fi
# Under Darwin, uname -m returns "i386" even if CPU is x86_64.
-if [ "$sbcl_os" = "darwin" ] && [ "`sysctl -n hw.optional.x86_64`" = "1" ]; then
+if [ "$sbcl_os" = "darwin" ] && [ "`/usr/sbin/sysctl -n hw.optional.x86_64`" = "1" ]; then
guessed_sbcl_arch=x86-64
fi
printf ' :bsd' >> $ltf
printf ' :darwin' >> $ltf
if [ $sbcl_arch = "x86" ]; then
- printf ' :mach-exception-handler :sb-lutex :restore-fs-segment-register-from-tls' >> $ltf
+ printf ' :mach-exception-handler :sb-lutex :restore-fs-segment-register-from-tls :ud2-breakpoints' >> $ltf
fi
if [ $sbcl_arch = "x86-64" ]; then
- printf ' :mach-exception-handler :sb-lutex' >> $ltf
+ printf ' :mach-exception-handler :sb-lutex :ud2-breakpoints' >> $ltf
fi
link_or_copy $sbcl_arch-darwin-os.h target-arch-os.h
link_or_copy bsd-os.h target-os.h
$GNUMAKE -C tools-for-build determine-endianness -I ../src/runtime
tools-for-build/determine-endianness >> $ltf
elif [ "$sbcl_arch" = "ppc" ]; then
- printf ' :gencgc :stack-allocatable-closures :stacka-allocatable-lists' >> $ltf
+ printf ' :gencgc :stack-allocatable-closures :stack-allocatable-lists' >> $ltf
printf ' :linkage-table' >> $ltf
if [ "$sbcl_os" = "linux" ]; then
# Use a C program to detect which kind of glibc we're building on,