# Copyright (C) 2004-2018 Free Software Foundation, Inc. # # This file is part of the GNU Binutils. # # 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: # binutils@sources.redhat.com # This scripts tests of all available SH architectures with all other SH # architectures. It ensures that those combinations which should not work # do not work, and that those that should work produce the correct output # architecture. # # It looks for files in the same directory as this file named sh*.s . # Each file must contain one or more instructions which uniquely identifies # that architecture. The architecture name is inferred from the file name. # It is best to use the same files used by the assembler testsuite. # # It also creates another architecture named 'sh-unknown' by modifying # another arch type (there is no way to assemble such an arch) in order # to test what the linker would do with an older object file. # # The script generates the architecture permutations automatically, # but it reads the expected results from the file arch_expected.txt (also # found in the same directory as this script). # # The arch_expected.txt file should NOT be hand edited. Whenever the script # is run (e.g. with 'make check') it creates a new (usually identical) file # named arch_results.txt in the /ld/testsuite directory. When the # expected results change (or new architectures are added) this new file # can be used to replace arch_expected.txt with no modification required. # The procedure extracts the architecture name from the objdump output. # If there is no architecture name (or objdump output changes significantly) # then the behaviour is undefined, but it will most likely return junk. proc get_sh_arch { ofile } { global OBJDUMP set cmd "$OBJDUMP -f $ofile" verbose -log $cmd catch "exec $cmd" objdump_output verbose -log $objdump_output set objdump_output [string replace $objdump_output 0 \ [expr [string first "architecture:" $objdump_output] + 13] ""] return [string range $objdump_output 0 [expr [string first "," $objdump_output] - 1]] } # This procedure runs two tests: # Test 1: Check the linker can link the given files. # Test 2: Check that the resultant architecture is as expected. # It also writes an entry to the arch_results.txt file. proc test_arch { file1 file2 arch resultfile } { global LD set name1 [file tail $file1] set rootname1 [file rootname $name1] set name2 [file tail $file2] set rootname2 [file rootname $name2] set flags [big_or_little_endian] # This must use -r to prevent LD trying to relocate the (unrealistic) file send_log "$LD $flags -r -o ${rootname1}_${rootname2}.o $file1 $file2\n" catch "exec $LD $flags -r -o ${rootname1}_${rootname2}.o $file1 $file2" ld_output send_log $ld_output if {[string equal $ld_output ""] == 1} then { pass "$rootname1 file should link with $rootname2 file" set result [get_sh_arch "${rootname1}_${rootname2}.o"] puts $resultfile [format "%-20s %-20s %s" $file1 $file2 $result] if {$result == $arch} then { pass "$rootname1 file with $rootname2 file should link to arch $arch" file delete "${rootname1}_${rootname2}.o" } else { fail "$rootname1 file with $rootname2 file should link to arch $arch" } } else { fail "$rootname1 file should link with $rootname2 file" puts $resultfile [format "%-20s %-20s ERROR" $file1 $file2] untested "$rootname2 file with $rootname2 file should link to arch $arch" } } # This procedure tests that a pair of files that are not # supposed to link does, in fact, not link. # It also writes an entry to the arch_results.txt file. proc test_arch_error { file1 file2 resultfile} { global link_output LD set name1 [file tail $file1] set rootname1 [file rootname $name1] set name2 [file tail $file2] set rootname2 [file rootname $name2] # This must use -r to prevent LD trying to relocate the (unrealistic) file send_log "$LD -r -o ${rootname1}_${rootname2}.o $file1 $file2\n" catch "exec $LD -r -o ${rootname1}_${rootname2}.o $file1 $file2" ld_output send_log $ld_output if {[string equal $ld_output ""] == 1} then { fail "$rootname1 file should NOT link with $rootname2 file" puts $resultfile [format "%-20s %-20s [get_sh_arch ${rootname1}_${rootname2}.o]" $file1 $file2] } else { pass "$rootname1 file should NOT link with $rootname2 file" puts $resultfile [format "%-20s %-20s ERROR" $file1 $file2] } } # These tests are not suitable for sh-coff because # coff does not store the architecture information. if [istarget sh*-*-elf] then { global subdir srcdir global AS # Find all the architectures and assemble all the files # we will use for the linker tests. set sfilelist [lsort -ascii [glob "$srcdir/$subdir/sh*.s"]] set ofilelist {} foreach sfile $sfilelist { set ofile "[file rootname [file tail $sfile]].o" lappend ofilelist $ofile set endian "-big" if [string equal [big_or_little_endian] " -EL"] then { set endian "-little" } set cmd "$AS $endian -isa=any $sfile -o $ofile" verbose -log $cmd catch "exec $cmd" as_output if ![file exists $ofile] then { verbose -log $as_output perror "$sfile: assembly failed" } } # Create the default arch ofile # This cannot be created with the assembler # sh4al-dsp is number 6, sh-unknown is 0 lappend ofilelist "sh-unknown.o" if [string equal [big_or_little_endian] " -EL"] then { set cmd {xxd sh4al-dsp.o | sed {s/\(^0000020: .... .... \)06/\100/} | xxd -r - sh-unknown.o} } else { set cmd {xxd sh4al-dsp.o | sed {s/\(^0000020: .... .... .... ..\)06/\100/} | xxd -r - sh-unknown.o} } verbose -log $cmd catch "exec $cmd" xxd_output verbose -log $xxd_output if [string equal [get_sh_arch "sh-unknown.o"] "sh4al-dsp"] then { perror "sh-unknown.o not generated correctly" } # Initialise the results file set outfile [open "arch_results.txt" w 0666] puts $outfile "# Generated file. DO NOT EDIT" puts $outfile "#" puts $outfile "# This file is generated by ld/testsuite/ld-sh/arch/arch.exp ." puts $outfile "# It contains the expected results of the tests." puts $outfile "# If the tests are failing because the expected results" puts $outfile "# have changed then run 'make check' and copy the new file" puts $outfile "# from /ld/arch_results.txt" puts $outfile "# to /ld/testsuite/ld-sh/arch/arch_expected.txt ." puts $outfile "# Make sure the new expected results are ALL correct." puts $outfile "#" puts $outfile [format "# %-18s %-20s %s" "FILE1" "FILE2" "OUTPUT"] puts $outfile [format "# %-18s %-20s %s" "-----" "-----" "------"] # Open the expected results file and skip the header set infile [open "$srcdir/$subdir/arch_expected.txt" r] while {[gets $infile line] >= 0 && [string match {\#*} $line]} {verbose -log "reading '$line'"} foreach file1 $ofilelist { foreach file2 $ofilelist { set name1 [file tail $file1] set rootname1 [file rootname $name1] set name2 [file tail $file2] set rootname2 [file rootname $name2] # Decode the expected result from the file scan $line "%s %s %s" exfile1 exfile2 exarch verbose -log "exfile1 = '$exfile1', exfile2 = '$exfile2', exarch = '$exarch'" verbose -log " name1 = '$name1', name2 = '$name2'" if {[string equal $exfile1 $name1] && [string equal $exfile2 $file2]} then { # The expected result file makes sense and # appears up-to-date (the file and options match) if {[string equal $exarch "ERROR"]} then { test_arch_error $file1 $file2 $outfile } else { test_arch $file1 $file2 $exarch $outfile } } else { # The expected result file isn't right somehow # so just try any old test. This will cause # many failures, but will genrate the results file. test_arch $file1 $file2 $rootname1 $outfile } # Read the next line from the expected result file. # This is at the end because the process of skipping # the header reads the first real line if [gets $infile line] then { verbose -log "reading '$line'" } } } close $infile close $outfile foreach file $ofilelist { file delete $file } }