# Copyright (C) 1993-2021 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, write to the Free Software # Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. # Please email any bugs, comments, and/or additions to this file to: # bug-dejagnu@prep.ai.mit.edu # This file was written by Rob Savoye # and rewritten by Ian Lance Taylor if ![is_remote host] { if {[which $OBJDUMP] == 0} then { perror "$OBJDUMP does not exist" return } } send_user "Version [binutil_version $OBJDUMP]" # Simple test of objdump -i set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS -i"] set cpus_expected [list] lappend cpus_expected aarch64 alpha am33-2 arc ARC700 ARCv2 arm cris lappend cpus_expected d10v d30v fr30 fr500 fr550 h8 hppa i386 iamcu ip2022 lappend cpus_expected m16c m32c m32r m68hc11 m68hc12 m68k MCore mep c5 h1 MicroBlaze lappend cpus_expected mips mn10200 mn10300 ms1 msp MSP430 nds32 n1h_v3 ns32k lappend cpus_expected or1k or1knd pj powerpc pyramid riscv romp rs6000 s390 sh sparc lappend cpus_expected tic54x tilegx tms320c30 tms320c4x tms320c54x lappend cpus_expected v850 vax x86-64 xscale xtensa z8k z8001 z8002 # Make sure the target CPU shows up in the list. lappend cpus_expected ${target_cpu} # Create regexp set cpus_regex "([join $cpus_expected | ])" verbose -log "CPU regex: $cpus_regex" set want "BFD header file version.*srec\[^\n\]*\n\[^\n\]*header \[^\n\]*endian\[^\n\]*, data \[^\n\]*endian.*$cpus_regex" if [regexp $want $got] then { pass "objdump -i" } else { fail "objdump -i" } set obj o if { [istarget "*-*-vms"] } then { set obj obj } # The remaining tests require a test file. if {![binutils_assemble $srcdir/$subdir/bintest.s tmpdir/bintest.${obj}]} then { fail "objdump (assembling bintest.s)" return } if {![binutils_assemble $srcdir/$subdir/bintest.s tmpdir/bintest2.${obj}]} then { fail "objdump (assembling)" return } if [is_remote host] { set testfile [remote_download host tmpdir/bintest.${obj}] set testfile2 [remote_download host tmpdir/bintest2.${obj}] } else { set testfile tmpdir/bintest.${obj} set testfile2 tmpdir/bintest2.${obj} } # $testarchive exists only if it is supported. set testarchive tmpdir/bintest.a remote_file host delete $testarchive set got [binutils_run $AR "rc tmpdir/bintest.a $testfile2"] if ![string match "" $got] then { fail "bintest.a" remote_file host delete tmpdir/bintest.a } elseif [is_remote host] { set testarchive [remote_download host tmpdir/bintest.a] } remote_file host delete tmpdir/bintest2.${obj} # Test objdump -f proc test_objdump_f { testfile dumpfile } { global OBJDUMP global OBJDUMPFLAGS global cpus_regex set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS -f $testfile"] set want "${dumpfile}.*:\[ \]*file format.*architecture:\[ \]*${cpus_regex}.*HAS_RELOC.*HAS_SYMS" if ![regexp $want $got] then { fail "objdump -f ($testfile, $dumpfile)" } else { pass "objdump -f ($testfile, $dumpfile)" } } test_objdump_f $testfile $testfile if { [ remote_file host exists $testarchive ] } then { test_objdump_f $testarchive bintest2.${obj} } # Test objdump -h proc test_objdump_h { testfile dumpfile } { global OBJDUMP global OBJDUMPFLAGS set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS -h $testfile"] set want "${dumpfile}.*:\[ \]*file format.*Sections.*\[0-9\]+\[ \]+\[^ \]*(text|TEXT|P|\\\$CODE\\\$)\[^ \]*\[ \]*(\[0-9a-fA-F\]+).*\[0-9\]+\[ \]+\[^ \]*(\\.data|DATA|D_1)\[^ \]*\[ \]*(\[0-9a-fA-F\]+)" if ![regexp $want $got all text_name text_size data_name data_size] then { fail "objdump -h ($testfile, $dumpfile)" } else { verbose "text name is $text_name size is $text_size" verbose "data name is $data_name size is $data_size" set ets 8 set eds 4 # The [ti]c4x target has the property sizeof(char)=sizeof(long)=1 if [istarget *c4x*-*-*] then { set ets 2 set eds 1 } # c54x section sizes are in bytes, not octets; adjust accordingly if [istarget *c54x*-*-*] then { set ets 4 set eds 2 } if {[expr "0x$text_size"] < $ets || [expr "0x$data_size"] < $eds} then { send_log "sizes too small\n" fail "objdump -h ($testfile, $dumpfile)" } else { pass "objdump -h ($testfile, $dumpfile)" } } } test_objdump_h $testfile $testfile if { [ remote_file host exists $testarchive ] } then { test_objdump_h $testarchive bintest2.${obj} } # Test objdump -t proc test_objdump_t { testfile} { global OBJDUMP global OBJDUMPFLAGS set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS -t $testfile"] if [info exists vars] then { unset vars } while {[regexp "(\[a-z\]*_symbol)(.*)" $got all symbol rest]} { set vars($symbol) 1 set got $rest } if {![info exists vars(text_symbol)] \ || ![info exists vars(data_symbol)] \ || ![info exists vars(common_symbol)] \ || ![info exists vars(external_symbol)]} then { fail "objdump -t ($testfile)" } else { pass "objdump -t ($testfile)" } } test_objdump_t $testfile if { [ remote_file host exists $testarchive ] } then { test_objdump_t $testarchive } # Test objdump -r proc test_objdump_r { testfile dumpfile } { global OBJDUMP global OBJDUMPFLAGS set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS -r $testfile"] set want "${dumpfile}.*:\[ \]*file format.*RELOCATION RECORDS FOR \\\[\[^\]\]*(text|TEXT|P|\\\$CODE\\\$)\[^\]\]*\\\].*external_symbol" if [regexp $want $got] then { pass "objdump -r ($testfile, $dumpfile)" } else { fail "objdump -r ($testfile, $dumpfile)" } } test_objdump_r $testfile $testfile if { [ remote_file host exists $testarchive ] } then { test_objdump_r $testarchive bintest2.${obj} } # Test objdump -d proc test_objdump_d { testfile dumpfile } { global OBJDUMP global OBJDUMPFLAGS set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS -d $testfile"] set want "${dumpfile}.*:.*Disassembly of section" if ![regexp $want $got] then { fail "objdump -d $testfile: No disassembly title" return } set want "${dumpfile}.*:.*00+0 " if ![regexp $want $got] then { fail "objdump -d $testfile: Missing symbol name and address" return } set want "${dumpfile}.*:.*00+. " if ![regexp $want $got] then { fail "objdump -d $testfile: Missing second symbol" return } set want "${dumpfile}.*:.*00+. " if ![regexp $want $got] then { fail "objdump -d $testfile: Missing third symbol" return } pass "objdump -d $testfile" } test_objdump_d $testfile $testfile if { [ remote_file host exists $testarchive ] } then { test_objdump_d $testarchive bintest2.${obj} } # Test objdump --disassemble= proc test_objdump_d_sym { testfile dumpfile } { global OBJDUMP global OBJDUMPFLAGS set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS --disassemble=text_symbol2 $testfile"] set want "$dumpfile:.*Disassembly of section" if ![regexp $want $got] then { fail "objdump --disassemble=text_symbol2 $testfile: No disassembly title" return } set want "$dumpfile:.*00+0 " if [regexp $want $got] then { fail "objdump --disassemble=text_symbol2 $testfile: First symbol displayed, when it should be absent" return } set want "$dumpfile:.*00+. " if ![regexp $want $got] then { fail "objdump --disassemble=text_symbol2 $testfile: Missing second symbol" return } set want "$dumpfile:.*00+. " if [regexp $want $got] then { fail "objdump --disassemble=text_symbol2 $testfile: Third symbol displayed when it should be absent" return } pass "objdump --disassemble=text_symbol2 $testfile" } test_objdump_d_sym $testfile $testfile proc test_objdump_d_func_sym { testfile dumpfile } { global OBJDUMP global OBJDUMPFLAGS set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS --disassemble=func --disassemble-zeroes $testfile"] set want "$dumpfile:.*Disassembly of section" if ![regexp $want $got] then { fail "objdump --disassemble=func $testfile: No disassembly title" return } set want "$dumpfile:.*00+0 " if [regexp $want $got] then { fail "objdump --disassemble=func $testfile: First symbol displayed, when it should be absent" return } set want "$dumpfile:.*00+. " if ![regexp $want $got] then { fail "objdump --disassemble=func $testfile: Disassembly does not start at function symbol" return } set want "$dumpfile:.*00+. " if ![regexp $want $got] then { fail "objdump --disassemble=func $testfile: Non function symbol not displayed" return } set want "$dumpfile:.*00+. " if [regexp $want $got] then { fail "objdump --disassemble=func $testfile: Disassembly did not stop at the next function" return } pass "objdump --disassemble=func $testfile" } proc test_objdump_d_non_func_sym { testfile dumpfile } { global OBJDUMP global OBJDUMPFLAGS set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS --disassemble=global_non_func_sym $testfile"] set want "$dumpfile:.*Disassembly of section" if ![regexp $want $got] then { fail "objdump --disassemble=non_func $testfile: No disassembly title" return } set want "$dumpfile:.*00+0 " if [regexp $want $got] then { fail "objdump --disassemble=non_func $testfile: First symbol displayed, when it should be absent" return } set want "$dumpfile:.*00+. " if ![regexp $want $got] then { fail "objdump --disassemble=non_func $testfile: Non function symbol not displayed" return } set want "$dumpfile:.*00+. " if [regexp $want $got] then { fail "objdump --disassemble=non_func $testfile: Disassembly did not stop at the next symbol" return } pass "objdump --disassemble=non_func $testfile" } # Extra test for ELF format - check that --disassemble=func disassembles # all of func, and does not stop at the next symbol. if { [is_elf_format] } then { if {![binutils_assemble $srcdir/$subdir/disasm.s tmpdir/disasm.${obj}]} then { fail "objdump --disassemble=func (assembling disasm.s)" } else { if [is_remote host] { set elftestfile [remote_download host tmpdir/disasm.${obj}] } else { set elftestfile tmpdir/disasm.${obj} } test_objdump_d_func_sym $elftestfile $elftestfile test_objdump_d_non_func_sym $elftestfile $elftestfile } } # Test objdump -s proc test_objdump_s { testfile dumpfile } { global OBJDUMP global OBJDUMPFLAGS set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS -s $testfile"] set want "${dumpfile}.*:\[ \]*file format.*Contents.*(text|TEXT|P|\\\$CODE\\\$)\[^0-9\]*\[ \]*\[0-9a-fA-F\]*\[ \]*(00000001|01000000|00000100).*Contents.*(data|DATA|D_1)\[^0-9\]*\[ \]*\[0-9a-fA-F\]*\[ \]*(00000002|02000000|00000200)" if [regexp $want $got] then { pass "objdump -s ($testfile, $dumpfile)" } else { fail "objdump -s ($testfile, $dumpfile)" } } test_objdump_s $testfile $testfile if { [ remote_file host exists $testarchive ] } then { test_objdump_s $testarchive bintest2.${obj} } # Test objdump -s on a file that contains a compressed .debug section if { ![is_elf_format] } then { unsupported "objdump compressed debug" } elseif { ![binutils_assemble $srcdir/$subdir/dw2-compressed.S tmpdir/dw2-compressed.${obj}] } then { fail "objdump compressed debug" } else { if [is_remote host] { set compressed_testfile [remote_download host tmpdir/dw2-compressed.${obj}] } else { set compressed_testfile tmpdir/dw2-compressed.${obj} } set got [remote_exec host "$OBJDUMP $OBJDUMPFLAGS -s -j .zdebug_abbrev $compressed_testfile" "" "/dev/null" "objdump.out"] if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]] } then { fail "objdump -s -j .zdebug_abbrev (reason: unexpected output)" send_log $got send_log "\n" } if { [regexp_diff objdump.out $srcdir/$subdir/objdump.s] } then { fail "objdump -s -j .zdebug_abbrev" } else { pass "objdump -s -j .zdebug_abbrev" } # Test objdump -W on a file that contains some compressed .debug sections set got [remote_exec host "$OBJDUMP $OBJDUMPFLAGS -W $compressed_testfile" "" "/dev/null" "objdump.out"] if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]] } then { fail "objdump -W (reason: unexpected output)" send_log $got send_log "\n" } if { [regexp_diff objdump.out $srcdir/$subdir/objdump.W] } then { fail "objdump -W" } else { pass "objdump -W" } } # Test objdump -WL on a file that contains line information for multiple files and search directories. # Not supported on mcore and moxie targets because they do not (yet) support the generation # of DWARF2 line debug information. if { ![is_elf_format] || [istarget "hppa64*-*-hpux*"] || [istarget "ia64*-*-*"] || [istarget "mcore-*-*"] || [istarget "moxie-*-*"] } then { unsupported "objump decode line" } else { if { [istarget "or1k*-*-*"] } then { set decodedline_testsrc $srcdir/$subdir/dw2-decodedline-1.S } else { set decodedline_testsrc $srcdir/$subdir/dw2-decodedline.S } if { ![binutils_assemble $decodedline_testsrc tmpdir/dw2-decodedline.${obj}] } then { fail "objdump decoded line" } if [is_remote host] { set decodedline_testfile [remote_download host tmpdir/dw2-decodedline.${obj}] } else { set decodedline_testfile tmpdir/dw2-decodedline.${obj} } set got [remote_exec host "$OBJDUMP $OBJDUMPFLAGS -WL $decodedline_testfile" "" "/dev/null" "objdump.out"] if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]] } then { fail "objdump -WL (reason: unexpected output)" send_log $got send_log "\n" } if { [regexp_diff objdump.out $srcdir/$subdir/objdump.WL] } then { fail "objdump -WL" } else { pass "objdump -WL" } } # Test objdump -W on a file containing debug_ranges information. if { ![is_elf_format] } then { unsupported "objdump debug_ranges test" } elseif { ![binutils_assemble $srcdir/$subdir/dw2-ranges.S tmpdir/dw2-ranges.${obj}] } then { fail "objdump debug_ranges test" } else { if [is_remote host] { set ranges_testfile [remote_download host tmpdir/dw2-ranges.${obj}] } else { set ranges_testfile tmpdir/dw2-ranges.${obj} } set got [remote_exec host "$OBJDUMP $OBJDUMPFLAGS --dwarf=Ranges $ranges_testfile" "" "/dev/null" "objdump.out"] if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]] } then { fail "objdump -W for debug_ranges (reason: unexpected output)" send_log $got send_log "\n" } setup_xfail "msp430-*-*" "nds32*-*-*" if { [regexp_diff objdump.out $srcdir/$subdir/dw2-ranges.W] } then { fail "objdump -W for debug_ranges" } else { pass "objdump -W for debug_ranges" } } proc test_build_id_debuglink {} { global srcdir global subdir global env global STRIP global OBJCOPY global OBJDUMP global CFLAGS_FOR_TARGET set test "build-id-debuglink" # Use a fixed build-id. if { [info exists CFLAGS_FOR_TARGET] } { set save_CFLAGS_FOR_TARGET $CFLAGS_FOR_TARGET } set CFLAGS_FOR_TARGET "-g -Wl,--build-id=0x12345678abcdef01" if { [target_compile $srcdir/$subdir/testprog.c tmpdir/testprog executable debug] != "" } { unsupported "$test (build)" return } if { [info exists save_CFLAGS_FOR_TARGET] } { set CFLAGS_FOR_TARGET $save_CFLAGS_FOR_TARGET } else { unset CFLAGS_FOR_TARGET } if { [binutils_run $STRIP "--strip-debug --remove-section=.comment tmpdir/testprog -o tmpdir/testprog.strip"] != "" } { fail "$test (strip debug info)" return } if { [binutils_run $OBJCOPY "--only-keep-debug tmpdir/testprog tmpdir/testprog.debug"] != "" } { fail "$test (create separate debug info file)" return } set got [remote_exec host "mkdir -p .build-id/12" ] if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]] } then { fail "$test (make debug directory)" return } set got [remote_exec host "cp tmpdir/testprog.debug .build-id/12/345678abcdef01.debug"] if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]] } then { fail "$test (copy debug info into debug directory)" return } set got [remote_exec host "$OBJDUMP -Sl tmpdir/testprog.strip" "" "/dev/null" "tmpdir/testprog.strip.dump"] if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]] } then { fail "$test (post strip dump)" return } set src2 tmpdir/testprog.strip.dump verbose " grep -e testprog.c ${src2}" set status [remote_exec build grep "-e testprog.c ${src2}"] set exec_output [lindex $status 1] set exec_output [prune_warnings $exec_output] if [string match "" $exec_output] then { send_log "$exec_output\n" verbose "$exec_output" 1 fail "$test (grepping for source file name in disassembly output)" } else { pass "$test" # Cleanup... set got [remote_exec host "rm .build-id/12/345678abcdef01.debug"] set got [remote_exec host "rmdir -p .build-id/12" ] set got [remote_exec host "rm tmpdir/testprog.strip.dump"] set got [remote_exec host "rm tmpdir/testprog.debug"] set got [remote_exec host "rm tmpdir/testprog.strip"] } } if {[is_elf_format]} then { test_build_id_debuglink } # Test objdump -Wk on a file containing debug links. if { [is_elf_format] } then { set testsrc $srcdir/$subdir/debuglink.s if { ![binutils_assemble $testsrc tmpdir/debuglink.${obj}] } then { fail "objdump -Wk (reason: could not assemble source)" } if [is_remote host] { set testfile [remote_download host tmpdir/debuglink.${obj}] } else { set testfile tmpdir/debuglink.${obj} } set got [remote_exec host "$OBJDUMP $OBJDUMPFLAGS -Wk $testfile" "" "/dev/null" "objdump.out"] if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]] } then { fail "objdump -Wk (reason: unexpected output)" send_log $got send_log "\n" } if { [regexp_diff objdump.out $srcdir/$subdir/objdump.Wk] } then { fail "objdump -Wk" } else { pass "objdump -Wk" } } # Very similar to proc test_build_id_debuglink except this time we # display some of the contents of the separate debug info file. proc test_follow_debuglink { options dumpfile } { global srcdir global subdir global OBJDUMP global obj set test "follow-debuglink ($options)" if {![binutils_assemble $srcdir/$subdir/debuglink.s tmpdir/debuglink.${obj}]} then { fail "$test (reason: assemble first source file)" return } if {![binutils_assemble $srcdir/$subdir/linkdebug.s tmpdir/linkdebug.debug]} then { fail "$test (reason: assemble second source file)" return } if ![is_remote host] { set tempfile tmpdir/debuglink.${obj} } else { set tempfile [remote_download host tmpdir/linkdebug.debug] set tempfile [remote_download host tmpdir/debuglink.${obj}] } set got [remote_exec host "$OBJDUMP $options $tempfile" "" "/dev/null" "tmpdir/objdump.out"] if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]] } then { fail "$test (reason: unexpected error output from objdump)" return } if { [regexp_diff tmpdir/objdump.out $srcdir/$subdir/$dumpfile] } then { fail $test verbose "output is \n[file_contents objdump.out]" 2 return } pass $test # Tidy up set got [remote_exec host "rm tmpdir/objdump.out"] set got [remote_exec host "rm $tempfile"] set got [remote_exec host "rm tmpdir/linkdebug.debug"] } if {[is_elf_format]} then { test_follow_debuglink "--dwarf=follow-links --dwarf=info --dwarf=str" objdump.WK2 test_follow_debuglink "--dwarf=follow-links --headers --wide" objdump.WK3 } # Test objdump output with start and stop address limits for the specified # dump option proc test_objdump_limited { testfile dopt want start stop } { global OBJDUMP global OBJDUMPFLAGS set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS $dopt --start-address 0x$start --stop-address 0x$stop $testfile"] if [regexp $want $got] then { pass "objdump $dopt --start-address 0x$start --stop-address 0x$stop ($testfile)" } else { fail "objdump $dopt --start-address 0x$start --stop-address 0x$stop ($testfile)" } } # Test objdump -d --start-address M --stop-address N proc test_objdump_disas_limited { testfile text start stop } { set want "$testfile:\[ \]*file format.*Disassembly of section $text:\n.*\[ \]*$start:.*" test_objdump_limited $testfile -d $want $start $stop } # Test objdump -s --start-address M --stop-address N proc test_objdump_content_limited { testfile text start stop } { set want "$testfile:\[ \]*file format.*Contents of section $text:\n\[ \]*$start .*" test_objdump_limited $testfile -s $want $start $stop } # Test objdump with --start-address and --stop-address options for higher # address ranges which may be sign-extended on targets that treat addresses # as signed. We only check that objdump produces some dump output at the # specified start address as a proxy for correct enforcement of the # start/stop limits. if {[is_elf_format]} then { set sect_names [get_standard_section_names] if { $sect_names != "" } { set text [lindex $sect_names 0] } else { set text ".text" } # generate a copy of the test object with .text repositioned if { [binutils_run $OBJCOPY "--change-section-address $text=0x80000000 tmpdir/bintest.${obj} tmpdir/bintest_signed.${obj}"] != "" } { fail "Failed to reposition $text to 0x80000000 (tmpdir/bintest.${obj} -> tmpdir/bintest_signed.${obj})" return } if [is_remote host] { set testfile3 [remote_download host tmpdir/bintest_signed.${obj}] } else { set testfile3 tmpdir/bintest_signed.${obj} } test_objdump_content_limited $testfile3 $text "80000004" "80000008" test_objdump_disas_limited $testfile3 $text "80000004" "80000008" remote_file host delete $testfile3 } # Test objdump on .NET assemblies (PE files) proc test_objdump_dotnet_assemblies {} { global OBJDUMP global base_dir set test "dotnet-assemblies" set got [binutils_run "$base_dir/testsuite/gentestdlls" "tmpdir pei-i386 pei-x86-64"] set want "wrote linux-pei-x86-64.dll" # The test program is hardcoded to generate valid dlls on any target if ![regexp $want $got] then { fail "$test" } # First test an ordinary x86 PE format DLL. set test "dotnet-assemblies (ordinary x86 DLL)" set want "file format pei-i386" set got [binutils_run $OBJDUMP "-x tmpdir/simple-pei-i386.dll"] if ![regexp $want $got] then { if [regexp "file format not recognized" $got] then { # If the target does not recognize vanilla x86 PE format files # then it cannot be expected to recognize .NET assemblies. But # this means that these tests are unsupported, rather than failures. unsupported $test } else { fail "$test" } # In either case, if cannot pass this test, then # there is no point in running any further tests. return } pass $test # Next check a 32-bit .NET DLL. set test "dotnet-assemblies (32-bit .NET)" set got [binutils_run $OBJDUMP "-x tmpdir/linux-pei-i386.dll"] if ![regexp $want $got] then { fail "$test" } else { pass $test } # Next check an ordrinary x86_64 PE format DLL. set test "dotnet-assemblies (ordinary x86_64 DLL)" set want "file format pei-x86-64" set got [binutils_run $OBJDUMP "-x tmpdir/simple-pei-x86-64.dll"] if ![regexp $want $got] then { if [regexp "file format not recognized" $got] then { # If the target does not support 64-bit PE format # files, then the following tests are unsupported. unsupported $test } else { fail "$test" } return } pass $test # Finally check a 64-bit .NET DLL. set test "dotnet-assemblies (64-bit)" set got [binutils_run $OBJDUMP "-x tmpdir/linux-pei-x86-64.dll"] if ![regexp $want $got] then { fail "$test" } else { pass $test } } test_objdump_dotnet_assemblies # Test objdump -S proc test_objdump_S { } { global srcdir global subdir global OBJDUMP global OBJDUMPFLAGS set test "objdump -S" if { [target_compile $srcdir/$subdir/testprog.c tmpdir/testprog executable debug] != "" } { unsupported "$test (build)" return } set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS -D -S tmpdir/testprog"] set want "static int local = 2" if [regexp $want $got] then { pass $test } else { fail $test } set test "objdump --source-comment" set got [binutils_run $OBJDUMP "$OBJDUMPFLAGS --disassemble-all --source-comment=// tmpdir/testprog"] set want "//static int local = 2" if [regexp $want $got] then { pass $test } else { fail $test } } test_objdump_S # Options which are not tested: -a -D -R -T -x -l --stabs # I don't see any generic way to test any of these other than -a. # Tests could be written for specific targets, and that should be done # if specific problems are found.