t->root, 3, vol->root_dir_record);
strncpy((char*)vol->vol_set_id, volset_id, 128);
strncpy((char*)vol->publisher_id, pub_id, 128);
strncpy((char*)vol->data_prep_id, data_id, 128);
strncpy((char*)vol->application_id, "APPID", 128);
iso_datetime_17(vol->vol_creation_time, t->now);
iso_datetime_17(vol->vol_modification_time, t->now);
iso_datetime_17(vol->vol_effective_time, t->now);
vol->file_structure_version[0] = 1;
free(vol_id);
free(volset_id);
free(pub_id);
free(data_id);
}
static void
write_vol_desc_terminator(struct ecma119_write_target *t, uint8_t *buf)
{
struct ecma119_vol_desc_terminator *vol =
(struct ecma119_vol_desc_terminator*) buf;
vol->vol_desc_type[0] = 255;
memcpy(vol->std_identifier, "CD001", 5);
vol->vol_desc_version[0] = 1;
}
static void
write_path_table(struct ecma119_write_target *t, int l_type, uint8_t *buf)
{
void (*write_int)(uint8_t*, uint32_t, int) = l_type ? iso_lsb
: iso_msb;
size_t i;
struct ecma119_path_table_record *rec;
struct ecma119_tree_node *dir;
int parent = 0;
for (i = 0; i < t->dirlist_len; i++) {
dir = t->pathlist[i];
while ((i) && t->pathlist[parent] != dir->parent)
parent++;
assert(parent < i || i == 0);
rec = (struct ecma119_path_table_record*) buf;
rec->len_di[0] = dir->parent ? (uint8_t) strlen(dir->name) : 1;
rec->len_xa[0] = 0;
write_int(rec->block, dir->block, 4);
write_int(rec->parent, parent + 1, 2);
if (dir->parent)
memcpy(rec->dir_id, dir->name, rec->len_di[0]);
buf += 8 + rec->len_di[0] + (rec->len_di[0] % 2);
}
}
static void
write_l_path_table(struct ecma119_write_target *t, uint8_t *buf)
{
write_path_table(t, 1, buf);
}
static void
write_m_path_table(struct ecma119_write_target *t, uint8_t *buf)
{
write_path_table(t, 0, buf);
}
/* if file_id is >= 0, we use it instead of the filename. As a magic number,
* file_id == 3 means that we are writing the root directory record (in order
* to distinguish it from the "." entry in the root directory) */
static void
write_one_dir_record(struct ecma119_write_target *t,
struct ecma119_tree_node *node,
int file_id,
uint8_t *buf)
{
uint8_t len_dr = (file_id >= 0) ? 34 : node->dirent_len;
uint8_t len_fi = (file_id >= 0) ? 1 : strlen(node->name);
uint8_t f_id = (uint8_t) ((file_id == 3) ? 0 : file_id);
uint8_t *name = (file_id >= 0) ? &f_id : (uint8_t*)node->name;
uint32_t len = (node->type == ECMA119_DIR) ? node->dir.len
: node->file.real_me ? 0 : node->iso_self->attrib.st_size;
struct ecma119_dir_record *rec = (struct ecma119_dir_record*)buf;
/* we don't write out susp fields for the root node */
if (t->rockridge) {
if (file_id == 0) {
susp_write(t, &node->dir.self_susp, &buf[len_dr]);
len_dr += node->dir.self_susp.non_CE_len;
} else if (file_id == 1) {
susp_write(t, &node->dir.parent_susp, &buf[len_dr]);
len_dr += node->dir.parent_susp.non_CE_len;
} else if (file_id < 0) {
susp_write(t, &node->susp, &buf[len_dr]);
len_dr += node->susp.non_CE_len;
}
}
if (file_id == 1 && node->parent)
node = node->parent;
rec->len_dr[0] = len_dr;
iso_bb(rec->block, node->block, 4);
iso_bb(rec->length, len, 4);
iso_datetime_7(rec->recording_time, t->now);
rec->flags[0] = (node->type == ECMA119_DIR) ? 2 : 0;
iso_bb(rec->vol_seq_number, t->volnum + 1, 2);
rec->len_fi[0] = len_fi;
memcpy(rec->file_id, name, len_fi);
}
static void
write_one_dir(struct ecma119_write_target *t,
struct ecma119_tree_node *dir,
uint8_t *buf)
{
size_t i;
int j;
size_t len;
uint8_t *orig_buf = buf;
uint8_t *prior_buf = buf;
assert(dir->type == ECMA119_DIR);
/* write the "." and ".." entries first */
write_one_dir_record(t, dir, 0, buf);
buf += ((struct ecma119_dir_record*) buf)->len_dr[0];
write_one_dir_record(t, dir, 1, buf);
buf += ((struct ecma119_dir_record*) buf)->len_dr[0];
for (i = 0; i < dir->dir.nchildren; i++) {
write_one_dir_record(t, dir->dir.children[i], -1, buf);
len = ((struct ecma119_dir_record*) buf)->len_dr[0];
if ((buf + len - prior_buf) >= 2048) {
for (j = len - 1; j >= 0; j--) {
prior_buf[2048 + j] = buf[j];
buf[j] = 0;
}
prior_buf += 2048;
buf = prior_buf + len;
}
else {
buf += ((struct ecma119_dir_record*) buf)->len_dr[0];
}
}
/* write the susp continuation areas */
if (t->rockridge) {
susp_write_CE(t, &dir->dir.self_susp, buf);
buf += dir->dir.self_susp.CE_len;
susp_write_CE(t, &dir->dir.parent_susp, buf);
buf += dir->dir.parent_susp.CE_len;
for (i = 0; i < dir->dir.nchildren; i++) {
susp_write_CE(t, &dir->dir.children[i]->susp, buf);
buf += dir->dir.children[i]->susp.CE_len;
}
}
assert (buf - orig_buf == dir->dir.len + dir->dir.CE_len);
}
static void
write_dirs(struct ecma119_write_target *t, uint8_t *buf)
{
size_t i;
struct ecma119_tree_node *dir;
for (i = 0; i < t->dirlist_len; i++) {
dir = t->dirlist[i];
write_one_dir(t, dir, buf);
buf += round_up(dir->dir.len + dir->dir.CE_len, t->block_size);
}
}
void
ecma119_start_chunking(struct ecma119_write_target *t,
write_fn writer,
off_t data_size,
uint8_t *buf)
{
if (data_size != t->state_data_size) {
data_size = round_up(data_size, t->block_size);
t->state_data = realloc(t->state_data, data_size);
t->state_data_size = data_size;
}
memset(t->state_data, 0, t->state_data_size);
t->state_data_off = 0;
t->state_data_valid = 1;
writer(t, t->state_data);
write_data_chunk(t, buf);
}
static void
write_data_chunk(struct ecma119_write_target *t, uint8_t *buf)
{
memcpy(buf, t->state_data + t->state_data_off, t->block_size);
t->state_data_off += t->block_size;
if (t->state_data_off >= t->state_data_size) {
assert (t->state_data_off <= t->state_data_size);
t->state_data_valid = 0;
next_state(t);
}
}
static int
bs_read(struct burn_source *bs, unsigned char *buf, int size)
{
struct ecma119_write_target *t = (struct ecma119_write_target*)bs->data;
if (size != t->block_size) {
warnx("you must read data in block-sized chunks (%d bytes)",
(int)t->block_size);
return 0;
} else if (t->curblock >= t->vol_space_size) {
return 0;
}
if (t->state_data_valid)
write_data_chunk(t, buf);
else
writers[t->state](t, buf);
t->curblock++;
return size;
}
static off_t
bs_get_size(struct burn_source *bs)
{
struct ecma119_write_target *t = (struct ecma119_write_target*)bs->data;
return t->total_size;
}
static void
bs_free_data(struct burn_source *bs)
{
struct ecma119_write_target *t = (struct ecma119_write_target*)bs->data;
ecma119_tree_free(t->root);
free(t->dirlist);
free(t->pathlist);
free(t->dirlist_joliet);
free(t->pathlist_joliet);
free(t->filelist);
free(t->state_data);
if (t->state_files.fd)
fclose(t->state_files.fd);
}
struct burn_source *iso_source_new_ecma119(struct iso_volset *volset,
int volnum,
int level,
int flags)
{
struct burn_source *ret = calloc(1, sizeof(struct burn_source));
ret->refcount = 1;
ret->read = bs_read;
ret->get_size = bs_get_size;
ret->free_data = bs_free_data;
ret->data = ecma119_target_new(volset, volnum, level, flags);
return ret;
}

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/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set noet ts=8 sts=8 sw=8 : */
/**
* \file ecma119.h
*
* Structures and definitions used for writing an emca119 (ISO9660) compatible
* volume.
*/
#ifndef LIBISO_ECMA119_H
#define LIBISO_ECMA119_H
#include <sys/time.h>
#include <stdint.h>
#include <stdio.h> /* for FILE */
#include <sys/types.h>
#include "susp.h"
struct ecma119_tree_node;
struct joliet_tree_node;
/**
* The possible states that the ecma119 writer can be in.
*/
enum ecma119_write_state
{
ECMA119_WRITE_BEFORE,
ECMA119_WRITE_SYSTEM_AREA,
ECMA119_WRITE_PRI_VOL_DESC,
ECMA119_WRITE_SUP_VOL_DESC_JOLIET,
ECMA119_WRITE_VOL_DESC_TERMINATOR,
ECMA119_WRITE_L_PATH_TABLE,
ECMA119_WRITE_M_PATH_TABLE,
ECMA119_WRITE_L_PATH_TABLE_JOLIET,
ECMA119_WRITE_M_PATH_TABLE_JOLIET,
ECMA119_WRITE_DIR_RECORDS,
ECMA119_WRITE_DIR_RECORDS_JOLIET,
ECMA119_WRITE_FILES,
ECMA119_WRITE_DONE
};
/**
* Data describing the state of the ecma119 writer. Everything here should be
* considered private!
*/
struct ecma119_write_target
{
struct ecma119_tree_node *root;
struct joliet_tree_node *joliet_root;
struct iso_volset *volset;
int volnum;
time_t now; /**< Time at which writing began. */
off_t total_size; /**< Total size of the output. This only
* includes the current volume. */
uint32_t vol_space_size;
unsigned int rockridge:1;
unsigned int joliet:1;
unsigned int iso_level:2;
int curblock;
uint16_t block_size;
uint32_t path_table_size;
uint32_t path_table_size_joliet;
uint32_t l_path_table_pos;
uint32_t m_path_table_pos;
uint32_t l_path_table_pos_joliet;
uint32_t m_path_table_pos_joliet;
uint32_t total_dir_size;
uint32_t total_dir_size_joliet;
struct ecma119_tree_node **dirlist;
/**< A pre-order list of directories
* (this is the order in which we write
* out directory records).
*/
struct ecma119_tree_node **pathlist;
/**< A breadth-first list of
* directories. This is used for
* writing out the path tables.
*/
size_t dirlist_len; /**< The length of the previous 2 lists.
*/
struct ecma119_tree_node **filelist;
/**< A pre-order list of files with
* non-NULL paths and non-zero sizes.
*/
size_t filelist_len; /* Length of the previous list. */
int curfile; /**< Used as a helper field for writing
out filelist and dirlist */
/* Joliet versions of the above lists. Since Joliet doesn't require
* directory relocation, the order of these lists might be different
* from the lists above (but they will be the same length).
*/
struct joliet_tree_node **dirlist_joliet;
struct joliet_tree_node **pathlist_joliet;
enum ecma119_write_state state; /* The current state of the writer. */
/* Most writers work by
* 1) making sure state_data is big enough for their data
* 2) writing _all_ their data into state_data
* 3) relying on write_data_chunk to write the data block
* by block.
*/
uint8_t *state_data;
off_t state_data_size;
off_t state_data_off;
int state_data_valid;
/* for writing out files */
struct state_files {
off_t pos; /* The number of bytes we have written
* so far in the current file.
*/
off_t data_len;/* The number of bytes in the currently
* open file.
*/
FILE *fd; /* The currently open file. */
int file; /* The index in filelist that we are
* currently writing (or about to write). */
} state_files;
};
/**
* Create a new ecma119_write_target from the given volume number of the
* given volume set.
*
* \pre \p volnum is less than \p volset-\>volset_size.
* \post For each node in the tree, writer_data has been allocated.
* \post The directory heirarchy has been reorganised to be ecma119-compatible.
*/
struct ecma119_write_target *ecma119_target_new(struct iso_volset *volset,
int volnum,
int level,
int flags);
#define BP(a,b) [(b) - (a) + 1]
struct ecma119_pri_vol_desc
{
uint8_t vol_desc_type BP(1, 1);
uint8_t std_identifier BP(2, 6);
uint8_t vol_desc_version BP(7, 7);
uint8_t unused1 BP(8, 8);
uint8_t system_id BP(9, 40);
uint8_t volume_id BP(41, 72);
uint8_t unused2 BP(73, 80);
uint8_t vol_space_size BP(81, 88);
uint8_t unused3 BP(89, 120);
uint8_t vol_set_size BP(121, 124);
uint8_t vol_seq_number BP(125, 128);
uint8_t block_size BP(129, 132);
uint8_t path_table_size BP(133, 140);
uint8_t l_path_table_pos BP(141, 144);
uint8_t opt_l_path_table_pos BP(145, 148);
uint8_t m_path_table_pos BP(149, 152);
uint8_t opt_m_path_table_pos BP(153, 156);
uint8_t root_dir_record BP(157, 190);
uint8_t vol_set_id BP(191, 318);
uint8_t publisher_id BP(319, 446);
uint8_t data_prep_id BP(447, 574);
uint8_t application_id BP(575, 702);
uint8_t copyright_file_id BP(703, 739);
uint8_t abstract_file_id BP(740, 776);
uint8_t bibliographic_file_id BP(777, 813);
uint8_t vol_creation_time BP(814, 830);
uint8_t vol_modification_time BP(831, 847);
uint8_t vol_expiration_time BP(848, 864);
uint8_t vol_effective_time BP(865, 881);
uint8_t file_structure_version BP(882, 882);
uint8_t reserved1 BP(883, 883);
uint8_t app_use BP(884, 1395);
uint8_t reserved2 BP(1396, 2048);
};
struct ecma119_sup_vol_desc
{
uint8_t vol_desc_type BP(1, 1);
uint8_t std_identifier BP(2, 6);
uint8_t vol_desc_version BP(7, 7);
uint8_t vol_flags BP(8, 8);
uint8_t system_id BP(9, 40);
uint8_t volume_id BP(41, 72);
uint8_t unused2 BP(73, 80);
uint8_t vol_space_size BP(81, 88);
uint8_t esc_sequences BP(89, 120);
uint8_t vol_set_size BP(121, 124);
uint8_t vol_seq_number BP(125, 128);
uint8_t block_size BP(129, 132);
uint8_t path_table_size BP(133, 140);
uint8_t l_path_table_pos BP(141, 144);
uint8_t opt_l_path_table_pos BP(145, 148);
uint8_t m_path_table_pos BP(149, 152);
uint8_t opt_m_path_table_pos BP(153, 156);
uint8_t root_dir_record BP(157, 190);
uint8_t vol_set_id BP(191, 318);
uint8_t publisher_id BP(319, 446);
uint8_t data_prep_id BP(447, 574);
uint8_t application_id BP(575, 702);
uint8_t copyright_file_id BP(703, 739);
uint8_t abstract_file_id BP(740, 776);
uint8_t bibliographic_file_id BP(777, 813);
uint8_t vol_creation_time BP(814, 830);
uint8_t vol_modification_time BP(831, 847);
uint8_t vol_expiration_time BP(848, 864);
uint8_t vol_effective_time BP(865, 881);
uint8_t file_structure_version BP(882, 882);
uint8_t reserved1 BP(883, 883);
uint8_t app_use BP(884, 1395);
uint8_t reserved2 BP(1396, 2048);
};
struct ecma119_vol_desc_terminator
{
uint8_t vol_desc_type BP(1, 1);
uint8_t std_identifier BP(2, 6);
uint8_t vol_desc_version BP(7, 7);
uint8_t reserved BP(8, 2048);
};
struct ecma119_dir_record
{
uint8_t len_dr BP(1, 1);
uint8_t len_xa BP(2, 2);
uint8_t block BP(3, 10);
uint8_t length BP(11, 18);
uint8_t recording_time BP(19, 25);
uint8_t flags BP(26, 26);
uint8_t file_unit_size BP(27, 27);
uint8_t interleave_gap_size BP(28, 28);
uint8_t vol_seq_number BP(29, 32);
uint8_t len_fi BP(33, 33);
uint8_t file_id BP(34, 34); /* 34 to 33+len_fi */
/* padding field (if len_fi is even) */
/* system use (len_dr - len_su + 1 to len_dr) */
};
struct ecma119_path_table_record
{
uint8_t len_di BP(1, 1);
uint8_t len_xa BP(2, 2);
uint8_t block BP(3, 6);
uint8_t parent BP(7, 8);
uint8_t dir_id BP(9, 9); /* 9 to 8+len_di */
/* padding field (if len_di is odd) */
};
/**
* A utility function for writers that want to write their data all at once
* rather than block-by-block. This creates a buffer of size \p size, passes
* it to the given writer, then hands out block-sized chunks.
*/
void
ecma119_start_chunking(struct ecma119_write_target *t,
void (*)(struct ecma119_write_target*, uint8_t*),
off_t size,
uint8_t *buf);
#endif /* LIBISO_ECMA119_H */

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/* vim: set noet ts=8 sts=8 sw=8 : */
#include <string.h>
#include <wchar.h>
#include <stdlib.h>
#include <assert.h>
#include "ecma119.h"
#include "ecma119_tree.h"
#include "tree.h"
#include "util.h"
static size_t calc_dirent_len(struct ecma119_tree_node *n)
{
int ret = n->name ? strlen(n->name) + 33 : 34;
if (ret % 2) ret++;
return ret;
}
static struct ecma119_tree_node*
create_dir(struct ecma119_write_target *t,
struct ecma119_tree_node *parent,
struct iso_tree_node *iso)
{
struct ecma119_tree_node *ret;
assert(t && (!parent || parent->type == ECMA119_DIR)
&& iso && S_ISDIR(iso->attrib.st_mode));
ret = calloc(1, sizeof(struct ecma119_tree_node));
ret->name = iso->name ? ((t->iso_level == 1) ? iso_1_dirid(iso->name)
: iso_2_dirid(iso->name))
: NULL;
ret->dirent_len = calc_dirent_len(ret);
ret->iso_self = iso;
ret->target = t;
ret->type = ECMA119_DIR;
ret->parent = ret->dir.real_parent = parent;
ret->dir.depth = parent ? parent->dir.depth + 1 : 1;
ret->dir.nchildren = iso->nchildren;
ret->dir.children = calloc(1, sizeof(void*) * iso->nchildren);
return ret;
}
static struct ecma119_tree_node*
create_file(struct ecma119_write_target *t,
struct ecma119_tree_node *parent,
struct iso_tree_node *iso)
{
struct ecma119_tree_node *ret;
assert(t && iso && parent && parent->type == ECMA119_DIR);
ret = calloc(1, sizeof(struct ecma119_tree_node));
ret->name = iso->name ? ((t->iso_level == 1) ? iso_1_fileid(iso->name)
: iso_2_fileid(iso->name))
: NULL;
ret->dirent_len = calc_dirent_len(ret);
ret->parent = parent;
ret->iso_self = iso;
ret->target = t;
ret->type = ECMA119_FILE;
return ret;
}
static struct ecma119_tree_node*
create_tree(struct ecma119_write_target *t,
struct ecma119_tree_node *parent,
struct iso_tree_node *iso)
{
struct ecma119_tree_node *ret;
size_t i;
assert(t && iso);
ret = (S_ISDIR(iso->attrib.st_mode) ? create_dir : create_file)
(t, parent, iso);
for (i = 0; i < iso->nchildren; i++) {
ret->dir.children[i] = create_tree(t, ret, iso->children[i]);
}
return ret;
}
void
ecma119_tree_free(struct ecma119_tree_node *root)
{
size_t i;
if (root->type == ECMA119_DIR) {
for (i=0; i < root->dir.nchildren; i++) {
ecma119_tree_free(root->dir.children[i]);
}
free(root->dir.children);
}
free(root->name);
free(root);
}
static size_t
max_child_name_len(struct ecma119_tree_node *root)
{
size_t ret = 0, i;
assert(root->type == ECMA119_DIR);
for (i=0; i < root->dir.nchildren; i++) {
size_t len = strlen(root->dir.children[i]->name);
ret = MAX(ret, len);
}
return ret;
}
static void
reparent(struct ecma119_tree_node *child,
struct ecma119_tree_node *parent)
{
int found = 0;
size_t i;
struct ecma119_tree_node *placeholder;
assert(child && parent && parent->type == ECMA119_DIR && child->parent);
/* replace the child in the original parent with a placeholder */
for (i=0; i < child->parent->dir.nchildren; i++) {
if (child->parent->dir.children[i] == child) {
placeholder = create_file(child->target,
child->parent,
child->iso_self);
placeholder->file.real_me = child;
child->parent->dir.children[i] = placeholder;
found = 1;
break;
}
}
assert(found);
/* add the child to its new parent */
child->parent = parent;
parent->dir.nchildren++;
parent->dir.children = realloc( parent->dir.children,
sizeof(void*) * parent->dir.nchildren );
parent->dir.children[parent->dir.nchildren-1] = child;
}
/**
* Reorder the tree, if necessary, to ensure that
* - the depth is at most 8
* - each path length is at most 255 characters
*/
static void
reorder_tree(struct ecma119_tree_node *root,
struct ecma119_tree_node *cur)
{
size_t max_path;
assert(root && cur && cur->type == ECMA119_DIR);
cur->dir.depth = cur->parent ? cur->parent->dir.depth + 1 : 1;
cur->dir.path_len = cur->parent ? cur->parent->dir.path_len
+ strlen(cur->name) : 0;
max_path = cur->dir.path_len + cur->dir.depth + max_child_name_len(cur);
if (cur->dir.depth > 8 || max_path > 255) {
reparent(cur, root);
/* we are appended to the root's children now, so there is no
* need to recurse (the root will hit us again) */
} else {
size_t i;
for (i=0; i < cur->dir.nchildren; i++) {
if (cur->dir.children[i]->type == ECMA119_DIR)
reorder_tree(root, cur->dir.children[i]);
}
}
}
static int
cmp_node(const void *f1, const void *f2)
{
struct ecma119_tree_node *f = *((struct ecma119_tree_node**)f1);
struct ecma119_tree_node *g = *((struct ecma119_tree_node**)f2);
return strcmp(f->name, g->name);
}
static void
sort_tree(struct ecma119_tree_node *root)
{
size_t i;
assert(root && root->type == ECMA119_DIR);
qsort(root->dir.children, root->dir.nchildren, sizeof(void*), cmp_node);
for (i=0; i < root->dir.nchildren; i++) {
if (root->dir.children[i]->type == ECMA119_DIR)
sort_tree(root->dir.children[i]);
}
}
/**
* Change num_change characters of the given filename in order to ensure the
* name is unique. If the name is short enough (depending on the ISO level),
* we can append the characters instead of changing them.
*
* \p seq_num is the index of this file in the sequence of identical filenames.
*
* For example, seq_num=3, num_change=2, name="HELLOTHERE.TXT" changes name to
* "HELLOTHE03.TXT"
*/
static void
mangle_name(char **name, int num_change, int level, int seq_num)
{
char *dot = strrchr(*name, '.');
char *semi = strrchr(*name, ';');
size_t len = strlen(*name);
char base[len+1], ext[len+1];
char fmt[12];
size_t baselen, extlen;
if (num_change >= len) {
return;
}
strncpy(base, *name, len+1);
if (dot) {
base[dot - *name] = '\0';
strncpy(ext, dot+1, len+1);
if (semi) {
ext[semi - dot - 1] = '\0';
}
} else {
base[len-2] = '\0';
ext[0] = '\0';
}
baselen = strlen(base);
extlen = strlen(ext);
if (level == 1 && baselen + num_change > 8) {
base[8 - num_change] = '\0';
} else if (level != 1 && baselen + extlen + num_change > 30) {
base[30 - extlen - num_change] = '\0';
}
sprintf(fmt, "%%s%%0%1dd.%%s;1", num_change);
*name = realloc(*name, baselen + extlen + num_change + 4);
sprintf(*name, fmt, base, seq_num, ext);
}
static void
mangle_all(struct ecma119_tree_node *dir)
{
size_t i, j, k;
struct ecma119_dir_info d = dir->dir;
size_t n_change;
int changed;
assert(dir->type == ECMA119_DIR);
do {
changed = 0;
for (i=0; i < d.nchildren; i++) {
/* find the number of consecutive equal names */
j = 1;
while ( i+j < d.nchildren &&
!strcmp(d.children[i]->name,
d.children[i+j]->name) )
j++;
if (j == 1) continue;
/* mangle the names */
changed = 1;
n_change = j / 10 + 1;
for (k=0; k < j; k++) {
mangle_name(&(d.children[i+k]->name),
n_change,
dir->target->iso_level,
k);
d.children[i+k]->dirent_len =
calc_dirent_len(d.children[i+k]);
}
/* skip ahead by the number of mangled names */
i += j - 1;
}
} while (changed);
for (i=0; i < d.nchildren; i++) {
if (d.children[i]->type == ECMA119_DIR)
mangle_all(d.children[i]);
}
}
struct ecma119_tree_node*
ecma119_tree_create(struct ecma119_write_target *t,
struct iso_tree_node *iso_root)
{
t->root = create_tree(t, NULL, iso_root);
reorder_tree(t->root, t->root);
sort_tree(t->root);
mangle_all(t->root);
return t->root;
}
void
ecma119_tree_print(struct ecma119_tree_node *root, int spaces)
{
size_t i;
char sp[spaces+1];
memset(sp, ' ', spaces);
sp[spaces] = '\0';
printf("%s%s\n", sp, root->name);
if (root->type == ECMA119_DIR)
for (i=0; i < root->dir.nchildren; i++)
ecma119_tree_print(root->dir.children[i], spaces+2);
}

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/* vim: set noet ts=8 sts=8 sw=8 : */
/**
* \file ecma119_tree.h
*
* Declarations for creating, modifying and printing filesystem trees that
* are compatible with ecma119.
*/
#ifndef LIBISO_ECMA119_TREE_H
#define LIBISO_ECMA119_TREE_H
struct ecma119_write_target;
enum {
ECMA119_FILE,
ECMA119_DIR
};
struct ecma119_dir_info {
struct susp_info self_susp; /**< susp entries for "." */
struct susp_info parent_susp; /**< susp entries for ".." */
size_t len; /**< sum of the lengths of children's
* Directory Records (including SU) */
size_t CE_len; /**< sum of the lengths of children's
* SUSP CE areas */
int depth;
size_t path_len; /**< The length of a path up to, and
* including, this directory. This
* cannot exceed 255. */
size_t nchildren;
struct ecma119_tree_node **children;
struct ecma119_tree_node *real_parent;
/**< The parent before relocation */
};
struct ecma119_file_info
{
struct ecma119_tree_node *real_me;
/**< If this is non-NULL, the file is
* a placeholder for a relocated
* directory and this field points to
* that relocated directory.
*/
};
/**
* A node for a tree containing all the information necessary for writing
* an ISO9660 volume.
*/
struct ecma119_tree_node
{
char *name; /**< in ASCII, conforming to the
* current ISO level. */
size_t dirent_len; /**< Length of the directory record,
* not including SU. */
size_t block;
struct ecma119_tree_node *parent;
struct iso_tree_node *iso_self;
struct ecma119_write_target *target;
struct susp_info susp;
int type; /**< file or directory */
/* union {*/
struct ecma119_dir_info dir;
struct ecma119_file_info file;
/* };*/
};
/**
* Create a new ecma119_tree that corresponds to the tree represented by
* \p iso_root.
*/
struct ecma119_tree_node*
ecma119_tree_create(struct ecma119_write_target *target,
struct iso_tree_node *iso_root);
/**
* Free an ecma119 tree.
*/
void
ecma119_tree_free(struct ecma119_tree_node *root);
/**
* Print an ecma119 tree.
*/
void
ecma119_tree_print(struct ecma119_tree_node *root, int spaces);
#endif /* LIBISO_ECMA119_TREE_H */

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#include "hash.h"
#include "exclude.h"
static struct iso_hash_node *table[HASH_NODES]={0,};
static int num=0;
void
iso_exclude_add_path(const char *path)
{
if (!path)
return;
num += iso_hash_insert(table, path);
}
void
iso_exclude_remove_path(const char *path)
{
if (!num || !path)
return;
num -= iso_hash_remove(table, path);
}
void
iso_exclude_empty(void)
{
if (!num)
return;
iso_hash_empty(table);
num=0;
}
int
iso_exclude_lookup(const char *path)
{
if (!num || !path)
return 0;
return iso_hash_lookup(table, path);
}

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#ifndef ISO_EXCLUDE_H
#define ISO_EXCLUDE_H
/**
* Add a path to ignore when adding a directory recursively.
*
* \param path The path, on the local filesystem, of the file.
*/
int
iso_exclude_lookup(const char *path);
#endif /* ISO_EXCLUDE */

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#include <stdlib.h>
#include <string.h>
#include "hash.h"
static unsigned int
iso_hash_path(const char *path)
{
unsigned int hash_num=0;
const char *c;
c=path;
while(*c)
hash_num = (hash_num << 15) + (hash_num << 3) + (hash_num >> 3) + *c++;
return hash_num % HASH_NODES;
}
int
iso_hash_lookup(struct iso_hash_node **table, const char *path)
{
struct iso_hash_node *node;
unsigned int hash_num;
hash_num = iso_hash_path(path);
node=table[hash_num];
if (!node)
return 0;
if (!strcmp(path, node->path))
return 1;
while (node->next) {
node=node->next;
if (!strcmp(path, node->path))
return 1;
}
return 0;
}
static struct iso_hash_node*
iso_hash_node_new (const char *path)
{
struct iso_hash_node *node;
/*create an element to be inserted in the hash table */
node=malloc(sizeof(struct iso_hash_node));
node->path=strdup(path);
node->next=NULL;
return node;
}
int
iso_hash_insert(struct iso_hash_node **table, const char *path)
{
struct iso_hash_node *node;
unsigned int hash_num;
/* find the hash number */
hash_num = iso_hash_path(path);
/* insert it */
node = table[hash_num];
/* unfortunately, we can't safely consider that a path
* won't be twice in the hash table so make sure it
* doesn't already exists */
if (!node) {
table[hash_num]=iso_hash_node_new(path);
return 1;
}
/* if it's already in, we don't do anything */
if (!strcmp(path, node->path))
return 0;
while (node->next) {
node = node->next;
/* if it's already in, we don't do anything */
if (!strcmp (path, node->path))
return 0;
}
node->next = iso_hash_node_new(path);
return 1;
}
static void
iso_hash_node_free(struct iso_hash_node *node)
{
free(node->path);
free(node);
}
int
iso_hash_remove(struct iso_hash_node **table, const char *path)
{
unsigned int hash_num;
struct iso_hash_node *node;
hash_num = iso_hash_path(path);
node=table[hash_num];
if (!node)
return 0;
if (!strcmp(path, node->path)) {
table[hash_num]=node->next;
iso_hash_node_free(node);
return 1;
}
while (node->next) {
struct iso_hash_node *prev;
prev = node;
node = node->next;
if (!strcmp (path, node->path)) {
prev->next=node->next;
iso_hash_node_free(node);
return 1;
}
}
return 0;
}
void
iso_hash_empty(struct iso_hash_node **table)
{
int i;
for (i=0; i < HASH_NODES; i++) {
struct iso_hash_node *node;
node=table[i];
if (!node)
continue;
table[i]=NULL;
do {
struct iso_hash_node *next;
next=node->next;
iso_hash_node_free(node);
node=next;
} while (node);
}
}

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#ifndef ISO_HASH_H
#define ISO_HASH_H
struct iso_hash_node {
struct iso_hash_node *next;
char *path;
};
#define HASH_NODES 128
/**
* Searches in the hash table if the path exists.
*
* \param table The hash table.
* \param path The path of the file to look for.
*
* \return 1 if the path exists in the hash table, 0 otherwise.
*/
int iso_hash_lookup(struct iso_hash_node **table, const char *path);
/**
* Insert a new path in the hash table.
*
* \param table The hash table.
* \param path The path of a file to add to the hash table.
*
* \return 1 if the file wasn't already in the hash table, 0 otherwise.
*/
int iso_hash_insert(struct iso_hash_node **table, const char *path);
/**
* Remove a path from the hash table.
*
* \param table The hash table.
* \param path The path of a file to remove from the hash table.
*
* \return 1 if the file was found and removed, 0 otherwise.
*/
int iso_hash_remove(struct iso_hash_node **table, const char *path);
/**
* Empty the hash table.
*/
void iso_hash_empty(struct iso_hash_node **table);
#endif /* ISO_HASH_H */

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/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set noet ts=8 sts=8 sw=8 : */
#include "joliet.h"
#include "ecma119.h"
#include "ecma119_tree.h"
#include "tree.h"
#include "util.h"
#include "volume.h"
#include <assert.h>
#include <string.h>
static struct joliet_tree_node*
create_node(struct ecma119_write_target *t,
struct joliet_tree_node *parent,
struct iso_tree_node *iso)
{
struct joliet_tree_node *ret =
calloc(1, sizeof(struct joliet_tree_node));
ret->name = iso_j_id(iso->name);
ret->dirent_len = 34 + (ret->name ? ucslen(ret->name) * 2 : 0);
ret->len = iso->attrib.st_size; /* for dirs, we'll change this */
ret->block = iso->block; /* only actually for files, not dirs */
ret->parent = parent;
ret->iso_self = iso;
ret->target = t;
ret->nchildren = iso->nchildren;
if (ret->nchildren)
ret->children = calloc(sizeof(void*), ret->nchildren);
return ret;
}
static struct joliet_tree_node*
create_tree(struct ecma119_write_target *t,
struct joliet_tree_node *parent,
struct iso_tree_node *iso_root)
{
struct joliet_tree_node *root = create_node(t, parent, iso_root);
size_t i;
for (i = 0; i < root->nchildren; i++) {
struct iso_tree_node *iso_ch = iso_root->children[i];
if (ISO_ISDIR(iso_ch))
root->children[i] = create_tree(t, root, iso_ch);
else
root->children[i] = create_node(t, root, iso_ch);
}
return root;
}
static int
cmp_node(const void *f1, const void *f2)
{
struct joliet_tree_node *f = *((struct joliet_tree_node**)f1);
struct joliet_tree_node *g = *((struct joliet_tree_node**)f2);
return ucscmp(f->name, g->name);
}
static void
sort_tree(struct joliet_tree_node *root)
{
size_t i;
assert(root && ISO_ISDIR(root->iso_self));
qsort(root->children, root->nchildren, sizeof(void*), cmp_node);
for (i = 0; i < root->nchildren; i++)
if (ISO_ISDIR(root->children[i]->iso_self))
sort_tree(root->children[i]);
}
void
joliet_prepare_path_tables(struct ecma119_write_target *t)
{
size_t cur, i, j;
t->pathlist_joliet[0] = t->joliet_root;
t->path_table_size_joliet = 10; /* root directory record */
cur = 1;
for (i = 0; i < t->dirlist_len; i++) {
struct joliet_tree_node *dir = t->pathlist_joliet[i];
for (j = 0; j < dir->nchildren; j++) {
struct joliet_tree_node *ch = dir->children[j];
if (ISO_ISDIR(ch->iso_self)) {
size_t len = 8 + ucslen(ch->name)*2;
t->pathlist_joliet[cur++] = ch;
t->path_table_size_joliet += len;
}
}
}
}
/**
* Calculate the size of each directory.
*/
void
joliet_calc_dir_size(struct ecma119_write_target *t,
struct joliet_tree_node *root)
{
size_t i;
size_t newlen;
struct joliet_tree_node *ch;
assert(root && ISO_ISDIR(root->iso_self));
root->len = 68; /* for "." and ".." entries */
for (i = 0; i < root->nchildren; i++) {
ch = root->children[i];
newlen = root->len + ch->dirent_len;
if ((newlen % 2048) < (root->len % 2048)) {
root->len = newlen + (2048 - (root->len % 2048));
}
else {
root->len += ch->dirent_len;
}
if (ISO_ISDIR(ch->iso_self))
joliet_calc_dir_size(t, ch);
}
t->total_dir_size_joliet += round_up (root->len, t->block_size);
}
/**
* Calculate the position of each directory. Also fill out t->dirlist_joliet.
*/
void
joliet_calc_dir_pos(struct ecma119_write_target *t,
struct joliet_tree_node *root)
{
size_t i;
struct joliet_tree_node *ch;
assert(root && ISO_ISDIR(root->iso_self));
root->block = t->curblock;
t->curblock += div_up(root->len, t->block_size);
t->dirlist_joliet[t->curfile++] = root;
for (i = 0; i < root->nchildren; i++) {
ch = root->children[i];
if (ISO_ISDIR(ch->iso_self))
joliet_calc_dir_pos(t, ch);
}
/* reset curfile when we're finished */
if (!root->parent)
t->curfile = 0;
}
void
joliet_update_file_pos(struct ecma119_write_target *t,
struct joliet_tree_node *dir)
{
size_t i;
assert(dir && ISO_ISDIR(dir->iso_self));
for (i = 0; i < dir->nchildren; i++) {
struct joliet_tree_node *ch;
ch = dir->children[i];
if (!ISO_ISDIR (ch->iso_self)) {
struct iso_tree_node *iso = ch->iso_self;
ch->block = iso->block;
}
else
joliet_update_file_pos(t, ch);
}
/* reset curfile when we're finished */
if (!dir->parent)
t->curfile = 0;
}
struct joliet_tree_node*
joliet_tree_create(struct ecma119_write_target *t,
struct iso_tree_node *iso_root)
{
struct joliet_tree_node *root = create_tree(t, NULL, iso_root);
sort_tree(root);
return root;
}
/* ugh. this is mostly C&P */
static void
write_path_table(struct ecma119_write_target *t,
int l_type,
uint8_t *buf)
{
void (*write_int)(uint8_t*, uint32_t, int) = l_type ?
iso_lsb : iso_msb;
size_t i;
struct ecma119_path_table_record *rec;
struct joliet_tree_node *dir;
int parent = 0;
assert (t->joliet);
for (i = 0; i < t->dirlist_len; i++) {
dir = t->pathlist_joliet[i];
while ((i) && t->pathlist_joliet[parent] != dir->parent)
parent++;
assert(parent < i || i == 0);
rec = (struct ecma119_path_table_record*) buf;
rec->len_di[0] = dir->parent ?
(uint8_t) ucslen(dir->name) * 2 : 1;
rec->len_xa[0] = 0;
write_int(rec->block, dir->block, 4);
write_int(rec->parent, parent + 1, 2);
if (dir->parent)
memcpy(rec->dir_id, dir->name, rec->len_di[0]);
buf += 8 + rec->len_di[0] + (rec->len_di[0] % 2);
}
}
/* if file_id is >= 0, we use it instead of the filename. As a magic number,
* file_id == 3 means that we are writing the root directory record (in order
* to distinguish it from the "." entry in the root directory) */
static void
write_one_dir_record(struct ecma119_write_target *t,
struct joliet_tree_node *node,
int file_id,
uint8_t *buf)
{
uint8_t len_dr = (file_id >= 0) ? 34 : node->dirent_len;
uint8_t len_fi = (file_id >= 0) ? 1 : ucslen(node->name) * 2;
uint8_t f_id = (uint8_t) ((file_id == 3) ? 0 : file_id);
uint8_t *name = (file_id >= 0) ? &f_id : (uint8_t*)node->name;
struct ecma119_dir_record *rec = (struct ecma119_dir_record*)buf;
if (file_id == 1 && node->parent)
node = node->parent;
rec->len_dr[0] = len_dr;
iso_bb(rec->block, node->block, 4);
iso_bb(rec->length, node->len, 4);
iso_datetime_7(rec->recording_time, t->now);
rec->flags[0] = ISO_ISDIR(node->iso_self) ? 2 : 0;
iso_bb(rec->vol_seq_number, t->volnum + 1, 2);
rec->len_fi[0] = len_fi;
memcpy(rec->file_id, name, len_fi);
}
static void
write_l_path_table(struct ecma119_write_target *t, uint8_t *buf)
{
write_path_table (t, 1, buf);
}
static void
write_m_path_table(struct ecma119_write_target *t, uint8_t *buf)
{
write_path_table (t, 0, buf);
}
static void
write_sup_vol_desc(struct ecma119_write_target *t, uint8_t *buf)
{
struct ecma119_sup_vol_desc *vol = (struct ecma119_sup_vol_desc*)buf;
struct iso_volume *volume = t->volset->volume[t->volnum];
uint16_t *vol_id = str2ucs(volume->volume_id);
uint16_t *pub_id = str2ucs(volume->publisher_id);
uint16_t *data_id = str2ucs(volume->data_preparer_id);
uint16_t *volset_id = str2ucs(t->volset->volset_id);
int vol_id_len = MIN(32, ucslen(vol_id) * 2);
int pub_id_len = MIN(128, ucslen(pub_id) * 2);
int data_id_len = MIN(128, ucslen(data_id) * 2);
int volset_id_len = MIN(128, ucslen(volset_id) * 2);
vol->vol_desc_type[0] = 2;
memcpy(vol->std_identifier, "CD001", 5);
vol->vol_desc_version[0] = 1;
memcpy(vol->system_id, "SYSID", 5);
if (vol_id)
memcpy(vol->volume_id, vol_id, vol_id_len);
memcpy(vol->esc_sequences, "%/E", 3);
iso_bb(vol->vol_space_size, t->vol_space_size, 4);
iso_bb(vol->vol_set_size, t->volset->volset_size, 2);
iso_bb(vol->vol_seq_number, t->volnum + 1, 2);
iso_bb(vol->block_size, t->block_size, 2);
iso_bb(vol->path_table_size, t->path_table_size_joliet, 4);
iso_lsb(vol->l_path_table_pos, t->l_path_table_pos_joliet, 4);
iso_msb(vol->m_path_table_pos, t->m_path_table_pos_joliet, 4);
write_one_dir_record(t, t->joliet_root, 3, vol->root_dir_record);
memcpy(vol->vol_set_id, volset_id, volset_id_len);
memcpy(vol->publisher_id, pub_id, pub_id_len);
memcpy(vol->data_prep_id, data_id, data_id_len);
/*memcpy(vol->application_id, "APPID", app_id_len);*/
iso_datetime_17(vol->vol_creation_time, t->now);
iso_datetime_17(vol->vol_modification_time, t->now);
iso_datetime_17(vol->vol_effective_time, t->now);
vol->file_structure_version[0] = 1;
free(vol_id);
free(volset_id);
free(pub_id);
free(data_id);
}
static void
write_one_dir(struct ecma119_write_target *t,
struct joliet_tree_node *dir,
uint8_t *buf)
{
size_t i;
int j;
size_t len;
uint8_t *orig_buf = buf;
uint8_t *prior_buf = buf;
assert(ISO_ISDIR (dir->iso_self));
/* write the "." and ".." entries first */
write_one_dir_record(t, dir, 0, buf);
buf += ((struct ecma119_dir_record*) buf)->len_dr[0];
write_one_dir_record(t, dir, 1, buf);
buf += ((struct ecma119_dir_record*) buf)->len_dr[0];
for (i = 0; i < dir->nchildren; i++) {
write_one_dir_record(t, dir->children[i], -1, buf);
len = ((struct ecma119_dir_record*) buf)->len_dr[0];
if ((buf + len - prior_buf) >= 2048) {
for (j = len - 1; j >= 0; j--) {
prior_buf[2048 + j] = buf[j];
buf[j] = 0;
}
prior_buf += 2048;
buf = prior_buf + len;
}
else {
buf += ((struct ecma119_dir_record*) buf)->len_dr[0];
}
}
assert (buf - orig_buf == dir->len);
}
static void
write_dirs(struct ecma119_write_target *t, uint8_t *buf)
{
size_t i;
struct joliet_tree_node *dir;
assert (t->curblock == t->dirlist_joliet[0]->block);
for (i = 0; i < t->dirlist_len; i++) {
dir = t->dirlist_joliet[i];
write_one_dir(t, dir, buf);
buf += round_up(dir->len, t->block_size);
}
}
void
joliet_wr_sup_vol_desc(struct ecma119_write_target *t,
uint8_t *buf)
{
ecma119_start_chunking(t,
write_sup_vol_desc,
2048,
buf);
}
void
joliet_wr_l_path_table(struct ecma119_write_target *t,
uint8_t *buf)
{
ecma119_start_chunking(t,
write_l_path_table,
t->path_table_size_joliet,
buf);
}
void
joliet_wr_m_path_table(struct ecma119_write_target *t,
uint8_t *buf)
{
ecma119_start_chunking(t,
write_m_path_table,
t->path_table_size_joliet,
buf);
}
void
joliet_wr_dir_records(struct ecma119_write_target *t,
uint8_t *buf)
{
ecma119_start_chunking(t,
write_dirs,
t->total_dir_size_joliet,
buf);
}

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/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set noet ts=8 sts=8 sw=8 : */
/**
* \file joliet.h
*
* Declare the filesystems trees that are Joliet-compatible and the public
* functions for tying them into an ecma119 volume.
*/
#ifndef LIBISO_JOLIET_H
#define LIBISO_JOLIET_H
#include <stdint.h>
#include <stdlib.h>
struct ecma119_write_target;
struct iso_tree_node;
struct joliet_tree_node
{
uint16_t *name; /**< In UCS-2BE. */
size_t dirent_len;
size_t len;
size_t block;
struct joliet_tree_node *parent;
struct iso_tree_node *iso_self;
struct ecma119_write_target *target;
struct joliet_tree_node **children;
size_t nchildren;
};
/**
* Create a new joliet_tree that corresponds to the tree represented by
* \p iso_root.
*/
struct joliet_tree_node*
joliet_tree_create(struct ecma119_write_target *target,
struct iso_tree_node *iso_root);
/**
* Calculate the size of each directory in the joliet heirarchy.
*/
void
joliet_calc_dir_size(struct ecma119_write_target *t, struct joliet_tree_node*);
/**
* Calculate the position of each directory in the joliet heirarchy.
*/
void
joliet_calc_dir_pos(struct ecma119_write_target *t, struct joliet_tree_node*);
/**
* Update the position of each file in the joliet hierarchy (to be called
* AFTER the file positions in the iso tree have been set).
*/
void
joliet_update_file_pos(struct ecma119_write_target *t, struct joliet_tree_node*);
/**
* Calculate the size of the joliet path table and fill in the list of
* directories.
*/
void
joliet_prepare_path_tables(struct ecma119_write_target *t);
void
joliet_tree_free(struct joliet_tree_node *root);
void
joliet_wr_sup_vol_desc(struct ecma119_write_target *t, uint8_t *buf);
void
joliet_wr_l_path_table(struct ecma119_write_target *t, uint8_t *buf);
void
joliet_wr_m_path_table(struct ecma119_write_target *t, uint8_t *buf);
void
joliet_wr_dir_records(struct ecma119_write_target *t, uint8_t *buf);
#endif /* LIBISO_JOLIET_H */

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/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set noet ts=8 sts=8 sw=8 : */
/**
* Create an ISO-9660 data volume with Rock Ridge and Joliet extensions.
* Usage is easy:
* - Create a new volume.
* - Add files and directories.
* - Write the volume to a file or create a burn source for use with Libburn.
*/
#ifndef LIBISO_LIBISOFS_H
#define LIBISO_LIBISOFS_H
/* #include <libburn.h> */
struct burn_source;
/**
* Data volume.
* @see volume.h for details.
*/
struct iso_volume;
/**
* A set of data volumes.
* @see volume.h for details.
*/
struct iso_volset;
/**
* A node in the filesystem tree.
* \see tree.h
*/
struct iso_tree_node;
enum ecma119_extension_flag {
ECMA119_ROCKRIDGE = (1<<0),
ECMA119_JOLIET = (1<<1)
};
/**
* Create a new volume.
* The parameters can be set to NULL if you wish to set them later.
*/
struct iso_volume *iso_volume_new(const char *volume_id,
const char *publisher_id,
const char *data_preparer_id);
struct iso_volume *iso_volume_new_with_root(const char *volume_id,
const char *publisher_id,
const char *data_preparer_id,
struct iso_tree_node *root);
/**
* Free a volume.
*/
void iso_volume_free(struct iso_volume *volume);
/**
* Free a set of data volumes.
*/
void iso_volset_free(struct iso_volset *volume);
/**
* Get the root directory for a volume.
*/
struct iso_tree_node *iso_volume_get_root(const struct iso_volume *volume);
/**
* Fill in the volume identifier for a volume.
*/
void iso_volume_set_volume_id(struct iso_volume *volume,
const char *volume_id);
/**
* Fill in the publisher for a volume.
*/
void iso_volume_set_publisher_id(struct iso_volume *volume,
const char *publisher_id);
/**
* Fill in the data preparer for a volume.
*/
void iso_volume_set_data_preparer_id(struct iso_volume *volume,
const char *data_preparer_id);
/**
* Locate a node by its path on disc.
*
* \param volume The volume to search in.
* \param path The path, in the image, of the file.
*
* \return The node found or NULL.
*
*/
struct iso_tree_node *iso_tree_volume_path_to_node(struct iso_volume *volume, const char *path);
/**
* Add a file or a directory (recursively) to a volume by specifying its path on the volume.
*
* \param volume The volume to add the file to.
* \param disc_path The path on the disc at which to add the disc.
* \param path The path, on the local filesystem, of the file.
*
* \return The node for the file or NULL if the parent doesn't exists on the disc.
*/
struct iso_tree_node *iso_tree_volume_add_path(struct iso_volume *volume,
const char *disc_path,
const char *path);
/**
* Creates a new, empty directory on the volume.
*
* \param volume The volume to add the directory to.
* \param disc_path The path on the volume at which to add the directory.
*
* \return A pointer to the newly created directory.
*/
struct iso_tree_node *iso_tree_volume_add_new_dir(struct iso_volume *volume,
const char *disc_path);
/**
* Create a new Volume Set consisting of only one volume.
* @param volume The first and only volume for the volset to contain.
* @param volset_id The Volume Set ID.
* @return A new iso_volset.
*/
struct iso_volset *iso_volset_new(struct iso_volume *volume,
const char *volset_id);
/**
* Add a file to a directory.
*
* \param path The path, on the local filesystem, of the file.
*
* \pre \p parent is NULL or is a directory.
* \pre \p path is non-NULL and is a valid path to a non-directory on the local
* filesystem.
* \return An iso_tree_node whose path is \p path and whose parent is \p parent.
*/
struct iso_tree_node *iso_tree_add_node(struct iso_tree_node *parent,
const char *path);
/**
* Recursively add an existing directory to the tree.
* Warning: when using this, you'll lose pointers to files or subdirectories.
* If you want to have pointers to all files and directories,
* use iso_tree_add_file and iso_tree_add_dir.
*
* \param path The path, on the local filesystem, of the directory to add.
*
* \pre \p parent is NULL or is a directory.
* \pre \p path is non-NULL and is a valid path to a directory on the local
* filesystem.
* \return a pointer to the newly created directory.
*/
struct iso_tree_node *iso_tree_radd_dir(struct iso_tree_node *parent,
const char *path);
/**
* Add the path of a file or directory to ignore when adding a directory recursively.
*
* \param path The path, on the local filesystem, of the file.
*/
void iso_exclude_add_path(const char *path);
/**
* Remove a path that was set to be ignored when adding a directory recusively.
*
* \param path The path, on the local filesystem, of the file.
*/
void iso_exclude_remove_path(const char *path);
/**
* Remove all paths that were set to be ignored when adding a directory recusively.
*/
void iso_exclude_empty(void);
/**
* Creates a new, empty directory on the volume.
*
* \pre \p parent is NULL or is a directory.
* \pre \p name is unique among the children and files belonging to \p parent.
* Also, it doesn't contain '/' characters.
*
* \post \p parent contains a child directory whose name is \p name and whose
* POSIX attributes are the same as \p parent's.
* \return a pointer to the newly created directory.
*/
struct iso_tree_node *iso_tree_add_new_dir(struct iso_tree_node *parent,
const char *name);
/**
* Set the name of a file (using the current locale).
*/
void iso_tree_node_set_name(struct iso_tree_node *file, const char *name);
/**
* Recursively print a directory to stdout.
* \param spaces The initial number of spaces on the left. Set to 0 if you
* supply a root directory.
*/
void iso_tree_print(const struct iso_tree_node *root, int spaces);
/** Create a burn_source which can be used as a data source for a track
*
* The volume set used to create the libburn_source can _not_ be modified
* until the libburn_source is freed.
*
* \param volumeset The volume set from which you want to write
* \param volnum The volume in the set which you want to write (usually 0)
* \param level ISO level to write at.
* \param flags Which extensions to support.
*
* \pre \p volumeset is non-NULL
* \pre \p volnum is less than \p volset->volset_size.
* \return A burn_source to be used for the data source for a track
*/
struct burn_source* iso_source_new_ecma119 (struct iso_volset *volumeset,
int volnum,
int level,
int flags);
#endif /* LIBISO_LIBISOFS_H */

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/* vim: set noet ts=8 sts=8 sw=8 : */
#include "rockridge.h"
#include "util.h"
#include "ecma119.h"
#include "ecma119_tree.h"
#include "tree.h"
#include "susp.h"
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <errno.h>
#include <unistd.h>
#include <sys/stat.h>
/* create a PX field from the permissions on the current node. */
uint8_t *rrip_make_PX(struct ecma119_write_target *t,
struct ecma119_tree_node *node)
{
uint8_t *PX = malloc(44);
PX[0] = 'P';
PX[1] = 'X';
PX[2] = 44;
PX[3] = 1;
iso_bb(&PX[4], node->iso_self->attrib.st_mode, 4);
iso_bb(&PX[12], node->iso_self->attrib.st_nlink, 4);
iso_bb(&PX[20], node->iso_self->attrib.st_uid, 4);
iso_bb(&PX[28], node->iso_self->attrib.st_gid, 4);
iso_bb(&PX[36], node->iso_self->attrib.st_ino, 4);
return PX;
}
/** See IEEE 1282 4.1.1 */
void rrip_add_PX(struct ecma119_write_target *t, struct ecma119_tree_node *node)
{
susp_append(t, &node->susp, rrip_make_PX(t, node));
if (node->type == ECMA119_DIR) {
susp_append(t, &node->dir.self_susp, rrip_make_PX(t, node));
susp_append(t, &node->dir.parent_susp, rrip_make_PX(t, node));
}
}
void rrip_add_PN(struct ecma119_write_target *t, struct ecma119_tree_node *node)
{
uint8_t *PN = malloc(20);
PN[0] = 'P';
PN[1] = 'N';
PN[2] = 20;
PN[3] = 1;
iso_bb(&PN[4], node->iso_self->attrib.st_dev >> 32, 4);
iso_bb(&PN[12], node->iso_self->attrib.st_dev & 0xffffffff, 4);
susp_append(t, &node->susp, PN);
}
static void rrip_SL_append_comp(int *n, uint8_t ***comps,
char *s, int size, char fl)
{
uint8_t *comp = malloc(size + 2);
(*n)++;
comp[0] = fl;
comp[1] = size;
*comps = realloc(*comps, (*n) * sizeof(void*));
(*comps)[(*n) - 1] = comp;
if (size) {
memcpy(&comp[2], s, size);
}
}
static void rrip_SL_add_component(char *prev, char *cur, int *n_comp,
uint8_t ***comps)
{
int size = cur - prev;
if (size == 0) {
rrip_SL_append_comp(n_comp, comps, prev, 0, 1 << 3);
return;
}
if (size == 1 && prev[0] == '.') {
rrip_SL_append_comp(n_comp, comps, prev, 0, 1 << 1);
return;
}
if (size == 2 && !strncmp(prev, "..", 2)) {
rrip_SL_append_comp(n_comp, comps, prev, 0, 1 << 2);
return;
}
/* we can't make a component any bigger than 250 (is this really a
problem)? because then it won't fit inside the SL field */
while (size > 248) {
size -= 248;
rrip_SL_append_comp(n_comp, comps, prev, 248, 1 << 0);
}
rrip_SL_append_comp(n_comp, comps, prev, size, 0);
}
void rrip_add_SL(struct ecma119_write_target *t, struct ecma119_tree_node *node)
{
int ret, pathsize = 0;
char *path = NULL, *cur, *prev;
int i, j;
uint8_t **comp = NULL;
int n_comp = 0;
int total_comp_len = 0;
int written = 0, pos;
uint8_t *SL;
do {
pathsize += 128;
path = realloc(path, pathsize);
/* FIXME: what if the file is not on the local fs? */
ret = readlink(node->iso_self->loc.path, path, pathsize);
} while (ret == pathsize);
if (ret == -1) {
fprintf(stderr, "Error: couldn't read symlink: %s\n",
strerror(errno));
return;
}
path[ret] = '\0';
prev = path;
for (cur = strchr(path, '/'); cur && *cur; cur = strchr(cur, '/')) {
rrip_SL_add_component(prev, cur, &n_comp, &comp);
cur++;
prev = cur;
}
/* if there was no trailing '/', we need to add the last component. */
if (prev == path || prev != &path[ret - 1]) {
rrip_SL_add_component(prev, &path[ret], &n_comp, &comp);
}
for (i = 0; i < n_comp; i++) {
total_comp_len += comp[i][1] + 2;
if (total_comp_len > 250) {
total_comp_len -= comp[i][1] + 2;
SL = malloc(total_comp_len + 5);
SL[0] = 'S';
SL[1] = 'L';
SL[2] = total_comp_len + 5;
SL[3] = 1;
SL[4] = 1; /* CONTINUE */
pos = 5;
for (j = written; j < i; j++) {
memcpy(&SL[pos], comp[j], comp[j][2]);
pos += comp[j][2];
}
susp_append(t, &node->susp, SL);
written = i - 1;
total_comp_len = comp[i][1];
}
}
SL = malloc(total_comp_len + 5);
SL[0] = 'S';
SL[1] = 'L';
SL[2] = total_comp_len + 5;
SL[3] = 1;
SL[4] = 0;
pos = 5;
for (j = written; j < n_comp; j++) {
memcpy(&SL[pos], comp[j], comp[j][1] + 2);
pos += comp[j][1] + 2;
}
susp_append(t, &node->susp, SL);
free(path);
/* free the components */
for (i = 0; i < n_comp; i++) {
free(comp[i]);
}
free(comp);
}
static void rrip_add_NM_single(struct ecma119_write_target *t,
struct susp_info *susp,
char *name, int size, int flags)
{
uint8_t *NM = malloc(size + 5);
NM[0] = 'N';
NM[1] = 'M';
NM[2] = size + 5;
NM[3] = 1;
NM[4] = flags;
if (size) {
memcpy(&NM[5], name, size);
}
susp_append(t, susp, NM);
}
void
rrip_add_NM(struct ecma119_write_target *t, struct ecma119_tree_node *node)
{
char *name = iso_p_fileid(node->iso_self->name);
int len = name ? strlen(name) : 0;
char *pos = name;
if (!len)
return;
if (node->type == ECMA119_DIR) {
rrip_add_NM_single(t, &node->dir.self_susp, pos, 0, 1 << 1);
rrip_add_NM_single(t, &node->dir.parent_susp, pos, 0, 1 << 2);
}
while (len > 250) {
rrip_add_NM_single(t, &node->susp, pos, 250, 1);
len -= 250;
pos += 250;
}
rrip_add_NM_single(t, &node->susp, pos, len, 0);
}
void rrip_add_CL(struct ecma119_write_target *t, struct ecma119_tree_node *node)
{
uint8_t *CL = calloc(1, 12);
CL[0] = 'C';
CL[1] = 'L';
CL[2] = 12;
CL[3] = 1;
susp_append(t, &node->susp, CL);
}
void
rrip_add_PL(struct ecma119_write_target *t, struct ecma119_tree_node *node)
{
uint8_t *PL = calloc(1, 12);
PL[0] = 'P';
PL[1] = 'L';
PL[2] = 12;
PL[3] = 1;
susp_append(t, &node->dir.parent_susp, PL);
}
void
rrip_add_RE(struct ecma119_write_target *t, struct ecma119_tree_node *node)
{
uint8_t *RE = malloc(4);
RE[0] = 'R';
RE[1] = 'E';
RE[2] = 4;
RE[3] = 1;
susp_append(t, &node->susp, RE);
}
void
rrip_add_TF(struct ecma119_write_target *t, struct ecma119_tree_node *node)
{
uint8_t *TF = malloc(5 + 3 * 7);
TF[0] = 'T';
TF[1] = 'F';
TF[2] = 5 + 3 * 7;
TF[3] = 1;
TF[4] = (1 << 1) | (1 << 2) | (1 << 3) | (1 << 7);
iso_datetime_7(&TF[5], node->iso_self->attrib.st_mtime);
iso_datetime_7(&TF[12], node->iso_self->attrib.st_atime);
iso_datetime_7(&TF[19], node->iso_self->attrib.st_ctime);
susp_append(t, &node->susp, TF);
}
void
rrip_finalize(struct ecma119_write_target *t, struct ecma119_tree_node *dir)
{
int i;
assert(dir->type == ECMA119_DIR);
if (dir->parent != dir->dir.real_parent) {
uint8_t *PL = susp_find(&dir->dir.parent_susp, "PL");
assert(PL);
iso_bb(&PL[4], dir->dir.real_parent->block, 4);
}
for (i = 0; i < dir->dir.nchildren; i++) {
struct ecma119_tree_node *ch = dir->dir.children[i];
if (ch->type == ECMA119_FILE && ch->file.real_me) {
uint8_t *CL = susp_find(&ch->susp, "CL");
assert(CL);
iso_bb(&CL[4], ch->file.real_me->block, 4);
} else if (ch->type == ECMA119_DIR) {
rrip_finalize(t, ch);
}
}
}

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/* vim: set noet ts=8 sts=8 sw=8 : */
/** Functions and structures used for Rock Ridge support. */
#ifndef ISO_ROCKRIDGE_H
#define ISO_ROCKRIDGE_H
struct ecma119_write_target;
struct ecma119_tree_node;
void rrip_add_PX(struct ecma119_write_target *, struct ecma119_tree_node *);
void rrip_add_PN(struct ecma119_write_target *, struct ecma119_tree_node *);
void rrip_add_SL(struct ecma119_write_target *, struct ecma119_tree_node *);
void rrip_add_NM(struct ecma119_write_target *, struct ecma119_tree_node *);
void rrip_add_CL(struct ecma119_write_target *, struct ecma119_tree_node *);
void rrip_add_RE(struct ecma119_write_target *, struct ecma119_tree_node *);
void rrip_add_TF(struct ecma119_write_target *, struct ecma119_tree_node *);
/* This is special because it doesn't modify the susp fields of the directory
* that gets passed to it; it modifies the susp fields of the ".." entry in
* that directory. */
void rrip_add_PL(struct ecma119_write_target *, struct ecma119_tree_node *);
void rrip_finalize(struct ecma119_write_target *, struct ecma119_tree_node *);
#endif /* ISO_ROCKRIDGE_H */

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/* vim: set noet ts=8 sts=8 sw=8 : */
#include "susp.h"
#include "util.h"
#include "ecma119.h"
#include "ecma119_tree.h"
#include <stdlib.h>
#include <assert.h>
#include <string.h>
void susp_insert(struct ecma119_write_target *t,
struct susp_info *susp,
uint8_t *data,
int pos)
{
int i;
if (pos < 0) {
pos = susp->n_susp_fields;
}
assert(pos <= susp->n_susp_fields);
susp->n_susp_fields++;
susp->susp_fields = realloc(susp->susp_fields,
sizeof(void*) * susp->n_susp_fields);
for (i = susp->n_susp_fields-1; i > pos; i--) {
susp->susp_fields[i] = susp->susp_fields[i - 1];
}
susp->susp_fields[pos] = data;
}
void susp_append(struct ecma119_write_target *t,
struct susp_info *susp,
uint8_t *data)
{
susp_insert(t, susp, data, susp->n_susp_fields);
}
uint8_t *susp_find(struct susp_info *susp, const char *name)
{
int i;
for (i = 0; i < susp->n_susp_fields; i++) {
if (!strncmp((char *)susp->susp_fields[i], name, 2)) {
return susp->susp_fields[i];
}
}
return NULL;
}
/** Utility function for susp_add_CE because susp_add_CE needs to act 3 times
* on directories (for the "." and ".." entries.
*
* \param len The amount of space available for the System Use area.
*/
#define CE_LEN 28
static unsigned char *susp_add_single_CE(struct ecma119_write_target *t,
struct susp_info *susp,
int len)
{
int susp_length = 0, tmp_len;
int i;
unsigned char *CE;
for (i = 0; i < susp->n_susp_fields; i++) {
susp_length += susp->susp_fields[i][2];
}
if (susp_length <= len) {
/* no need for a CE field */
susp->non_CE_len = susp_length;
susp->n_fields_fit = susp->n_susp_fields;
return NULL;
}
tmp_len = susp_length;
for (i = susp->n_susp_fields - 1; i >= 0; i--) {
tmp_len -= susp->susp_fields[i][2];
if (tmp_len + CE_LEN <= len) {
susp->non_CE_len = tmp_len + CE_LEN;
susp->CE_len = susp_length - tmp_len;
/* i+1 because we have to count the CE field */
susp->n_fields_fit = i + 1;
CE = calloc(1, CE_LEN);
/* we don't fill in the BLOCK LOCATION or OFFSET
fields yet. */
CE[0] = 'C';
CE[1] = 'E';
CE[2] = (char)CE_LEN;
CE[3] = (char)1;
iso_bb(&CE[20], susp_length - tmp_len, 4);
return CE;
}
}
assert(0);
return NULL;
}
static void
try_add_CE(struct ecma119_write_target *t,
struct susp_info *susp,
size_t dirent_len)
{
uint8_t *CE = susp_add_single_CE(t, susp, 255 - dirent_len);
if (CE)
susp_insert(t, susp, CE, susp->n_fields_fit - 1);
}
/** See IEEE P1281 Draft Version 1.12/5.2. Because this function depends on the
* length of the other SUSP fields, it should always be calculated last. */
void
susp_add_CE(struct ecma119_write_target *t, struct ecma119_tree_node *node)
{
try_add_CE(t, &node->susp, node->dirent_len);
if (node->type == ECMA119_DIR) {
try_add_CE(t, &node->dir.self_susp, 34);
try_add_CE(t, &node->dir.parent_susp, 34);
}
}
/** See IEEE P1281 Draft Version 1.12/5.3 */
void
susp_add_SP(struct ecma119_write_target *t, struct ecma119_tree_node *dir)
{
unsigned char *SP = malloc(7);
assert(dir->type == ECMA119_DIR);
SP[0] = 'S';
SP[1] = 'P';
SP[2] = (char)7;
SP[3] = (char)1;
SP[4] = 0xbe;
SP[5] = 0xef;
SP[6] = 0;
susp_append(t, &dir->dir.self_susp, SP);
}
#if 0
/** See IEEE P1281 Draft Version 1.12/5.4 */
static void susp_add_ST(struct ecma119_write_target *t,
struct iso_tree_node *node)
{
unsigned char *ST = malloc(4);
ST[0] = 'S';
ST[1] = 'T';
ST[2] = (char)4;
ST[3] = (char)1;
susp_append(t, node, ST);
}
#endif
/** See IEEE P1281 Draft Version 1.12/5.5 FIXME: this is rockridge */
void
rrip_add_ER(struct ecma119_write_target *t, struct ecma119_tree_node *dir)
{
unsigned char *ER = malloc(182);
assert(dir->type == ECMA119_DIR);
ER[0] = 'E';
ER[1] = 'R';
ER[2] = 182;
ER[3] = 1;
ER[4] = 9;
ER[5] = 72;
ER[6] = 93;
ER[7] = 1;
memcpy(&ER[8], "IEEE_1282", 9);
memcpy(&ER[17], "THE IEEE 1282 PROTOCOL PROVIDES SUPPORT FOR POSIX "
"FILE SYSTEM SEMANTICS.", 72);
memcpy(&ER[89], "PLEASE CONTACT THE IEEE STANDARDS DEPARTMENT, "
"PISCATAWAY, NJ, USA FOR THE 1282 SPECIFICATION.", 93);
susp_append(t, &dir->dir.self_susp, ER);
}
/* calculate the location of the CE areas. Since CE areas don't need to be
* aligned to a block boundary, we contatenate all CE areas from a single
* directory and dump them immediately after all the directory records.
*
* Requires that the following be known:
* - position of the current directory (dir->block)
* - length of the current directory (dir->dir.len)
* - sum of the children's CE lengths (dir->dir.CE_len)
*/
static void
susp_fin_1_CE(struct ecma119_write_target *t,
struct susp_info *susp,
size_t block,
size_t *offset)
{
uint8_t *CE = susp->susp_fields[susp->n_fields_fit - 1];
if (!susp->CE_len) {
return;
}
iso_bb(&CE[4], block + (*offset) / t->block_size, 4);
iso_bb(&CE[12], (*offset) % t->block_size, 4);
*offset += susp->CE_len;
}
static void susp_fin_CE(struct ecma119_write_target *t,
struct ecma119_tree_node *dir)
{
int i;
size_t CE_offset = dir->dir.len;
assert(dir->type == ECMA119_DIR);
susp_fin_1_CE(t, &dir->dir.self_susp, dir->block, &CE_offset);
susp_fin_1_CE(t, &dir->dir.parent_susp, dir->block, &CE_offset);
for (i = 0; i < dir->dir.nchildren; i++) {
struct ecma119_tree_node *ch = dir->dir.children[i];
susp_fin_1_CE(t, &ch->susp, dir->block, &CE_offset);
}
assert(CE_offset == dir->dir.len + dir->dir.CE_len);
}
void
susp_finalize(struct ecma119_write_target *t, struct ecma119_tree_node *dir)
{
int i;
assert(dir->type = ECMA119_DIR);
if (dir->dir.depth != 1) {
susp_fin_CE(t, dir);
}
for (i = 0; i < dir->dir.nchildren; i++) {
if (dir->dir.children[i]->type == ECMA119_DIR)
susp_finalize(t, dir->dir.children[i]);
}
}
void susp_write(struct ecma119_write_target *t,
struct susp_info *susp,
unsigned char *buf)
{
int i;
int pos = 0;
for (i = 0; i < susp->n_fields_fit; i++) {
memcpy(&buf[pos], susp->susp_fields[i],
susp->susp_fields[i][2]);
pos += susp->susp_fields[i][2];
}
}
void susp_write_CE(struct ecma119_write_target *t, struct susp_info *susp,
unsigned char *buf)
{
int i;
int pos = 0;
for (i = susp->n_fields_fit; i < susp->n_susp_fields; i++) {
memcpy(&buf[pos], susp->susp_fields[i],
susp->susp_fields[i][2]);
pos += susp->susp_fields[i][2];
}
}
void susp_free_fields(struct susp_info *susp)
{
int i;
for (i=0; i<susp->n_susp_fields; i++) {
free(susp->susp_fields[i]);
}
if (susp->susp_fields) {
free(susp->susp_fields);
}
memset(susp, 0, sizeof(struct susp_info));
}

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/* vim: set noet ts=8 sts=8 sw=8 : */
/** Functions and structures used for SUSP (IEEE 1281).
*/
#ifndef __ISO_SUSP
#define __ISO_SUSP
#include <stdint.h>
/* SUSP is only present in standard ecma119 */
struct ecma119_write_target;
struct ecma119_tree_node;
/** This contains the information that needs to go in the SUSP area of a file.
*/
struct susp_info
{
int n_susp_fields; /**< Number of SUSP fields */
uint8_t **susp_fields; /**< Data for each SUSP field */
/* the next 3 relate to CE and are filled out by susp_add_CE. */
int n_fields_fit; /**< How many of the above SUSP fields fit
* within this node's dirent. */
int non_CE_len; /**< Length of the part of the SUSP area that
* fits in the dirent. */
int CE_len; /**< Length of the part of the SUSP area that
* will go in a CE area. */
};
void susp_add_CE(struct ecma119_write_target *, struct ecma119_tree_node *);
/* these next 2 are special because they don't modify the susp fields of the
* directory; they modify the susp fields of the
* "." entry in the directory. */
void susp_add_SP(struct ecma119_write_target *, struct ecma119_tree_node *);
void rrip_add_ER(struct ecma119_write_target *, struct ecma119_tree_node *);
/** Once all the directories and files are laid out, recurse through the tree
* and finalize all SUSP CE entries. */
void susp_finalize(struct ecma119_write_target *, struct ecma119_tree_node *);
void susp_append(struct ecma119_write_target *,
struct susp_info *,
uint8_t *);
void susp_insert(struct ecma119_write_target *,
struct susp_info *,
uint8_t *,
int pos);
uint8_t *susp_find(struct susp_info *,
const char *);
void susp_write(struct ecma119_write_target *,
struct susp_info *,
uint8_t *);
void susp_write_CE(struct ecma119_write_target *,
struct susp_info *,
uint8_t *);
void susp_free_fields(struct susp_info *);
#endif /* __ISO_SUSP */

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/* vim: set noet ts=8 sts=8 sw=8 : */
/**
* \file tree.c
*
* Implement filesystem trees.
*/
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <dirent.h>
#include <libgen.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <errno.h>
#include <err.h>
#include <stdio.h>
#include "tree.h"
#include "util.h"
#include "volume.h"
#include "exclude.h"
static void
set_default_stat(struct stat *s)
{
time_t now = time(NULL);
memset(s, 0, sizeof(struct stat));
s->st_mode = 0777 | S_IFREG;
s->st_atime = s->st_mtime = s->st_ctime = now;
}
static struct stat
get_attrib(const struct iso_tree_node *node)
{
struct stat st;
if (node) {
return node->attrib;
}
set_default_stat(&st);
return st;
}
static void
append_node(struct iso_tree_node *parent,
struct iso_tree_node *child)
{
assert((!parent || S_ISDIR(parent->attrib.st_mode)) && child);
if (!parent)
return;
parent->nchildren++;
parent->children =
realloc(parent->children, parent->nchildren * sizeof(void*));
parent->children[parent->nchildren-1] = child;
}
struct iso_tree_node*
iso_tree_new_root(struct iso_volume *vol)
{
assert(vol);
if (vol->root) {
iso_tree_free(vol->root);
}
vol->root = calloc(1, sizeof(struct iso_tree_node));
vol->root->volume = vol;
set_default_stat(&vol->root->attrib);
vol->root->attrib.st_mode = S_IFDIR | 0777;
vol->root->loc.type = LIBISO_NONE;
return vol->root;
}
struct iso_tree_node*
iso_tree_add_new_file(struct iso_tree_node *parent, const char *name)
{
struct iso_tree_node *f = calloc(1, sizeof(struct iso_tree_node));
assert((!parent || S_ISDIR(parent->attrib.st_mode)) && name);
f->volume = parent ? parent->volume : NULL;
f->parent = parent;
f->name = parent ? strdup(name) : NULL;
f->attrib = get_attrib(parent);
f->attrib.st_mode = 0777 | S_IFREG;
f->loc.type = LIBISO_NONE;
append_node(parent, f);
return f;
}
struct iso_tree_node*
iso_tree_add_new_dir(struct iso_tree_node *parent, const char *name)
{
struct iso_tree_node *d = iso_tree_add_new_file(parent, name);
assert((!parent || S_ISDIR(parent->attrib.st_mode)) && name);
d->attrib.st_mode = (d->attrib.st_mode & ~S_IFMT) | S_IFDIR;
return d;
}
struct iso_tree_node*
iso_tree_add_node(struct iso_tree_node *parent, const char *path)
{
char *p;
struct stat st;
struct iso_tree_node *ret;
assert((!parent || S_ISDIR(parent->attrib.st_mode)) && path);
if (lstat(path, &st) == -1)
return NULL;
p = strdup(path); /* because basename() might modify its arg */
/* it doesn't matter if we add a file or directory since we modify
* attrib anyway. */
ret = iso_tree_add_new_file(parent, basename(p));
ret->attrib = st;
ret->loc.type = LIBISO_FILESYS;
ret->loc.path = strdup(path);
free(p);
return ret;
}
struct iso_tree_node*
iso_tree_radd_dir (struct iso_tree_node *parent, const char *path)
{
struct iso_tree_node *new;
DIR *dir;
struct dirent *ent;
assert((!parent || S_ISDIR(parent->attrib.st_mode)) && path);
new = iso_tree_add_node(parent, path);
if (!new || !S_ISDIR(new->attrib.st_mode)) {
return new;
}
dir = opendir(path);
if (!dir) {
warn("couldn't open directory %s: %s\n", path, strerror(errno));
return new;
}
while ((ent = readdir(dir))) {
char child[strlen(ent->d_name) + strlen(path) + 2];
if (strcmp(ent->d_name, ".") == 0 ||
strcmp(ent->d_name, "..") == 0)
continue;
sprintf(child, "%s/%s", path, ent->d_name);
/* see if this child is excluded. */
if (iso_exclude_lookup(child))
continue;
iso_tree_radd_dir(new, child);
}
closedir(dir);
return new;
}
void
iso_tree_free(struct iso_tree_node *root)
{
size_t i;
for (i=0; i < root->nchildren; i++) {
iso_tree_free(root->children[i]);
}
free(root->name);
free(root->children);
free(root);
}
void
iso_tree_print(const struct iso_tree_node *root, int spaces)
{
size_t i;
char sp[spaces+1];
memset(sp, ' ', spaces);
sp[spaces] = '\0';
printf("%s%sn", sp, root->name);
for (i=0; i < root->nchildren; i++) {
iso_tree_print(root->children[i], spaces+2);
}
}
void
iso_tree_print_verbose(const struct iso_tree_node *root,
print_dir_callback dir,
print_file_callback file,
void *callback_data,
int spaces)
{
size_t i;
(S_ISDIR(root->attrib.st_mode) ? dir : file)
(root, callback_data, spaces);
for (i=0; i < root->nchildren; i++) {
iso_tree_print_verbose(root->children[i], dir,
file, callback_data, spaces+2);
}
}
void
iso_tree_node_set_name(struct iso_tree_node *file, const char *name)
{
free(file->name);
file->name = strdup(name);
}

159
libisofs/tree.h Executable file
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/* vim: set noet ts=8 sts=8 sw=8 : */
/**
* \file tree.h
*
* Declare the structure of a libisofs filesystem tree. The files in this
* tree can come from either the local filesystem or from another .iso image
* (for multisession).
*
* This tree preserves as much information as it can about the files; names
* are stored in wchar_t and we preserve POSIX attributes. This tree does
* *not* include information that is necessary for writing out, for example,
* an ISO level 1 tree. That information will go in a different tree because
* the structure is sufficiently different.
*/
#ifndef LIBISO_TREE_H
#define LIBISO_TREE_H
#include <sys/types.h>
#include <sys/stat.h>
#include <stdint.h>
#include <wchar.h>
#include "libisofs.h"
enum file_location {
LIBISO_FILESYS,
LIBISO_PREVSESSION,
LIBISO_NONE /**< for files/dirs that were added with
* iso_tree_add_new_XXX. */
};
/**
* This tells us where to read the data from a file. Either we read from the
* local filesystem or we just point to the block on a previous session.
*/
struct iso_file_location
{
enum file_location type;
/* union {*/
char *path; /* in the current locale */
uint32_t block;
/* };*/
};
/**
* A node in the filesystem tree.
*/
struct iso_tree_node
{
struct iso_volume *volume;
struct iso_tree_node *parent;
char *name;
struct stat attrib; /**< The POSIX attributes of this node as
* documented in "man 2 stat". */
struct iso_file_location loc;
/**< Only used for regular files and symbolic
* links (ie. files for which we might have to
* copy data). */
size_t nchildren; /**< The number of children of this
* directory (if this is a directory). */
struct iso_tree_node **children;
size_t block; /**< The block at which this file will
* reside on disk. We store this here as
* well as in the various mangled trees
* because many different trees might point
* to the same file and they need to share the
* block location. */
};
/**
* Create a new root directory for a volume.
*
* \param vol The volume for which to create a new root directory.
*
* \pre \p vol is non-NULL.
* \post \p vol has a non-NULL, empty root directory with permissions 777.
* \return \p vol's new non-NULL, empty root directory.
*/
struct iso_tree_node *iso_tree_new_root(struct iso_volume *vol);
/**
* Create a new, empty, file.
*
* \param parent The parent directory of the new file. If this is null, create
* and return a new file node without adding it to any tree.
* \param name The name of the new file, encoded in the current locale.
* \pre \p name is non-NULL and it does not match any other file or directory
* name in \p parent.
* \post \p parent (if non-NULL) contains a file with the following properties:
* - the file's name is \p name (converted to wchar_t)
* - the file's POSIX permissions are the same as \p parent's
* - the file is a regular file
* - the file is empty
*
* \return \p parent's newly created file.
*/
struct iso_tree_node *iso_tree_add_new_file(struct iso_tree_node *parent,
const char *name);
/**
* Recursively free a directory.
*
* \param root The root of the directory heirarchy to free.
*
* \pre \p root is non-NULL.
*/
void iso_tree_free(struct iso_tree_node *root);
/**
* A function that prints verbose information about a directory.
*
* \param dir The directory about which to print information.
* \param data Unspecified function-dependent data.
* \param spaces The number of spaces to prepend to the output.
*
* \see iso_tree_print_verbose
*/
typedef void (*print_dir_callback) (const struct iso_tree_node *dir,
void *data,
int spaces);
/**
* A function that prints verbose information about a file.
*
* \param dir The file about which to print information.
* \param data Unspecified function-dependent data.
* \param spaces The number of spaces to prepend to the output.
*
* \see iso_tree_print_verbose
*/
typedef void (*print_file_callback) (const struct iso_tree_node *file,
void *data,
int spaces);
/**
* Recursively print a directory heirarchy. For each node in the directory
* heirarchy, call a callback function to print information more verbosely.
*
* \param root The root of the directory heirarchy to print.
* \param dir The callback function to call for each directory in the tree.
* \param file The callback function to call for each file in the tree.
* \param callback_data The data to pass to the callback functions.
* \param spaces The number of spaces to prepend to the output.
*
* \pre \p root is not NULL.
* \pre Neither of the callback functions modifies the directory heirarchy.
*/
void iso_tree_print_verbose(const struct iso_tree_node *root,
print_dir_callback dir,
print_file_callback file,
void *callback_data,
int spaces);
#define ISO_ISDIR(n) S_ISDIR(n->attrib.st_mode)
#endif /* LIBISO_TREE_H */

584
libisofs/util.c Executable file
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/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set noet ts=8 sts=8 sw=8 : */
/**
* Utility functions for the Libisofs library.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <wchar.h>
#include <iconv.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <assert.h>
#include <errno.h>
#include <locale.h>
#include "util.h"
/* avoids warning and names in iso, joliet and rockridge can't be > 255 bytes
* anyway. There are at most 31 characters in iso level 1, 255 for rockridge,
* 64 characters (* 2 since UCS) for joliet. */
#define NAME_BUFFER_SIZE 255
int div_up(int n, int div)
{
return (n + div - 1) / div;
}
int round_up(int n, int mul)
{
return div_up(n, mul) * mul;
}
/* this function must always return a name
* since the caller never checks if a NULL
* is returned. It also avoids some warnings. */
char *str2ascii(const char *src_arg)
{
wchar_t wsrc_[NAME_BUFFER_SIZE];
char *src = (char*)wsrc_;
char *ret_;
char *ret;
mbstate_t state;
iconv_t conv;
size_t numchars;
size_t outbytes;
size_t inbytes;
size_t n;
if (!src_arg)
return NULL;
/* convert the string to a wide character string. Note: outbytes
* is in fact the number of characters in the string and doesn't
* include the last NULL character. */
memset(&state, 0, sizeof(state));
numchars = mbsrtowcs(wsrc_, &src_arg, NAME_BUFFER_SIZE-1, &state);
if (numchars < 0)
return NULL;
inbytes = numchars * sizeof(wchar_t);
ret_ = malloc(numchars+1);
outbytes = numchars;
ret = ret_;
/* initialize iconv */
conv = iconv_open("ASCII", "WCHAR_T");
if (conv == (iconv_t)-1)
return NULL;
n = iconv(conv, &src, &inbytes, &ret, &outbytes);
while(n == -1) {
/* The destination buffer is too small. Stops here. */
if(errno == E2BIG)
break;
/* An incomplete multi bytes sequence was found. We
* can't do anything here. That's quite unlikely. */
if(errno == EINVAL)
break;
/* The last possible error is an invalid multi bytes
* sequence. Just replace the character with a "_".
* Probably the character doesn't exist in ascii like
* "é, è, à, ç, ..." in French. */
*ret++ = '_';
outbytes--;
if(!outbytes)
break;
/* There was an error with one character but some other remain
* to be converted. That's probably a multibyte character.
* See above comment. */
src += sizeof(wchar_t);
inbytes -= sizeof(wchar_t);
if(!inbytes)
break;
n = iconv(conv, &src, &inbytes, &ret, &outbytes);
}
iconv_close(conv);
*ret='\0';
return ret_;
}
/* FIXME: C&P */
uint16_t *str2ucs(const char *src_arg)
{
wchar_t wsrc_[NAME_BUFFER_SIZE];
char *src = (char*)wsrc_;
char *ret_;
char *ret;
mbstate_t state;
iconv_t conv;
size_t outbytes;
size_t numchars;
size_t inbytes;
size_t n;
if (!src_arg)
return calloc(2, 1); /* empty UCS string */
/* convert the string to a wide character string. Note: outbytes
* is in fact the number of characters in the string and doesn't
* include the last NULL character. */
memset(&state, 0, sizeof(state));
numchars = mbsrtowcs(wsrc_, &src_arg, NAME_BUFFER_SIZE-1, &state);
if (numchars < 0)
return calloc(2, 1); /* empty UCS string */
inbytes = numchars * sizeof(wchar_t);
outbytes = numchars * sizeof(uint16_t);
ret_ = malloc ((numchars+1) * sizeof(uint16_t));
ret = ret_;
/* initialize iconv */
conv = iconv_open("UCS-2BE", "WCHAR_T");
if (conv == (iconv_t)-1)
return calloc(2, 1); /* empty UCS string */
n = iconv(conv, &src, &inbytes, &ret, &outbytes);
while(n == -1) {
/* The destination buffer is too small. Stops here. */
if(errno == E2BIG)
break;
/* An incomplete multi bytes sequence was found. We
* can't do anything here. That's quite unlikely. */
if(errno == EINVAL)
break;
/* The last possible error is an invalid multi bytes
* sequence. Just replace the character with a "_".
* Probably the character doesn't exist in ascii like
* "é, è, à, ç, ..." in French. */
*((uint16_t*) ret) = '_';
ret += sizeof(uint16_t);
outbytes -= sizeof(uint16_t);
if(!outbytes)
break;
/* There was an error with one character but some other remain
* to be converted. That's probably a multibyte character.
* See above comment. */
src += sizeof(wchar_t);
inbytes -= sizeof(wchar_t);
if(!inbytes)
break;
n = iconv(conv, &src, &inbytes, &ret, &outbytes);
}
iconv_close(conv);
/* close the ucs string */
*((uint16_t*) ret) = 0;
return (uint16_t*)ret_;
}
static int valid_d_char(char c)
{
return (c >= '0' && c <= '9') || (c >= 'A' && c <= 'Z') || (c == '_');
}
static int valid_a_char(char c)
{
return (c >= ' ' && c <= '"') || (c >= '%' && c <= '?')
|| (c >= 'A' && c <= 'Z')
|| (c == '_');
}
static int valid_j_char(uint16_t c)
{
return !(c < (uint16_t)' ' || c == (uint16_t)'*' || c == (uint16_t)'/'
|| c == (uint16_t)':' || c == (uint16_t)';'
|| c == (uint16_t)'?' || c == (uint16_t)'\\');
}
/* FIXME: where are these documented? */
static int valid_p_char(char c)
{
return (c >= '0' && c <= '9') || (c >= 'A' && c <= 'Z')
|| (c >= 'a' && c <= 'z')
|| (c == '.') || (c == '_') || (c == '-');
}
static char *iso_dirid(const char *src, int size)
{
char *ret = str2ascii(src);
size_t len, i;
if (!ret)
return NULL;
len = strlen(ret);
if (len > size) {
ret[size] = '\0';
len = size;
}
for (i = 0; i < len; i++) {
char c = toupper(ret[i]);
ret[i] = valid_d_char(c) ? c : '_';
}
return ret;
}
char *iso_1_dirid(const char *src)
{
return iso_dirid(src, 8);
}
char *iso_2_dirid(const char *src)
{
return iso_dirid(src, 31);
}
char *iso_1_fileid(const char *src_arg)
{
char *src = str2ascii(src_arg);
char *dest;
char *dot; /* Position of the last dot in the
filename, will be used to calculate
lname and lext. */
int lname, lext, pos, i;
if (!src)
return NULL;
dest = malloc(15); /* 15 = 8 (name) + 1 (.) + 3 (ext) + 2
(;1) + 1 (\0) */
dot = strrchr(src, '.');
lext = dot ? strlen(dot + 1) : 0;
lname = strlen(src) - lext - (dot ? 1 : 0);
/* If we can't build a filename, return NULL. */
if (lname == 0 && lext == 0) {
free(src);
free(dest);
return NULL;
}
pos = 0;
/* Convert up to 8 characters of the filename. */
for (i = 0; i < lname && i < 8; i++) {
char c = toupper(src[i]);
dest[pos++] = valid_d_char(c) ? c : '_';
}
/* This dot is mandatory, even if there is no extension. */
dest[pos++] = '.';
/* Convert up to 3 characters of the extension, if any. */
for (i = 0; i < lext && i < 3; i++) {
char c = toupper(src[lname + 1 + i]);
dest[pos++] = valid_d_char(c) ? c : '_';
}
/* File versions are mandatory, even if they aren't used. */
dest[pos++] = ';';
dest[pos++] = '1';
dest[pos] = '\0';
dest = (char *)realloc(dest, pos + 1);
free(src);
return dest;
}
char *iso_2_fileid(const char *src_arg)
{
char *src = str2ascii(src_arg);
char *dest;
char *dot;
int lname, lext, lnname, lnext, pos, i;
if (!src)
return NULL;
dest = malloc(34); /* 34 = 30 (name + ext) + 1 (.) + 2
(;1) + 1 (\0) */
dot = strrchr(src, '.');
/* Since the maximum length can be divided freely over the name and
extension, we need to calculate their new lengths (lnname and
lnext). If the original filename is too long, we start by trimming
the extension, but keep a minimum extension length of 3. */
if (dot == NULL || dot == src || *(dot + 1) == '\0') {
lname = strlen(src);
lnname = (lname > 30) ? 30 : lname;
lext = lnext = 0;
} else {
lext = strlen(dot + 1);
lname = strlen(src) - lext - 1;
lnext = (strlen(src) > 31 && lext > 3)
? (lname < 27 ? 30 - lname : 3) : lext;
lnname = (strlen(src) > 31) ? 30 - lnext : lname;
}
if (lnname == 0 && lnext == 0) {
free(src);
free(dest);
return NULL;
}
pos = 0;
/* Convert up to lnname characters of the filename. */
for (i = 0; i < lnname; i++) {
char c = toupper(src[i]);
dest[pos++] = valid_d_char(c) ? c : '_';
}
dest[pos++] = '.';
/* Convert up to lnext characters of the extension, if any. */
for (i = 0; i < lnext; i++) {
char c = toupper(src[lname + 1 + i]);
dest[pos++] = valid_d_char(c) ? c : '_';
}
dest[pos++] = ';';
dest[pos++] = '1';
dest[pos] = '\0';
dest = (char *)realloc(dest, pos + 1);
free(src);
return dest;
}
char *
iso_p_fileid(const char *src)
{
char *ret = str2ascii(src);
size_t i, len;
if (!ret)
return NULL;
len = strlen(ret);
for (i = 0; i < len; i++) {
if (!valid_p_char(ret[i])) {
ret[i] = (uint16_t)'_';
}
}
return ret;
}
uint16_t *
iso_j_id(const char *src_arg)
{
uint16_t *j_str = str2ucs(src_arg);
size_t len = ucslen(j_str);
size_t n;
if (len > 128) {
j_str[128] = '\0';
len = 128;
}
for (n = 0; n < len; n++)
if (!valid_j_char(j_str[n]))
j_str[n] = '_';
return j_str;
}
void iso_lsb(uint8_t *buf, uint32_t num, int bytes)
{
int i;
assert(bytes <= 4);
for (i = 0; i < bytes; ++i)
buf[i] = (num >> (8 * i)) & 0xff;
}
void iso_msb(uint8_t *buf, uint32_t num, int bytes)
{
int i;
assert(bytes <= 4);
for (i = 0; i < bytes; ++i)
buf[bytes - 1 - i] = (num >> (8 * i)) & 0xff;
}
void iso_bb(uint8_t *buf, uint32_t num, int bytes)
{
iso_lsb(buf, num, bytes);
iso_msb(buf+bytes, num, bytes);
}
void iso_datetime_7(unsigned char *buf, time_t t)
{
static int tzsetup = 0;
int tzoffset;
struct tm tm;
if (!tzsetup) {
tzset();
tzsetup = 1;
}
localtime_r(&t, &tm);
buf[0] = tm.tm_year;
buf[1] = tm.tm_mon + 1;
buf[2] = tm.tm_mday;
buf[3] = tm.tm_hour;
buf[4] = tm.tm_min;
buf[5] = tm.tm_sec;
#ifdef HAVE_TM_GMTOFF
tzoffset = -tm.tm_gmtoff / 60 / 15;
#else
tzoffset = -timezone / 60 / 15;
#endif
if (tzoffset < -48)
tzoffset += 101;
buf[6] = tzoffset;
}
time_t iso_datetime_read_7(const uint8_t *buf)
{
struct tm tm;
tm.tm_year = buf[0];
tm.tm_mon = buf[1] + 1;
tm.tm_mday = buf[2];
tm.tm_hour = buf[3];
tm.tm_min = buf[4];
tm.tm_sec = buf[5];
return mktime(&tm) - buf[6] * 60 * 60;
}
void iso_datetime_17(unsigned char *buf, time_t t)
{
static int tzsetup = 0;
static int tzoffset;
struct tm tm;
if (t == (time_t) - 1) {
/* unspecified time */
memset(buf, '0', 16);
buf[16] = 0;
} else {
if (!tzsetup) {
tzset();
tzsetup = 1;
}
localtime_r(&t, &tm);
sprintf((char*)&buf[0], "%04d", tm.tm_year + 1900);
sprintf((char*)&buf[4], "%02d", tm.tm_mon + 1);
sprintf((char*)&buf[6], "%02d", tm.tm_mday);
sprintf((char*)&buf[8], "%02d", tm.tm_hour);
sprintf((char*)&buf[10], "%02d", tm.tm_min);
sprintf((char*)&buf[12], "%02d", MIN(59, tm.tm_sec));
memcpy(&buf[14], "00", 2);
#ifdef HAVE_TM_GMTOFF
tzoffset = -tm.tm_gmtoff / 60 / 15;
#else
tzoffset = -timezone / 60 / 15;
#endif
if (tzoffset < -48)
tzoffset += 101;
buf[16] = tzoffset;
}
}
time_t iso_datetime_read_17(const uint8_t *buf)
{
struct tm tm;
sscanf((char*)&buf[0], "%4d", &tm.tm_year);
sscanf((char*)&buf[4], "%2d", &tm.tm_mon);
sscanf((char*)&buf[6], "%2d", &tm.tm_mday);
sscanf((char*)&buf[8], "%2d", &tm.tm_hour);
sscanf((char*)&buf[10], "%2d", &tm.tm_min);
sscanf((char*)&buf[12], "%2d", &tm.tm_sec);
tm.tm_year -= 1900;
tm.tm_mon -= 1;
return mktime(&tm) - buf[16] * 60 * 60;
}
size_t ucslen(const uint16_t *str)
{
int i;
for (i=0; str[i]; i++)
;
return i;
}
/**
* Although each character is 2 bytes, we actually compare byte-by-byte
* (thats what the spec says).
*/
int ucscmp(const uint16_t *s1, const uint16_t *s2)
{
const char *s = (const char*)s1;
const char *t = (const char*)s2;
size_t len1 = ucslen(s1);
size_t len2 = ucslen(s2);
size_t i, len = MIN(len1, len2) * 2;
for (i=0; i < len; i++) {
if (s[i] < t[i]) {
return -1;
} else if (s[i] > t[i]) {
return 1;
}
}
if (len1 < len2)
return -1;
else if (len1 > len2)
return 1;
return 0;
}
uint32_t iso_read_lsb(const uint8_t *buf, int bytes)
{
int i;
uint32_t ret = 0;
for (i=0; i<bytes; i++) {
ret += ((uint32_t) buf[i]) << (i*8);
}
return ret;
}
uint32_t iso_read_msb(const uint8_t *buf, int bytes)
{
int i;
uint32_t ret = 0;
for (i=0; i<bytes; i++) {
ret += ((uint32_t) buf[bytes-i-1]) << (i*8);
}
return ret;
}
uint32_t iso_read_bb(const uint8_t *buf, int bytes)
{
uint32_t v1 = iso_read_lsb(buf, bytes);
uint32_t v2 = iso_read_msb(buf+bytes, bytes);
assert(v1 == v2);
return v1;
}

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/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set noet ts=8 sts=8 sw=8 : */
/**
* Utility functions for the Libisofs library.
*/
#ifndef LIBISO_UTIL_H
#define LIBISO_UTIL_H
#include <stdint.h>
#include <time.h>
#include <wchar.h>
#ifndef MAX
# define MAX(a, b) (((a) > (b)) ? (a) : (b))
#endif
#ifndef MIN
# define MIN(a, b) (((a) < (b)) ? (a) : (b))
#endif
extern inline int div_up(int n, int div)
{
return (n + div - 1) / div;
}
extern inline int round_up(int n, int mul)
{
return div_up(n, mul) * mul;
}
wchar_t *towcs(const char *);
char *str2ascii(const char*);
uint16_t *str2ucs(const char*);
/**
* Create a level 1 directory identifier.
*/
char *iso_1_dirid(const char *src);
/**
* Create a level 2 directory identifier.
*/
char *iso_2_dirid(const char *src);
/**
* Create a level 1 file identifier that consists of a name, extension and
* version number. The resulting string will have a file name of maximum
* length 8, followed by a separator (.), an optional extension of maximum
* length 3, followed by a separator (;) and a version number (digit 1).
* @return NULL if the original name and extension both are of length 0.
*/
char *iso_1_fileid(const char *src);
/**
* Create a level 2 file identifier that consists of a name, extension and
* version number. The combined file name and extension length will not exceed
* 30, the name and extension will be separated (.), and the extension will be
* followed by a separator (;) and a version number (digit 1).
* @return NULL if the original name and extension both are of length 0.
*/
char *iso_2_fileid(const char *src);
/**
* Create a Joliet file or directory identifier that consists of a name,
* extension and version number. The combined name and extension length will
* not exceed 128 bytes, the name and extension will be separated (.),
* and the extension will be followed by a separator (;) and a version number
* (digit 1). All characters consist of 2 bytes and the resulting string is
* NULL-terminated by a 2-byte NULL. Requires the locale to be set correctly.
*
* @param size will be set to the size (in bytes) of the identifier.
* @return NULL if the original name and extension both are of length 0 or the conversion from the current codeset to UCS-2BE is not available.
*/
uint16_t *iso_j_id(const char *src);
/**
* FIXME: what are the requirements for these next two? Is this for RR?
*
* Create a POSIX portable file name that consists of a name and extension.
* The resulting file name will not exceed 250 characters.
* @return NULL if the original name and extension both are of length 0.
*/
char *iso_p_fileid(const char *src);
/**
* Create a POSIX portable directory name.
* The resulting directory name will not exceed 250 characters.
* @return NULL if the original name is of length 0.
*/
char *iso_p_dirid(const char *src);
void iso_lsb(uint8_t *buf, uint32_t num, int bytes);
void iso_msb(uint8_t *buf, uint32_t num, int bytes);
void iso_bb(uint8_t *buf, uint32_t num, int bytes);
uint32_t iso_read_lsb(const uint8_t *buf, int bytes);
uint32_t iso_read_msb(const uint8_t *buf, int bytes);
uint32_t iso_read_bb(const uint8_t *buf, int bytes);
/** Records the date/time into a 7 byte buffer (9.1.5) */
void iso_datetime_7(uint8_t *buf, time_t t);
/** Records the date/time into a 17 byte buffer (8.4.26.1) */
void iso_datetime_17(uint8_t *buf, time_t t);
time_t iso_datetime_read_7(const uint8_t *buf);
time_t iso_datetime_read_17(const uint8_t *buf);
/**
* Like strlen, but for Joliet strings.
*/
size_t ucslen(const uint16_t *str);
/**
* Like strcmp, but for Joliet strings.
*/
int ucscmp(const uint16_t *s1, const uint16_t *s2);
#endif /* LIBISO_UTIL_H */

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/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set ts=8 sts=8 sw=8 noet : */
#include <stdlib.h>
#include <string.h>
#include <libgen.h>
#include "libisofs.h"
#include "tree.h"
#include "util.h"
#include "volume.h"
struct iso_volset*
iso_volset_new(struct iso_volume *vol, const char *id)
{
struct iso_volset *volset = calloc(1, sizeof(struct iso_volset));
volset->volset_size = 1;
volset->refcount = 1;
volset->volume = malloc(sizeof(void *));
volset->volume[0] = vol;
volset->volset_id = strdup(id);
return volset;
}
void
iso_volset_free(struct iso_volset *volset)
{
if (--volset->refcount < 1) {
int i;
for (i = 0; i < volset->volset_size; i++) {
iso_volume_free(volset->volume[i]);
}
free(volset->volume);
free(volset->volset_id);
free(volset);
}
}
struct iso_volume*
iso_volume_new(const char *volume_id,
const char *publisher_id,
const char *data_preparer_id)
{
return iso_volume_new_with_root(volume_id,
publisher_id,
data_preparer_id,
NULL);
}
struct iso_volume*
iso_volume_new_with_root(const char *volume_id,
const char *publisher_id,
const char *data_preparer_id,
struct iso_tree_node *root)
{
struct iso_volume *volume;
volume = calloc(1, sizeof(struct iso_volume));
volume->refcount = 1;
volume->root = root ? root : iso_tree_new_root(volume);
if (volume_id != NULL)
volume->volume_id = strdup(volume_id);
if (publisher_id != NULL)
volume->publisher_id = strdup(publisher_id);
if (data_preparer_id != NULL)
volume->data_preparer_id = strdup(data_preparer_id);
return volume;
}
void
iso_volume_free(struct iso_volume *volume)
{
/* Only free if no references are in use. */
if (--volume->refcount < 1) {
iso_tree_free(volume->root);
free(volume->volume_id);
free(volume->publisher_id);
free(volume->data_preparer_id);
free(volume);
}
}
struct iso_tree_node *
iso_volume_get_root(const struct iso_volume *volume)
{
return volume->root;
}
struct iso_tree_node *
iso_tree_volume_path_to_node(struct iso_volume *volume, const char *path)
{
struct iso_tree_node *node;
char *ptr, *brk_info, *component;
/* get the first child at the root of the volume
* that is "/" */
node=iso_volume_get_root(volume);
if (!strcmp (path, "/"))
return node;
if (!node->nchildren)
return NULL;
/* the name of the nodes is in wide characters so first convert path
* into wide characters. */
ptr = strdup(path);
/* get the first component of the path */
component=strtok_r(ptr, "/", &brk_info);
while (component) {
size_t max;
size_t i;
/* search among all the children of this directory if this path component exists */
max=node->nchildren;
for (i=0; i < max; i++) {
if (!strcmp(component, node->children[i]->name)) {
node=node->children[i];
break;
}
}
/* see if a node could be found */
if (i==max) {
node=NULL;
break;
}
component=strtok_r(NULL, "/", &brk_info);
}
free(ptr);
return node;
}
struct iso_tree_node *
iso_tree_volume_add_path(struct iso_volume *volume,
const char *disc_path,
const char *path)
{
char *tmp;
struct iso_tree_node *node;
struct iso_tree_node *parent_node;
tmp=strdup(disc_path);
parent_node = iso_tree_volume_path_to_node(volume, dirname(tmp));
free(tmp);
if (!parent_node)
return NULL;
node = iso_tree_radd_dir(parent_node, path);
if (!node)
return NULL;
tmp=strdup(disc_path);
iso_tree_node_set_name(node, basename(tmp));
free(tmp);
return node;
}
struct iso_tree_node *
iso_tree_volume_add_new_dir(struct iso_volume *volume,
const char *disc_path)
{
char *tmp;
struct iso_tree_node *node;
struct iso_tree_node *parent_node;
tmp=strdup(disc_path);
parent_node = iso_tree_volume_path_to_node(volume, dirname(tmp));
free(tmp);
if (!parent_node)
return NULL;
tmp=strdup(disc_path);
node = iso_tree_add_new_dir(parent_node, basename(tmp));
free(tmp);
return node;
}

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/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set noet sts=8 ts=8 sw=8 : */
/**
* Extra declarations for use with the iso_volume structure.
*/
#ifndef LIBISO_VOLUME_H
#define LIBISO_VOLUME_H
#include "libisofs.h"
/**
* Data volume.
*/
struct iso_volume
{
int refcount; /**< Number of used references to this
volume. */
struct iso_tree_node *root; /**< Root of the directory tree for the
volume. */
char *volume_id; /**< Volume identifier. */
char *publisher_id; /**< Volume publisher. */
char *data_preparer_id; /**< Volume data preparer. */
};
/**
* A set of data volumes.
*/
struct iso_volset
{
int refcount;
struct iso_volume **volume; /**< The volumes belonging to this
volume set. */
int volset_size; /**< The number of volumes in this
volume set. */
char *volset_id; /**< The id of this volume set, encoded
in the current locale. */
};
#endif /* __ISO_VOLUME */

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all clean:
$(MAKE) -C .. -$(MAKEFLAGS) $@
.PHONY: all clean

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/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set ts=8 sts=8 sw=8 noet : */
#define _GNU_SOURCE
#include "libisofs.h"
#include "libburn/libburn.h"
#include <getopt.h>
#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <assert.h>
#include <sys/types.h>
#include <dirent.h>
#include <string.h>
#include <err.h>
#define SECSIZE 2048
const char * const optstring = "JRL:h";
extern char *optarg;
extern int optind;
void usage()
{
printf("test [OPTIONS] DIRECTORY OUTPUT\n");
}
void help()
{
printf(
"Options:\n"
" -J Add Joliet support\n"
" -R Add Rock Ridge support\n"
" -L <num> Set the ISO level (1 or 2)\n"
" -h Print this message\n"
);
}
int main(int argc, char **argv)
{
struct iso_volset *volset;
struct iso_volume *volume;
struct iso_tree_node *root;
struct burn_source *src;
unsigned char buf[2048];
FILE *fd;
int c;
int level=1, flags=0;
while ((c = getopt(argc, argv, optstring)) != -1) {
switch(c) {
case 'h':
usage();
help();
exit(0);
break;
case 'J':
flags |= ECMA119_JOLIET;
break;
case 'R':
flags |= ECMA119_ROCKRIDGE;
break;
case 'L':
level = atoi(optarg);
break;
case '?':
usage();
exit(1);
break;
}
}
if (argc < 2) {
printf ("Please pass directory from which to build ISO\n");
usage();
return 1;
}
if (argc < 3) {
printf ("Please supply output file\n");
usage();
return 1;
}
fd = fopen(argv[optind+1], "w");
if (!fd) {
err(1, "error opening output file");
}
root = iso_tree_radd_dir(NULL, argv[optind]);
if (!root) {
err(1, "error opening input directory");
}
volume = iso_volume_new_with_root( "VOLID", "PUBID", "PREPID", root );
volset = iso_volset_new( volume, "VOLSETID" );
src = iso_source_new_ecma119(volset, 0, level, flags);
while (src->read(src, buf, 2048) == 2048) {
fwrite(buf, 1, 2048, fd);
}
fclose(fd);
return 0;
}

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import struct
import tree
import sys
voldesc_fmt = "B" "5s" "B" "2041x"
# all these fields are common between the pri and sec voldescs
privoldesc_fmt = "B" "5s" "B" "x" "32s" "32s" "8x" "8s" "32x" "4s" "4s" "4s" "8s" "4s4s" "4s4s" "34s" "128s" \
"128s" "128s" "128s" "37s" "37s" "37s" "17s" "17s" "17s" "17s" "B" "x" "512s" "653x"
# the fields unique to the sec_vol_desc
secvoldesc_fmt = "x" "5x" "x" "B" "32x" "32x" "8x" "8x" "32s" "4x" "4x" "4x" "8x" "4x4x" "4x4x" "34x" "128x" \
"128x" "128x" "128x" "37x" "37x" "37x" "17x" "17x" "17x" "17x" "x" "x" "512x" "653x"
dirrecord_fmt = "B" "B" "8s" "8s" "7s" "B" "B" "B" "4s" "B" # + file identifier, padding field and SU area
pathrecord_fmt = "B" "B" "4s" "2s" # + directory identifier and padding field
def read_bb(str, le, be):
val1, = struct.unpack(le, str)
val2, = struct.unpack(be, str)
if val1 != val2:
print "val1=%d, val2=%d" % (val1, val2)
raise AssertionError, "values are not equal in dual byte-order field"
return val1
def read_bb4(str):
return read_bb(str, "<I4x", ">4xI")
def read_bb2(str):
return read_bb(str, "<H2x", ">2xH")
def read_lsb4(str):
return struct.unpack("<I", str)[0]
def read_lsb2(str):
return struct.unpack("<H", str)[0]
def read_msb4(str):
return struct.unpack(">I", str)[0]
def read_msb2(str):
return struct.unpack(">H", str)[0]
class VolDesc(object):
def __init__(self, data):
print "fmt len=%d, data len=%d" % ( struct.calcsize(voldesc_fmt), len(data) )
self.vol_desc_type, self.standard_id, self.vol_desc_version = struct.unpack(voldesc_fmt, data)
class PriVolDesc(VolDesc):
def __init__(self, data):
self.vol_desc_type, \
self.standard_id, \
self.vol_desc_version, \
self.system_id, \
self.volume_id, \
self.vol_space_size, \
self.vol_set_size, \
self.vol_seq_num, \
self.block_size, \
self.path_table_size, \
self.l_table_pos, \
self.l_table2_pos, \
self.m_table_pos, \
self.m_table2_pos, \
self.root_record, \
self.volset_id, \
self.publisher_id, \
self.preparer_id, \
self.application_id, \
self.copyright_file, \
self.abstract_file, \
self.bibliographic_file, \
self.creation_timestamp, \
self.modification_timestamp, \
self.expiration_timestamp, \
self.effective_timestamp, \
self.file_struct_version, \
self.application_use = struct.unpack(privoldesc_fmt, data)
# take care of reading the integer types
self.vol_space_size = read_bb4(self.vol_space_size)
self.vol_set_size = read_bb2(self.vol_set_size)
self.vol_seq_num = read_bb2(self.vol_seq_num)
self.block_size = read_bb2(self.block_size)
self.path_table_size = read_bb4(self.path_table_size)
self.l_table_pos = read_lsb4(self.l_table_pos)
self.l_table2_pos = read_lsb4(self.l_table2_pos)
self.m_table_pos = read_msb4(self.m_table_pos)
self.m_table2_pos = read_msb4(self.m_table2_pos)
# parse the root directory record
self.root_record = DirRecord(self.root_record)
def readPathTables(self, file):
file.seek( self.block_size * self.l_table_pos )
self.l_table = PathTable( file.read(self.path_table_size), 0 )
file.seek( self.block_size * self.m_table_pos )
self.m_table = PathTable( file.read(self.path_table_size), 1 )
if self.l_table2_pos:
file.seek( self.block_size * self.l_table2_pos )
self.l_table2 = PathTable( file.read(self.path_table_size), 0 )
else:
self.l_table2 = None
if self.m_table2_pos:
file.seek( self.block_size * self.m_table2_pos )
self.m_table2 = PathTable( file.read(self.path_table_size), 1 )
else:
self.m_table2 = None
def toTree(self, isofile):
ret = tree.Tree(isofile=isofile.name)
ret.root = self.root_record.toTreeNode(parent=None, isofile=isofile)
return ret
class SecVolDesc(PriVolDesc):
def __init__(self, data):
super(SecVolDesc,self).__init__(data)
self.flags, self.escape_sequences = struct.unpack(secvoldesc_fmt, data)
# return a single volume descriptor of the appropriate type
def readVolDesc(data):
desc = VolDesc(data)
if desc.standard_id != "CD001":
print "Unexpected standard_id " +desc.standard_id
return None
if desc.vol_desc_type == 1:
return PriVolDesc(data)
elif desc.vol_desc_type == 2:
return SecVolDesc(data)
elif desc.vol_desc_type == 3:
print "I don't know about partitions yet!"
return None
elif desc.vol_desc_type == 255:
return desc
else:
print "Unknown volume descriptor type %d" % (desc.vol_desc_type,)
return None
def readVolDescSet(file):
ret = [ readVolDesc(file.read(2048)) ]
while ret[-1].vol_desc_type != 255:
ret.append( readVolDesc(file.read(2048)) )
for vol in ret:
if vol.vol_desc_type == 1 or vol.vol_desc_type == 2:
vol.readPathTables(file)
return ret
class DirRecord:
def __init__(self, data):
self.len_dr, \
self.len_xa, \
self.block, \
self.len_data, \
self.timestamp, \
self.flags, \
self.unit_size, \
self.gap_size, \
self.vol_seq_number, \
self.len_fi = struct.unpack(dirrecord_fmt, data[:33])
self.children = []
if self.len_dr > len(data):
raise AssertionError, "Error: not enough data to read in DirRecord()"
elif self.len_dr < 34:
raise AssertionError, "Error: directory record too short"
fmt = str(self.len_fi) + "s"
if self.len_fi % 2 == 0:
fmt += "1x"
len_su = self.len_dr - (33 + self.len_fi + 1 - (self.len_fi % 2))
fmt += str(len_su) + "s"
if len(data) >= self.len_dr:
self.file_id, self.su = struct.unpack(fmt, data[33 : self.len_dr])
else:
print "Error: couldn't read file_id: not enough data"
self.file_id = "BLANK"
self.su = ""
# convert to integers
self.block = read_bb4(self.block)
self.len_data = read_bb4(self.len_data)
self.vol_seq_number = read_bb2(self.vol_seq_number)
def toTreeNode(self, parent, isofile, path=""):
ret = tree.TreeNode(parent=parent, isofile=isofile.name)
if len(path) > 0:
path += "/"
path += self.file_id
ret.path = path
if self.flags & 2: # we are a directory, recurse
isofile.seek( 2048 * self.block )
data = isofile.read( self.len_data )
pos = 0
while pos < self.len_data:
try:
child = DirRecord( data[pos:] )
pos += child.len_dr
if child.len_fi == 1 and (child.file_id == "\x00" or child.file_id == "\x01"):
continue
print "read child named " +child.file_id
self.children.append( child )
ret.children.append( child.toTreeNode(ret, isofile, path) )
except AssertionError:
print "Couldn't read child of directory %s, position is %d, len is %d" % \
(path, pos, self.len_data)
raise
return ret
class PathTableRecord:
def __init__(self, data, readint2, readint4):
self.len_di, self.len_xa, self.block, self.parent_number = struct.unpack(pathrecord_fmt, data[:8])
if len(data) < self.len_di + 8:
raise AssertionError, "Error: not enough data to read path table record"
fmt = str(self.len_di) + "s"
self.dir_id, = struct.unpack(fmt, data[8:8+self.len_di])
self.block = readint4(self.block)
self.parent_number = readint2(self.parent_number)
class PathTable:
def __init__(self, data, m_type):
if m_type:
readint2 = read_msb2
readint4 = read_msb4
else:
readint2 = read_lsb2
readint4 = read_lsb4
pos = 0
self.records = []
while pos < len(data):
try:
self.records.append( PathTableRecord(data[pos:], readint2, readint4) )
print "Read path record %d: dir_id %s, block %d, parent_number %d" %\
(len(self.records), self.records[-1].dir_id, self.records[-1].block, self.records[-1].parent_number)
pos += self.records[-1].len_di + 8
pos += pos % 2
except AssertionError:
print "Last successfully read path table record had dir_id %s, block %d, parent_number %d" % \
(self.records[-1].dir_id, self.records[-1].block, self.records[-1].parent_number)
print "Error was near offset %x" % (pos,)
raise
def findRecord(self, dir_id, block, parent_number):
number=1
for record in self.records:
if record.dir_id == dir_id and record.block == block and record.parent_number == parent_number:
return number, record
number += 1
return None, None
# check this path table for consistency against the actual directory heirarchy
def crossCheckDirRecords(self, root, parent_number=1):
number, rec = self.findRecord(root.file_id, root.block, parent_number)
if not rec:
print "Error: directory record parent_number %d, dir_id %s, block %d doesn't match a path table record" % \
(parent_number, root.file_id, root.block)
parent = self.records[parent_number]
print "Parent has parent_number %d, dir_id %s, block %d" % (parent.parent_number, parent.dir_id, parent.block)
return 0
for child in root.children:
if child.flags & 2:
self.crossCheckDirRecords(child, number)
if len(sys.argv) != 2:
print "Please enter the name of the .iso file to open"
sys.exit(1)
f = file(sys.argv[1])
f.seek(2048 * 16) # system area
volumes = readVolDescSet(f)
vol = volumes[0]
t = vol.toTree(f)
vol.l_table.crossCheckDirRecords(vol.root_record)
vol.m_table.crossCheckDirRecords(vol.root_record)
vol = volumes[1]
try:
t = vol.toTree(f)
vol.l_table.crossCheckDirRecords(vol.root_record)
vol.m_table.crossCheckDirRecords(vol.root_record)
except AttributeError:
pass

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# a module to help with handling of filenames, directory trees, etc.
import os
import os.path
import stat
def pathsubtract(a, b):
index = a.find(b)
if index == -1:
return None
res = a[ (index + len(b)): ]
if res.find("/") == 0:
res = res[1:]
return res
# same as C strcmp()
def strcmp(a, b):
if a < b:
return -1
if a > b:
return 1
return 0
class TreeNode:
# path is the location of the file/directory. It is either a full path or
# a path relative to $PWD
def __init__(self, parent, path=".", root=".", isofile=None):
if isofile:
self.root = os.path.abspath(isofile)
self.path = ""
else:
fullpath = os.path.abspath( path )
fullroot = os.path.abspath( root )
self.root = fullroot
self.path = pathsubtract( fullpath, fullroot )
self.parent = parent
self.children = []
if self.path == None:
raise NameError, "Invalid paths %s and %s" % (fullpath, fullroot)
# if this is a directory, add its children recursively
def addchildren(self):
if not stat.S_ISDIR( os.lstat(self.root + "/" + self.path).st_mode ):
return
children = os.listdir( self.root + "/" + self.path )
for child in children:
if self.path:
child = self.path + "/" + child
self.children.append( TreeNode(self, child, self.root) )
for child in self.children:
child.addchildren()
def printAll(self, spaces=0):
print " "*spaces + self.root + "/" + self.path
for child in self.children:
child.printAll(spaces + 2)
def isValidISO1(self):
pass
class Tree:
def __init__(self, root=None, isofile=None):
if isofile:
self.root = TreeNode(parent=None, isofile=isofile)
else:
self.root = TreeNode(parent=None, path=root, root=root)
self.root.addchildren()
def isValidISO1(self):
return root.isValidISO1();
#t = Tree(root=".")
#t.root.printAll()

3
version.h.in Normal file
View File

@ -0,0 +1,3 @@
#define BURN_MAJOR_VERSION @BURN_MAJOR_VERSION@
#define BURN_MINOR_VERSION @BURN_MINOR_VERSION@
#define BURN_MICRO_VERSION @BURN_MICRO_VERSION@