binutils-gdb/sim/mips/configure.ac
Mike Frysinger 9b1af85c78 sim: mips: always enable device models
There's no need to restrict these to only specific targets as the user
can select them at runtime if they want them.  Always build them so we
can improve build coverage too.
2021-05-04 22:02:37 -04:00

438 lines
14 KiB
Plaintext

dnl Process this file with autoconf to produce a configure script.
AC_INIT(Makefile.in)
AC_CONFIG_MACRO_DIRS([../m4 ../.. ../../config])
SIM_AC_COMMON
dnl Options available in this module
SIM_AC_OPTION_ALIGNMENT(NONSTRICT_ALIGNMENT)
SIM_AC_OPTION_WARNINGS(no)
SIM_AC_OPTION_RESERVED_BITS(1)
# DEPRECATED
#
# Instead of defining a `subtarget' macro, code should be checking
# the value of {STATE,CPU}_ARCHITECTURE to identify the architecture
# in question.
#
case "${target}" in
mips64vr*-*-*) SIM_SUBTARGET="-DTARGET_ENABLE_FR=1" ;;
mips*tx39*) SIM_SUBTARGET="-DSUBTARGET_R3900=1";;
mips*-sde-elf*) SIM_SUBTARGET="-DTARGET_ENABLE_FR=1";;
mips*-mti-elf*) SIM_SUBTARGET="-DTARGET_ENABLE_FR=1";;
mipsisa32*-*-*) SIM_SUBTARGET="-DTARGET_ENABLE_FR=1";;
mipsisa64*-*-*) SIM_SUBTARGET="-DTARGET_ENABLE_FR=1";;
*) SIM_SUBTARGET="";;
esac
AC_SUBST(SIM_SUBTARGET)
#
# Select the byte order of the target
#
mips_endian=
default_endian=
case "${target}" in
mips64el*-*-*) mips_endian=LITTLE ;;
mips64vr*el-*-*) default_endian=LITTLE ;;
mips64*-*-*) default_endian=BIG ;;
mips16*-*-*) default_endian=BIG ;;
mipsisa32*-*-*) default_endian=BIG ;;
mipsisa64*-*-*) default_endian=BIG ;;
mips*-*-*) default_endian=BIG ;;
*) default_endian=BIG ;;
esac
SIM_AC_OPTION_ENDIAN($mips_endian,$default_endian)
#
# Select the bitsize of the target
#
mips_addr_bitsize=
case "${target}" in
mips*-sde-elf*) mips_bitsize=64 ; mips_msb=63 ;;
mips*-mti-elf*) mips_bitsize=64 ; mips_msb=63 ;;
mips64*-*-*) mips_bitsize=64 ; mips_msb=63 ;;
mips16*-*-*) mips_bitsize=64 ; mips_msb=63 ;;
mipsisa32*-*-*) mips_bitsize=32 ; mips_msb=31 ;;
mipsisa64*-*-*) mips_bitsize=64 ; mips_msb=63 ;;
mips*-*-*) mips_bitsize=32 ; mips_msb=31 ;;
*) mips_bitsize=64 ; mips_msb=63 ;;
esac
SIM_AC_OPTION_BITSIZE($mips_bitsize,$mips_msb,$mips_addr_bitsize)
#
# Select the floating hardware support of the target
#
mips_fpu=HARDWARE_FLOATING_POINT
mips_fpu_bitsize=
case "${target}" in
mips*tx39*) mips_fpu=HARD_FLOATING_POINT ; mips_fpu_bitsize=32 ;;
mips*-sde-elf*) mips_fpu=HARD_FLOATING_POINT ; mips_fpu_bitsize=64 ;;
mips*-mti-elf*) mips_fpu=HARD_FLOATING_POINT ; mips_fpu_bitsize=64 ;;
mips64*-*-*) mips_fpu=HARD_FLOATING_POINT ;;
mips16*-*-*) mips_fpu=HARD_FLOATING_POINT ;;
mipsisa32*-*-*) mips_fpu=HARD_FLOATING_POINT ; mips_fpu_bitsize=64 ;;
mipsisa64*-*-*) mips_fpu=HARD_FLOATING_POINT ; mips_fpu_bitsize=64 ;;
mips*-*-*) mips_fpu=HARD_FLOATING_POINT ; mips_fpu_bitsize=32 ;;
*) mips_fpu=HARD_FLOATING_POINT ;;
esac
SIM_AC_OPTION_FLOAT($mips_fpu,$mips_fpu_bitsize)
#
# Select the IGEN architecture
#
sim_gen=IGEN
sim_igen_machine="-M mipsIV"
sim_m16_machine="-M mips16,mipsIII"
sim_igen_filter="32,64,f"
sim_m16_filter="16"
sim_mach_default="mips8000"
case "${target}" in
mips*tx39*) sim_gen=IGEN
sim_igen_filter="32,f"
sim_igen_machine="-M r3900"
;;
mips64vr43*-*-*) sim_gen=IGEN
sim_igen_machine="-M mipsIV"
sim_mach_default="mips8000"
;;
mips64vr5*-*-*) sim_gen=IGEN
sim_igen_machine="-M vr5000"
sim_mach_default="mips5000"
;;
mips64vr41*) sim_gen=M16
sim_igen_machine="-M vr4100"
sim_m16_machine="-M vr4100"
sim_igen_filter="32,64,f"
sim_m16_filter="16"
sim_mach_default="mips4100"
;;
mips64vr-*-* | mips64vrel-*-*)
sim_gen=MULTI
sim_multi_configs="\
vr4100:mipsIII,mips16,vr4100:32,64:mips4100,mips4111\
vr4120:mipsIII,mips16,vr4120:32,64:mips4120\
vr5000:mipsIV:32,64,f:mips4300,mips5000\
vr5400:mipsIV,vr5400:32,64,f:mips5400\
vr5500:mipsIV,vr5500:32,64,f:mips5500"
sim_multi_default=mips5000
;;
mips*-sde-elf* | mips*-mti-elf*)
sim_gen=MULTI
sim_multi_configs="\
micromips:micromips64,micromipsdsp:32,64,f:mips_micromips\
mips64r2:mips64r2,mips3d,mips16,mips16e,mdmx,dsp,dsp2,smartmips:32,64,f:mipsisa64r2"
sim_multi_default=mipsisa64r2
;;
mips64*-*-*) sim_igen_filter="32,64,f"
sim_gen=IGEN
;;
mips16*-*-*) sim_gen=M16
sim_igen_filter="32,64,f"
sim_m16_filter="16"
;;
mipsisa32r2*-*-*) sim_gen=MULTI
sim_multi_configs="\
micromips:micromips32,micromipsdsp:32,f:mips_micromips\
mips32r2:mips32r2,mips3d,mips16,mips16e,mdmx,dsp,dsp2,smartmips:32,f:mipsisa32r2"
sim_multi_default=mipsisa32r2
;;
mipsisa32*-*-*) sim_gen=M16
sim_igen_machine="-M mips32,mips16,mips16e,smartmips"
sim_m16_machine="-M mips16,mips16e,mips32"
sim_igen_filter="32,f"
sim_mach_default="mipsisa32"
;;
mipsisa64r2*-*-*) sim_gen=M16
sim_igen_machine="-M mips64r2,mips3d,mips16,mips16e,mdmx,dsp,dsp2"
sim_m16_machine="-M mips16,mips16e,mips64r2"
sim_igen_filter="32,64,f"
sim_mach_default="mipsisa64r2"
;;
mipsisa64sb1*-*-*) sim_gen=IGEN
sim_igen_machine="-M mips64,mips3d,sb1"
sim_igen_filter="32,64,f"
sim_mach_default="mips_sb1"
;;
mipsisa64*-*-*) sim_gen=M16
sim_igen_machine="-M mips64,mips3d,mips16,mips16e,mdmx"
sim_m16_machine="-M mips16,mips16e,mips64"
sim_igen_filter="32,64,f"
sim_mach_default="mipsisa64"
;;
mips*lsi*) sim_gen=M16
sim_igen_machine="-M mipsIII,mips16"
sim_m16_machine="-M mips16,mipsIII"
sim_igen_filter="32,f"
sim_m16_filter="16"
sim_mach_default="mips4000"
;;
mips*-*-*) sim_gen=IGEN
sim_igen_filter="32,f"
;;
esac
# The MULTI generator can combine several simulation engines into one.
# executable. A configuration which uses the MULTI should set two
# variables: ${sim_multi_configs} and ${sim_multi_default}.
#
# ${sim_multi_configs} is the list of engines to build. Each
# space-separated entry has the form NAME:MACHINE:FILTER:BFDMACHS,
# where:
#
# - NAME is a C-compatible prefix for the engine,
# - MACHINE is a -M argument,
# - FILTER is a -F argument, and
# - BFDMACHS is a comma-separated list of bfd machines that the
# simulator can run.
#
# Each entry will have a separate simulation engine whose prefix is
# m32<NAME>. If the machine list includes "mips16", there will also
# be a mips16 engine, prefix m16<NAME>. The mips16 engine will be
# generated using the same machine list as the 32-bit version,
# but the filter will be "16" instead of FILTER.
#
# The simulator compares the bfd mach against BFDMACHS to decide
# which engine to use. Entries in BFDMACHS should be bfd_mach
# values with "bfd_mach_" removed. ${sim_multi_default} says
# which entry should be the default.
if test ${sim_gen} = MULTI; then
# Simple sanity check.
if test -z "${sim_multi_configs}" || test -z "${sim_multi_default}"; then
AC_MSG_ERROR(Error in configure.ac: MULTI simulator not set up correctly)
fi
# Start in a known state.
rm -f multi-include.h multi-run.c
sim_multi_flags=
sim_multi_src=
sim_multi_obj=
sim_multi_igen_configs=
sim_seen_default=no
cat << __EOF__ > multi-run.c
/* Main entry point for MULTI simulators.
Copyright (C) 2003-2021 Free Software Foundation, Inc.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
--
This file was generated by sim/mips/configure. */
#include "sim-main.h"
#include "multi-include.h"
#include "elf-bfd.h"
#include "elf/mips.h"
#define SD sd
#define CPU cpu
void
sim_engine_run (SIM_DESC sd,
int next_cpu_nr,
int nr_cpus,
int signal) /* ignore */
{
int mach;
if (STATE_ARCHITECTURE (sd) == NULL)
mach = bfd_mach_${sim_multi_default};
else if (elf_elfheader (STATE_PROG_BFD (sd))->e_flags
& EF_MIPS_ARCH_ASE_MICROMIPS)
mach = bfd_mach_mips_micromips;
else
mach = STATE_ARCHITECTURE (SD)->mach;
switch (mach)
{
__EOF__
for fc in ${sim_multi_configs}; do
# Split up the entry. ${c} contains the first three elements.
# Note: outer sqaure brackets are m4 quotes.
c=`echo ${fc} | sed ['s/:[^:]*$//']`
bfdmachs=`echo ${fc} | sed 's/.*://'`
name=`echo ${c} | sed 's/:.*//'`
machine=`echo ${c} | sed 's/.*:\(.*\):.*/\1/'`
filter=`echo ${c} | sed 's/.*://'`
# Build the following lists:
#
# sim_multi_flags: all -M and -F flags used by the simulator
# sim_multi_src: all makefile-generated source files
# sim_multi_obj: the objects for ${sim_multi_src}
# sim_multi_igen_configs: igen configuration strings.
#
# Each entry in ${sim_multi_igen_configs} is a prefix (m32
# or m16) followed by the NAME, MACHINE and FILTER part of
# the ${sim_multi_configs} entry.
sim_multi_flags="${sim_multi_flags} -F ${filter} -M ${machine}"
# Check whether special handling is needed.
case ${c} in
*:*mips16*:*)
# Run igen twice, once for normal mode and once for mips16.
ws="m32 m16"
# The top-level function for the mips16 simulator is
# in a file m16${name}_run.c, generated by the
# tmp-run-multi Makefile rule.
sim_multi_src="${sim_multi_src} m16${name}_run.c"
sim_multi_obj="${sim_multi_obj} m16${name}_run.o"
sim_multi_flags="${sim_multi_flags} -F 16"
;;
*:*micromips32*:*)
# Run igen thrice, once for micromips32, once for micromips16,
# and once for m32.
ws="micromips_m32 micromips16 micromips32"
# The top-level function for the micromips simulator is
# in a file micromips${name}_run.c, generated by the
# tmp-run-multi Makefile rule.
sim_multi_src="${sim_multi_src} micromips${name}_run.c"
sim_multi_obj="${sim_multi_obj} micromips${name}_run.o"
sim_multi_flags="${sim_multi_flags} -F 16,32"
;;
*:*micromips64*:*)
# Run igen thrice, once for micromips64, once for micromips16,
# and once for m64.
ws="micromips_m64 micromips16 micromips64"
# The top-level function for the micromips simulator is
# in a file micromips${name}_run.c, generated by the
# tmp-run-multi Makefile rule.
sim_multi_src="${sim_multi_src} micromips${name}_run.c"
sim_multi_obj="${sim_multi_obj} micromips${name}_run.o"
sim_multi_flags="${sim_multi_flags} -F 16,32,64"
;;
*)
ws=m32
;;
esac
# Now add the list of igen-generated files to ${sim_multi_src}
# and ${sim_multi_obj}.
for w in ${ws}; do
for base in engine icache idecode model semantics support; do
sim_multi_src="${sim_multi_src} ${w}${name}_${base}.c"
sim_multi_src="${sim_multi_src} ${w}${name}_${base}.h"
sim_multi_obj="${sim_multi_obj} ${w}${name}_${base}.o"
done
sim_multi_igen_configs="${sim_multi_igen_configs} ${w}${c}"
done
# Add an include for the engine.h file. This file declares the
# top-level foo_engine_run() function.
echo "#include \"${w}${name}_engine.h\"" >> multi-include.h
# Add case statements for this engine to sim_engine_run().
for mach in `echo ${bfdmachs} | sed 's/,/ /g'`; do
echo " case bfd_mach_${mach}:" >> multi-run.c
if test ${mach} = ${sim_multi_default}; then
echo " default:" >> multi-run.c
sim_seen_default=yes
fi
done
echo " ${w}${name}_engine_run (sd, next_cpu_nr, nr_cpus, signal);" \
>> multi-run.c
echo " break;" >> multi-run.c
done
# Check whether we added a 'default:' label.
if test ${sim_seen_default} = no; then
AC_MSG_ERROR(Error in configure.ac: \${sim_multi_configs} doesn't have an entry for \${sim_multi_default})
fi
cat << __EOF__ >> multi-run.c
}
}
int
mips_mach_multi (SIM_DESC sd)
{
if (STATE_ARCHITECTURE (sd) == NULL)
return bfd_mach_${sim_multi_default};
switch (STATE_ARCHITECTURE (SD)->mach)
{
__EOF__
# Add case statements for this engine to mips_mach_multi().
for fc in ${sim_multi_configs}; do
# Split up the entry. ${c} contains the first three elements.
# Note: outer sqaure brackets are m4 quotes.
c=`echo ${fc} | sed ['s/:[^:]*$//']`
bfdmachs=`echo ${fc} | sed 's/.*://'`
for mach in `echo ${bfdmachs} | sed 's/,/ /g'`; do
echo " case bfd_mach_${mach}:" >> multi-run.c
done
done
cat << __EOF__ >> multi-run.c
return (STATE_ARCHITECTURE (SD)->mach);
default:
return bfd_mach_${sim_multi_default};
}
}
__EOF__
SIM_SUBTARGET="$SIM_SUBTARGET -DMIPS_MACH_MULTI"
else
# For clean-extra
sim_multi_src=doesnt-exist.c
if test x"${sim_mach_default}" = x""; then
AC_MSG_ERROR(Error in configure.ac: \${sim_mach_default} not defined)
fi
SIM_SUBTARGET="$SIM_SUBTARGET -DMIPS_MACH_DEFAULT=bfd_mach_${sim_mach_default}"
fi
sim_igen_flags="-F ${sim_igen_filter} ${sim_igen_machine} ${sim_igen_smp}"
sim_m16_flags=" -F ${sim_m16_filter} ${sim_m16_machine} ${sim_igen_smp}"
sim_micromips16_flags=" -F ${sim_micromips16_filter} ${sim_micromips16_machine} ${sim_igen_smp}"
sim_micromips_flags=" -F ${sim_micromips_filter} ${sim_micromips_machine} ${sim_igen_smp}"
AC_SUBST(sim_igen_flags)
AC_SUBST(sim_m16_flags)
AC_SUBST(sim_micromips_flags)
AC_SUBST(sim_micromips16_flags)
AC_SUBST(sim_gen)
AC_SUBST(sim_multi_flags)
AC_SUBST(sim_multi_igen_configs)
AC_SUBST(sim_multi_src)
AC_SUBST(sim_multi_obj)
#
# Add simulated hardware devices
#
SIM_AC_OPTION_HARDWARE(tx3904cpu tx3904irc tx3904tmr tx3904sio)
AC_PATH_X
AC_CHECK_LIB(m, fabs)
AC_CHECK_FUNCS(aint anint sqrt)
SIM_AC_OUTPUT