16 files changed, 0 insertions, 2740 deletions

diff --git a/tools/schedsim/rtems/.cvsignore b/tools/schedsim/rtems/.cvsignore
deleted file mode 100644
index 282522db03..0000000000
--- a/tools/schedsim/rtems/.cvsignore
+++ /dev/null
@@ -1,2 +0,0 @@
-Makefile
-Makefile.in
diff --git a/tools/schedsim/rtems/ChangeLog b/tools/schedsim/rtems/ChangeLog
deleted file mode 100644
index 22d4c315ca..0000000000
--- a/tools/schedsim/rtems/ChangeLog
+++ /dev/null
@@ -1,29 +0,0 @@
-2011-04-11	Joel Sherrill <joel.sherrill@oarcorp.com>
-
-	* Makefile.am: Add schedulersimple.h
-
-2011-04-07	Joel Sherrill <joel.sherrill@oarcorp.com>
-
-	* Makefile.am, wkspace.c: Compiles now and do not core dump when RTEMS
-	is not initialized.
-
-2011-02-28	Joel Sherrill <joel.sherrill@oarcorp.com>
-
-	* sched_cpu/rtems/score/cpuopts.h: Bump to 4.10.99.0
-
-2010-12-17	Joel Sherrill <joel.sherrill@oarcorp.com>
-
-	* .cvsignore: New file.
-
-2010-12-17	Joel Sherrill <joel.sherrill@oarcorp.com>
-		Jennifer Averett <jennifer.averett@oarcorp.com>
-
-	Add RTEMS Scheduler Simulator.  This is the RTEMS "port" to and
-	adapter code to run on GNU/Linux with a fake context switch.
-	* ChangeLog, Makefile.am, interr.c, rtems_init.c, rtems_sched.h,
-	wkspace.c, sched_cpu/cpu.c, sched_cpu/cpu_asm.c,
-	sched_cpu/rtems/asm.h, sched_cpu/rtems/stringto.h,
-	sched_cpu/rtems/score/cpu.h, sched_cpu/rtems/score/cpu_asm.h,
-	sched_cpu/rtems/score/cpuopts.h, sched_cpu/rtems/score/no_cpu.h,
-	sched_cpu/rtems/score/types.h: New files.
-
diff --git a/tools/schedsim/rtems/Makefile.am b/tools/schedsim/rtems/Makefile.am
deleted file mode 100644
index a143ee3172..0000000000
--- a/tools/schedsim/rtems/Makefile.am
+++ /dev/null
@@ -1,395 +0,0 @@
-##
-##  $Id$
-##
-
-ACLOCAL_AMFLAGS = -I ../../../aclocal
-
-lib_LIBRARIES = librtems.a
-
-cpukitdir=$(srcdir)/../../../cpukit
-librtems_a_CPPFLAGS  = -D__RTEMS_VIOLATE_KERNEL_VISIBILITY__
-librtems_a_CPPFLAGS += -I$(srcdir)/sched_cpu
-librtems_a_CPPFLAGS += -I$(cpukitdir)/include
-librtems_a_CPPFLAGS += -I$(cpukitdir)/score/include
-librtems_a_CPPFLAGS += -I$(cpukitdir)/score/inline
-librtems_a_CPPFLAGS += -I$(cpukitdir)/rtems/include
-librtems_a_CPPFLAGS += -I$(cpukitdir)/rtems/inline
-librtems_a_CPPFLAGS += -I$(cpukitdir)/sapi/include
-librtems_a_CPPFLAGS += -I$(cpukitdir)/sapi/inline
-librtems_a_CPPFLAGS += -I$(cpukitdir)/libcsupport/include
-librtems_a_CPPFLAGS += -I$(cpukitdir)/libmisc/stringto
-
-## Have own version of these
-librtems_a_SOURCES = rtems_init.c wkspace.c
-librtems_a_SOURCES += sched_cpu/cpu_asm.c
-librtems_a_SOURCES += sched_cpu/cpu.c
-
-## CPUKIT/SCORE/SRC
-librtems_a_SOURCES += $(cpukitdir)/score/src/interr.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/percpu.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/apiext.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/apimutexallocate.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/apimutex.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/apimutexlock.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/apimutexunlock.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/chainappend.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/chain.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/chainextract.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/chainget.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/chaininsert.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coremutex.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coremutexflush.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coremutexseize.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coremutexseizeintr.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coremutexsurrender.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coresem.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coresemflush.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coresemseize.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coresemsurrender.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coretod.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coretodget.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coretodgetuptime.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coretodgetuptimetimespec.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coretodmsecstoticks.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coretodset.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coretodtickle.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coretodtickspersec.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/coretodusectoticks.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectallocate.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectapimaximumclass.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectclose.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectextendinformation.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectfree.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectget.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectgetinfo.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectgetinfoid.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectgetisr.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectgetnameasstring.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectgetnext.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectgetnoprotection.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectidtoname.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectinitializeinformation.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectnamespaceremove.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectnametoid.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectnametoidstring.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectsetname.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/objectshrinkinformation.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/scheduler.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriorityallocate.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriorityblock.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriority.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriorityenqueue.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriorityenqueuefirst.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriorityextract.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriorityfree.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriorityschedule.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriorityunblock.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriorityupdate.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulerpriorityyield.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulersimpleblock.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulersimple.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulersimpleenqueue.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulersimpleenqueuefirst.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulersimpleextract.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulersimplereadyqueueenqueue.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulersimplereadyqueueenqueuefirst.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulersimpleschedule.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulersimpleunblock.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/schedulersimpleyield.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/thread.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadchangepriority.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadclearstate.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadclose.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadcreateidle.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threaddelayended.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threaddispatch.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadget.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadhandler.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadinitialize.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadloadenv.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadready.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadreset.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadrestart.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadsetpriority.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadsetstate.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadsettransient.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadstackallocate.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadstackfree.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadstart.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadstartmultitasking.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadtickletimeslice.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/iterateoverthreads.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadq.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadblockingoperationcancel.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqdequeue.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqdequeuefifo.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqdequeuepriority.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqenqueue.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqenqueuefifo.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqenqueuepriority.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqextract.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqextractfifo.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqextractpriority.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqextractwithproxy.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqfirst.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqfirstfifo.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqfirstpriority.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqflush.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqprocesstimeout.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqrequeue.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/threadqtimeout.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/timespecaddto.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/timespecdividebyinteger.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/timespecdivide.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/timespecfromticks.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/timespecgreaterthan.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/timespecisvalid.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/timespeclessthan.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/timespecsubtract.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/timespectoticks.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/userextaddset.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/userext.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/userextremoveset.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/userextthreadbegin.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/userextthreadcreate.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/userextthreaddelete.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/userextthreadrestart.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/userextthreadstart.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/userextthreadswitch.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/watchdogadjust.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/watchdogadjusttochain.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/watchdog.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/watchdoginsert.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/watchdognanoseconds.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/watchdogremove.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/watchdogreport.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/watchdogreportchain.c
-librtems_a_SOURCES += $(cpukitdir)/score/src/watchdogtickle.c
-librtems_a_SOURCES += $(cpukitdir)/sapi/src/debug.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clockgetsecondssinceepoch.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clockgettickspersecond.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clockgettickssinceboot.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clockgettod.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clockgettodtimeval.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clockgetuptime.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clockset.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clocksetnsecshandler.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clocktick.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clocktodtoseconds.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/clocktodvalidate.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/sem.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/semcreate.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/semdata.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/semdelete.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/semflush.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/semident.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/semobtain.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/semrelease.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/semtranslatereturncode.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/tasks.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/taskdata.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/taskmode.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/taskvariable_invoke_dtor.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/taskcreate.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/taskstart.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/taskident.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/taskdelete.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/taskresume.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/tasksuspend.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/tasksetpriority.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/taskmode.c
-librtems_a_SOURCES += $(cpukitdir)/rtems/src/taskwakeafter.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assoclocalbyname.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assoclocalbyremotebitfield.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assoclocalbyremote.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocnamebad.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocnamebylocalbitfield.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocnamebylocal.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocnamebyremotebitfield.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocnamebyremote.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocptrbylocal.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocptrbyname.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocptrbyremote.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocremotebylocalbitfield.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocremotebylocal.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/assocremotebyname.c
-librtems_a_SOURCES += $(cpukitdir)/libcsupport/src/error.c
-librtems_a_SOURCES += $(cpukitdir)/libmisc/stringto/stringtodouble.c
-librtems_a_SOURCES += $(cpukitdir)/libmisc/stringto/stringtofloat.c
-librtems_a_SOURCES += $(cpukitdir)/libmisc/stringto/stringtoint.c
-librtems_a_SOURCES += $(cpukitdir)/libmisc/stringto/stringtolong.c
-librtems_a_SOURCES += $(cpukitdir)/libmisc/stringto/stringtopointer.c
-librtems_a_SOURCES += $(cpukitdir)/libmisc/stringto/stringtounsignedchar.c
-librtems_a_SOURCES += $(cpukitdir)/libmisc/stringto/stringtounsignedint.c
-librtems_a_SOURCES += $(cpukitdir)/libmisc/stringto/stringtounsignedlong.c
-
-schedsim_includedir = $(includedir)/schedsim
-schedsim_rtems_includedir = $(includedir)/schedsim/rtems
-schedsim_rtems_score_includedir = $(includedir)/schedsim/rtems/score
-schedsim_rtems_rtems_includedir = $(includedir)/schedsim/rtems/rtems
-
-schedsim_include_HEADERS  = \
- ${cpukitdir}/rtems/include/rtems.h
-
-schedsim_rtems_include_HEADERS  = \
-  ${cpukitdir}/score/include//rtems/seterr.h \
-  ${cpukitdir}/score/include/rtems/system.h \
-  ${cpukitdir}/score/include/rtems/debug.h \
-  ${cpukitdir}/score/include/rtems/bspsmp.h \
-  ${cpukitdir}/include/rtems/bspIo.h \
-  $(cpukitdir)/sapi/include/rtems/fatal.h \
-  $(cpukitdir)/sapi/include/rtems/init.h \
-  $(cpukitdir)/sapi/include/rtems/config.h \
-  $(cpukitdir)/sapi/include/rtems/sptables.h \
-  $(cpukitdir)/sapi/include/rtems/io.h \
-  $(cpukitdir)/sapi/include/rtems/mptables.h \
-  $(cpukitdir)/sapi/include/rtems/extension.h \
-  $(cpukitdir)/sapi/include/rtems/chain.h \
-  $(cpukitdir)/sapi/include/confdefs.h \
-  $(cpukitdir)/libcsupport/include/rtems/libio_.h \
-  $(cpukitdir)/libcsupport/include/rtems/watchdogdrv.h \
-  $(cpukitdir)/libcsupport/include/rtems/error.h \
-  $(cpukitdir)/libcsupport/include/rtems/framebuffer.h \
-  $(cpukitdir)/libcsupport/include/rtems/assoc.h \
-  $(cpukitdir)/libcsupport/include/rtems/libio.h \
-  $(cpukitdir)/libcsupport/include/rtems/gxx_wrappers.h \
-  $(cpukitdir)/libcsupport/include/rtems/libcsupport.h \
-  $(cpukitdir)/libcsupport/include/rtems/termiostypes.h \
-  $(cpukitdir)/libcsupport/include/rtems/malloc.h \
-  sched_cpu/rtems/stringto.h \
-  sched_cpu/rtems/asm.h 
-
-schedsim_rtems_score_include_HEADERS = \
-  ${cpukitdir}/score/include/rtems/score/address.h \
-  ${cpukitdir}/score/include/rtems/score/coremutex.h \
-  ${cpukitdir}/score/include/rtems/score/corerwlock.h \
-  ${cpukitdir}/score/include/rtems/score/threadsync.h \
-  ${cpukitdir}/score/include/rtems/score/priority.h \
-  ${cpukitdir}/score/include/rtems/score/sysstate.h \
-  ${cpukitdir}/score/include/rtems/score/threadmp.h \
-  ${cpukitdir}/score/include/rtems/score/mppkt.h \
-  ${cpukitdir}/score/include/rtems/score/stack.h \
-  ${cpukitdir}/score/include/rtems/score/context.h \
-  ${cpukitdir}/score/include/rtems/score/heap.h \
-  ${cpukitdir}/score/include/rtems/score/coresem.h \
-  ${cpukitdir}/score/include/rtems/score/corebarrier.h \
-  ${cpukitdir}/score/include/rtems/score/corespinlock.h \
-  ${cpukitdir}/score/include/rtems/score/prioritybitmap.h \
-  ${cpukitdir}/score/include/rtems/score/timestamp.h \
-  ${cpukitdir}/score/include/rtems/score/basedefs.h \
-  ${cpukitdir}/score/include/rtems/score/wkspace.h \
-  ${cpukitdir}/score/include/rtems/score/percpu.h \
-  ${cpukitdir}/score/include/rtems/score/watchdog.h \
-  ${cpukitdir}/score/include/rtems/score/tod.h \
-  ${cpukitdir}/score/include/rtems/score/protectedheap.h \
-  ${cpukitdir}/score/include/rtems/score/timestamp64.h \
-  ${cpukitdir}/score/include/rtems/score/chain.h \
-  ${cpukitdir}/score/include/rtems/score/apiext.h \
-  ${cpukitdir}/score/include/rtems/score/userext.h \
-  ${cpukitdir}/score/include/rtems/score/threadq.h \
-  ${cpukitdir}/score/include/rtems/score/apimutex.h \
-  ${cpukitdir}/score/include/rtems/score/scheduler.h \
-  ${cpukitdir}/score/include/rtems/score/isr.h \
-  ${cpukitdir}/score/include/rtems/score/mpci.h \
-  ${cpukitdir}/score/include/rtems/score/object.h \
-  ${cpukitdir}/score/include/rtems/score/copyrt.h \
-  ${cpukitdir}/score/include/rtems/score/states.h \
-  ${cpukitdir}/score/include/rtems/score/objectmp.h \
-  ${cpukitdir}/score/include/rtems/score/thread.h \
-  ${cpukitdir}/score/include/rtems/score/coremsg.h \
-  ${cpukitdir}/score/include/rtems/score/schedulerpriority.h \
-  ${cpukitdir}/score/include/rtems/score/schedulersimple.h \
-  ${cpukitdir}/score/include/rtems/score/timespec.h \
-  ${cpukitdir}/score/include/rtems/score/tqdata.h \
-  ${cpukitdir}/score/include/rtems/score/bitfield.h \
-  ${cpukitdir}/score/include/rtems/score/interr.h \
-  $(cpukitdir)/score/inline/rtems/score/address.inl \
-  $(cpukitdir)/score/inline/rtems/score/corespinlock.inl \
-  $(cpukitdir)/score/inline/rtems/score/priority.inl \
-  $(cpukitdir)/score/inline/rtems/score/threadmp.inl \
-  $(cpukitdir)/score/inline/rtems/score/chain.inl \
-  $(cpukitdir)/score/inline/rtems/score/heap.inl \
-  $(cpukitdir)/score/inline/rtems/score/scheduler.inl \
-  $(cpukitdir)/score/inline/rtems/score/threadq.inl \
-  $(cpukitdir)/score/inline/rtems/score/corebarrier.inl \
-  $(cpukitdir)/score/inline/rtems/score/isr.inl \
-  $(cpukitdir)/score/inline/rtems/score/schedulerpriority.inl \
-  $(cpukitdir)/score/inline/rtems/score/tod.inl \
-  $(cpukitdir)/score/inline/rtems/score/coremsg.inl \
-  $(cpukitdir)/score/inline/rtems/score/mppkt.inl \
-  $(cpukitdir)/score/inline/rtems/score/stack.inl \
-  $(cpukitdir)/score/inline/rtems/score/tqdata.inl \
-  $(cpukitdir)/score/inline/rtems/score/coremutex.inl \
-  $(cpukitdir)/score/inline/rtems/score/object.inl \
-  $(cpukitdir)/score/inline/rtems/score/states.inl \
-  $(cpukitdir)/score/inline/rtems/score/watchdog.inl \
-  $(cpukitdir)/score/inline/rtems/score/corerwlock.inl \
-  $(cpukitdir)/score/inline/rtems/score/objectmp.inl \
-  $(cpukitdir)/score/inline/rtems/score/sysstate.inl \
-  $(cpukitdir)/score/inline/rtems/score/wkspace.inl \
-  $(cpukitdir)/score/inline/rtems/score/coresem.inl \
-  $(cpukitdir)/score/inline/rtems/score/prioritybitmap.inl \
-  $(cpukitdir)/score/inline/rtems/score/thread.inl \
-  sched_cpu/rtems/score/cpu_asm.h \
-  sched_cpu/rtems/score/cpuopts.h \
-  sched_cpu/rtems/score/cpu.h \
-  sched_cpu/rtems/score/types.h \
-  sched_cpu/rtems/score/no_cpu.h 
-
-
-schedsim_rtems_rtems_include_HEADERS = \
-  ${cpukitdir}/rtems/include/rtems/rtems/event.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/cache.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/timer.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/regionmp.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/config.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/ratemon.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/rtemsapi.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/eventset.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/mp.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/dpmem.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/status.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/sem.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/barriermp.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/types.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/intr.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/signalmp.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/eventmp.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/part.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/message.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/region.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/object.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/partmp.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/msgmp.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/clock.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/modes.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/taskmp.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/asr.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/semmp.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/options.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/attr.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/support.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/signal.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/barrier.h \
-  ${cpukitdir}/rtems/include/rtems/rtems/tasks.h \
-  $(cpukitdir)/rtems/inline/rtems/rtems/asr.inl  \
-  $(cpukitdir)/rtems/inline/rtems/rtems/eventset.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/ratemon.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/tasks.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/attr.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/message.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/region.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/timer.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/barrier.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/modes.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/sem.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/dpmem.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/options.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/status.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/event.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/part.inl \
-  $(cpukitdir)/rtems/inline/rtems/rtems/support.inl
-
-schedsim_include_HEADERS += rtems_sched.h
-
-include $(top_srcdir)/../../automake/host.am
diff --git a/tools/schedsim/rtems/interr.c b/tools/schedsim/rtems/interr.c
deleted file mode 100644
index 526dbe033c..0000000000
--- a/tools/schedsim/rtems/interr.c
+++ /dev/null
@@ -1,67 +0,0 @@
-/*
- *  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR
- *
- *  Internal Error Handler
- *
- *  COPYRIGHT (c) 1989-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  The license and distribution terms for this file may be
- *  found in the file LICENSE in this distribution or at
- *  http://www.rtems.com/license/LICENSE.
- *
- *  $Id$
- */
-
-#if HAVE_CONFIG_H
-#include "config.h"
-#endif
-
-#include <rtems/system.h>
-#include <rtems/score/interr.h>
-#include <rtems/score/sysstate.h>
-#include <rtems/score/userext.h>
-
-/*PAGE
- *
- *  _Internal_error_Occurred
- *
- *  This routine will invoke the fatal error handler supplied by the user
- *  followed by the the default one provided by the executive.  The default
- *  error handler assumes no hardware is present to help inform the user
- *  of the problem.  Halt stores the error code in a known register,
- *  disables interrupts, and halts the CPU.  If the CPU does not have a
- *  halt instruction, it will loop to itself.
- *
- *  Input parameters:
- *    the_source  - what subsystem the error originated in
- *    is_internal - if the error was internally generated
- *    the_error   - fatal error status code
- *
- *  Output parameters:
- *    As much information as possible is stored in a CPU dependent fashion.
- *    See the CPU dependent code for more information.
- *
- *  NOTE: The the_error is not necessarily a directive status code.
- */
-
-void _Internal_error_Occurred(
-  Internal_errors_Source  the_source,
-  bool                    is_internal,
-  Internal_errors_t       the_error
-)
-{
-
-  _Internal_errors_What_happened.the_source  = the_source;
-  _Internal_errors_What_happened.is_internal = is_internal;
-  _Internal_errors_What_happened.the_error   = the_error;
-
-  // _User_extensions_Fatal( the_source, is_internal, the_error );
-
-  _System_state_Set( SYSTEM_STATE_FAILED );
-
-  _CPU_Fatal_halt( the_error );
-
-  /* will not return from this routine */
-  while (true);
-}
diff --git a/tools/schedsim/rtems/rtems_init.c b/tools/schedsim/rtems/rtems_init.c
deleted file mode 100644
index 4e7ab0d353..0000000000
--- a/tools/schedsim/rtems/rtems_init.c
+++ /dev/null
@@ -1,110 +0,0 @@
-/*
- *  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR
- *
- *  COPYRIGHT (c) 1989-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  The license and distribution terms for this file may be
- *  found in the file LICENSE in this distribution or at
- *  http://www.rtems.com/license/LICENSE.
- *
- *  $Id$
- */
-
-
-#define SAPI_INIT
-#define SCORE_INIT
-#define RTEMS_API_INIT
-
-#include <rtems.h> 
-#include <rtems/score/apiext.h>
-#include <rtems/score/bitfield.h>
-#include <rtems/score/apimutex.h>
-#include <rtems/score/wkspace.h>
-
-Objects_Information *_Internal_Objects[ OBJECTS_INTERNAL_CLASSES_LAST + 1 ];
-
-Objects_Information *_RTEMS_Objects[ OBJECTS_RTEMS_CLASSES_LAST + 1 ];
-
-extern void check_heir_and_executing(void);
-
-void rtems_initialize_data_structures(void)
-{
-  _System_state_Handler_initialization( FALSE );
-
-  /*
-   *  Do this as early as possible to ensure no debugging output
-   *  is even attempted to be printed.
-   */
-  _Debug_Manager_initialization();
-
-  _API_extensions_Initialization();
-
-  _Thread_Dispatch_initialization();
-
-  /*
-   *  Before this is called, we are not allowed to allocate memory
-   *  from the Workspace because it is not initialized.
-   */
-  _Workspace_Handler_initialization();
-
-  _User_extensions_Handler_initialization();
-
-  // _ISR_Handler_initialization();
-
-  /*
-   * Initialize the internal support API and allocator Mutex
-   */
-  _Objects_Information_table[OBJECTS_INTERNAL_API] = _Internal_Objects;
-
-  _API_Mutex_Initialization( 1 );
-  _API_Mutex_Allocate( &_RTEMS_Allocator_Mutex );
-
-  _Priority_bit_map_Handler_initialization();
-  _Watchdog_Handler_initialization();
-  _TOD_Handler_initialization();
-
-  _Thread_Handler_initialization();
-
-  _Scheduler_Handler_initialization();
-
-
-/* MANAGERS */
-  /*
-   * Install our API Object Management Table and initialize the
-   * various managers.
-   */
-  _Objects_Information_table[OBJECTS_CLASSIC_API] = _RTEMS_Objects;
-
-  _RTEMS_tasks_Manager_initialization();
-  _Semaphore_Manager_initialization();
-
-  _System_state_Set( SYSTEM_STATE_BEFORE_MULTITASKING );
-
-  /*
-   *  No threads should be created before this point!!!
-   *  _Thread_Executing and _Thread_Heir are not set.
-   *
-   *  At this point all API extensions are in place.  After the call to
-   *  _Thread_Create_idle() _Thread_Executing and _Thread_Heir will be set.
-   */
-  _Thread_Create_idle();
-
-  /*
-   *  Scheduling can properly occur now as long as we avoid dispatching.
-   */
-
-  _System_state_Set( SYSTEM_STATE_BEGIN_MULTITASKING );
-
-  _Thread_Start_multitasking();
-
-  /*
-   *  Now we are back in a non-dispatching critical section
-   */
-  _Thread_Dispatch_set_disable_level(0);
-
-  /*
-   * Print an initial message
-   */
-  check_heir_and_executing();
-}
diff --git a/tools/schedsim/rtems/rtems_sched.h b/tools/schedsim/rtems/rtems_sched.h
deleted file mode 100644
index f399f0c1fb..0000000000
--- a/tools/schedsim/rtems/rtems_sched.h
+++ /dev/null
@@ -1,27 +0,0 @@
-/*
- *  RTEMS Scheduler Simulator Interface
- *
- *  COPYRIGHT (c) 1989-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  The license and distribution terms for this file may be
- *  found in the file LICENSE in this distribution or at
- *  http://www.rtems.com/license/LICENSE.
- *
- *  $Id$
- */
-
-#ifndef __RTEMS_SCHEDULER_SIMULATOR_h
-#define __RTEMS_SCHEDULER_SIMULATOR_h
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-void rtems_initialize_data_structures(void);
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif
diff --git a/tools/schedsim/rtems/sched_cpu/cpu.c b/tools/schedsim/rtems/sched_cpu/cpu.c
deleted file mode 100644
index 0d2e6f6206..0000000000
--- a/tools/schedsim/rtems/sched_cpu/cpu.c
+++ /dev/null
@@ -1,169 +0,0 @@
-/*
- *  XXX CPU Dependent Source
- *
- *  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR
- *
- *  COPYRIGHT (c) 1989-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  The license and distribution terms for this file may be
- *  found in the file LICENSE in this distribution or at
- *  http://www.rtems.com/license/LICENSE.
- *
- *  $Id$
- */
-
-#ifdef HAVE_CONFIG_H
-#include "config.h"
-#endif
-
-#include <rtems/system.h>
-#include <rtems/score/isr.h>
-#include <rtems/score/wkspace.h>
-
-/*  _CPU_Initialize
- *
- *  This routine performs processor dependent initialization.
- *
- *  INPUT PARAMETERS: NONE
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-void _CPU_Initialize(void)
-{
-  /*
-   *  If there is not an easy way to initialize the FP context
-   *  during Context_Initialize, then it is usually easier to
-   *  save an "uninitialized" FP context here and copy it to
-   *  the task's during Context_Initialize.
-   */
-
-  /* FP context initialization support goes here */
-}
-
-/*PAGE
- *
- *  _CPU_ISR_Get_level
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-uint32_t   _CPU_ISR_Get_level( void )
-{
-  /*
-   *  This routine returns the current interrupt level.
-   */
-
-  return 0;
-}
-
-/*PAGE
- *
- *  _CPU_ISR_install_raw_handler
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-void _CPU_ISR_install_raw_handler(
-  uint32_t    vector,
-  proc_ptr    new_handler,
-  proc_ptr   *old_handler
-)
-{
-  /*
-   *  This is where we install the interrupt handler into the "raw" interrupt
-   *  table used by the CPU to dispatch interrupt handlers.
-   */
-}
-
-/*PAGE
- *
- *  _CPU_ISR_install_vector
- *
- *  This kernel routine installs the RTEMS handler for the
- *  specified vector.
- *
- *  Input parameters:
- *    vector      - interrupt vector number
- *    old_handler - former ISR for this vector number
- *    new_handler - replacement ISR for this vector number
- *
- *  Output parameters:  NONE
- *
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-void _CPU_ISR_install_vector(
-  uint32_t    vector,
-  proc_ptr    new_handler,
-  proc_ptr   *old_handler
-)
-{
-   *old_handler = _ISR_Vector_table[ vector ];
-
-   /*
-    *  If the interrupt vector table is a table of pointer to isr entry
-    *  points, then we need to install the appropriate RTEMS interrupt
-    *  handler for this vector number.
-    */
-
-   _CPU_ISR_install_raw_handler( vector, new_handler, old_handler );
-
-   /*
-    *  We put the actual user ISR address in '_ISR_vector_table'.  This will
-    *  be used by the _ISR_Handler so the user gets control.
-    */
-
-    _ISR_Vector_table[ vector ] = new_handler;
-}
-
-/*PAGE
- *
- *  _CPU_Install_interrupt_stack
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-void _CPU_Install_interrupt_stack( void )
-{
-}
-
-/*PAGE
- *
- *  _CPU_Thread_Idle_body
- *
- *  NOTES:
- *
- *  1. This is the same as the regular CPU independent algorithm.
- *
- *  2. If you implement this using a "halt", "idle", or "shutdown"
- *     instruction, then don't forget to put it in an infinite loop.
- *
- *  3. Be warned. Some processors with onboard DMA have been known
- *     to stop the DMA if the CPU were put in IDLE mode.  This might
- *     also be a problem with other on-chip peripherals.  So use this
- *     hook with caution.
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-void *_CPU_Thread_Idle_body( uintptr_t ignored )
-{
-
-  for( ; ; )
-    /* insert your "halt" instruction here */ ;
-}
diff --git a/tools/schedsim/rtems/sched_cpu/cpu_asm.c b/tools/schedsim/rtems/sched_cpu/cpu_asm.c
deleted file mode 100644
index e31c980a25..0000000000
--- a/tools/schedsim/rtems/sched_cpu/cpu_asm.c
+++ /dev/null
@@ -1,188 +0,0 @@
-/*  cpu_asm.c  ===> cpu_asm.S or cpu_asm.s
- *  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR
- *
- *
- *  This file contains the basic algorithms for all assembly code used
- *  in an specific CPU port of RTEMS.  These algorithms must be implemented
- *  in assembly language
- *
- *  NOTE:  This is supposed to be a .S or .s file NOT a C file.
- *
- *  COPYRIGHT (c) 1989-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  The license and distribution terms for this file may be
- *  found in the file LICENSE in this distribution or at
- *  http://www.rtems.com/license/LICENSE.
- *
- *  $Id$
- */
-
-/*
- *  This is supposed to be an assembly file.  This means that system.h
- *  and cpu.h should not be included in a "real" cpu_asm file.  An
- *  implementation in assembly should include "cpu_asm.h>
- */
-
-#ifdef HAVE_CONFIG_H
-#include "config.h"
-#endif
-
-#include <rtems/system.h>
-#include <rtems/score/cpu.h>
-/* #include "cpu_asm.h> */
-
-/*
- *  _CPU_Context_save_fp_context
- *
- *  This routine is responsible for saving the FP context
- *  at *fp_context_ptr.  If the point to load the FP context
- *  from is changed then the pointer is modified by this routine.
- *
- *  Sometimes a macro implementation of this is in cpu.h which dereferences
- *  the ** and a similarly named routine in this file is passed something
- *  like a (Context_Control_fp *).  The general rule on making this decision
- *  is to avoid writing assembly language.
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-void _CPU_Context_save_fp(
-  Context_Control_fp **fp_context_ptr
-)
-{
-}
-
-/*
- *  _CPU_Context_restore_fp_context
- *
- *  This routine is responsible for restoring the FP context
- *  at *fp_context_ptr.  If the point to load the FP context
- *  from is changed then the pointer is modified by this routine.
- *
- *  Sometimes a macro implementation of this is in cpu.h which dereferences
- *  the ** and a similarly named routine in this file is passed something
- *  like a (Context_Control_fp *).  The general rule on making this decision
- *  is to avoid writing assembly language.
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-void _CPU_Context_restore_fp(
-  Context_Control_fp **fp_context_ptr
-)
-{
-}
-
-/*  _CPU_Context_switch
- *
- *  This routine performs a normal non-FP context switch.
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-void _CPU_Context_switch(
-  Context_Control  *run,
-  Context_Control  *heir
-)
-{
-}
-
-/*
- *  _CPU_Context_restore
- *
- *  This routine is generally used only to restart self in an
- *  efficient manner.  It may simply be a label in _CPU_Context_switch.
- *
- *  NOTE: May be unnecessary to reload some registers.
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-void _CPU_Context_restore(
-  Context_Control *new_context
-)
-{
-}
-
-/*  void __ISR_Handler()
- *
- *  This routine provides the RTEMS interrupt management.
- *
- *  NO_CPU Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-void _ISR_Handler(void)
-{
-   /*
-    *  This discussion ignores a lot of the ugly details in a real
-    *  implementation such as saving enough registers/state to be
-    *  able to do something real.  Keep in mind that the goal is
-    *  to invoke a user's ISR handler which is written in C and
-    *  uses a certain set of registers.
-    *
-    *  Also note that the exact order is to a large extent flexible.
-    *  Hardware will dictate a sequence for a certain subset of
-    *  _ISR_Handler while requirements for setting
-    */
-
-  /*
-   *  At entry to "common" _ISR_Handler, the vector number must be
-   *  available.  On some CPUs the hardware puts either the vector
-   *  number or the offset into the vector table for this ISR in a
-   *  known place.  If the hardware does not give us this information,
-   *  then the assembly portion of RTEMS for this port will contain
-   *  a set of distinct interrupt entry points which somehow place
-   *  the vector number in a known place (which is safe if another
-   *  interrupt nests this one) and branches to _ISR_Handler.
-   *
-   *  save some or all context on stack
-   *  may need to save some special interrupt information for exit
-   *
-   *  #if ( CPU_HAS_SOFTWARE_INTERRUPT_STACK == TRUE )
-   *    if ( _ISR_Nest_level == 0 )
-   *      switch to software interrupt stack
-   *  #endif
-   *
-   *  _ISR_Nest_level++;
-   *
-   *  _Thread_Dispatch_disable_level++;
-   *
-   *  (*_ISR_Vector_table[ vector ])( vector );
-   *
-   *  _Thread_Dispatch_disable_level--;
-   *
-   *  --_ISR_Nest_level;
-   *
-   *  if ( _ISR_Nest_level )
-   *    goto the label "exit interrupt (simple case)"
-   *
-   *  if ( _Thread_Dispatch_disable_level )
-   *    _ISR_Signals_to_thread_executing = FALSE;
-   *    goto the label "exit interrupt (simple case)"
-   *
-   *  if ( _Context_Switch_necessary || _ISR_Signals_to_thread_executing ) {
-   *    _ISR_Signals_to_thread_executing = FALSE;
-   *    call _Thread_Dispatch() or prepare to return to _ISR_Dispatch
-   *    prepare to get out of interrupt
-   *    return from interrupt  (maybe to _ISR_Dispatch)
-   *
-   *  LABEL "exit interrupt (simple case):
-   *  #if ( CPU_HAS_SOFTWARE_INTERRUPT_STACK == TRUE )
-   *    if outermost interrupt
-   *      restore stack
-   *  #endif
-   *  prepare to get out of interrupt
-   *  return from interrupt
-   */
-}
diff --git a/tools/schedsim/rtems/sched_cpu/rtems/asm.h b/tools/schedsim/rtems/sched_cpu/rtems/asm.h
deleted file mode 100644
index 8ad1d57032..0000000000
--- a/tools/schedsim/rtems/sched_cpu/rtems/asm.h
+++ /dev/null
@@ -1,127 +0,0 @@
-/**
- * @file rtems/asm.h
- *
- *  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR
- *
- *  This include file attempts to address the problems
- *  caused by incompatible flavors of assemblers and
- *  toolsets.  It primarily addresses variations in the
- *  use of leading underscores on symbols and the requirement
- *  that register names be preceded by a %.
- */
-
-/*
- *  NOTE: The spacing in the use of these macros
- *        is critical to them working as advertised.
- *
- *  COPYRIGHT:
- *
- *  This file is based on similar code found in newlib available
- *  from ftp.cygnus.com.  The file which was used had no copyright
- *  notice.  This file is freely distributable as long as the source
- *  of the file is noted.  This file is:
- *
- *  COPYRIGHT (c) 1994-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  $Id$
- */
-
-#ifndef _RTEMS_ASM_H
-#define _RTEMS_ASM_H
-
-/*
- *  Indicate we are in an assembly file and get the basic CPU definitions.
- */
-
-#ifndef ASM
-#define ASM
-#endif
-#include <rtems/score/cpuopts.h>
-#include <rtems/score/no_cpu.h>
-
-#ifndef __USER_LABEL_PREFIX__
-/**
- *  Recent versions of GNU cpp define variables which indicate the
- *  need for underscores and percents.  If not using GNU cpp or
- *  the version does not support this, then you will obviously
- *  have to define these as appropriate.
- *
- *  This symbol is prefixed to all C program symbols.
- */
-#define __USER_LABEL_PREFIX__ _
-#endif
-
-#ifndef __REGISTER_PREFIX__
-/**
- *  Recent versions of GNU cpp define variables which indicate the
- *  need for underscores and percents.  If not using GNU cpp or
- *  the version does not support this, then you will obviously
- *  have to define these as appropriate.
- *
- *  This symbol is prefixed to all register names.
- */
-#define __REGISTER_PREFIX__
-#endif
-
-#include <rtems/concat.h>
-
-/** Use the right prefix for global labels.  */
-#define SYM(x) CONCAT1 (__USER_LABEL_PREFIX__, x)
-
-/** Use the right prefix for registers.  */
-#define REG(x) CONCAT1 (__REGISTER_PREFIX__, x)
-
-/*
- *  define macros for all of the registers on this CPU
- *
- *  EXAMPLE:     #define d0 REG (d0)
- */
-
-/*
- *  Define macros to handle section beginning and ends.
- */
-
-
-/** This macro is used to denote the beginning of a code declaration. */
-#define BEGIN_CODE_DCL .text
-/** This macro is used to denote the end of a code declaration. */
-#define END_CODE_DCL
-/** This macro is used to denote the beginning of a data declaration section. */
-#define BEGIN_DATA_DCL .data
-/** This macro is used to denote the end of a data declaration section. */
-#define END_DATA_DCL
-/** This macro is used to denote the beginning of a code section. */
-#define BEGIN_CODE .text
-/** This macro is used to denote the end of a code section. */
-#define END_CODE
-/** This macro is used to denote the beginning of a data section. */
-#define BEGIN_DATA
-/** This macro is used to denote the end of a data section. */
-#define END_DATA
-/** This macro is used to denote the beginning of the
- *  unitialized data section.
- */
-#define BEGIN_BSS
-/** This macro is used to denote the end of the unitialized data section.  */
-#define END_BSS
-/** This macro is used to denote the end of the assembly file.  */
-#define END
-
-/**
- *  This macro is used to declare a public global symbol.
- *
- *  @note This must be tailored for a particular flavor of the C compiler.
- *  They may need to put underscores in front of the symbols.
- */
-#define PUBLIC(sym) .globl SYM (sym)
-
-/**
- *  This macro is used to prototype a public global symbol.
- *
- *  @note This must be tailored for a particular flavor of the C compiler.
- *  They may need to put underscores in front of the symbols.
- */
-#define EXTERN(sym) .globl SYM (sym)
-
-#endif
diff --git a/tools/schedsim/rtems/sched_cpu/rtems/score/cpu.h b/tools/schedsim/rtems/sched_cpu/rtems/score/cpu.h
deleted file mode 100644
index f47c8c3005..0000000000
--- a/tools/schedsim/rtems/sched_cpu/rtems/score/cpu.h
+++ /dev/null
@@ -1,1269 +0,0 @@
-/**
- * @file rtems/score/cpu.h
- */
-
-/*
- *  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR
- *
- *  This include file contains information pertaining to the XXX
- *  processor.
- *
- *  @note This file is part of a porting template that is intended
- *  to be used as the starting point when porting RTEMS to a new
- *  CPU family.  The following needs to be done when using this as
- *  the starting point for a new port:
- *
- *  + Anywhere there is an XXX, it should be replaced
- *    with information about the CPU family being ported to.
- *
- *  + At the end of each comment section, there is a heading which
- *    says "Port Specific Information:".  When porting to RTEMS,
- *    add CPU family specific information in this section
- */
-
-/*
- *  COPYRIGHT (c) 1989-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  The license and distribution terms for this file may be
- *  found in the file LICENSE in this distribution or at
- *  http://www.rtems.com/license/LICENSE.
- *
- *  $Id$
- */
-
-#ifndef _RTEMS_SCORE_CPU_H
-#define _RTEMS_SCORE_CPU_H
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-#include <stdio.h>  /* fprintf */
-#include <stdlib.h> /* exit */
-
-#include <rtems/score/no_cpu.h>            /* pick up machine definitions */
-#ifndef ASM
-#include <rtems/score/types.h>
-#endif
-
-/* conditional compilation parameters */
-
-/**
- *  Should the calls to @ref _Thread_Enable_dispatch be inlined?
- *
- *  If TRUE, then they are inlined.
- *  If FALSE, then a subroutine call is made.
- *
- *  This conditional is an example of the classic trade-off of size
- *  versus speed.  Inlining the call (TRUE) typically increases the
- *  size of RTEMS while speeding up the enabling of dispatching.
- *
- *  @note In general, the @ref _Thread_Dispatch_disable_level will
- *  only be 0 or 1 unless you are in an interrupt handler and that
- *  interrupt handler invokes the executive.]  When not inlined
- *  something calls @ref _Thread_Enable_dispatch which in turns calls
- *  @ref _Thread_Dispatch.  If the enable dispatch is inlined, then
- *  one subroutine call is avoided entirely.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_INLINE_ENABLE_DISPATCH       TRUE
-
-/**
- *  Should the body of the search loops in _Thread_queue_Enqueue_priority
- *  be unrolled one time?  In unrolled each iteration of the loop examines
- *  two "nodes" on the chain being searched.  Otherwise, only one node
- *  is examined per iteration.
- *
- *  If TRUE, then the loops are unrolled.
- *  If FALSE, then the loops are not unrolled.
- *
- *  The primary factor in making this decision is the cost of disabling
- *  and enabling interrupts (_ISR_Flash) versus the cost of rest of the
- *  body of the loop.  On some CPUs, the flash is more expensive than
- *  one iteration of the loop body.  In this case, it might be desirable
- *  to unroll the loop.  It is important to note that on some CPUs, this
- *  code is the longest interrupt disable period in RTEMS.  So it is
- *  necessary to strike a balance when setting this parameter.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_UNROLL_ENQUEUE_PRIORITY      TRUE
-
-/**
- *  Does RTEMS manage a dedicated interrupt stack in software?
- *
- *  If TRUE, then a stack is allocated in @ref _ISR_Handler_initialization.
- *  If FALSE, nothing is done.
- *
- *  If the CPU supports a dedicated interrupt stack in hardware,
- *  then it is generally the responsibility of the BSP to allocate it
- *  and set it up.
- *
- *  If the CPU does not support a dedicated interrupt stack, then
- *  the porter has two options: (1) execute interrupts on the
- *  stack of the interrupted task, and (2) have RTEMS manage a dedicated
- *  interrupt stack.
- *
- *  If this is TRUE, @ref CPU_ALLOCATE_INTERRUPT_STACK should also be TRUE.
- *
- *  Only one of @ref CPU_HAS_SOFTWARE_INTERRUPT_STACK and
- *  @ref CPU_HAS_HARDWARE_INTERRUPT_STACK should be set to TRUE.  It is
- *  possible that both are FALSE for a particular CPU.  Although it
- *  is unclear what that would imply about the interrupt processing
- *  procedure on that CPU.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_HAS_SOFTWARE_INTERRUPT_STACK FALSE
-
-/**
- *  Does the CPU follow the simple vectored interrupt model?
- *
- *  If TRUE, then RTEMS allocates the vector table it internally manages.
- *  If FALSE, then the BSP is assumed to allocate and manage the vector
- *  table
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_SIMPLE_VECTORED_INTERRUPTS TRUE
-
-/**
- *  Does this CPU have hardware support for a dedicated interrupt stack?
- *
- *  If TRUE, then it must be installed during initialization.
- *  If FALSE, then no installation is performed.
- *
- *  If this is TRUE, @ref CPU_ALLOCATE_INTERRUPT_STACK should also be TRUE.
- *
- *  Only one of @ref CPU_HAS_SOFTWARE_INTERRUPT_STACK and
- *  @ref CPU_HAS_HARDWARE_INTERRUPT_STACK should be set to TRUE.  It is
- *  possible that both are FALSE for a particular CPU.  Although it
- *  is unclear what that would imply about the interrupt processing
- *  procedure on that CPU.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_HAS_HARDWARE_INTERRUPT_STACK TRUE
-
-/**
- *  Does RTEMS allocate a dedicated interrupt stack in the Interrupt Manager?
- *
- *  If TRUE, then the memory is allocated during initialization.
- *  If FALSE, then the memory is allocated during initialization.
- *
- *  This should be TRUE is CPU_HAS_SOFTWARE_INTERRUPT_STACK is TRUE.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_ALLOCATE_INTERRUPT_STACK TRUE
-
-/**
- *  Does the RTEMS invoke the user's ISR with the vector number and
- *  a pointer to the saved interrupt frame (1) or just the vector
- *  number (0)?
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_ISR_PASSES_FRAME_POINTER 0
-
-/**
- *  @def CPU_HARDWARE_FP
- *
- *  Does the CPU have hardware floating point?
- *
- *  If TRUE, then the RTEMS_FLOATING_POINT task attribute is supported.
- *  If FALSE, then the RTEMS_FLOATING_POINT task attribute is ignored.
- *
- *  If there is a FP coprocessor such as the i387 or mc68881, then
- *  the answer is TRUE.
- *
- *  The macro name "NO_CPU_HAS_FPU" should be made CPU specific.
- *  It indicates whether or not this CPU model has FP support.  For
- *  example, it would be possible to have an i386_nofp CPU model
- *  which set this to false to indicate that you have an i386 without
- *  an i387 and wish to leave floating point support out of RTEMS.
- */
-
-/**
- *  @def CPU_SOFTWARE_FP
- *
- *  Does the CPU have no hardware floating point and GCC provides a
- *  software floating point implementation which must be context
- *  switched?
- *
- *  This feature conditional is used to indicate whether or not there
- *  is software implemented floating point that must be context
- *  switched.  The determination of whether or not this applies
- *  is very tool specific and the state saved/restored is also
- *  compiler specific.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#if ( NO_CPU_HAS_FPU == 1 )
-#define CPU_HARDWARE_FP     TRUE
-#else
-#define CPU_HARDWARE_FP     FALSE
-#endif
-#define CPU_SOFTWARE_FP     FALSE
-
-/**
- *  Are all tasks RTEMS_FLOATING_POINT tasks implicitly?
- *
- *  If TRUE, then the RTEMS_FLOATING_POINT task attribute is assumed.
- *  If FALSE, then the RTEMS_FLOATING_POINT task attribute is followed.
- *
- *  So far, the only CPUs in which this option has been used are the
- *  HP PA-RISC and PowerPC.  On the PA-RISC, The HP C compiler and
- *  gcc both implicitly used the floating point registers to perform
- *  integer multiplies.  Similarly, the PowerPC port of gcc has been
- *  seen to allocate floating point local variables and touch the FPU
- *  even when the flow through a subroutine (like vfprintf()) might
- *  not use floating point formats.
- *
- *  If a function which you would not think utilize the FP unit DOES,
- *  then one can not easily predict which tasks will use the FP hardware.
- *  In this case, this option should be TRUE.
- *
- *  If @ref CPU_HARDWARE_FP is FALSE, then this should be FALSE as well.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_ALL_TASKS_ARE_FP     TRUE
-
-/**
- *  Should the IDLE task have a floating point context?
- *
- *  If TRUE, then the IDLE task is created as a RTEMS_FLOATING_POINT task
- *  and it has a floating point context which is switched in and out.
- *  If FALSE, then the IDLE task does not have a floating point context.
- *
- *  Setting this to TRUE negatively impacts the time required to preempt
- *  the IDLE task from an interrupt because the floating point context
- *  must be saved as part of the preemption.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_IDLE_TASK_IS_FP      FALSE
-
-/**
- *  Should the saving of the floating point registers be deferred
- *  until a context switch is made to another different floating point
- *  task?
- *
- *  If TRUE, then the floating point context will not be stored until
- *  necessary.  It will remain in the floating point registers and not
- *  disturned until another floating point task is switched to.
- *
- *  If FALSE, then the floating point context is saved when a floating
- *  point task is switched out and restored when the next floating point
- *  task is restored.  The state of the floating point registers between
- *  those two operations is not specified.
- *
- *  If the floating point context does NOT have to be saved as part of
- *  interrupt dispatching, then it should be safe to set this to TRUE.
- *
- *  Setting this flag to TRUE results in using a different algorithm
- *  for deciding when to save and restore the floating point context.
- *  The deferred FP switch algorithm minimizes the number of times
- *  the FP context is saved and restored.  The FP context is not saved
- *  until a context switch is made to another, different FP task.
- *  Thus in a system with only one FP task, the FP context will never
- *  be saved or restored.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_USE_DEFERRED_FP_SWITCH       TRUE
-
-/**
- *  Does this port provide a CPU dependent IDLE task implementation?
- *
- *  If TRUE, then the routine @ref _CPU_Thread_Idle_body
- *  must be provided and is the default IDLE thread body instead of
- *  @ref _CPU_Thread_Idle_body.
- *
- *  If FALSE, then use the generic IDLE thread body if the BSP does
- *  not provide one.
- *
- *  This is intended to allow for supporting processors which have
- *  a low power or idle mode.  When the IDLE thread is executed, then
- *  the CPU can be powered down.
- *
- *  The order of precedence for selecting the IDLE thread body is:
- *
- *    -#  BSP provided
- *    -#  CPU dependent (if provided)
- *    -#  generic (if no BSP and no CPU dependent)
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_PROVIDES_IDLE_THREAD_BODY    TRUE
-
-/**
- *  Does the stack grow up (toward higher addresses) or down
- *  (toward lower addresses)?
- *
- *  If TRUE, then the grows upward.
- *  If FALSE, then the grows toward smaller addresses.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_STACK_GROWS_UP               TRUE
-
-/**
- *  The following is the variable attribute used to force alignment
- *  of critical RTEMS structures.  On some processors it may make
- *  sense to have these aligned on tighter boundaries than
- *  the minimum requirements of the compiler in order to have as
- *  much of the critical data area as possible in a cache line.
- *
- *  The placement of this macro in the declaration of the variables
- *  is based on the syntactically requirements of the GNU C
- *  "__attribute__" extension.  For example with GNU C, use
- *  the following to force a structures to a 32 byte boundary.
- *
- *      __attribute__ ((aligned (32)))
- *
- *  @note Currently only the Priority Bit Map table uses this feature.
- *        To benefit from using this, the data must be heavily
- *        used so it will stay in the cache and used frequently enough
- *        in the executive to justify turning this on.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_STRUCTURE_ALIGNMENT
-
-/**
- *  @defgroup CPUEndian Processor Dependent Endianness Support
- *
- *  This group assists in issues related to processor endianness.
- */
-
-/**
- *  @ingroup CPUEndian
- *  Define what is required to specify how the network to host conversion
- *  routines are handled.
- *
- *  @note @a CPU_BIG_ENDIAN and @a CPU_LITTLE_ENDIAN should NOT have the
- *  same values.
- *
- *  @see CPU_LITTLE_ENDIAN
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_BIG_ENDIAN                           TRUE
-
-/**
- *  @ingroup CPUEndian
- *  Define what is required to specify how the network to host conversion
- *  routines are handled.
- *
- *  @note @ref CPU_BIG_ENDIAN and @ref CPU_LITTLE_ENDIAN should NOT have the
- *  same values.
- *
- *  @see CPU_BIG_ENDIAN
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_LITTLE_ENDIAN                        FALSE
-
-/**
- *  @ingroup CPUInterrupt
- *  The following defines the number of bits actually used in the
- *  interrupt field of the task mode.  How those bits map to the
- *  CPU interrupt levels is defined by the routine @ref _CPU_ISR_Set_level.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_MODES_INTERRUPT_MASK   0x00000001
-
-/*
- *  Processor defined structures required for cpukit/score.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-/* may need to put some structures here.  */
-
-/**
- * @defgroup CPUContext Processor Dependent Context Management
- *
- *  From the highest level viewpoint, there are 2 types of context to save.
- *
- *     -# Interrupt registers to save
- *     -# Task level registers to save
- *
- *  Since RTEMS handles integer and floating point contexts separately, this
- *  means we have the following 3 context items:
- *
- *     -# task level context stuff::  Context_Control
- *     -# floating point task stuff:: Context_Control_fp
- *     -# special interrupt level context :: CPU_Interrupt_frame
- *
- *  On some processors, it is cost-effective to save only the callee
- *  preserved registers during a task context switch.  This means
- *  that the ISR code needs to save those registers which do not
- *  persist across function calls.  It is not mandatory to make this
- *  distinctions between the caller/callee saves registers for the
- *  purpose of minimizing context saved during task switch and on interrupts.
- *  If the cost of saving extra registers is minimal, simplicity is the
- *  choice.  Save the same context on interrupt entry as for tasks in
- *  this case.
- *
- *  Additionally, if gdb is to be made aware of RTEMS tasks for this CPU, then
- *  care should be used in designing the context area.
- *
- *  On some CPUs with hardware floating point support, the Context_Control_fp
- *  structure will not be used or it simply consist of an array of a
- *  fixed number of bytes.   This is done when the floating point context
- *  is dumped by a "FP save context" type instruction and the format
- *  is not really defined by the CPU.  In this case, there is no need
- *  to figure out the exact format -- only the size.  Of course, although
- *  this is enough information for RTEMS, it is probably not enough for
- *  a debugger such as gdb.  But that is another problem.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-/**
- *  @ingroup CPUContext Management
- *  This defines the minimal set of integer and processor state registers
- *  that must be saved during a voluntary context switch from one thread
- *  to another.
- */
-typedef struct {
-    /** This field is a hint that a port will have a number of integer
-     *  registers that need to be saved at a context switch.
-     */
-    uint32_t   some_integer_register;
-    /** This field is a hint that a port will have a number of system
-     *  registers that need to be saved at a context switch.
-     */
-    uint32_t   some_system_register;
-
-    /** This field is a hint that a port will have a register that
-     *  is the stack pointer.
-     */
-    uint32_t   stack_pointer;
-} Context_Control;
-
-/**
- *  @ingroup CPUContext Management
- *
- *  This macro returns the stack pointer associated with @a _context.
- *
- *  @param[in] _context is the thread context area to access
- *
- *  @return This method returns the stack pointer.
- */
-#define _CPU_Context_Get_SP( _context ) \
-  (_context)->stack_pointer
-
-/**
- *  @ingroup CPUContext Management
- *  This defines the complete set of floating point registers that must
- *  be saved during any context switch from one thread to another.
- */
-typedef struct {
-    /** FPU registers are listed here */
-    double      some_float_register;
-} Context_Control_fp;
-
-/**
- *  @ingroup CPUContext Management
- *  This defines the set of integer and processor state registers that must
- *  be saved during an interrupt.  This set does not include any which are
- *  in @ref Context_Control.
- */
-typedef struct {
-    /** This field is a hint that a port will have a number of integer
-     *  registers that need to be saved when an interrupt occurs or
-     *  when a context switch occurs at the end of an ISR.
-     */
-    uint32_t   special_interrupt_register;
-} CPU_Interrupt_frame;
-
-/**
- *  This variable is optional.  It is used on CPUs on which it is difficult
- *  to generate an "uninitialized" FP context.  It is filled in by
- *  @ref _CPU_Initialize and copied into the task's FP context area during
- *  @ref _CPU_Context_Initialize.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-SCORE_EXTERN Context_Control_fp  _CPU_Null_fp_context;
-
-/**
- *  @defgroup CPUInterrupt Processor Dependent Interrupt Management
- *
- *  On some CPUs, RTEMS supports a software managed interrupt stack.
- *  This stack is allocated by the Interrupt Manager and the switch
- *  is performed in @ref _ISR_Handler.  These variables contain pointers
- *  to the lowest and highest addresses in the chunk of memory allocated
- *  for the interrupt stack.  Since it is unknown whether the stack
- *  grows up or down (in general), this give the CPU dependent
- *  code the option of picking the version it wants to use.
- *
- *  @note These two variables are required if the macro
- *        @ref CPU_HAS_SOFTWARE_INTERRUPT_STACK is defined as TRUE.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-/**
- *  @ingroup CPUInterrupt
- *  This variable points to the lowest physical address of the interrupt
- *  stack.
- */
-SCORE_EXTERN void               *_CPU_Interrupt_stack_low;
-
-/**
- *  @ingroup CPUInterrupt
- *  This variable points to the lowest physical address of the interrupt
- *  stack.
- */
-SCORE_EXTERN void               *_CPU_Interrupt_stack_high;
-
-/*
- *  Nothing prevents the porter from declaring more CPU specific variables.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-/* XXX: if needed, put more variables here */
-
-/**
- *  @ingroup CPUContext
- *  The size of the floating point context area.  On some CPUs this
- *  will not be a "sizeof" because the format of the floating point
- *  area is not defined -- only the size is.  This is usually on
- *  CPUs with a "floating point save context" instruction.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_CONTEXT_FP_SIZE sizeof( Context_Control_fp )
-
-/**
- *  Amount of extra stack (above minimum stack size) required by
- *  MPCI receive server thread.  Remember that in a multiprocessor
- *  system this thread must exist and be able to process all directives.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_MPCI_RECEIVE_SERVER_EXTRA_STACK 0
-
-/**
- *  @ingroup CPUInterrupt
- *  This defines the number of entries in the @ref _ISR_Vector_table managed
- *  by RTEMS.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_INTERRUPT_NUMBER_OF_VECTORS      32
-
-/**
- *  @ingroup CPUInterrupt
- *  This defines the highest interrupt vector number for this port.
- */
-#define CPU_INTERRUPT_MAXIMUM_VECTOR_NUMBER  (CPU_INTERRUPT_NUMBER_OF_VECTORS - 1)
-
-/**
- *  @ingroup CPUInterrupt
- *  This is defined if the port has a special way to report the ISR nesting
- *  level.  Most ports maintain the variable @a _ISR_Nest_level.
- */
-#define CPU_PROVIDES_ISR_IS_IN_PROGRESS FALSE
-
-/**
- *  @ingroup CPUContext
- *  Should be large enough to run all RTEMS tests.  This ensures
- *  that a "reasonable" small application should not have any problems.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_STACK_MINIMUM_SIZE          (1024*4)
-
-/**
- *  CPU's worst alignment requirement for data types on a byte boundary.  This
- *  alignment does not take into account the requirements for the stack.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_ALIGNMENT              8
-
-/**
- *  This number corresponds to the byte alignment requirement for the
- *  heap handler.  This alignment requirement may be stricter than that
- *  for the data types alignment specified by @ref CPU_ALIGNMENT.  It is
- *  common for the heap to follow the same alignment requirement as
- *  @ref CPU_ALIGNMENT.  If the @ref CPU_ALIGNMENT is strict enough for
- *  the heap, then this should be set to @ref CPU_ALIGNMENT.
- *
- *  @note  This does not have to be a power of 2 although it should be
- *         a multiple of 2 greater than or equal to 2.  The requirement
- *         to be a multiple of 2 is because the heap uses the least
- *         significant field of the front and back flags to indicate
- *         that a block is in use or free.  So you do not want any odd
- *         length blocks really putting length data in that bit.
- *
- *         On byte oriented architectures, @ref CPU_HEAP_ALIGNMENT normally will
- *         have to be greater or equal to than @ref CPU_ALIGNMENT to ensure that
- *         elements allocated from the heap meet all restrictions.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_HEAP_ALIGNMENT         CPU_ALIGNMENT
-
-/**
- *  This number corresponds to the byte alignment requirement for memory
- *  buffers allocated by the partition manager.  This alignment requirement
- *  may be stricter than that for the data types alignment specified by
- *  @ref CPU_ALIGNMENT.  It is common for the partition to follow the same
- *  alignment requirement as @ref CPU_ALIGNMENT.  If the @ref CPU_ALIGNMENT is
- *  strict enough for the partition, then this should be set to
- *  @ref CPU_ALIGNMENT.
- *
- *  @note  This does not have to be a power of 2.  It does have to
- *         be greater or equal to than @ref CPU_ALIGNMENT.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_PARTITION_ALIGNMENT    CPU_ALIGNMENT
-
-/**
- *  This number corresponds to the byte alignment requirement for the
- *  stack.  This alignment requirement may be stricter than that for the
- *  data types alignment specified by @ref CPU_ALIGNMENT.  If the
- *  @ref CPU_ALIGNMENT is strict enough for the stack, then this should be
- *  set to 0.
- *
- *  @note This must be a power of 2 either 0 or greater than @ref CPU_ALIGNMENT.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define CPU_STACK_ALIGNMENT        0
-
-/*
- *  ISR handler macros
- */
-
-/**
- *  @ingroup CPUInterrupt
- *  Support routine to initialize the RTEMS vector table after it is allocated.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define _CPU_Initialize_vectors()
-
-/**
- *  @ingroup CPUInterrupt
- *  Disable all interrupts for an RTEMS critical section.  The previous
- *  level is returned in @a _isr_cookie.
- *
- *  @param[out] _isr_cookie will contain the previous level cookie
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define _CPU_ISR_Disable( _isr_cookie ) \
-  { \
-    (_isr_cookie) = 0;   /* do something to prevent warnings */ \
-  }
-
-/**
- *  @ingroup CPUInterrupt
- *  Enable interrupts to the previous level (returned by _CPU_ISR_Disable).
- *  This indicates the end of an RTEMS critical section.  The parameter
- *  @a _isr_cookie is not modified.
- *
- *  @param[in] _isr_cookie contain the previous level cookie
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define _CPU_ISR_Enable( _isr_cookie )  \
-  { \
-  }
-
-/**
- *  @ingroup CPUInterrupt
- *  This temporarily restores the interrupt to @a _isr_cookie before immediately
- *  disabling them again.  This is used to divide long RTEMS critical
- *  sections into two or more parts.  The parameter @a _isr_cookie is not
- *  modified.
- *
- *  @param[in] _isr_cookie contain the previous level cookie
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define _CPU_ISR_Flash( _isr_cookie ) \
-  { \
-  }
-
-/**
- *  @ingroup CPUInterrupt
- *
- *  This routine and @ref _CPU_ISR_Get_level
- *  Map the interrupt level in task mode onto the hardware that the CPU
- *  actually provides.  Currently, interrupt levels which do not
- *  map onto the CPU in a generic fashion are undefined.  Someday,
- *  it would be nice if these were "mapped" by the application
- *  via a callout.  For example, m68k has 8 levels 0 - 7, levels
- *  8 - 255 would be available for bsp/application specific meaning.
- *  This could be used to manage a programmable interrupt controller
- *  via the rtems_task_mode directive.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define _CPU_ISR_Set_level( new_level ) \
-  { \
-  }
-
-/**
- *  @ingroup CPUInterrupt
- *  Return the current interrupt disable level for this task in
- *  the format used by the interrupt level portion of the task mode.
- *
- *  @note This routine usually must be implemented as a subroutine.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-uint32_t   _CPU_ISR_Get_level( void );
-
-/* end of ISR handler macros */
-
-/* Context handler macros */
-
-/**
- *  @ingroup CPUContext
- *  Initialize the context to a state suitable for starting a
- *  task after a context restore operation.  Generally, this
- *  involves:
- *
- *     - setting a starting address
- *     - preparing the stack
- *     - preparing the stack and frame pointers
- *     - setting the proper interrupt level in the context
- *     - initializing the floating point context
- *
- *  This routine generally does not set any unnecessary register
- *  in the context.  The state of the "general data" registers is
- *  undefined at task start time.
- *
- *  @param[in] _the_context is the context structure to be initialized
- *  @param[in] _stack_base is the lowest physical address of this task's stack
- *  @param[in] _size is the size of this task's stack
- *  @param[in] _isr is the interrupt disable level
- *  @param[in] _entry_point is the thread's entry point.  This is
- *         always @a _Thread_Handler
- *  @param[in] _is_fp is TRUE if the thread is to be a floating
- *        point thread.  This is typically only used on CPUs where the
- *        FPU may be easily disabled by software such as on the SPARC
- *        where the PSR contains an enable FPU bit.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define _CPU_Context_Initialize( _the_context, _stack_base, _size, \
-                                 _isr, _entry_point, _is_fp ) \
-  { \
-  }
-
-/**
- *  This routine is responsible for somehow restarting the currently
- *  executing task.  If you are lucky, then all that is necessary
- *  is restoring the context.  Otherwise, there will need to be
- *  a special assembly routine which does something special in this
- *  case.  For many ports, simply adding a label to the restore path
- *  of @ref _CPU_Context_switch will work.  On other ports, it may be
- *  possibly to load a few arguments and jump to the restore path. It will
- *  not work if restarting self conflicts with the stack frame
- *  assumptions of restoring a context.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define _CPU_Context_Restart_self( _the_context ) \
-   _CPU_Context_restore( (_the_context) );
-
-/**
- *  @ingroup CPUContext
- *  The purpose of this macro is to allow the initial pointer into
- *  a floating point context area (used to save the floating point
- *  context) to be at an arbitrary place in the floating point
- *  context area.
- *
- *  This is necessary because some FP units are designed to have
- *  their context saved as a stack which grows into lower addresses.
- *  Other FP units can be saved by simply moving registers into offsets
- *  from the base of the context area.  Finally some FP units provide
- *  a "dump context" instruction which could fill in from high to low
- *  or low to high based on the whim of the CPU designers.
- *
- *  @param[in] _base is the lowest physical address of the floating point
- *         context area
- *  @param[in] _offset is the offset into the floating point area
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define _CPU_Context_Fp_start( _base, _offset ) \
-   ( (void *) _Addresses_Add_offset( (_base), (_offset) ) )
-
-/**
- *  This routine initializes the FP context area passed to it to.
- *  There are a few standard ways in which to initialize the
- *  floating point context.  The code included for this macro assumes
- *  that this is a CPU in which a "initial" FP context was saved into
- *  @a _CPU_Null_fp_context and it simply copies it to the destination
- *  context passed to it.
- *
- *  Other floating point context save/restore models include:
- *    -# not doing anything, and
- *    -# putting a "null FP status word" in the correct place in the FP context.
- *
- *  @param[in] _destination is the floating point context area
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define _CPU_Context_Initialize_fp( _destination ) \
-  { \
-   *(*(_destination)) = _CPU_Null_fp_context; \
-  }
-
-/* end of Context handler macros */
-
-/* Fatal Error manager macros */
-
-/**
- *  This routine copies _error into a known place -- typically a stack
- *  location or a register, optionally disables interrupts, and
- *  halts/stops the CPU.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#define _CPU_Fatal_halt( _error ) \
-  { \
-    fprintf( stderr, "FATAL ERROR!!\n" ); \
-    exit( -1 ); \
-  }
-
-/* end of Fatal Error manager macros */
-
-/* Bitfield handler macros */
-
-/**
- *  @defgroup CPUBitfield Processor Dependent Bitfield Manipulation
- *
- *  This set of routines are used to implement fast searches for
- *  the most important ready task.
- */
-
-/**
- *  @ingroup CPUBitfield
- *  This definition is set to TRUE if the port uses the generic bitfield
- *  manipulation implementation.
- */
-#define CPU_USE_GENERIC_BITFIELD_CODE TRUE
-
-/**
- *  @ingroup CPUBitfield
- *  This definition is set to TRUE if the port uses the data tables provided
- *  by the generic bitfield manipulation implementation.
- *  This can occur when actually using the generic bitfield manipulation
- *  implementation or when implementing the same algorithm in assembly
- *  language for improved performance.  It is unlikely that a port will use
- *  the data if it has a bitfield scan instruction.
- */
-#define CPU_USE_GENERIC_BITFIELD_DATA TRUE
-
-/**
- *  @ingroup CPUBitfield
- *  This routine sets @a _output to the bit number of the first bit
- *  set in @a _value.  @a _value is of CPU dependent type
- *  @a Priority_Bit_map_control.  This type may be either 16 or 32 bits
- *  wide although only the 16 least significant bits will be used.
- *
- *  There are a number of variables in using a "find first bit" type
- *  instruction.
- *
- *    -# What happens when run on a value of zero?
- *    -# Bits may be numbered from MSB to LSB or vice-versa.
- *    -# The numbering may be zero or one based.
- *    -# The "find first bit" instruction may search from MSB or LSB.
- *
- *  RTEMS guarantees that (1) will never happen so it is not a concern.
- *  (2),(3), (4) are handled by the macros @ref _CPU_Priority_Mask and
- *  @ref _CPU_Priority_bits_index.  These three form a set of routines
- *  which must logically operate together.  Bits in the _value are
- *  set and cleared based on masks built by @ref _CPU_Priority_Mask.
- *  The basic major and minor values calculated by @ref _Priority_Major
- *  and @ref _Priority_Minor are "massaged" by @ref _CPU_Priority_bits_index
- *  to properly range between the values returned by the "find first bit"
- *  instruction.  This makes it possible for @ref _Priority_Get_highest to
- *  calculate the major and directly index into the minor table.
- *  This mapping is necessary to ensure that 0 (a high priority major/minor)
- *  is the first bit found.
- *
- *  This entire "find first bit" and mapping process depends heavily
- *  on the manner in which a priority is broken into a major and minor
- *  components with the major being the 4 MSB of a priority and minor
- *  the 4 LSB.  Thus (0 << 4) + 0 corresponds to priority 0 -- the highest
- *  priority.  And (15 << 4) + 14 corresponds to priority 254 -- the next
- *  to the lowest priority.
- *
- *  If your CPU does not have a "find first bit" instruction, then
- *  there are ways to make do without it.  Here are a handful of ways
- *  to implement this in software:
- *
-@verbatim
-      - a series of 16 bit test instructions
-      - a "binary search using if's"
-      - _number = 0
-        if _value > 0x00ff
-          _value >>=8
-          _number = 8;
-
-        if _value > 0x0000f
-          _value >=8
-          _number += 4
-
-        _number += bit_set_table[ _value ]
-@endverbatim
-
- *    where bit_set_table[ 16 ] has values which indicate the first
- *      bit set
- *
- *  @param[in] _value is the value to be scanned
- *  @param[in] _output is the first bit set
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-
-#if (CPU_USE_GENERIC_BITFIELD_CODE == FALSE)
-#define _CPU_Bitfield_Find_first_bit( _value, _output ) \
-  { \
-    (_output) = 0;   /* do something to prevent warnings */ \
-  }
-#endif
-
-/* end of Bitfield handler macros */
-
-/**
- *  This routine builds the mask which corresponds to the bit fields
- *  as searched by @ref _CPU_Bitfield_Find_first_bit.  See the discussion
- *  for that routine.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#if (CPU_USE_GENERIC_BITFIELD_CODE == FALSE)
-
-#define _CPU_Priority_Mask( _bit_number ) \
-  ( 1 << (_bit_number) )
-
-#endif
-
-/**
- *  @ingroup CPUBitfield
- *  This routine translates the bit numbers returned by
- *  @ref _CPU_Bitfield_Find_first_bit into something suitable for use as
- *  a major or minor component of a priority.  See the discussion
- *  for that routine.
- *
- *  @param[in] _priority is the major or minor number to translate
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-#if (CPU_USE_GENERIC_BITFIELD_CODE == FALSE)
-
-#define _CPU_Priority_bits_index( _priority ) \
-  (_priority)
-
-#endif
-
-/* end of Priority handler macros */
-
-/* functions */
-
-/**
- *  This routine performs CPU dependent initialization.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-void _CPU_Initialize(void);
-
-/**
- *  @ingroup CPUInterrupt
- *  This routine installs a "raw" interrupt handler directly into the
- *  processor's vector table.
- *
- *  @param[in] vector is the vector number
- *  @param[in] new_handler is the raw ISR handler to install
- *  @param[in] old_handler is the previously installed ISR Handler
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-void _CPU_ISR_install_raw_handler(
-  uint32_t    vector,
-  proc_ptr    new_handler,
-  proc_ptr   *old_handler
-);
-
-/**
- *  @ingroup CPUInterrupt
- *  This routine installs an interrupt vector.
- *
- *  @param[in] vector is the vector number
- *  @param[in] new_handler is the RTEMS ISR handler to install
- *  @param[in] old_handler is the previously installed ISR Handler
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-void _CPU_ISR_install_vector(
-  uint32_t    vector,
-  proc_ptr    new_handler,
-  proc_ptr   *old_handler
-);
-
-/**
- *  @ingroup CPUInterrupt
- *  This routine installs the hardware interrupt stack pointer.
- *
- *  @note  It need only be provided if @ref CPU_HAS_HARDWARE_INTERRUPT_STACK
- *         is TRUE.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-void _CPU_Install_interrupt_stack( void );
-
-/**
- *  This routine is the CPU dependent IDLE thread body.
- *
- *  @note  It need only be provided if @ref CPU_PROVIDES_IDLE_THREAD_BODY
- *         is TRUE.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-void *_CPU_Thread_Idle_body( uintptr_t ignored );
-
-/**
- *  @ingroup CPUContext
- *  This routine switches from the run context to the heir context.
- *
- *  @param[in] run points to the context of the currently executing task
- *  @param[in] heir points to the context of the heir task
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-void _CPU_Context_switch(
-  Context_Control  *run,
-  Context_Control  *heir
-);
-
-/**
- *  @ingroup CPUContext
- *  This routine is generally used only to restart self in an
- *  efficient manner.  It may simply be a label in @ref _CPU_Context_switch.
- *
- *  @param[in] new_context points to the context to be restored.
- *
- *  @note May be unnecessary to reload some registers.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-void _CPU_Context_restore(
-  Context_Control *new_context
-);
-
-/**
- *  @ingroup CPUContext
- *  This routine saves the floating point context passed to it.
- *
- *  @param[in] fp_context_ptr is a pointer to a pointer to a floating
- *  point context area
- *
- *  @return on output @a *fp_context_ptr will contain the address that
- *  should be used with @ref _CPU_Context_restore_fp to restore this context.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-void _CPU_Context_save_fp(
-  Context_Control_fp **fp_context_ptr
-);
-
-/**
- *  @ingroup CPUContext
- *  This routine restores the floating point context passed to it.
- *
- *  @param[in] fp_context_ptr is a pointer to a pointer to a floating
- *  point context area to restore
- *
- *  @return on output @a *fp_context_ptr will contain the address that
- *  should be used with @ref _CPU_Context_save_fp to save this context.
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-void _CPU_Context_restore_fp(
-  Context_Control_fp **fp_context_ptr
-);
-
-/**
- *  @ingroup CPUEndian
- *  The following routine swaps the endian format of an unsigned int.
- *  It must be static because it is referenced indirectly.
- *
- *  This version will work on any processor, but if there is a better
- *  way for your CPU PLEASE use it.  The most common way to do this is to:
- *
- *     swap least significant two bytes with 16-bit rotate
- *     swap upper and lower 16-bits
- *     swap most significant two bytes with 16-bit rotate
- *
- *  Some CPUs have special instructions which swap a 32-bit quantity in
- *  a single instruction (e.g. i486).  It is probably best to avoid
- *  an "endian swapping control bit" in the CPU.  One good reason is
- *  that interrupts would probably have to be disabled to ensure that
- *  an interrupt does not try to access the same "chunk" with the wrong
- *  endian.  Another good reason is that on some CPUs, the endian bit
- *  endianness for ALL fetches -- both code and data -- so the code
- *  will be fetched incorrectly.
- *
- *  @param[in] value is the value to be swapped
- *  @return the value after being endian swapped
- *
- *  Port Specific Information:
- *
- *  XXX document implementation including references if appropriate
- */
-static inline uint32_t CPU_swap_u32(
-  uint32_t value
-)
-{
-  uint32_t byte1, byte2, byte3, byte4, swapped;
-
-  byte4 = (value >> 24) & 0xff;
-  byte3 = (value >> 16) & 0xff;
-  byte2 = (value >> 8)  & 0xff;
-  byte1 =  value        & 0xff;
-
-  swapped = (byte1 << 24) | (byte2 << 16) | (byte3 << 8) | byte4;
-  return swapped;
-}
-
-/**
- *  @ingroup CPUEndian
- *  This routine swaps a 16 bir quantity.
- *
- *  @param[in] value is the value to be swapped
- *  @return the value after being endian swapped
- */
-#define CPU_swap_u16( value ) \
-  (((value&0xff) << 8) | ((value >> 8)&0xff))
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif
diff --git a/tools/schedsim/rtems/sched_cpu/rtems/score/cpu_asm.h b/tools/schedsim/rtems/sched_cpu/rtems/score/cpu_asm.h
deleted file mode 100644
index 7c80adbfd8..0000000000
--- a/tools/schedsim/rtems/sched_cpu/rtems/score/cpu_asm.h
+++ /dev/null
@@ -1,74 +0,0 @@
-/**
- * @file rtems/score/cpu_asm.h
- */
-
-/*
- *  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR
- *
- *  Very loose template for an include file for the cpu_asm.? file
- *  if it is implemented as a ".S" file (preprocessed by cpp) instead
- *  of a ".s" file (preprocessed by gm4 or gasp).
- *
- *  COPYRIGHT (c) 1989-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  The license and distribution terms for this file may be
- *  found in the file LICENSE in this distribution or at
- *  http://www.rtems.com/license/LICENSE.
- *
- *  $Id$
- *
- */
-
-#ifndef _RTEMS_SCORE_CPU_ASM_H
-#define _RTEMS_SCORE_CPU_ASM_H
-
-/* pull in the generated offsets */
-
-#include <rtems/score/offsets.h>
-
-/*
- * Hardware General Registers
- */
-
-/* put something here */
-
-/*
- * Hardware Floating Point Registers
- */
-
-/* put something here */
-
-/*
- * Hardware Control Registers
- */
-
-/* put something here */
-
-/*
- * Calling Convention
- */
-
-/* put something here */
-
-/*
- * Temporary registers
- */
-
-/* put something here */
-
-/*
- * Floating Point Registers - SW Conventions
- */
-
-/* put something here */
-
-/*
- * Temporary floating point registers
- */
-
-/* put something here */
-
-#endif
-
-/* end of file */
diff --git a/tools/schedsim/rtems/sched_cpu/rtems/score/cpuopts.h b/tools/schedsim/rtems/sched_cpu/rtems/score/cpuopts.h
deleted file mode 100644
index 1db8d43ff5..0000000000
--- a/tools/schedsim/rtems/sched_cpu/rtems/score/cpuopts.h
+++ /dev/null
@@ -1,72 +0,0 @@
-/**
- * @file rtems/score/cpuopts.h
- */
-
-/*  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR */
-
-/* target cpu dependent options file */
-/* automatically generated -- DO NOT EDIT!! */
-#ifndef _RTEMS_SCORE_CPUOPTS_H
-#define _RTEMS_SCORE_CPUOPTS_H
-
-/* This is added by hand to indicate we are on the RTEMS Scheduler Simulator */
-#define RTEMS_SCHEDSIM
-
-/* if RTEMS_DEBUG is enabled */
-/* #undef RTEMS_DEBUG */
-
-/* if itron api is supported */
-/* #undef RTEMS_ITRON_API */
-
-/* if multiprocessing is enabled */
-/* #undef RTEMS_MULTIPROCESSING */
-
-/* if using newlib */
-#define RTEMS_NEWLIB 1
-
-/* if posix api is supported */
-/* #undef RTEMS_POSIX_API */
-
-/* if networking is enabled */
-#define RTEMS_NETWORKING 1
-
-/* if RTEMS uses tar.h */
-#define RTEMS_USES_TAR_H 1
-
-/* RTEMS version string */
-#define RTEMS_VERSION "4.10.99.0"
-
-/* disable nanosecond granularity for statistics */
-/* #undef __RTEMS_USE_TICKS_FOR_STATISTICS__ */
-
-/* disable nanosecond granularity for cpu usage statistics */
-/* #undef __RTEMS_USE_TICKS_CPU_USAGE_STATISTICS__ */
-
-/* disable nanosecond granularity for period statistics */
-/* #undef __RTEMS_USE_TICKS_RATE_MONOTONIC_STATISTICS__ */
-
-/* disable inlining _Thread_Enable_dispatch */
-/* #undef __RTEMS_DO_NOT_INLINE_THREAD_ENABLE_DISPATCH__ */
-
-/* disable inlining _Thread_Enable_dispatch */
-/* #undef __RTEMS_DO_NOT_INLINE_CORE_MUTEX_SEIZE__ */
-
-/* disable inlining _Thread_queue_Enqueue_priority */
-/* #undef __RTEMS_DO_NOT_UNROLL_THREADQ_ENQUEUE_PRIORITY__ */
-
-/* disable strict order mutex */
-/* #undef __RTEMS_STRICT_ORDER_MUTEX__ */
-
-/* Define to 1 if ada/gnat bindings are built-in */
-#define __RTEMS_ADA__ 1
-
-/* major version portion of an RTEMS release */
-#define __RTEMS_MAJOR__ 4
-
-/* minor version portion of an RTEMS release */
-#define __RTEMS_MINOR__ 10
-
-/* revision version portion of an RTEMS release */
-#define __RTEMS_REVISION__ 99
-
-#endif /* _RTEMS_SCORE_CPUOPTS_H */
diff --git a/tools/schedsim/rtems/sched_cpu/rtems/score/no_cpu.h b/tools/schedsim/rtems/sched_cpu/rtems/score/no_cpu.h
deleted file mode 100644
index bb0706fd76..0000000000
--- a/tools/schedsim/rtems/sched_cpu/rtems/score/no_cpu.h
+++ /dev/null
@@ -1,59 +0,0 @@
-/*  no_cpu.h
- *
- *  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR
- *
- *  This file sets up basic CPU dependency settings based on
- *  compiler settings.  For example, it can determine if
- *  floating point is available.  This particular implementation
- *  is specified to the NO CPU port.
- *
- *
- *  COPYRIGHT (c) 1989-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  The license and distribution terms for this file may be
- *  found in the file LICENSE in this distribution or at
- *  http://www.rtems.com/license/LICENSE.
- *
- *  $Id$
- *
- */
-
-#ifndef _RTEMS_SCORE_NO_CPU_H
-#define _RTEMS_SCORE_NO_CPU_H
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-/*
- *  This file contains the information required to build
- *  RTEMS for a particular member of the NO CPU family.
- *  It does this by setting variables to indicate which
- *  implementation dependent features are present in a particular
- *  member of the family.
- *
- *  This is a good place to list all the known CPU models
- *  that this port supports and which RTEMS CPU model they correspond
- *  to.
- */
-
-/*
- *  Figure out all CPU Model Feature Flags based upon compiler
- *  predefines.
- */
-
-#define CPU_MODEL_NAME  ""
-#define NOCPU_HAS_FPU   1
-
-/*
- *  Define the name of the CPU family.
- */
-
-#define CPU_NAME "RTEMS Sheduler Simulator"
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif /* _RTEMS_SCORE_NO_CPU_H */
diff --git a/tools/schedsim/rtems/sched_cpu/rtems/score/types.h b/tools/schedsim/rtems/sched_cpu/rtems/score/types.h
deleted file mode 100644
index 10e4f03e70..0000000000
--- a/tools/schedsim/rtems/sched_cpu/rtems/score/types.h
+++ /dev/null
@@ -1,51 +0,0 @@
-/**
- * @file rtems/score/types.h
- */
-
-/*
- *  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR
- *
- *  This include file contains type definitions pertaining to the Intel
- *  no_cpu processor family.
- *
- *  COPYRIGHT (c) 1989-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  The license and distribution terms for this file may be
- *  found in the file LICENSE in this distribution or at
- *  http://www.rtems.com/license/LICENSE.
- *
- *  $Id$
- */
-
-#ifndef _RTEMS_SCORE_TYPES_H
-#define _RTEMS_SCORE_TYPES_H
-
-#include <rtems/score/basedefs.h>
-
-#ifndef ASM
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-/*
- *  This section defines the basic types for this processor.
- */
-
-/** This defines the type for a priority bit map entry. */
-typedef uint16_t Priority_bit_map_Control;
-
-/** This defines the return type for an ISR entry point. */
-typedef void no_cpu_isr;
-
-/** This defines the prototype for an ISR entry point. */
-typedef no_cpu_isr ( *no_cpu_isr_entry )( void );
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif  /* !ASM */
-
-#endif
diff --git a/tools/schedsim/rtems/sched_cpu/rtems/stringto.h b/tools/schedsim/rtems/sched_cpu/rtems/stringto.h
deleted file mode 100644
index 9201f5bc0d..0000000000
--- a/tools/schedsim/rtems/sched_cpu/rtems/stringto.h
+++ /dev/null
@@ -1 +0,0 @@
-#include <stringto.h>
diff --git a/tools/schedsim/rtems/wkspace.c b/tools/schedsim/rtems/wkspace.c
deleted file mode 100644
index f4209d5f73..0000000000
--- a/tools/schedsim/rtems/wkspace.c
+++ /dev/null
@@ -1,100 +0,0 @@
-/*
- *  BASED UPON SOURCE IN RTEMS, MODIFIED FOR SIMULATOR
- *
- *  Workspace Handler
- *
- *  COPYRIGHT (c) 1989-2010.
- *  On-Line Applications Research Corporation (OAR).
- *
- *  The license and distribution terms for this file may be
- *  found in the file LICENSE in this distribution or at
- *  http://www.rtems.com/license/LICENSE.
- *
- *  $Id$
- */
-
-#if HAVE_CONFIG_H
-#include "config.h"
-#endif
-
-#include <rtems/system.h>
-#include <rtems/score/wkspace.h>
-#include <rtems/score/interr.h>
-
-#include <stdlib.h>
-
-#if defined(DEBUG_WORKSPACE)
-  #include <stdio.h>
-#endif
-
-/*
- *  _Workspace_Handler_initialization
- */
-void _Workspace_Handler_initialization(void)
-{
-}
-
-/*
- *  _Workspace_Allocate
- */
-void *_Workspace_Allocate(
-  size_t   size
-)
-{
-  void *memory;
-
-  memory = calloc( 1, size );
-  #if defined(DEBUG_WORKSPACE)
-    fprintf(
-      stderr,
-      "Workspace_Allocate(%d) from %p/%p -> %p\n",
-      size,
-      __builtin_return_address( 0 ),
-      __builtin_return_address( 1 ),
-      memory
-    );
-  #endif
-  return memory;
-}
-
-/*
- *  _Workspace_Free
- */
-void _Workspace_Free(
-  void *block
-)
-{
-  #if defined(DEBUG_WORKSPACE)
-    fprintf(
-      stderr,
-      block,
-      __builtin_return_address( 0 ),
-      __builtin_return_address( 1 )
-    );
-  #endif
-  free( block );
-}
-
-/*
- *  _Workspace_Allocate_or_fatal_error
- */
-void *_Workspace_Allocate_or_fatal_error(
-  size_t      size
-)
-{
-  void *memory;
-
-  memory = calloc( 1, size );
-  #if defined(DEBUG_WORKSPACE)
-    fprintf(
-      stderr,
-      "Workspace_Allocate_or_fatal_error(%d) from %p/%p -> %p\n",
-      size,
-      __builtin_return_address( 0 ),
-      __builtin_return_address( 1 ),
-      memory
-    );
-  #endif
-
-  return memory;
-}