Problems found with existing digests:
Package suse131_libSDL
1c4d17a53bece6243cb3e6dd11c36d50f851a4f4 [recorded]
da39a3ee5e6b4b0d3255bfef95601890afd80709 [calculated]
Package suse131_libdbus
de99fcfa8e2c7ced28caf38c24d217d6037aaa56 [recorded]
da39a3ee5e6b4b0d3255bfef95601890afd80709 [calculated]
Package suse131_qt4
94daff738912c96ed8878ce1a131cd49fb379206 [recorded]
886206018431aee9f8a01e1fb7e46973e8dca9d9 [calculated]
Problems found locating distfiles for atari800, compat12, compat 13,
compat14, compat15, compat20, compat30, compat40, compat50,
compat50-x11, compat51, compat51-x11, compat60, compat61,
compat61-x11, fmsx, osf1_lib, vice, xbeeb, xm7.
Otherwise, existing SHA1 digests verified and found to be the same on
the machine holding the existing distfiles (morden). All existing
SHA1 digests retained for now as an audit trail.
binary-only packages that require binary "emulation" on the native
operating system. Please see pkgsrc/mk/emulator/README for more
details.
* Teach the plist framework to automatically use any existing
PLIST.${EMUL_PLATFORM} as part of the default PLIST_SRC definition.
* Convert all of the binary-only packages in pkgsrc to use the
emulator framework. Most of them have been tested to install and
deinstall correctly. This involves the following cleanup actions:
* Remove use of custom PLIST code and use PLIST.${EMUL_PLATFORM}
more consistently.
* Simplify packages by using default INSTALL and DEINSTALL scripts
instead of custom INSTALL/DEINSTALL code.
* Remove "SUSE_COMPAT32" and "PKG_OPTIONS.suse" from pkgsrc.
Packages only need to state exactly which emulations they support,
and the framework handles any i386-on-x86_64 or sparc-on-sparc64
uses.
* Remove "USE_NATIVE_LINUX" from pkgsrc. The framework will
automatically detect when the package is installing on Linux.
Specific changes to packages include:
* Bump the PKGREVISIONs for all of the suse100* and suse91* packages
due to changes in the +INSTALL/+DEINSTALL scripts used in all
of the packages.
* Remove pkgsrc/emulators/suse_linux, which is unused by any
packages.
* cad/lc -- remove custom code to create the distinfo file for
all supported platforms; just use "emul-fetch" and "emul-distinfo"
instead.
* lang/Cg-compiler -- install the shared libraries under ${EMULDIR}
instead of ${PREFIX}/lib so that compiled programs will find
the shared libraries.
* mail/thunderbird-bin-nightly -- update to latest binary
distributions for supported platforms.
* multimedia/ns-flash -- update Linux version to 9.0.48 as the
older version is no longer available for interactive fetch.
* security/uvscan -- set LD_LIBRARY_PATH explicitly so that
it's not necessary to install library symlinks into
${EMULDIR}/usr/local/lib.
* www/firefox-bin-flash -- update Linux version to 9.0.48 as the
older version is no longer available for interactive fetch.
INSTALLATION_DIRS, as well as all occurrences of ${PREFIX}/man with
${PREFIX}/${PKGMANDIR}.
Fixes PR 35265, although I did not use the patch provided therein.
it will live with other "check" targets run after package installation.
Get rid of SHLIB_HANDLING, whose meaning had mutated over the years
from one thing to another. Currently, it is used to basically note
whether the system's "ldd" command can be usefully run on the package's
binaries and libraries. Rename this variable to CHECK_SHLIBS_SUPPORTED
for more clarity.
CHECK_SHLIBS is now a variable set exclusively by the user in /etc/mk.conf
to note whether the check for missing run-time search paths is performed
after a package is installed. It defaults to "no" unless PKG_DEVELOPER
is set.
Change most pkgs to depend on either
emulators/suse_linux/Makefile.application (normal pkgs) or
Makefile.common (suse91 and suse themselves) to filter out Operating
Systems without Linux ABI support. Use CPU masks to limit the pkg to
supported platforms.
Based on the pkg found at
http://cherry.beevomit.org/downloads/netbsd-anvil/pkgsrc.emulators.hp-ski.tar.gz
The Ski simulator is a software package designed to functionally
simulate the IA-64 processor architecture at the instruction level.
Ski offers an informative, screen-oriented machine-state display and a
friendly, powerful command-line interface. Programs may be loaded from
disk in executable format; they may be run from start to finish, single-
stepped, and break-pointed. Execution can occur in a text-oriented or
a graphical user interface or in batch-mode, with no user-interface at
all. Both the user-level and the system-level machine-state can be
simulated. For user-level execution, Ski will intercept IA-64 Linux
system calls and translate them into the corresponding system calls of
the host operating system.
