# Copyright (C) 1999-2018 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. # Please email any bugs, comments, and/or additions to this file to: # bug-dejagnu@prep.ai.mit.edu # Written by Nick Clifton # Based on scripts written by Ian Lance Taylor # and Ken Raeburn . # Exclude non-ELF targets. if ![is_elf_format] { verbose "$READELF is only intended for ELF targets" 2 return } # First some helpful procedures, then the tests themselves # Return the contents of the filename given proc file_contents { filename } { set file [open $filename r] set contents [read $file] close $file return $contents } # Find out the size by reading the output of the EI_CLASS field. # Similar to the test for readelf -h, but we're just looking for the # EI_CLASS line here. proc readelf_find_size { binary_file } { global READELF global READELFFLAGS global readelf_size set readelf_size "" set testname "finding out ELF size with readelf -h" set got [remote_exec host "$READELF $READELFFLAGS -h $binary_file" "" "/dev/null" "readelf.out"] if [is_remote host] then { remote_upload host "readelf.out" } if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]]} then { send_log $got fail $testname return } if { ! [regexp "\n\[ \]*Class:\[ \]*ELF(\[0-9\]+)\n" \ [file_contents readelf.out] nil readelf_size] } { verbose -log "EI_CLASS field not found in output" verbose -log "output is \n[file_contents readelf.out]" fail $testname return } else { verbose -log "ELF size is $readelf_size" } pass $testname } # Run an individual readelf test. # Basically readelf is run on the binary_file with the given options. # Readelf's output is captured and then compared against the contents # of the regexp_file-readelf_size if it exists, else regexp_file. proc readelf_test { options binary_file regexp_file xfails } { global READELF global READELFFLAGS global readelf_size global srcdir global subdir set testname "readelf $options [file rootname [file tail $binary_file]]" send_log "exec $READELF $READELFFLAGS $options $binary_file > readelf.out\n" set got [remote_exec host "$READELF $READELFFLAGS $options $binary_file" "" "/dev/null" "readelf.out"] foreach xfail $xfails { setup_xfail $xfail } if { [lindex $got 0] != 0 || ![string match "" [lindex $got 1]] } then { fail "$testname (reason: unexpected output)" send_log $got send_log "\n" return } set target_machine "" if [istarget "mips*-*-*"] then { if [is_bad_symtab] then { set target_machine mips } else { set target_machine tmips } } if { $target_machine != "" && [file exists $srcdir/$subdir/$regexp_file-$readelf_size-$target_machine] } then { set regexp_file $regexp_file-$readelf_size-$target_machine } elseif { $target_machine != "" && [file exists $srcdir/$subdir/$regexp_file-$target_machine] } then { set regexp_file $regexp_file-$target_machine } elseif { [file exists $srcdir/$subdir/$regexp_file-$readelf_size] } then { set regexp_file $regexp_file-$readelf_size } if { [regexp_diff readelf.out $srcdir/$subdir/$regexp_file] } then { fail $testname verbose "output is \n[file_contents readelf.out]" 2 return } pass $testname } # Simple proc to skip certain expected warning messages. proc prune_readelf_wi_warnings { text } { regsub -all "(^|\n)(.*Skipping unexpected symbol type.*)" $text "\\1" text return $text } # Testing the "readelf -wi" option is difficult because there # is no guaranteed order to the output, and because some ports # will use indirect string references, whilst others will use # direct references. So instead of having an expected output # file, like the other readelf tests, we grep for strings that # really ought to be there. proc readelf_wi_test {} { global READELF global READELFFLAGS global srcdir global subdir # Compile the second test file. if { [target_compile $srcdir/$subdir/testprog.c tmpdir/testprog.o object debug] != "" } { verbose "Unable to compile test file." untested "readelf -wi" return } # Download it. set tempfile [remote_download host tmpdir/testprog.o] # Run "readelf -wi" on it. set got [remote_exec host "$READELF $READELFFLAGS -wi $tempfile" "" "/dev/null" "readelf.out"] # Upload the results. set output [remote_upload host readelf.out] file_on_host delete $tempfile # Strip any superflous warnings. set got [prune_readelf_wi_warnings [lindex $got 1]] if ![string match "" $got] then { fail "readelf $READELFFLAGS -wi (reason: unexpected output)" send_log $got send_log "\n" return } if ![file size $output] then { # If the output file is empty, then this target does not # generate dwarf2 output. This is not a failure. verbose "No output from 'readelf -wi'" untested "readelf -wi" return } # Search for strings that should be in the output. set sought { ".*DW_TAG_compile_unit.*" ".*DW_TAG_subprogram.*" ".*DW_TAG_base_type.*" ".*DW_AT_producer.*(GNU C|indirect string).*" ".*DW_AT_language.*ANSI C.*" ".*DW_AT_name.*(testprog.c|indirect string).*" ".*DW_AT_name.*fn.*" ".*DW_AT_name.*(main|indirect string).*" ".*\(DW_OP_addr: 0\).*" } # The MSP430 in LARGE mode does not generate a DW_OP_addr. setup_xfail msp430*-*-* foreach looked_for $sought { set lines [grep $output $looked_for] if ![llength $lines] then { fail "readelf -wi: missing: $looked_for" send_log readelf.out return } } file_on_host delete $output # All done. pass "readelf -wi" } # This tests "readelf -wa", but on a file with a compressed # .debug_abbrev section. proc readelf_compressed_wa_test {} { global READELF global READELFFLAGS global srcdir global subdir # Compile the compressed-debug-section test file. if { [target_compile $srcdir/$subdir/dw2-compressed.S tmpdir/dw2-compressed.o object debug] != "" } { verbose "Unable to compile test file." untested "readelf -wa (compressed)" return } # Download it. set tempfile [remote_download host tmpdir/dw2-compressed.o] # Run "readelf -wa" on it. set got [remote_exec host "$READELF $READELFFLAGS -wa $tempfile" "" "/dev/null" "readelf.out"] # Upload the results. set output [remote_upload host readelf.out] file_on_host delete $tempfile if { [string compare [file_contents readelf.out] [file_contents $srcdir/$subdir/readelf.wa]] != 0 } then { fail "readelf -wa (compressed)" verbose "output is \n[file_contents readelf.out]" 2 verbose "expected is \n[file_contents $srcdir/$subdir/readelf.wa]" 2 return } pass "readelf -wa (compressed)" } # Test readelf's dumping abilities. proc readelf_dump_test {} { global READELF global READELFFLAGS global srcdir global subdir # Assemble the dump test file. if {![binutils_assemble $srcdir/$subdir/dumptest.s tmpdir/dumptest.o]} then { unresolved "readelf -p: failed to assemble dump test file" return } # Download it. set tempfile [remote_download host tmpdir/dumptest.o] # Run "readelf -p.data" on it. set sect_names [get_standard_section_names] if { $sect_names != "" } { set got [remote_exec host "$READELF $READELFFLAGS -p[lindex $sect_names 1] $tempfile" "" "/dev/null" "readelf.out"] } else { set got [remote_exec host "$READELF $READELFFLAGS -p.data $tempfile" "" "/dev/null" "readelf.out"] } set got [lindex $got 1] # Upload the results. set output [remote_upload host readelf.out] # Check for something going wrong. if ![string match "" $got] then { fail "readelf -p: unexpected output" send_log $got send_log "\n" return } # Search for strings that should be in the output. set sought { ".*test_string.*" } foreach looked_for $sought { set lines [grep $output $looked_for] if ![llength $lines] then { fail "readelf -p: missing: $looked_for" send_log readelf.out return } } file_on_host delete $tempfile file_on_host delete $output # All done. pass "readelf -p" # XXX FIXME: Add test of readelf -x here } if ![is_remote host] { if {[which $READELF] == 0} then { perror "$READELF does not exist" return } } send_user "Version [binutil_version $READELF]" # Assemble the test file. if {![binutils_assemble $srcdir/$subdir/bintest.s tmpdir/bintest.o]} then { unresolved "readelf -h bintest (failed to assemble)" unresolved "readelf -S bintest (failed to assemble)" unresolved "readelf -s bintest (failed to assemble)" unresolved "readelf -r bintest (failed to assemble)" global readelf_size set readelf_size "" } else { if ![is_remote host] { set tempfile tmpdir/bintest.o } else { set tempfile [remote_download host tmpdir/bintest.o] } # First, determine the size, so specific output matchers can be used. readelf_find_size $tempfile # Run the tests. readelf_test -h $tempfile readelf.h {} readelf_test -S $tempfile readelf.s {} setup_xfail "mips-*-*irix*" readelf_test -s $tempfile readelf.ss {} readelf_test -r $tempfile readelf.r {} } readelf_wi_test readelf_compressed_wa_test readelf_dump_test # PR 13482 - Check for off-by-one errors when dumping .note sections. if {![binutils_assemble $srcdir/$subdir/version.s tmpdir/version.o]} then { unresolved "readelf -n version (failed to assemble)" } else { if ![is_remote host] { set tempfile tmpdir/version.o } else { set tempfile [remote_download host tmpdir/version.o] } readelf_test -n $tempfile readelf.n {} } # PR 18374 - Check that relocations against the .debug_loc section # do not prevent readelf from displaying all the location lists. if {![binutils_assemble $srcdir/$subdir/pr18374.s tmpdir/pr18374.o]} then { unresolved "readelf --debug-dump=loc pr18374 (failed to assemble)" } else { if ![is_remote host] { set tempfile tmpdir/pr18374.o } else { set tempfile [remote_download host tmpdir/pr18374.o] } readelf_test --debug-dump=loc $tempfile readelf.pr18374 {} } # locview - Check dumping of location lists with location views. if {![binutils_assemble $srcdir/$subdir/locview-1.s tmpdir/locview-1.o]} then { unresolved "readelf --debug-dump=loc locview-1 (failed to assemble)" } else { if ![is_remote host] { set tempfile tmpdir/locview-1.o } else { set tempfile [remote_download host tmpdir/locview-1.o] } readelf_test --debug-dump=loc $tempfile readelf.locview-1 {} } if {![binutils_assemble $srcdir/$subdir/locview-2.s tmpdir/locview-2.o]} then { unresolved "readelf --debug-dump=loc locview-2 (failed to assemble)" } else { if ![is_remote host] { set tempfile tmpdir/locview-2.o } else { set tempfile [remote_download host tmpdir/locview-2.o] } readelf_test --debug-dump=loc $tempfile readelf.locview-2 {} } # Check that decompressed dumps work. if {![binutils_assemble $srcdir/$subdir/z.s tmpdir/z.o]} then { unresolved "readelf --decompress --hex-dump .debug_loc z (failed to assemble)" } else { if ![is_remote host] { set tempfile tmpdir/z.o } else { set tempfile [remote_download host tmpdir/z.o] } readelf_test {--decompress --hex-dump .debug_loc} $tempfile readelf.z {} } # Skip the next test for the RISCV architectures because they # do not support .ULEB128 pseudo-ops with non-constant values. if ![istarget "riscv*-*-*"] then { set hpux "" if [istarget "hppa*64*-*-hpux*"] { set hpux "--defsym HPUX=1" } # Assemble the DWARF-5 test file. if {![binutils_assemble_flags $srcdir/$subdir/dw5.S tmpdir/dw5.o $hpux]} then { unresolved "readelf -wiaoRlL dw5 (failed to assemble)" } else { # Download it. if ![is_remote host] { set tempfile tmpdir/dw5.o } else { set tempfile [remote_download host tmpdir/dw5.o] } # First, determine the size, so specific output matchers can be used. readelf_find_size $tempfile # Make sure that readelf can decode the contents. readelf_test -wiaoRlL $tempfile dw5.W { nds32*-elf } } } # Assemble the DWARF-5 attributes test file. if {![binutils_assemble_flags $srcdir/$subdir/dwarf-attributes.S tmpdir/dwarf-attributes.o ""]} then { unresolved "readelf -wi dwarf-attributes (failed to assemble)" } else { # Download it. if ![is_remote host] { set tempfile tmpdir/dwarf-attributes.o } else { set tempfile [remote_download host tmpdir/dwarf-attributes.o] } # First, determine the size, so specific output matchers can be used. readelf_find_size $tempfile # Make sure that readelf can decode the contents. readelf_test -wi $tempfile dwarf-attributes.W {} } # Check that debug link sections can be dumped. if {![binutils_assemble $srcdir/$subdir/debuglink.s tmpdir/debuglink.o]} then { unresolved "readelf --debug-dump=links (failed to assemble debuglink.s)" } else { if ![is_remote host] { set tempfile tmpdir/debuglink.o } else { set tempfile [remote_download host tmpdir/debuglink.o] } readelf_test {--debug-dump=links} $tempfile readelf.k {} # Check that debug link sections can be followed. if {![binutils_assemble $srcdir/$subdir/linkdebug.s tmpdir/linkdebug.debug]} then { unresolved "readelf --debug-dump=follow-links (failed to assemble linkdebug.s)" } else { if [is_remote host] { set tempfile2 [remote_download host tmpdir/linkdebug.debug] } readelf_test {-wKis} $tempfile objdump.WK2 {} } } if {![binutils_assemble $srcdir/$subdir/dwo.s tmpdir/dwo.o]} then { unresolved "readelf --debug-dump=links (failed to assemble dwo.s)" } else { if ![is_remote host] { set tempfile tmpdir/dwo.o } else { set tempfile [remote_download host tmpdir/dwo.o] } readelf_test {--debug-dump=links} $tempfile readelf.k2 {} }