# Copyright (C) 2016-2018 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, write to the Free Software # Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. if {![istarget "arc*-*-*"]} then { return } if {[which $OBJDUMP] == 0} then { perror "$OBJDUMP does not exist" return } send_user "Version [binutil_version $OBJDUMP]" # Helper functions # Create object file from the assembly source. proc do_objfile { srcfile } { global srcdir global subdir set objfile [regsub -- "\.s$" $srcfile ".o"] if {![binutils_assemble $srcdir/$subdir/$srcfile tmpdir/$objfile]} then { return } if [is_remote host] { set objfile [remote_download host tmpdir/$objfile] } else { set objfile tmpdir/$objfile } return $objfile } # Ensure that disassembler output includes EXPECTED lines. proc check_assembly { testname objfile expected { disas_flags "" } } { global OBJDUMP global OBJDUMPFLAGS if [string equal "" $objfile] then { fail $testname return } set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS --disassemble $disas_flags \ $objfile"] if [regexp $expected $got] then { pass $testname } else { fail $testname } } # Make sure that a warning message is generated (because the disassembly does # not match the assembled instructions, which has happened because the user # has not specified a -M option on the disassembler command line, and so the # disassembler has had to guess as the instruction class in use). set want "Warning: disassembly.*vmac2hnfr\[ \t\]*r0,r2,r4.*dmulh12.f\[ \t\]*r0,r2,r4.*dmulh11.f" check_assembly "Warning test" [do_objfile dsp.s] $want set double_store_hs_expected {std\s*r0r1,\[r3\]} set objfile [do_objfile double_store.s] check_assembly "arc double_store default -M" $objfile \ $double_store_hs_expected check_assembly "arc double_store -Mcpu=hs" $objfile \ $double_store_hs_expected "-Mcpu=hs" check_assembly "arc double_store -Mcpu=hs38_linux" $objfile \ $double_store_hs_expected "-Mcpu=hs38_linux" set double_store_em_expected {word\s*0x1b000006} check_assembly "arc double_store -Mcpu=em" $objfile \ $double_store_em_expected "-Mcpu=em" check_assembly "arc double_store -Mcpu=em4_dmips" $objfile \ $double_store_em_expected "-Mcpu=em4_dmips" # Test to ensure that only value up to the next `,' is checked. There used to # be a bug, where whole `em,fpus' was compared against known CPU values, and # that comparison would fail. When this bug is present, whole cpu= option will # be ignored and instruction will be disassembled as ARC HS. check_assembly "arc double_store -Mcpu=em,fpus" $objfile \ $double_store_em_expected "-Mcpu=em,fpus" # Make sure that the last cpu= value is used. check_assembly "arc double_store -Mcpu=hs,cpu=em" $objfile \ $double_store_em_expected "-Mcpu=hs,cpu=em" # Check the hex printing for short immediates. set thexobj [do_objfile hexprint.s] check_assembly "arc hex printing" $thexobj \ {st\s*r0,\[r1,0xfffffff7\]} "-Mhex" check_assembly "arc normal printing" $thexobj \ {st\s*r0,\[r1,-9\]}