# Support routines for LD testsuite. # Copyright 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, # 2004, 2005, 2006, 2007 Free Software Foundation, Inc. # # This file is part of the GNU Binutils. # # This file 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. # Extract and print the version number of ld. # proc default_ld_version { ld } { global host_triplet if { [which $ld] == 0 } then { perror "$ld does not exist" exit 1 } catch "exec $ld --version" tmp set tmp [prune_warnings $tmp] regexp "\[^\n\]* (cygnus-|)(\[-0-9.a-zA-Z-\]+)\[\r\n\].*" $tmp version cyg number if [info exists number] then { clone_output "$ld $number\n" } } # Link an object using relocation. # proc default_ld_relocate { ld target objects } { global HOSTING_EMU global host_triplet global exec_output if { [which $ld] == 0 } then { perror "$ld does not exist" return 0 } catch "exec rm -f $target" exec_output verbose -log "$ld $HOSTING_EMU -o $target -r $objects" catch "exec $ld $HOSTING_EMU -o $target -r $objects" exec_output set exec_output [prune_warnings $exec_output] if [string match "" $exec_output] then { return 1 } else { verbose -log "$exec_output" return 0 } } # Check to see if ld is being invoked with a non-endian output format # proc is_endian_output_format { object_flags } { if {[string match "*-oformat binary*" $object_flags] || \ [string match "*-oformat ieee*" $object_flags] || \ [string match "*-oformat ihex*" $object_flags] || \ [string match "*-oformat netbsd-core*" $object_flags] || \ [string match "*-oformat srec*" $object_flags] || \ [string match "*-oformat tekhex*" $object_flags] || \ [string match "*-oformat trad-core*" $object_flags] } then { return 0 } else { return 1 } } # Look for big-endian or little-endian switches in the multlib # options and translate these into a -EB or -EL switch. Note # we cannot rely upon proc process_multilib_options to do this # for us because for some targets the compiler does not support # -EB/-EL but it does support -mbig-endian/-mlittle-endian, and # the site.exp file will include the switch "-mbig-endian" # (rather than "big-endian") which is not detected by proc # process_multilib_options. # proc big_or_little_endian {} { if [board_info [target_info name] exists multilib_flags] { set tmp_flags " [board_info [target_info name] multilib_flags]" foreach x $tmp_flags { case $x in { {*big*endian eb EB -eb -EB -mb -meb} { set flags " -EB" return $flags } {*little*endian el EL -el -EL -ml -mel} { set flags " -EL" return $flags } } } } set flags "" return $flags } # Link a program using ld. # proc default_ld_link { ld target objects } { global HOSTING_EMU global HOSTING_CRT0 global HOSTING_LIBS global LIBS global host_triplet global link_output global exec_output set objs "$HOSTING_CRT0 $objects" set libs "$LIBS $HOSTING_LIBS" if { [which $ld] == 0 } then { perror "$ld does not exist" return 0 } if [is_endian_output_format $objects] then { set flags [big_or_little_endian] } else { set flags "" } catch "exec rm -f $target" exec_output verbose -log "$ld $HOSTING_EMU $flags -o $target $objs $libs" catch "exec $ld $HOSTING_EMU $flags -o $target $objs $libs" link_output set exec_output [prune_warnings $link_output] if [string match "" $exec_output] then { return 1 } else { verbose -log "$exec_output" return 0 } } # Link a program using ld, without including any libraries. # proc default_ld_simple_link { ld target objects } { global host_triplet global link_output global gcc_ld_flag global exec_output if { [which $ld] == 0 } then { perror "$ld does not exist" return 0 } if [is_endian_output_format $objects] then { set flags [big_or_little_endian] } else { set flags "" } # If we are compiling with gcc, we want to add gcc_ld_flag to # flags. Rather than determine this in some complex way, we guess # based on the name of the compiler. set ldexe $ld set ldparm [string first " " $ld] if { $ldparm > 0 } then { set ldexe [string range $ld 0 $ldparm] } set ldexe [string replace $ldexe 0 [string last "/" $ldexe] ""] if {[string match "*gcc*" $ldexe] || [string match "*++*" $ldexe]} then { set flags "$gcc_ld_flag $flags" } catch "exec rm -f $target" exec_output verbose -log "$ld $flags -o $target $objects" catch "exec $ld $flags -o $target $objects" link_output set exec_output [prune_warnings $link_output] # We don't care if we get a warning about a non-existent start # symbol, since the default linker script might use ENTRY. regsub -all "(^|\n)(\[^\n\]*: warning: cannot find entry symbol\[^\n\]*\n?)" $exec_output "\\1" exec_output if [string match "" $exec_output] then { return 1 } else { verbose -log "$exec_output" return 0 } } # Compile an object using cc. # proc default_ld_compile { cc source object } { global CFLAGS global srcdir global subdir global host_triplet global gcc_gas_flag set cc_prog $cc if {[llength $cc_prog] > 1} then { set cc_prog [lindex $cc_prog 0] } if {[which $cc_prog] == 0} then { perror "$cc_prog does not exist" return 0 } catch "exec rm -f $object" exec_output set flags "-I$srcdir/$subdir $CFLAGS" # If we are compiling with gcc, we want to add gcc_gas_flag to # flags. Rather than determine this in some complex way, we guess # based on the name of the compiler. set ccexe $cc set ccparm [string first " " $cc] set ccflags "" if { $ccparm > 0 } then { set ccflags [string range $cc $ccparm end] set ccexe [string range $cc 0 $ccparm] set cc $ccexe } set ccexe [string replace $ccexe 0 [string last "/" $ccexe] ""] if {[string match "*gcc*" $ccexe] || [string match "*++*" $ccexe]} then { set flags "$gcc_gas_flag $flags" } if [board_info [target_info name] exists multilib_flags] { append flags " [board_info [target_info name] multilib_flags]" } verbose -log "$cc $flags $ccflags -c $source -o $object" catch "exec $cc $flags $ccflags -c $source -o $object" exec_output set exec_output [prune_warnings $exec_output] if [string match "" $exec_output] then { if {![file exists $object]} then { regexp ".*/(\[^/\]*)$" $source all dobj regsub "\\.c" $dobj ".o" realobj verbose "looking for $realobj" if {[file exists $realobj]} then { verbose -log "mv $realobj $object" catch "exec mv $realobj $object" exec_output set exec_output [prune_warnings $exec_output] if {![string match "" $exec_output]} then { verbose -log "$exec_output" perror "could not move $realobj to $object" return 0 } } else { perror "$object not found after compilation" return 0 } } return 1 } else { verbose -log "$exec_output" perror "$source: compilation failed" return 0 } } # Assemble a file. # proc default_ld_assemble { as source object } { global ASFLAGS global host_triplet if {[which $as] == 0} then { perror "$as does not exist" return 0 } if ![info exists ASFLAGS] { set ASFLAGS "" } set flags [big_or_little_endian] verbose -log "$as $flags $ASFLAGS -o $object $source" catch "exec $as $flags $ASFLAGS -o $object $source" exec_output set exec_output [prune_warnings $exec_output] if [string match "" $exec_output] then { return 1 } else { verbose -log "$exec_output" perror "$source: assembly failed" return 0 } } # Run nm on a file, putting the result in the array nm_output. # proc default_ld_nm { nm nmflags object } { global NMFLAGS global nm_output global host_triplet if {[which $nm] == 0} then { perror "$nm does not exist" return 0 } if {[info exists nm_output]} { unset nm_output } if ![info exists NMFLAGS] { set NMFLAGS "" } # Ensure consistent sorting of symbols if {[info exists env(LC_ALL)]} { set old_lc_all $env(LC_ALL) } set env(LC_ALL) "C" verbose -log "$nm $NMFLAGS $nmflags $object >tmpdir/nm.out" catch "exec $nm $NMFLAGS $nmflags $object >tmpdir/nm.out" exec_output if {[info exists old_lc_all]} { set env(LC_ALL) $old_lc_all } else { unset env(LC_ALL) } set exec_output [prune_warnings $exec_output] if [string match "" $exec_output] then { set file [open tmpdir/nm.out r] while { [gets $file line] != -1 } { verbose "$line" 2 if [regexp "^(\[0-9a-fA-F\]+) \[a-zA-Z0-9\] \\.*(.+)$" $line whole value name] { set name [string trimleft $name "_"] verbose "Setting nm_output($name) to 0x$value" 2 set nm_output($name) 0x$value } } close $file return 1 } else { verbose -log "$exec_output" perror "$object: nm failed" return 0 } } # True if the object format is known to be ELF. # proc is_elf_format {} { if { ![istarget *-*-sysv4*] \ && ![istarget *-*-unixware*] \ && ![istarget *-*-elf*] \ && ![istarget *-*-eabi*] \ && ![istarget hppa*64*-*-hpux*] \ && ![istarget *-*-linux*] \ && ![istarget frv-*-uclinux*] \ && ![istarget *-*-irix5*] \ && ![istarget *-*-irix6*] \ && ![istarget *-*-netbsd*] \ && ![istarget *-*-solaris2*] } { return 0 } if { [istarget *-*-linux*aout*] \ || [istarget *-*-linux*oldld*] } { return 0 } if { ![istarget *-*-netbsdelf*] \ && ([istarget *-*-netbsd*aout*] \ || [istarget *-*-netbsdpe*] \ || [istarget arm*-*-netbsd*] \ || [istarget sparc-*-netbsd*] \ || [istarget i*86-*-netbsd*] \ || [istarget m68*-*-netbsd*] \ || [istarget vax-*-netbsd*] \ || [istarget ns32k-*-netbsd*]) } { return 0 } return 1 } # True if the object format is known to be 64-bit ELF. # proc is_elf64 { binary_file } { global READELF global READELFFLAGS set readelf_size "" catch "exec $READELF $READELFFLAGS -h $binary_file > readelf.out" got if ![string match "" $got] then { return 0 } if { ![regexp "\n\[ \]*Class:\[ \]*ELF(\[0-9\]+)\n" \ [file_contents readelf.out] nil readelf_size] } { return 0 } if { $readelf_size == "64" } { return 1 } return 0 } # True if the object format is known to be a.out. # proc is_aout_format {} { if { [istarget *-*-*\[ab\]out*] \ || [istarget *-*-linux*oldld*] \ || [istarget *-*-msdos*] \ || [istarget arm-*-netbsd] \ || [istarget i?86-*-netbsd] \ || [istarget i?86-*-mach*] \ || [istarget i?86-*-vsta] \ || [istarget pdp11-*-*] \ || [istarget m68*-ericsson-ose] \ || [istarget m68k-hp-bsd*] \ || [istarget m68*-*-hpux*] \ || [istarget m68*-*-netbsd] \ || [istarget m68*-*-netbsd*4k*] \ || [istarget m68k-sony-*] \ || [istarget m68*-sun-sunos\[34\]*] \ || [istarget m68*-wrs-vxworks*] \ || [istarget ns32k-*-*] \ || [istarget sparc*-*-netbsd] \ || [istarget sparc-sun-sunos4*] \ || [istarget vax-dec-ultrix*] \ || [istarget vax-*-netbsd] } { return 1 } return 0 } # True if the object format is known to be PE COFF. # proc is_pecoff_format {} { if { ![istarget *-*-mingw*] \ && ![istarget *-*-cygwin*] \ && ![istarget *-*-pe*] } { return 0 } return 1 } # Compares two files line-by-line. # Returns differences if exist. # Returns null if file(s) cannot be opened. # proc simple_diff { file_1 file_2 } { global target set eof -1 set differences 0 if [file exists $file_1] then { set file_a [open $file_1 r] } else { warning "$file_1 doesn't exist" return } if [file exists $file_2] then { set file_b [open $file_2 r] } else { fail "$file_2 doesn't exist" return } verbose "# Diff'ing: $file_1 $file_2\n" 2 while { [gets $file_a line] != $eof } { if [regexp "^#.*$" $line] then { continue } else { lappend list_a $line } } close $file_a while { [gets $file_b line] != $eof } { if [regexp "^#.*$" $line] then { continue } else { lappend list_b $line } } close $file_b for { set i 0 } { $i < [llength $list_a] } { incr i } { set line_a [lindex $list_a $i] set line_b [lindex $list_b $i] verbose "\t$file_1: $i: $line_a\n" 3 verbose "\t$file_2: $i: $line_b\n" 3 if [string compare $line_a $line_b] then { verbose -log "\t$file_1: $i: $line_a\n" verbose -log "\t$file_2: $i: $line_b\n" fail "Test: $target" return } } if { [llength $list_a] != [llength $list_b] } { fail "Test: $target" return } if $differences<1 then { pass "Test: $target" } } # run_dump_test FILE # Copied from gas testsuite, tweaked and further extended. # # Assemble a .s file, then run some utility on it and check the output. # # There should be an assembly language file named FILE.s in the test # suite directory, and a pattern file called FILE.d. `run_dump_test' # will assemble FILE.s, run some tool like `objdump', `objcopy', or # `nm' on the .o file to produce textual output, and then analyze that # with regexps. The FILE.d file specifies what program to run, and # what to expect in its output. # # The FILE.d file begins with zero or more option lines, which specify # flags to pass to the assembler, the program to run to dump the # assembler's output, and the options it wants. The option lines have # the syntax: # # # OPTION: VALUE # # OPTION is the name of some option, like "name" or "objdump", and # VALUE is OPTION's value. The valid options are described below. # Whitespace is ignored everywhere, except within VALUE. The option # list ends with the first line that doesn't match the above syntax # (hmm, not great for error detection). # # The interesting options are: # # name: TEST-NAME # The name of this test, passed to DejaGNU's `pass' and `fail' # commands. If omitted, this defaults to FILE, the root of the # .s and .d files' names. # # as: FLAGS # When assembling, pass FLAGS to the assembler. # If assembling several files, you can pass different assembler # options in the "source" directives. See below. # # ld: FLAGS # Link assembled files using FLAGS, in the order of the "source" # directives, when using multiple files. # # objcopy_linked_file: FLAGS # Run objcopy on the linked file with the specified flags. # This lets you transform the linked file using objcopy, before the # result is analyzed by an analyzer program specified below (which # may in turn *also* be objcopy). # # PROG: PROGRAM-NAME # The name of the program to run to analyze the .o file produced # by the assembler or the linker output. This can be omitted; # run_dump_test will guess which program to run by seeing which of # the flags options below is present. # # objdump: FLAGS # nm: FLAGS # objcopy: FLAGS # Use the specified program to analyze the assembler or linker # output file, and pass it FLAGS, in addition to the output name. # Note that they are run with LC_ALL=C in the environment to give # consistent sorting of symbols. # # source: SOURCE [FLAGS] # Assemble the file SOURCE.s using the flags in the "as" directive # and the (optional) FLAGS. If omitted, the source defaults to # FILE.s. # This is useful if several .d files want to share a .s file. # More than one "source" directive can be given, which is useful # when testing linking. # # xfail: TARGET # The test is expected to fail on TARGET. This may occur more than # once. # # target: TARGET # Only run the test for TARGET. This may occur more than once; the # target being tested must match at least one. # # notarget: TARGET # Do not run the test for TARGET. This may occur more than once; # the target being tested must not match any of them. # # error: REGEX # An error with message matching REGEX must be emitted for the test # to pass. The PROG, objdump, nm and objcopy options have no # meaning and need not supplied if this is present. # # warning: REGEX # Expect a linker warning matching REGEX. It is an error to issue # both "error" and "warning". # # Each option may occur at most once unless otherwise mentioned. # # After the option lines come regexp lines. `run_dump_test' calls # `regexp_diff' to compare the output of the dumping tool against the # regexps in FILE.d. `regexp_diff' is defined later in this file; see # further comments there. # proc run_dump_test { name } { global subdir srcdir global OBJDUMP NM AS OBJCOPY READELF LD global OBJDUMPFLAGS NMFLAGS ASFLAGS OBJCOPYFLAGS READELFFLAGS LDFLAGS global host_triplet runtests global env if [string match "*/*" $name] { set file $name set name [file tail $name] } else { set file "$srcdir/$subdir/$name" } if ![runtest_file_p $runtests $name] then { return } set opt_array [slurp_options "${file}.d"] if { $opt_array == -1 } { perror "error reading options from $file.d" unresolved $subdir/$name return } set dumpfile tmpdir/dump.out set run_ld 0 set run_objcopy 0 set opts(as) {} set opts(ld) {} set opts(xfail) {} set opts(target) {} set opts(notarget) {} set opts(objdump) {} set opts(nm) {} set opts(objcopy) {} set opts(readelf) {} set opts(name) {} set opts(PROG) {} set opts(source) {} set opts(error) {} set opts(warning) {} set opts(objcopy_linked_file) {} set asflags(${file}.s) {} foreach i $opt_array { set opt_name [lindex $i 0] set opt_val [lindex $i 1] if ![info exists opts($opt_name)] { perror "unknown option $opt_name in file $file.d" unresolved $subdir/$name return } switch -- $opt_name { xfail {} target {} notarget {} source { # Move any source-specific as-flags to a separate array to # simplify processing. if { [llength $opt_val] > 1 } { set asflags([lindex $opt_val 0]) [lrange $opt_val 1 end] set opt_val [lindex $opt_val 0] } else { set asflags($opt_val) {} } } default { if [string length $opts($opt_name)] { perror "option $opt_name multiply set in $file.d" unresolved $subdir/$name return } # A single "# ld:" with no options should do the right thing. if { $opt_name == "ld" } { set run_ld 1 } # Likewise objcopy_linked_file. if { $opt_name == "objcopy_linked_file" } { set run_objcopy 1 } } } set opts($opt_name) [concat $opts($opt_name) $opt_val] } # Decide early whether we should run the test for this target. if { [llength $opts(target)] > 0 } { set targmatch 0 foreach targ $opts(target) { if [istarget $targ] { set targmatch 1 break } } if { $targmatch == 0 } { return } } foreach targ $opts(notarget) { if [istarget $targ] { return } } set program "" # It's meaningless to require an output-testing method when we # expect an error. if { $opts(error) == "" } { if {$opts(PROG) != ""} { switch -- $opts(PROG) { objdump { set program objdump } nm { set program nm } objcopy { set program objcopy } readelf { set program readelf } default { perror "unrecognized program option $opts(PROG) in $file.d" unresolved $subdir/$name return } } } else { # Guess which program to run, by seeing which option was specified. foreach p {objdump objcopy nm readelf} { if {$opts($p) != ""} { if {$program != ""} { perror "ambiguous dump program in $file.d" unresolved $subdir/$name return } else { set program $p } } } } if { $program == "" && $opts(warning) == "" } { perror "dump program unspecified in $file.d" unresolved $subdir/$name return } } if { $opts(name) == "" } { set testname "$subdir/$name" } else { set testname $opts(name) } if { $opts(source) == "" } { set sourcefiles [list ${file}.s] } else { set sourcefiles {} foreach sf $opts(source) { if { [string match "/*" $sf] } { lappend sourcefiles "$sf" } else { lappend sourcefiles "$srcdir/$subdir/$sf" } # Must have asflags indexed on source name. set asflags($srcdir/$subdir/$sf) $asflags($sf) } } # Time to setup xfailures. foreach targ $opts(xfail) { setup_xfail $targ } # Assemble each file. set objfiles {} for { set i 0 } { $i < [llength $sourcefiles] } { incr i } { set sourcefile [lindex $sourcefiles $i] set objfile "tmpdir/dump$i.o" catch "exec rm -f $objfile" exec_output lappend objfiles $objfile set cmd "$AS $ASFLAGS $opts(as) $asflags($sourcefile) -o $objfile $sourcefile" send_log "$cmd\n" set cmdret [catch "exec $cmd" comp_output] set comp_output [prune_warnings $comp_output] if { $cmdret != 0 || ![string match "" $comp_output] } then { send_log "$comp_output\n" verbose "$comp_output" 3 set exitstat "succeeded" if { $cmdret != 0 } { set exitstat "failed" } verbose -log "$exitstat with: <$comp_output>" fail $testname return } } set expmsg $opts(error) if { $opts(warning) != "" } { if { $expmsg != "" } { perror "$testname: mixing error and warning test-directives" return } set expmsg $opts(warning) } # Perhaps link the file(s). if { $run_ld } { set objfile "tmpdir/dump" catch "exec rm -f $objfile" exec_output # Add -L$srcdir/$subdir so that the linker command can use # linker scripts in the source directory. set cmd "$LD $LDFLAGS -L$srcdir/$subdir \ $opts(ld) -o $objfile $objfiles" send_log "$cmd\n" set cmdret [catch "exec $cmd" comp_output] set comp_output [prune_warnings $comp_output] if { $cmdret != 0 } then { # If the executed program writes to stderr and stderr is not # redirected, exec *always* returns failure, regardless of the # program exit code. Thankfully, we can retrieve the true # return status from a special variable. Redirection would # cause a Tcl-specific message to be appended, and we'd rather # not deal with that if we can help it. global errorCode if { [lindex $errorCode 0] == "NONE" } { set cmdret 0 } } if { $cmdret == 0 && $run_objcopy } { set infile $objfile set objfile "tmpdir/dump1" catch "exec rm -f $objfile" exec_output # Note that we don't use OBJCOPYFLAGS here; any flags must be # explicitly specified. set cmd "$OBJCOPY $opts(objcopy_linked_file) $infile $objfile" send_log "$cmd\n" set cmdret [catch "exec $cmd" comp_output] append comp_output [prune_warnings $comp_output] if { $cmdret != 0 } then { global errorCode if { [lindex $errorCode 0] == "NONE" } { set cmdret 0 } } } if { $cmdret != 0 || $comp_output != "" || $expmsg != "" } then { set exitstat "succeeded" if { $cmdret != 0 } { set exitstat "failed" } verbose -log "$exitstat with: <$comp_output>, expected: <$expmsg>" send_log "$comp_output\n" verbose "$comp_output" 3 if { [regexp $expmsg $comp_output] \ && (($cmdret == 0) == ($opts(warning) != "")) } { # We have the expected output from ld. if { $opts(error) != "" || $program == "" } { pass $testname return } } else { verbose -log "$exitstat with: <$comp_output>, expected: <$expmsg>" fail $testname return } } } else { set objfile "tmpdir/dump0.o" } # We must not have expected failure if we get here. if { $opts(error) != "" } { fail $testname return } set progopts1 $opts($program) eval set progopts \$[string toupper $program]FLAGS eval set binary \$[string toupper $program] if { [which $binary] == 0 } { untested $testname return } if { $progopts1 == "" } { set $progopts1 "-r" } verbose "running $binary $progopts $progopts1" 3 # Objcopy, unlike the other two, won't send its output to stdout, # so we have to run it specially. set cmd "$binary $progopts $progopts1 $objfile > $dumpfile" if { $program == "objcopy" } { set cmd "$binary $progopts $progopts1 $objfile $dumpfile" } # Ensure consistent sorting of symbols if {[info exists env(LC_ALL)]} { set old_lc_all $env(LC_ALL) } set env(LC_ALL) "C" send_log "$cmd\n" catch "exec $cmd" comp_output if {[info exists old_lc_all]} { set env(LC_ALL) $old_lc_all } else { unset env(LC_ALL) } set comp_output [prune_warnings $comp_output] if ![string match "" $comp_output] then { send_log "$comp_output\n" fail $testname return } verbose_eval {[file_contents $dumpfile]} 3 if { [regexp_diff $dumpfile "${file}.d"] } then { fail $testname verbose "output is [file_contents $dumpfile]" 2 return } pass $testname } proc slurp_options { file } { if [catch { set f [open $file r] } x] { #perror "couldn't open `$file': $x" perror "$x" return -1 } set opt_array {} # whitespace expression set ws {[ ]*} set nws {[^ ]*} # whitespace is ignored anywhere except within the options list; # option names are alphabetic plus underscore only. set pat "^#${ws}(\[a-zA-Z_\]*)$ws:${ws}(.*)$ws\$" while { [gets $f line] != -1 } { set line [string trim $line] # Whitespace here is space-tab. if [regexp $pat $line xxx opt_name opt_val] { # match! lappend opt_array [list $opt_name $opt_val] } else { break } } close $f return $opt_array } # regexp_diff, copied from gas, based on simple_diff above. # compares two files line-by-line # file1 contains strings, file2 contains regexps and #-comments # blank lines are ignored in either file # returns non-zero if differences exist # proc regexp_diff { file_1 file_2 } { set eof -1 set end_1 0 set end_2 0 set differences 0 set diff_pass 0 if [file exists $file_1] then { set file_a [open $file_1 r] } else { warning "$file_1 doesn't exist" return 1 } if [file exists $file_2] then { set file_b [open $file_2 r] } else { fail "$file_2 doesn't exist" close $file_a return 1 } verbose " Regexp-diff'ing: $file_1 $file_2" 2 while { 1 } { set line_a "" set line_b "" while { [string length $line_a] == 0 } { if { [gets $file_a line_a] == $eof } { set end_1 1 break } } while { [string length $line_b] == 0 || [string match "#*" $line_b] } { if [ string match "#pass" $line_b ] { set end_2 1 set diff_pass 1 break } elseif [ string match "#..." $line_b ] { if { [gets $file_b line_b] == $eof } { set end_2 1 set diff_pass 1 break } verbose "looking for \"^$line_b$\"" 3 while { ![regexp "^$line_b$" "$line_a"] } { verbose "skipping \"$line_a\"" 3 if { [gets $file_a line_a] == $eof } { set end_1 1 break } } break } if { [gets $file_b line_b] == $eof } { set end_2 1 break } } if { $diff_pass } { break } elseif { $end_1 && $end_2 } { break } elseif { $end_1 } { send_log "extra regexps in $file_2 starting with \"^$line_b$\"\nEOF from $file_1\n" verbose "extra regexps in $file_2 starting with \"^$line_b$\"\nEOF from $file_1" 3 set differences 1 break } elseif { $end_2 } { send_log "extra lines in $file_1 starting with \"^$line_a$\"\nEOF from $file_2\n" verbose "extra lines in $file_1 starting with \"^$line_a$\"\nEOF from $file_2\n" 3 set differences 1 break } else { verbose "regexp \"^$line_b$\"\nline \"$line_a\"" 3 if ![regexp "^$line_b$" "$line_a"] { send_log "regexp_diff match failure\n" send_log "regexp \"^$line_b$\"\nline \"$line_a\"\n" set differences 1 } } } if { $differences == 0 && !$diff_pass && [eof $file_a] != [eof $file_b] } { send_log "$file_1 and $file_2 are different lengths\n" verbose "$file_1 and $file_2 are different lengths" 3 set differences 1 } close $file_a close $file_b return $differences } proc file_contents { filename } { set file [open $filename r] set contents [read $file] close $file return $contents } # List contains test-items with 3 items followed by 2 lists, one item and # one optional item: # 0:name 1:ld options 2:assembler options # 3:filenames of assembler files 4: action and options. 5: name of output file # 6:compiler flags (optional) # # Actions: # objdump: Apply objdump options on result. Compare with regex (last arg). # nm: Apply nm options on result. Compare with regex (last arg). # readelf: Apply readelf options on result. Compare with regex (last arg). # proc run_ld_link_tests { ldtests } { global ld global as global nm global objdump global READELF global srcdir global subdir global env global CC global CFLAGS foreach testitem $ldtests { set testname [lindex $testitem 0] set ld_options [lindex $testitem 1] set as_options [lindex $testitem 2] set src_files [lindex $testitem 3] set actions [lindex $testitem 4] set binfile tmpdir/[lindex $testitem 5] set cflags [lindex $testitem 6] set objfiles {} set is_unresolved 0 set failed 0 # verbose -log "Testname is $testname" # verbose -log "ld_options is $ld_options" # verbose -log "as_options is $as_options" # verbose -log "src_files is $src_files" # verbose -log "actions is $actions" # verbose -log "binfile is $binfile" # Assemble each file in the test. foreach src_file $src_files { set objfile "tmpdir/[file rootname $src_file].o" lappend objfiles $objfile if { [file extension $src_file] == ".c" } { set as_file "tmpdir/[file rootname $src_file].s" if ![ld_compile "$CC -S $CFLAGS $cflags" $srcdir/$subdir/$src_file $as_file] { set is_unresolved 1 break } } else { set as_file "$srcdir/$subdir/$src_file" } if ![ld_assemble $as "$as_options $as_file" $objfile] { set is_unresolved 1 break } } # Catch assembler errors. if { $is_unresolved != 0 } { unresolved $testname continue } if ![ld_simple_link $ld $binfile "-L$srcdir/$subdir $ld_options $objfiles"] { fail $testname } else { set failed 0 foreach actionlist $actions { set action [lindex $actionlist 0] set progopts [lindex $actionlist 1] # There are actions where we run regexp_diff on the # output, and there are other actions (presumably). # Handling of the former look the same. set dump_prog "" switch -- $action { objdump { set dump_prog $objdump } nm { set dump_prog $nm } readelf { set dump_prog $READELF } default { perror "Unrecognized action $action" set is_unresolved 1 break } } if { $dump_prog != "" } { set dumpfile [lindex $actionlist 2] set binary $dump_prog # Ensure consistent sorting of symbols if {[info exists env(LC_ALL)]} { set old_lc_all $env(LC_ALL) } set env(LC_ALL) "C" set cmd "$binary $progopts $binfile > dump.out" send_log "$cmd\n" catch "exec $cmd" comp_output if {[info exists old_lc_all]} { set env(LC_ALL) $old_lc_all } else { unset env(LC_ALL) } set comp_output [prune_warnings $comp_output] if ![string match "" $comp_output] then { send_log "$comp_output\n" set failed 1 break } if { [regexp_diff "dump.out" "$srcdir/$subdir/$dumpfile"] } then { verbose "output is [file_contents "dump.out"]" 2 set failed 1 break } } } if { $failed != 0 } { fail $testname } else { if { $is_unresolved == 0 } { pass $testname } } } # Catch action errors. if { $is_unresolved != 0 } { unresolved $testname continue } } } proc verbose_eval { expr { level 1 } } { global verbose if $verbose>$level then { eval verbose "$expr" $level } } # This definition is taken from an unreleased version of DejaGnu. Once # that version gets released, and has been out in the world for a few # months at least, it may be safe to delete this copy. if ![string length [info proc prune_warnings]] { # # prune_warnings -- delete various system verbosities from TEXT # # An example is: # ld.so: warning: /usr/lib/libc.so.1.8.1 has older revision than expected 9 # # Sites with particular verbose os's may wish to override this in site.exp. # proc prune_warnings { text } { # This is from sun4's. Do it for all machines for now. # The "\\1" is to try to preserve a "\n" but only if necessary. regsub -all "(^|\n)(ld.so: warning:\[^\n\]*\n?)+" $text "\\1" text # It might be tempting to get carried away and delete blank lines, etc. # Just delete *exactly* what we're ask to, and that's it. return $text } } # targets_to_xfail is a list of target triplets to be xfailed. # ldtests contains test-items with 3 items followed by 1 lists, 2 items # and 3 optional items: # 0:name # 1:ld options # 2:assembler options # 3:filenames of source files # 4:name of output file # 5:expected output # 6:compiler flags (optional) # 7:language (optional) # 8:linker warning (optional) proc run_ld_link_exec_tests { targets_to_xfail ldtests } { global ld global as global srcdir global subdir global env global CC global CXX global CFLAGS global errcnt global exec_output foreach testitem $ldtests { foreach target $targets_to_xfail { setup_xfail $target } set testname [lindex $testitem 0] set ld_options [lindex $testitem 1] set as_options [lindex $testitem 2] set src_files [lindex $testitem 3] set binfile tmpdir/[lindex $testitem 4] set expfile [lindex $testitem 5] set cflags [lindex $testitem 6] set lang [lindex $testitem 7] set warning [lindex $testitem 8] set objfiles {} set failed 0 # verbose -log "Testname is $testname" # verbose -log "ld_options is $ld_options" # verbose -log "as_options is $as_options" # verbose -log "src_files is $src_files" # verbose -log "actions is $actions" # verbose -log "binfile is $binfile" # Assemble each file in the test. foreach src_file $src_files { set objfile "tmpdir/[file rootname $src_file].o" lappend objfiles $objfile # We ignore warnings since some compilers may generate # incorrect section attributes and the assembler will warn # them. ld_compile "$CC -c $CFLAGS $cflags" $srcdir/$subdir/$src_file $objfile # We have to use $CC to build PIE and shared library. if { [ string match "c" $lang ] } { set link_proc ld_simple_link set link_cmd $CC } elseif { [ string match "c++" $lang ] } { set link_proc ld_simple_link set link_cmd $CXX } elseif { [ string match "-shared" $ld_options ] \ || [ string match "-pie" $ld_options ] } { set link_proc ld_simple_link set link_cmd $CC } else { set link_proc ld_link set link_cmd $ld } if ![$link_proc $link_cmd $binfile "-L$srcdir/$subdir $ld_options $objfiles"] { set failed 1 } else { set failed 0 } # Check if exec_output is expected. if { $warning != "" } then { verbose -log "returned with: <$exec_output>, expected: <$warning>" if { [regexp $warning $exec_output] } then { set failed 0 } else { set failed 1 } } if { $failed == 0 } { send_log "Running: $binfile > $binfile.out\n" verbose "Running: $binfile > $binfile.out" catch "exec $binfile > $binfile.out" exec_output if ![string match "" $exec_output] then { send_log "$exec_output\n" verbose "$exec_output" 1 set failed 1 } else { send_log "diff $binfile.out $srcdir/$subdir/$expfile\n" verbose "diff $binfile.out $srcdir/$subdir/$expfile" catch "exec diff $binfile.out $srcdir/$subdir/$expfile" exec_output set exec_output [prune_warnings $exec_output] if ![string match "" $exec_output] then { send_log "$exec_output\n" verbose "$exec_output" 1 set failed 1 } } } if { $failed != 0 } { fail $testname } else { set errcnt 0 pass $testname } } } } # List contains test-items with 3 items followed by 2 lists, one item and # one optional item: # 0:name # 1:link options # 2:compile options # 3:filenames of source files # 4:action and options. # 5:name of output file # 6:language (optional) # # Actions: # objdump: Apply objdump options on result. Compare with regex (last arg). # nm: Apply nm options on result. Compare with regex (last arg). # readelf: Apply readelf options on result. Compare with regex (last arg). # proc run_cc_link_tests { ldtests } { global nm global objdump global READELF global srcdir global subdir global env global CC global CXX global CFLAGS foreach testitem $ldtests { set testname [lindex $testitem 0] set ldflags [lindex $testitem 1] set cflags [lindex $testitem 2] set src_files [lindex $testitem 3] set actions [lindex $testitem 4] set binfile tmpdir/[lindex $testitem 5] set lang [lindex $testitem 6] set objfiles {} set is_unresolved 0 set failed 0 # Compile each file in the test. foreach src_file $src_files { set objfile "tmpdir/[file rootname $src_file].o" lappend objfiles $objfile # We ignore warnings since some compilers may generate # incorrect section attributes and the assembler will warn # them. ld_compile "$CC -c $CFLAGS $cflags" $srcdir/$subdir/$src_file $objfile } # Clear error and warning counts. reset_vars if { [ string match "c++" $lang ] } { set cc_cmd $CXX } else { set cc_cmd $CC } if ![ld_simple_link $cc_cmd $binfile "-L$srcdir/$subdir $ldflags $objfiles"] { fail $testname } else { set failed 0 foreach actionlist $actions { set action [lindex $actionlist 0] set progopts [lindex $actionlist 1] # There are actions where we run regexp_diff on the # output, and there are other actions (presumably). # Handling of the former look the same. set dump_prog "" switch -- $action { objdump { set dump_prog $objdump } nm { set dump_prog $nm } readelf { set dump_prog $READELF } default { perror "Unrecognized action $action" set is_unresolved 1 break } } if { $dump_prog != "" } { set dumpfile [lindex $actionlist 2] set binary $dump_prog # Ensure consistent sorting of symbols if {[info exists env(LC_ALL)]} { set old_lc_all $env(LC_ALL) } set env(LC_ALL) "C" set cmd "$binary $progopts $binfile > dump.out" send_log "$cmd\n" catch "exec $cmd" comp_output if {[info exists old_lc_all]} { set env(LC_ALL) $old_lc_all } else { unset env(LC_ALL) } set comp_output [prune_warnings $comp_output] if ![string match "" $comp_output] then { send_log "$comp_output\n" set failed 1 break } if { [regexp_diff "dump.out" "$srcdir/$subdir/$dumpfile"] } then { verbose "output is [file_contents "dump.out"]" 2 set failed 1 break } } } if { $failed != 0 } { fail $testname } else { if { $is_unresolved == 0 } { pass $testname } } } # Catch action errors. if { $is_unresolved != 0 } { unresolved $testname continue } } }