This is done by prepending the file to elfxx-ia64, not appending it.
Additionally, reduce diffs between Makefile.amd64 and Makefile.ia64;
instead of echo'ing defines in Makefiles, just add the needed define to
elf-fbsd-brand.c directly, as it is only used for amd64 and ia64.
tc-sparc-fixed.c entirely, since the fix has been integrated into
contrib/binutils/gas/config/tc-sparc.c by upstream. Define TARGET_OS
in addition to the other TARGET_XXX defines.
and sys/boot/pc98/boot2, do not simply assign 'gcc' to CC, since compile
flags are sometimes passed via this variable, for example during the
build32 stage on amd64. This caused the 32-bit libobjc build on amd64
to fail.
Instead, only replace the first instance of clang (if any, including
optional path) with gcc, and leave the arguments alone.
Approved-by: rpaulo (mentor)
Because FreeBSD no longer supports the 80386 cpu all code targeting
FreeBSD/i386 necessarily runs on i486 or higher so the compiler
built-ins can be used by default inside libstdc++ and in C++ headers.
This allows newly compiled C++ code to inline some atomic operations.
Old binaries continue to use libstdc++ functions.
PR: 148926
Tested by: Yuri Karaban <tech askold net>
Reviewed by: kan
Approved by: kib (mentor)
MFC after: 2 weeks
gnu/lib/libobjc and sys/boot/i386/boot2, so it also works when using
absolute paths and/or options, as in CC="/absolute/path/clang -foo".
Approved by: rpaulo (mentor)
selected() callback. When the dialog first appears, you will not see
the printed statement on the dialog, if you move down one, you will,
move up again and it now appears. I am assuming that you call a
*printw() function on a line in the dialog box of course.
The fix, from the pr:
This is a hack at best, I looked at the redraw code in
dialog_checklist() and took the minimal amount of it out to do
a simple "refresh" right after the items are drawn. This
doesn't hurt anything and makes the library work like it
should. There is probably a better way however =).
PR: 148609
Submitted by: John Hixson
Unlike for modules with dso type, in elf object modules all the sections
have virtual address of zero. So, it is insufficient to add module base
address to section virtual address (as recorded in section header) to
get section address in kernel memory.
Instead, we should apply the same calculations that are performed by
kernel loaders (in boot code and in kernel) when they lay out sections
in memory.
Discussed with: jhb, np
MFC after: 3 weeks
