@(#)INSTALL	6.80 02/04/29

INSTALLATION INSTRUCTIONS
-------------------------

This file contains instructions relevant to you if you are going to
build xmcd/cda from the source code.  If you have a pre-compiled binary
bundle version of xmcd/cda, simply follow the installation instructions
shown on the xmcd web site during your download.

Please read through the following notes before attempting to compile and
install xmcd and cda.  If you encounter a problem, read the FAQ file.

Digital OpenVMS users please see the INSTALL.VMS file for information.
Users of other systems please use the instructions below.


GENERAL COMPILE NOTES
---------------------

This release of xmcd and cda supports the enhanced Gracenote CDDB(tm)
service.  However, if you compile the source code as is, the CDDB
capabilities are not enabled (instead, the "classic" CDDB(tm) service is
used).  To enable the CDDB capability, you must download the CDDB
support package and build xmcd/cda with it.  The instructions are
provided below.  The CDDB support package is available for some of the
platforms supported by xmcd and cda.  Due to Gracenote contract terms,
the CDDB libraries in the support package are distributed in binary
form only.

See the "CDDB" file provided in this release for information regarding
the difference between "classic" CDDB and the enhanced CDDB.

You must have an ANSI C compatible compilation environment.  All C
source code in this package are written in ANSI C syntax.  Use of the
GNU C compiler (gcc) is strongly recommended if you're compiling
with the CDDB support package.  If you're not using gcc with the CDDB
libraries, you may need to add -lgcc to the final link phase in your
xmcd_d/Makefile and cda_d/Makefile.  This is because the CDDB library
was compiled with gcc and you may not be able to resolve all its needed
symbols without also linking with the gcc runtime library (provided with
the CDDB support package).  You may even need to do this with gcc,
if your gcc is not a very recent version.

You must have X11R4/Motif 1.1 or later to build xmcd.  Xmcd has been
successfully built under X11R4 with Motif 1.1, and X11R5 or X11R6 with
Motif 1.2 or Motif 2.0.

Motif is available from various third party vendors for those OS
platforms that do not come standard with the libraries and headers.  If
you cannot find a commercial Motif product for your platform you can
also build the Motif library from the OSF sources (if you have the
source license).  You may also use the free OpenMotif 2.x if you meet
its licensing terms:

	http://www.openmotif.org

Xmcd can also be built with the LessTif (freely available Motif clone)
package.  LessTif is an ideal choice for xmcd because it is under
the GNU General Public license and embodies the same Open Source
spirit as xmcd.  If you don't have "real" Motif, you may want to give
LessTif a try.  Visit their web site at:

	http://www.lesstif.org

For best results, LessTif version 0.92.0 or later is strongly recommended.

In addition to Motif, xmcd requires the Xt Intrinsics and X11 libraries
(libXt and libX11) to compile.  On systems that have multiple versions
of X11 installed, be sure to use matching sets of X11 header files with
the libraries.

If you do not have X11 or Motif, you can still build cda.  Edit the top
level Makefile.std and remove xmcd_d from the SUBDIRS definition, and
follow the instructions below for systems that do not have imake.

The cda utility requires named pipe (FIFO) support in your OS
platform.  If your system does not support named pipes, you must edit
the top level Imakefile or Makefile.std and remove the cda_d directory
from the SUBDIRS definition.

If your site runs the SOCKS-based security firewall and requires clients
to be SOCKSified in order to access remote Internet hosts, see the
comments in cddb_d/Imakefile.  Also, you must edit the xmcd_d/Makefile
and cda_d/Makefile to link with the socks library.  For further
information please refer to the documentation in the SOCKS.CSTC package.


PLATFORM-SPECIFIC COMPILE NOTES
-------------------------------

ALL PLATFORMS:

    IF YOU USE THE GNU C COMPILER (gcc), DO NOT USE THE -ansi OPTION.
    The -ansi option may cause some of the system's header files to
    exclude definitions that are needed to successfully compile xmcd
    and cda.

Apple A/UX:

    Use gcc to compile the xmcd distribution.  You may have to add
    an explicit -DmacII to CFLAGS if your C pre-processor does not
    already define this.

    You are advised to make certain that xmkmf uses the X11R5 config
    files (e.g., /usr/local/X11R5/lib/config).  The default config
    files in Apple's distribution of X11R4 (/usr/lib/X11/config) will
    require extensive hand-editing of the resulting Makefiles (to use
    gcc instead of cc, shared-libs are not available, etc.).

BSDI/WindRiver BSD/OS:

    See the PLATFORM file for operating system version requirements.

    You must ensure that _ANSI_SOURCE and _POSIX_SOURCE are _not_
    defined.

    The visual mode in cda is disabled by default for BSD/OS due to
    the lack of a SYSV-compatible curses library.  If you have added
    the ncurses package to your system then you should remove the
    -DNOVISUAL from your cda_d/Makefile to enable visual mode
    functionality.

Data General DG/UX:

    You should use the instructions below for systems without imake
    to build this distribution, since DG/UX does not provide imake.
    A makedgux.inc is provided, which you should rename as make.inc.

Digital UNIX (OSF/1):

    See the PLATFORM file for minimum operating system version
    requirements.

    On Digital UNIX 4.0 systems, the cc compiler imposes stricter
    ANSI C conformance and the /usr/include/io/cam/scsi_all.h header
    file on the system may not compile correctly.  If you encounter
    a compilation error in this file, you can fix it by changing
    all structure bitfields in this file from u_char type to u_int.
    Log in as root and type the following commands to accomplish
    this (please substitute all occurrences of \t in the sed script
    below with actual tab characters):

    cd /usr/include/io/cam
    mv scsi_all.h scsi_all.h.orig
    sed 's/u_char\(.*:[ \t]*[0-9]*[ \t]*[;,].*\)/u_int\1/' \
        scsi_all.h.orig > scsi_all.h

Digital Ultrix:

    See the PLATFORM file for minimum operating system version
    requirements.  Also, check the top level Makefile that's generated
    by imake.  There should be a SHELL=/bin/sh5 line.  If there are
    any other SHELL= lines they should be removed.

Digital OpenVMS:

    See the INSTALL.VMS file for information about the compilation,
    installation and use of xmcd on the Digital OpenVMS platform.

FreeBSD:

    See the PLATFORM file for minimum operating system version
    requirements.

Hewlett Packard HP-UX:

    You may have to add an explicit -D__hpux to CFLAGS if your C
    pre-processor does not already define this.  If the HP cc compiler
    is used, you must enable ANSI C mode (using the -Ae or -Aa options,
    depending on your HP-UX release).  You may also have to define
    -D_HPUX_SOURCE to successfully compile xmcd.  See your cc(1) online
    manual entry for details.

    On Series 700 systems, if you're compiling with the CDDB2 support
    package installed, you must configure the xmcd and cda executables such
    that it will look in the /usr/lib directory for the libcddb.sl shared
    library.  To do that, the following command line options must be passed
    to ld(1) when linking the executables:

	+b/usr/lib +s

    If you're using gcc to do the final linking, you can use the following
    gcc option to accomplish this:

	-Wl,+b/usr/lib,+s

    Special notes for the m68k systems: Don't use the cc +O3 option, use
    the +02 option instead.

    Due to a bug in the HP-UX Bourne Shell (/bin/sh), the install.sh script
    will fail on some platforms.  The Korn Shell (/bin/ksh) should
    be used instead.  If you don't have imake, set the SHELL= line in your
    make.inc file to SHELL=/bin/ksh before compiling and installing xmcd.

IBM AIX:

    You may have to add an explicit -D_AIX to CFLAGS if your C
    pre-processor does not already define this.  Also, you must ensure
    that the _BSD flag is _not_ defined.

    If you are using IDE CD-ROM drives, you must define -DAIX_IDE in
    the libdi_d directory to enable the AIX IDE ioctl method support
    in xmcd and cda.  See the comments in the libdi_d/Imakefile.

Linux:

    Xmcd requires the C pre-processor flag -Dlinux to be set.  On
    some Linux distributions, you must have the kernel source code
    package installed in order to get some of the needed header
    files.

NetBSD:

    See the PLATFORM file for minimum operating system version
    requirements.

    The visual mode in cda is disabled by default for NetBSD due to
    the lack of a SYSV-compatible curses library.  If you have added
    the ncurses package to your system then you should remove the
    -DNOVISUAL from your cda_d/Makefile to enable visual mode
    functionality.

    If you are running an older NetBSD version (prior to 1.2G or so),
    you must add -DNETBSD_OLDIOC in the libdi_d directory to compile.
    See the comments in the libdi_d/Imakefile.  This is needed because
    old NetBSD systems have an incompatible <sys/cdio.h> header file.

OpenBSD:

    See the PLATFORM file for minimum operating system version
    requirements.

QNX 4.2x:

    Make certain __QNX__ is defined from the top level on down;
    The Watcom C 9.5 and 10.6 compilers do this for you.  Depending on
    your development environment, you may have to disable the visual mode
    for cda, which relies on the ncurses library.  To do so, add
    -DNOVISUAL to your cda_d/Makefile.

SCO Open Server / SCO Open Desktop / SCO UNIX:

    Xmcd requires the C pre-processor flag -Dsco (lower-case) to be
    set.  This is done by default on systems running the SCO
    Development System.  If you are using XFree86, you must modify the
    appropriate "OsDefines" line in your
    /usr/X11R*/lib/X11/config/x386.cf file to include -Dsco.  Also, if
    your imake configuration isn't fixed, you may need to explicitly
    add -lintl and -lPW to your xmcd_d/Makefile in order to resolve
    the regcmp(), regex() and alloca() routines.

    Despite the fact that SCO UNIX 3.2v4.x has the seteuid(S) system
    call, do NOT add -DHAS_SETEUID to the xmcd_d/Imakefile because SCO's
    seteuid call doesn't behave the way it's supposed to.  This was
    fixed in SCO Open Server 5.x.

Sony NEWS-OS:

    You should use the GNU C compiler (gcc) instead of the cc compiler.
    This is because the standard C compiler (cc) under Sony NEWS-OS is
    not ANSI compliant.  Also, you must add -Dsony_news to CFLAGS
    if your C pre-processor does not already define it.

    The visual mode in cda is disabled by default for NEWS-OS due to
    the lack of a SYSV-compatible curses library.  You should compile
    all files in cda_d with -DNOVISUAL.

Stratus FTX SVR4:

    This release of xmcd/cda only supports the HP PA-RISC based
    Stratus Continuum systems.  Earlier Intel i860 and Motorola m68k
    based Stratus systems are not supported.  See the special notes
    in the FAQ file about setuid programs and SVR4 dynamic libraries.

SunOS 4.1.x / Solaris 1.x:

    You must use the GNU C compiler (gcc) instead of the cc compiler.
    This is because the standard C compiler (cc) under SunOS 4.1.x is
    not ANSI compliant.

    See the PLATFORM file for information about configuring xmcd/cda
    to use DNS on the SunOS 4.1.x platform.  If this is not done
    xmcd/cda will not be able to access the CDDB service.

    You may encounter compiler warning messages when compiling the
    cda utility.  These are due to redundant definition of several
    symbols between SunOS's <sys/ioctl.h> and <sys/termios.h> files.
    You can ignore the warnings, as they are innocuous.

SunOS 5.x / Solaris 2.x and later:

    Xmcd requires the C pre-processor defines -DSVR4 and -Dsun.
    These should be defined by default.  Xmcd also requires -Di386
    on Intel x86 platforms.

    You may need to add -lsocket to xmcd_d/Makefile, cda_d/Makefile,
    and util_d/Makefile in order to resolve some external symbols.
    These include socket() and connect().

    Likewise, you may need to add -lgen to xmcd_d/Makefile in order to
    resolve some external symbols that Motif requires.  These include
    regcmp() and regex().

    If you are using the Sun cc compiler, you may need to edit all
    the imake-generated xmcd Makefiles to remove the -Xc option from
    the cc compiler command line.  Otherwise this will mask out
    some needed definitions in various header files and cause compile
    errors.

    Be sure that /usr/ccs/bin is before /usr/ucb in your PATH
    environment variable, to get the appropriate cc compiler.
    This ensures that the proper SVR4 header files are used to compile
    the distribution.

    On Solaris 2.2 or later, you may wish to add -DSOL2_RSENSE to
    the libdi_d/Makefile to enable support for the auto request-sense
    feature.

    See the special notes in the FAQ file about setuid programs and
    SVR4 dynamic libraries.

UNIX SVR4 and SVR5 (including UnixWare, all versions):

    You may need to add -lsocket to xmcd_d/Makefile, cda_d/Makefile
    and util_d/Makefile in order to resolve some external symbols.
    These include socket() and connect().

    Likewise, you may need to add -lgen to xmcd_d/Makefile in order to
    resolve some external symbols that Motif requires.  These include
    regcmp() and regex().

    Be sure that /usr/ccs/bin is before /usr/ucb in your PATH
    environment variable, to get the appropriate cc compiler.
    This ensures that the proper SVR4 header files are used to compile
    the distribution.

    See the special notes in the FAQ file about setuid programs and
    SVR4 dynamic libraries.


XMCD DEMO MODE
--------------

You must compile on one of the supported UNIX OS flavors (See the
PLATFORM file for a list of the supported OS environments) to get a
real functional xmcd.  You can compile on other platforms, but you
will end up with a "demo" version of xmcd.

You can also force the build of the demo version by specifying
-DDEMO_ONLY when compiling in the libdi_d directory.  See the
comments in libdi_d/Imakefile.

It should be possible to build the demo-only xmcd on any platform
that supports compiling a Motif application.  Minor porting work
may be required on systems that aren't POSIX-compliant.

The "demo" version does not actually control or respond to a real
CD-ROM device.  Instead, a built-in CD-ROM simulater is used,
which allows you to play with the look-and-feel of xmcd/cda and try
the behavior of all the controls and functions.  The demo mode
simulates an 8-disc changer with the same CD loaded in all slots.

If you are running the demo version of xmcd/cda, the following message
will be displayed on stderr when you start the program:

    CD-ROM simulator version x.xx (pid=xxxxx) starting...


ENABLING CDDB SUPPORT
----------------------

The source code of this release of xmcd and cda comes with built-in
support of the "classic" CDDB service (which was also used in xmcd
version 2.x).

To enable the enhanced CDDB support, you must download and install the
CDDB support package before compiling xmcd and cda.  You may download
this package along with the xmcd source code via the official xmcd web
site:

	http://www.amb.org/xmcd/

See the "CDDB" file for a list of platforms for which the CDDB support
package is available.  Check the xmcd web site for the latest list.
The CDDB library is developed by Gracenote and more platforms may be
added over time.

The CDDB support package contains the following files:

	libcddb.so.1	(*)		(CDDB support library)
	libcddb.so	(+)
	libcddbkey2.a			(CDDB support library)
	libgcc.a			(gcc runtime library)

(*) On HP-UX, this file is named libcddb.sl, and on SunOS 4.1.x, it is
    libcddb.so.1.0.
(+) Link to libcddb.so.1; not present on HP-UX

To enable CDDB features in xmcd and cda, put these files in the cddb_d
subdirectory of the xmcd source tree BEFORE you start compiling the
software.  The makefiles will detect the presence of the libcddb and
libcddbkey2 libraries and use them automatically.  See GENERAL COMPILE
NOTES above for special notes about compiler usage and libgcc.a.


BUILD INSTRUCTIONS
------------------

If your system has imake (most supported systems do), use these
steps to build xmcd and cda:

    1. Take a look at the Imakefiles in various directories, read
       the comments, and make changes as appropriate.  Pay special
       attention to the comments in xmcd_d/Imakefile pertaining to
       the LOCAL_LIBRARIES=XmClientLibs line.  You may need to change
       it in order to successfully compile xmcd.  Same thing in
       util_d/Imakefile for the gobrowser utility.
    2. Change to the xmcd top level source directory.
    3. Type "xmkmf" (or "imake -DUseInstalled -I/usr/lib/X11/config")
    4. Type "make Makefiles"
    5. Type "make"

If your system does not have imake (or if the imake configuration is
broken), use these steps to build xmcd:

    1. Change to the xmcd top level source directory.
    2. Edit make.inc.  You will most certainly need to make some
       changes in this file to make things compile on your OS
       platform.
    3. Type "make -f Makefile.std Makefiles"
    4. Type "make"

If you had installed the CDDB support package and you encounter errors
during the link phase of xmcd and cda, you may need to add -lgcc to the
xmcd_d/Makefile and cda_d/Makefile and/or change to using the GNU C
compiler (gcc), in order to resolve needed symbols.

Note that a 'make clean' will remove the cddb_d/libcddbkey2.a file.
You will need to re-apply the CDDB support package in order to get
CDDB functionality.


INSTALL INSTRUCTIONS
--------------------

These are instructions on how to install the xmcd package after you
compile it from source code.

    1. Log in as the super-user and change to the xmcd source directory.
       Super-user status is used to set the permissions of all files
       and ensures that you have write privilege to all target
       directories.  If any target directory is an NFS remote resource,
       however, the super-user status may be insufficient and you will
       need to manually install some files and set their permissions.
    2. You may want to strip(1) the symbol table of the cda_d/cda and
       xmcd_d/xmcd binaries to reduce their sizes.  On some platforms,
       you can also use mcs(1) with the -d option to remove the binary
       comment section.
    3. Type "make install".  Answer all questions to configure xmcd and
       cda.  This step is REQUIRED.  If you do not configure the
       software using "make install" it will not run correctly.
       Install errors, if any, are recorded in the /tmp/xmcd.err file.
       You cannot just run the xmcd and cda executables from their
       compile directories.
    4. Edit XMCDLIB/config/common.cfg and make sure that the "device:"
       path matches the default raw CD-ROM device on your system
       (XMCDLIB is the directory under which the xmcd/cda support files
       are installed.  This is configured in step 3 above.).
    5. The install.sh script only places the man page raw files in the
       designated directories.  Depending on your OS platform, you may
       need to hand-format the files using nroff(1) with the -man option.
    6. Please refer to the RELNOTES, PLATFORM and DRIVES files for
       additional notes.


RUNNING XMCD
------------

See the xmcd(1) and cda(1) man pages for general information about
using the software.  If you encounter run-time errors pertaining to
drive configuration, see the up-to-date xmcd Configuration Guide at
http://www.amb.org/xmcd/ for tips on tweaking the setup for optimum
functionality with your hardware.


TO MAKE A BINARY RELEASE
------------------------

Doing this allows you to compile on one host, and generate a binary
bundle that can be used to install on other hosts (of the same OS and
platform type).

    1. Follow the Build Instructions as above.
    2. Make sure the binary you build has the proper mix of static vs.
       shared/dynamic library components for your target system. In
       particular, if your target system does not have Motif installed,
       then you will want to statically link libXm.a.  The same
       consideration should be given to libXt, libXext, libX11, libnsl,
       libsocket, libc, and others where applicable.  The more
       libraries you link statically, the less platform-dependent the
       binary is, but the larger it becomes.  In some cases, even a
       fully static xmcd binary will still have problem running if the
       target system has different kernel-to-library interfaces than
       the compiling system.
    2. Run the "misc_d/makerel.sh" script.  The script generates a file
       "xmcdbin.tar.gz", which is a "gzip"ed tar format file containing
       all files necessary for a xmcd binary distribution.  It also
       creates a "xmcdbin.uue" file, which is a uuencoded version of
       the xmcdbin.tar.gz file suitable for transmission via electronic
       mail.  This script assumes the existence of the GNU zip (gzip)
       and uuencode utilities.
    3. On a target host (of the appropriate OS and platform), gunzip
       and untar the xmcdbin.tar.gz file, go into the xmcdbin subdirectory,
       and run the install.sh script to install xmcd/cda on that system.
    4. The makerel.sh script automatically includes a copy of the
       CDDB library in the xmcdbin.tar.gz bundle if it is found, and it
       will be automatically installed on the target machine when the
       install.sh script is run.
    5. Consult the OSF/Motif licensing terms pertaining to your version
       of Motif before distributing binaries containing Motif code to
       others.


ADDITIONAL NOTES
----------------

The "config.sh" shell script supplied with this distribution is not
intended to be run directly in the libdi_d source directory.  You
should use "make install" to install the package, which causes
config.sh to be executed with the proper environment.  If you must
reconfigure xmcd/cda, run the copy of "config.sh" as installed in
XMCDLIB/config (where XMCDLIB is the directory under which the xmcd/cda
support files are installed).

