ld/testsuite/ld-elfweak/elfweak.exp - binutils-gdb - Git at Google

 # Expect script for ld-weak tests
 #   Copyright (C) 2001-2021 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.
 #
 # Written by H.J. Lu (hjl@gnu.org)
 #	     Eric Youngdale (eric@andante.jic.com)
 #

 # Check to see if the C compiler works
 if { ![check_compiler_available] } {
     return
 }

 # This test can only be run on a couple of ELF platforms.
 # Square bracket expressions seem to confuse istarget.
 # This is similar to the test that is used in ld-shared, BTW.
 if {    ![istarget alpha*-*-linux*]
      && ![istarget arm*-*-linux*]
      && ![istarget hppa*64*-*-hpux*]
      && ![istarget hppa*-*-linux*]
      && ![istarget i?86-*-sysv4*]
      && ![istarget i?86-*-unixware]
      && ![istarget i?86-*-elf*]
      && ![istarget i?86-*-linux*]
      && ![istarget i?86-*-gnu*]
      && ![istarget ia64-*-elf*]
      && ![istarget ia64-*-linux*]
      && ![istarget m68k-*-linux*]
      && ![istarget mips*-*-irix5*]
      && ![istarget mips*-*-linux*]
      && ![istarget powerpc*-*-elf*]
      && ![istarget powerpc*-*-linux*]
      && ![istarget powerpc*-*-sysv4*]
      && ![istarget sh\[34\]*-*-linux*]
      && ![istarget sparc*-*-elf]
      && ![istarget sparc*-*-solaris2*]
      && ![istarget sparc*-*-linux*]
      && ![istarget x86_64-*-linux*]
      && ![istarget *-*-nacl*] } {
     return
 }

 set diff diff
 set tmpdir tmpdir
 set DOBJDUMP_FLAGS --dynamic-syms
 set SOBJDUMP_FLAGS --syms
 set shared "--shared -Wl,--no-as-needed"

 #
 # objdump_symstuff
 #	Dump non-dynamic symbol stuff and make sure that it is sane.
 #
 proc objdump_symstuff { objdump object expectfile } {
     global SOBJDUMP_FLAGS
     global version_output
     global diff
     global tmpdir

     if ![info exists SOBJDUMP_FLAGS] { set SOBJDUMP_FLAGS "" }

     set cmd "$objdump $SOBJDUMP_FLAGS $object | sed -n {s/^\\(\[0-9a-f\]* *\\)\\(\[gw\]\\)\\( *\\)\\(\[FO\]\\)/\\1\\2\\4\\3/;/foo$/p} > $tmpdir/objdump.out"
     verbose -log $cmd
     catch "exec $cmd" exec_output
     set exec_output [prune_warnings $exec_output]
     if [string match "" $exec_output] then {

 # Now do a line-by-line comparison to effectively diff the darned things
 # The stuff coming from the expectfile is actually a regex, so we can
 # skip over the actual addresses and so forth.  This is currently very
 # simpleminded - it expects a one-to-one correspondence in terms of line
 # numbers.

 	if [file exists $expectfile] then {
 	    set file_a [open $expectfile r]
 	} else {
 	    perror "$expectfile doesn't exist"
 	    return 0
 	}

 	if [file exists $tmpdir/objdump.out] then {
 	    set file_b [open $tmpdir/objdump.out r]
 	} else {
 	    perror "$tmpdir/objdump.out doesn't exist"
 	    return 0
 	}

 	verbose "# Diff'ing: $expectfile $tmpdir/objdump.out" 2

 	set eof -1
 	set list_a {}
 	set list_b {}

 	while { [gets $file_a line] != $eof } {
 	    if [regexp "^#.*$" $line] then {
 		continue
 	    } else {
 		lappend list_a $line
 	    }
 	}
 	close $file_a

 	while { [gets $file_b line] != $eof } {
 	    if [regexp {\.text.* \.[^ ]*$} $line] then {
 		# Discard defined powerpc64 dot-symbols
 		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$expectfile: $i: $line_a" 3
 	    verbose "\t/tmp/objdump.out: $i: $line_b" 3
 	    if [regexp $line_a $line_b] then {
 		continue
 	    } else {
 		verbose -log "\t$expectfile: $i: $line_a"
 		verbose -log "\t$tmpdir/objdump.out: $i: $line_b"

 		return 0
 	    }
 	}

 	if { [llength $list_a] != [llength $list_b] } {
 	    verbose -log "Line count"
 	    return 0
 	}
 	return 1

     } else {
 	verbose -log "$exec_output"
 	return 0
     }
 }

 #
 # objdump_dymsymstuff
 #	Dump dynamic symbol stuff and make sure that it is sane.
 #
 proc objdump_dynsymstuff { objdump object expectfile } {
     global DOBJDUMP_FLAGS
     global version_output
     global diff
     global tmpdir

     if ![info exists DOBJDUMP_FLAGS] { set DOBJDUMP_FLAGS "" }

     set cmd "$objdump $DOBJDUMP_FLAGS $object | grep foo$ > $tmpdir/objdump.out"
     verbose -log $cmd
     catch "exec $cmd" exec_output
     set exec_output [prune_warnings $exec_output]
     if [string match "" $exec_output] then {

 # Now do a line-by-line comparison to effectively diff the darned things
 # The stuff coming from the expectfile is actually a regex, so we can
 # skip over the actual addresses and so forth.  This is currently very
 # simpleminded - it expects a one-to-one correspondence in terms of line
 # numbers.

 	if [file exists $expectfile] then {
 	    set file_a [open $expectfile r]
 	} else {
 	    warning "$expectfile doesn't exist"
 	    return 0
 	}

 	if [file exists $tmpdir/objdump.out] then {
 	    set file_b [open $tmpdir/objdump.out r]
 	} else {
 	    fail "$tmpdir/objdump.out doesn't exist"
 	    return 0
 	}

 	verbose "# Diff'ing: $expectfile $tmpdir/objdump.out" 2

 	set eof -1
 	set list_a {}
 	set list_b {}

 	while { [gets $file_a line] != $eof } {
 	    if [regexp "^#.*$" $line] then {
 		continue
 	    } else {
 		lappend list_a $line
 	    }
 	}
 	close $file_a

 	while { [gets $file_b line] != $eof } {
 	    if [regexp {\.text.* \.[^ ]*$} $line] then {
 		# Discard defined powerpc64 dot-symbols
 		continue
 	    } else {
 		lappend list_b $line
 	    }
 	}
 	close $file_b

 	for { set i 0 } { $i < [llength $list_b] } { incr i } {
 	    set line_b [lindex $list_b $i]

 # The tests are rigged so that we should never export a symbol with the
 # word 'hide' in it.  Thus we just search for it, and bail if we find it.
 	    if [regexp "hide" $line_b] then {
 		verbose -log "\t$tmpdir/objdump.out: $i: $line_b"

 		return 0
 	    }

 	    verbose "\t$expectfile: $i: $line_b" 3

 	    # We can't assume that the sort is consistent across
 	    # systems, so we must check each regexp.  When we find a
 	    # regexp, we null it out, so we don't match it twice.
 	    for { set j 0 } { $j < [llength $list_a] } { incr j } {
 		set line_a [lindex $list_a $j]

 		if [regexp $line_a $line_b] then {
 		    lreplace $list_a $j $j "CAN NOT MATCH"
 		    break
 		}
 	    }

 	    if { $j >= [llength $list_a] } {
 		verbose -log "\t$tmpdir/objdump.out: $i: $line_b"

 		return 0
 	    }
 	}

 	if { [llength $list_a] != [llength $list_b] } {
 	    verbose -log "Line count"
 	    return 0
 	}
 	return 1

     } else {
 	verbose -log "$exec_output"
 	return 0
     }
 }

 proc build_lib {test libname objs dynsymexp} {
     global CC_FOR_TARGET
     global objdump
     global tmpdir
     global shared
     global srcdir
     global subdir
     global NOSANITIZE_CFLAGS
     global NOLTO_CFLAGS

     set files ""
     foreach obj $objs {
       set files "$files $tmpdir/$obj"
     }

     if {![ld_link "$CC_FOR_TARGET $NOSANITIZE_CFLAGS $NOLTO_CFLAGS" $tmpdir/$libname.so "$shared $files"]} {
 	fail $test
 	return
     }

     if {![string match "" $dynsymexp]
 	&& ![objdump_dynsymstuff $objdump $tmpdir/$libname.so $srcdir/$subdir/$dynsymexp]} {
 	fail $test
 	return
     }
     pass $test
 }

 proc build_exec { test execname objs flags dat dynsymexp symexp} {
     global CC_FOR_TARGET
     global objdump
     global tmpdir
     global srcdir
     global subdir
     global exec_output
     global NOSANITIZE_CFLAGS
     global NOLTO_CFLAGS

     set files ""
     foreach obj $objs {
       set files "$files $tmpdir/$obj"
     }

     if {![ld_link $CC_FOR_TARGET $tmpdir/$execname "$flags $NOSANITIZE_CFLAGS $NOLTO_CFLAGS $files"]} {
 	fail "$test"
 	return
     }

     if {![string match "" $dynsymexp]} then {
         if {![objdump_dynsymstuff $objdump $tmpdir/$execname $srcdir/$subdir/$dynsymexp]} {
 	    fail $test
 	    return
 	}
     }

     if {![string match "" $symexp]} then {
         if {![objdump_symstuff $objdump $tmpdir/$execname $srcdir/$subdir/$symexp]} {
 	    fail $test
 	    return
 	}
     }

     if ![isnative] {
 	unsupported $test
 	return
     }
     # Run the resulting program
     send_log "$tmpdir/$execname >$tmpdir/$execname.out\n"
     verbose "$tmpdir/$execname >$tmpdir/$execname.out"
     catch "exec $tmpdir/$execname >$tmpdir/$execname.out" exec_output
     if ![string match "" $exec_output] then {
 	send_log "$exec_output\n"
 	verbose "$exec_output"
 	fail $test
 	return
     }

     send_log "diff $tmpdir/$execname.out $srcdir/$subdir/$dat.dat\n"
     verbose "diff $tmpdir/$execname.out $srcdir/$subdir/$dat.dat"
     catch "exec diff $tmpdir/$execname.out $srcdir/$subdir/$dat.dat" exec_output
     set exec_output [prune_warnings $exec_output]

     if {![string match "" $exec_output]} then {
 	send_log "$exec_output\n"
 	verbose "$exec_output"
 	fail $test
         return
     }

     pass $test
 }

 # Disable LTO for these tests.
 set cc_cmd "$CC_FOR_TARGET"
 if {[check_lto_available]} {
    append cc_cmd " -fno-lto"
 }

 # Disable all sanitizers and LTO.
 set saved_CFLAGS "$CFLAGS_FOR_TARGET"
 append CFLAGS_FOR_TARGET " $NOSANITIZE_CFLAGS $NOLTO_CFLAGS"

 # Old version of GCC for MIPS default to enabling -fpic
 # and get confused if it is used on the command line.
 if { [istarget mips*-*-*] && ! [at_least_gcc_version 4 3] } then {
     set picflag ""
 } else {
     # Unfortunately, the gcc argument is -fpic and the cc argument is
     # -KPIC.  We have to try both.
     set picflag "-fpic"
     send_log "$CC_FOR_TARGET $picflag\n"
     verbose "$CC_FOR_TARGET $picflag"
     catch "exec $CC_FOR_TARGET $picflag" exec_output
     send_log "$exec_output\n"
     verbose "--" "$exec_output"
     if { [string match "*illegal option*" $exec_output]
 	 || [string match "*option ignored*" $exec_output]
 	 || [string match "*unrecognized option*" $exec_output]
 	 || [string match "*passed to ld*" $exec_output] } {
 	set picflag "-KPIC"
     }
 }
 verbose "Using $picflag to compile PIC code"

 if {![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/foo.c $tmpdir/foo.o]
     || ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/bar.c $tmpdir/bar.o]
     || ![ld_compile "$cc_cmd" $srcdir/$subdir/main.c $tmpdir/main.o]
     || ![ld_link $cc_cmd $tmpdir/libbar.so "$shared $tmpdir/bar.o"]
     || ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/foo1a.c $tmpdir/foo1a.o]
     || ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/foo1b.c $tmpdir/foo1b.o]
     || ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/bar1a.c $tmpdir/bar1a.o]
     || ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/bar1b.c $tmpdir/bar1b.o]
     || ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/bar1c.c $tmpdir/bar1c.o]
     || ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/main1.c $tmpdir/main1.o]} then {
     unsupported "ELF weak"
 } elseif {![ld_link $cc_cmd $tmpdir/libfoo1a.so "$shared $tmpdir/foo1a.o"]
 	  || ![ld_link $cc_cmd $tmpdir/libfoo1b.so "$shared $tmpdir/foo1b.o"]
 	  || ![ld_link $cc_cmd $tmpdir/libbar1a.so "$shared $tmpdir/bar1a.o $tmpdir/libfoo1a.so"]} then {
     fail "ELF weak"
 } else {
     build_lib "ELF DSO weak func first" libfoo "foo.o bar.o" dso.dsym
     build_lib "ELF DSO weak func last" libfoo "bar.o foo.o" dso.dsym
     build_lib "ELF DSO weak func first DSO" libfoo "foo.o libbar.so" dsow.dsym
     build_lib "ELF DSO weak func last DSO" libfoo "libbar.so foo.o" dsow.dsym
     build_exec "ELF weak func first" foo "main.o bar.o" "" strong "" strong.sym
     build_exec "ELF weak func last" foo "bar.o main.o" "" strong "" strong.sym
     build_exec "ELF weak func first DSO" foo "main.o libbar.so" "-Wl,-rpath,.,--no-as-needed" weak weak.dsym ""
     build_exec "ELF weak func last DSO" foo "libbar.so main.o" "-Wl,-rpath,.,--no-as-needed" weak weak.dsym ""
     build_lib "ELF DSO weak data first" libfoo "bar1a.o foo1a.o" dsodata.dsym
     build_lib "ELF DSO weak data last" libfoo "foo1a.o bar1a.o" dsodata.dsym
     build_lib "ELF DSO weak data first DSO" libfoo "main1.o libfoo1a.so" dsowdata.dsym
     build_lib "ELF DSO weak data last DSO" libfoo "libfoo1a.so main1.o" dsowdata.dsym
     build_lib "ELF DSO weak data first DSO common" libfoo "main1.o libfoo1b.so" dsowdata.dsym
     build_lib "ELF DSO weak data last DSO common" libfoo "libfoo1b.so main1.o" dsowdata.dsym
     build_exec "ELF weak data first" foo "main1.o bar1a.o foo1a.o" "" strongdata "" strongdata.sym
     build_exec "ELF weak data last" foo "foo1a.o main1.o bar1a.o" "" strongdata "" strongdata.sym
     build_exec "ELF weak data first common" foo "main1.o bar1a.o foo1b.o" "" strongdata "" strongcomm.sym
     build_exec "ELF weak data last common" foo "foo1b.o main1.o bar1a.o" "" strongdata "" strongcomm.sym
     build_exec "ELF weak data first DSO" foo "main1.o libbar1a.so libfoo1a.so" "-Wl,-rpath,.,--no-as-needed" weakdata weakdata.dsym ""
     build_exec "ELF weak data last DSO" foo "libfoo1a.so main1.o libbar1a.so" "-Wl,-rpath,.,--no-as-needed" weakdata weakdata.dsym ""
     build_exec "ELF weak data first DSO common" foo "main1.o libbar1a.so libfoo1b.so" "-Wl,--no-as-needed,-rpath,.,-rpath-link,." weakdata weakdata.dsym ""
     build_exec "ELF weak data last DSO common" foo "libfoo1b.so main1.o libbar1a.so" "-Wl,--no-as-needed,-rpath,.,-rpath-link,." weakdata weakdata.dsym ""
 }

 if {![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/size_foo.c $tmpdir/size_foo.o]
     || ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/size_bar.c $tmpdir/size_bar_s.o]
     || ![ld_compile "$cc_cmd $picflag -DSIZE_BIG" $srcdir/$subdir/size_bar.c $tmpdir/size_bar.o]
     || ![ld_compile "$cc_cmd" $srcdir/$subdir/size_main.c $tmpdir/size_main.o]} then {
     unsupported "ELF weak (size)"
 } else {
     build_lib "ELF DSO small bar (size)" libsize_bar_s "size_bar_s.o" ""
     build_lib "ELF DSO foo with small bar (size)" libsize_foo "size_foo.o libsize_bar_s.so" ""
     build_lib "ELF DSO big bar (size)" libsize_bar "size_bar.o" ""
     build_exec "ELF weak size" size_main "size_main.o libsize_foo.so libsize_bar.so" "-Wl,-rpath=.,-rpath-link=.,--no-as-needed" size "" ""
 }

 verbose "size2"
 run_dump_test $srcdir/$subdir/size2

 if {![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/alias.c $tmpdir/alias.o]
     || ![ld_link $cc_cmd $tmpdir/alias.so "$shared $tmpdir/alias.o"]
     || ![ld_compile $cc_cmd $srcdir/$subdir/aliasmain.c $tmpdir/aliasmain.o]
     || ![ld_compile $cc_cmd $srcdir/$subdir/weakref1.c $tmpdir/weakref1.o]
     || ![ld_compile $cc_cmd $srcdir/$subdir/weakref2.c $tmpdir/weakref2.o]} then {
     unsupported "ELF weak (alias)"
 } else {
     build_exec "ELF weak (alias)" alias "aliasmain.o weakref1.o weakref2.o alias.so" "-Wl,-rpath=.,--no-as-needed" alias "" ""
 }

 set CFLAGS_FOR_TARGET "$saved_CFLAGS"
	# Expect script for ld-weak tests
	# Copyright (C) 2001-2021 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.
	#
	# Written by H.J. Lu (hjl@gnu.org)
	# Eric Youngdale (eric@andante.jic.com)
	#

	# Check to see if the C compiler works
	if { ![check_compiler_available] } {
	return
	}

	# This test can only be run on a couple of ELF platforms.
	# Square bracket expressions seem to confuse istarget.
	# This is similar to the test that is used in ld-shared, BTW.
	if { ![istarget alpha--linux*]
	&& ![istarget arm--linux*]
	&& ![istarget hppa64--hpux]
	&& ![istarget hppa--linux*]
	&& ![istarget i?86--sysv4]
	&& ![istarget i?86-*-unixware]
	&& ![istarget i?86--elf]
	&& ![istarget i?86--linux]
	&& ![istarget i?86--gnu]
	&& ![istarget ia64--elf]
	&& ![istarget ia64--linux]
	&& ![istarget m68k--linux]
	&& ![istarget mips--irix5*]
	&& ![istarget mips--linux*]
	&& ![istarget powerpc--elf*]
	&& ![istarget powerpc--linux*]
	&& ![istarget powerpc--sysv4*]
	&& ![istarget sh\[34\]--linux*]
	&& ![istarget sparc--elf]
	&& ![istarget sparc--solaris2*]
	&& ![istarget sparc--linux*]
	&& ![istarget x86_64--linux]
	&& ![istarget --nacl*] } {
	return
	}

	set diff diff
	set tmpdir tmpdir
	set DOBJDUMP_FLAGS --dynamic-syms
	set SOBJDUMP_FLAGS --syms
	set shared "--shared -Wl,--no-as-needed"

	#
	# objdump_symstuff
	# Dump non-dynamic symbol stuff and make sure that it is sane.
	#
	proc objdump_symstuff { objdump object expectfile } {
	global SOBJDUMP_FLAGS
	global version_output
	global diff
	global tmpdir

	if ![info exists SOBJDUMP_FLAGS] { set SOBJDUMP_FLAGS "" }

	set cmd "$objdump $SOBJDUMP_FLAGS $object \| sed -n {s/^\\(\[0-9a-f\]* \\)\\(\[gw\]\\)\\( \\)\\(\[FO\]\\)/\\1\\2\\4\\3/;/foo$/p} > $tmpdir/objdump.out"
	verbose -log $cmd
	catch "exec $cmd" exec_output
	set exec_output [prune_warnings $exec_output]
	if [string match "" $exec_output] then {

	# Now do a line-by-line comparison to effectively diff the darned things
	# The stuff coming from the expectfile is actually a regex, so we can
	# skip over the actual addresses and so forth. This is currently very
	# simpleminded - it expects a one-to-one correspondence in terms of line
	# numbers.

	if [file exists $expectfile] then {
	set file_a [open $expectfile r]
	} else {
	perror "$expectfile doesn't exist"
	return 0
	}

	if [file exists $tmpdir/objdump.out] then {
	set file_b [open $tmpdir/objdump.out r]
	} else {
	perror "$tmpdir/objdump.out doesn't exist"
	return 0
	}

	verbose "# Diff'ing: $expectfile $tmpdir/objdump.out" 2

	set eof -1
	set list_a {}
	set list_b {}

	while { [gets $file_a line] != $eof } {
	if [regexp "^#.*$" $line] then {
	continue
	} else {
	lappend list_a $line
	}
	}
	close $file_a

	while { [gets $file_b line] != $eof } {
	if [regexp {\.text.* \.[^ ]*$} $line] then {
	# Discard defined powerpc64 dot-symbols
	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$expectfile: $i: $line_a" 3
	verbose "\t/tmp/objdump.out: $i: $line_b" 3
	if [regexp $line_a $line_b] then {
	continue
	} else {
	verbose -log "\t$expectfile: $i: $line_a"
	verbose -log "\t$tmpdir/objdump.out: $i: $line_b"

	return 0
	}
	}

	if { [llength $list_a] != [llength $list_b] } {
	verbose -log "Line count"
	return 0
	}
	return 1

	} else {
	verbose -log "$exec_output"
	return 0
	}
	}

	#
	# objdump_dymsymstuff
	# Dump dynamic symbol stuff and make sure that it is sane.
	#
	proc objdump_dynsymstuff { objdump object expectfile } {
	global DOBJDUMP_FLAGS
	global version_output
	global diff
	global tmpdir

	if ![info exists DOBJDUMP_FLAGS] { set DOBJDUMP_FLAGS "" }

	set cmd "$objdump $DOBJDUMP_FLAGS $object \| grep foo$ > $tmpdir/objdump.out"
	verbose -log $cmd
	catch "exec $cmd" exec_output
	set exec_output [prune_warnings $exec_output]
	if [string match "" $exec_output] then {

	# Now do a line-by-line comparison to effectively diff the darned things
	# The stuff coming from the expectfile is actually a regex, so we can
	# skip over the actual addresses and so forth. This is currently very
	# simpleminded - it expects a one-to-one correspondence in terms of line
	# numbers.

	if [file exists $expectfile] then {
	set file_a [open $expectfile r]
	} else {
	warning "$expectfile doesn't exist"
	return 0
	}

	if [file exists $tmpdir/objdump.out] then {
	set file_b [open $tmpdir/objdump.out r]
	} else {
	fail "$tmpdir/objdump.out doesn't exist"
	return 0
	}

	verbose "# Diff'ing: $expectfile $tmpdir/objdump.out" 2

	set eof -1
	set list_a {}
	set list_b {}

	while { [gets $file_a line] != $eof } {
	if [regexp "^#.*$" $line] then {
	continue
	} else {
	lappend list_a $line
	}
	}
	close $file_a

	while { [gets $file_b line] != $eof } {
	if [regexp {\.text.* \.[^ ]*$} $line] then {
	# Discard defined powerpc64 dot-symbols
	continue
	} else {
	lappend list_b $line
	}
	}
	close $file_b

	for { set i 0 } { $i < [llength $list_b] } { incr i } {
	set line_b [lindex $list_b $i]

	# The tests are rigged so that we should never export a symbol with the
	# word 'hide' in it. Thus we just search for it, and bail if we find it.
	if [regexp "hide" $line_b] then {
	verbose -log "\t$tmpdir/objdump.out: $i: $line_b"

	return 0
	}

	verbose "\t$expectfile: $i: $line_b" 3

	# We can't assume that the sort is consistent across
	# systems, so we must check each regexp. When we find a
	# regexp, we null it out, so we don't match it twice.
	for { set j 0 } { $j < [llength $list_a] } { incr j } {
	set line_a [lindex $list_a $j]

	if [regexp $line_a $line_b] then {
	lreplace $list_a $j $j "CAN NOT MATCH"
	break
	}
	}

	if { $j >= [llength $list_a] } {
	verbose -log "\t$tmpdir/objdump.out: $i: $line_b"

	return 0
	}
	}

	if { [llength $list_a] != [llength $list_b] } {
	verbose -log "Line count"
	return 0
	}
	return 1

	} else {
	verbose -log "$exec_output"
	return 0
	}
	}

	proc build_lib {test libname objs dynsymexp} {
	global CC_FOR_TARGET
	global objdump
	global tmpdir
	global shared
	global srcdir
	global subdir
	global NOSANITIZE_CFLAGS
	global NOLTO_CFLAGS

	set files ""
	foreach obj $objs {
	set files "$files $tmpdir/$obj"
	}

	if {![ld_link "$CC_FOR_TARGET $NOSANITIZE_CFLAGS $NOLTO_CFLAGS" $tmpdir/$libname.so "$shared $files"]} {
	fail $test
	return
	}

	if {![string match "" $dynsymexp]
	&& ![objdump_dynsymstuff $objdump $tmpdir/$libname.so $srcdir/$subdir/$dynsymexp]} {
	fail $test
	return
	}
	pass $test
	}

	proc build_exec { test execname objs flags dat dynsymexp symexp} {
	global CC_FOR_TARGET
	global objdump
	global tmpdir
	global srcdir
	global subdir
	global exec_output
	global NOSANITIZE_CFLAGS
	global NOLTO_CFLAGS

	set files ""
	foreach obj $objs {
	set files "$files $tmpdir/$obj"
	}

	if {![ld_link $CC_FOR_TARGET $tmpdir/$execname "$flags $NOSANITIZE_CFLAGS $NOLTO_CFLAGS $files"]} {
	fail "$test"
	return
	}

	if {![string match "" $dynsymexp]} then {
	if {![objdump_dynsymstuff $objdump $tmpdir/$execname $srcdir/$subdir/$dynsymexp]} {
	fail $test
	return
	}
	}

	if {![string match "" $symexp]} then {
	if {![objdump_symstuff $objdump $tmpdir/$execname $srcdir/$subdir/$symexp]} {
	fail $test
	return
	}
	}

	if ![isnative] {
	unsupported $test
	return
	}
	# Run the resulting program
	send_log "$tmpdir/$execname >$tmpdir/$execname.out\n"
	verbose "$tmpdir/$execname >$tmpdir/$execname.out"
	catch "exec $tmpdir/$execname >$tmpdir/$execname.out" exec_output
	if ![string match "" $exec_output] then {
	send_log "$exec_output\n"
	verbose "$exec_output"
	fail $test
	return
	}

	send_log "diff $tmpdir/$execname.out $srcdir/$subdir/$dat.dat\n"
	verbose "diff $tmpdir/$execname.out $srcdir/$subdir/$dat.dat"
	catch "exec diff $tmpdir/$execname.out $srcdir/$subdir/$dat.dat" exec_output
	set exec_output [prune_warnings $exec_output]

	if {![string match "" $exec_output]} then {
	send_log "$exec_output\n"
	verbose "$exec_output"
	fail $test
	return
	}

	pass $test
	}

	# Disable LTO for these tests.
	set cc_cmd "$CC_FOR_TARGET"
	if {[check_lto_available]} {
	append cc_cmd " -fno-lto"
	}

	# Disable all sanitizers and LTO.
	set saved_CFLAGS "$CFLAGS_FOR_TARGET"
	append CFLAGS_FOR_TARGET " $NOSANITIZE_CFLAGS $NOLTO_CFLAGS"

	# Old version of GCC for MIPS default to enabling -fpic
	# and get confused if it is used on the command line.
	if { [istarget mips--*] && ! [at_least_gcc_version 4 3] } then {
	set picflag ""
	} else {
	# Unfortunately, the gcc argument is -fpic and the cc argument is
	# -KPIC. We have to try both.
	set picflag "-fpic"
	send_log "$CC_FOR_TARGET $picflag\n"
	verbose "$CC_FOR_TARGET $picflag"
	catch "exec $CC_FOR_TARGET $picflag" exec_output
	send_log "$exec_output\n"
	verbose "--" "$exec_output"
	if { [string match "illegal option" $exec_output]
	\|\| [string match "option ignored" $exec_output]
	\|\| [string match "unrecognized option" $exec_output]
	\|\| [string match "passed to ld" $exec_output] } {
	set picflag "-KPIC"
	}
	}
	verbose "Using $picflag to compile PIC code"

	if {![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/foo.c $tmpdir/foo.o]
	\|\| ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/bar.c $tmpdir/bar.o]
	\|\| ![ld_compile "$cc_cmd" $srcdir/$subdir/main.c $tmpdir/main.o]
	\|\| ![ld_link $cc_cmd $tmpdir/libbar.so "$shared $tmpdir/bar.o"]
	\|\| ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/foo1a.c $tmpdir/foo1a.o]
	\|\| ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/foo1b.c $tmpdir/foo1b.o]
	\|\| ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/bar1a.c $tmpdir/bar1a.o]
	\|\| ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/bar1b.c $tmpdir/bar1b.o]
	\|\| ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/bar1c.c $tmpdir/bar1c.o]
	\|\| ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/main1.c $tmpdir/main1.o]} then {
	unsupported "ELF weak"
	} elseif {![ld_link $cc_cmd $tmpdir/libfoo1a.so "$shared $tmpdir/foo1a.o"]
	\|\| ![ld_link $cc_cmd $tmpdir/libfoo1b.so "$shared $tmpdir/foo1b.o"]
	\|\| ![ld_link $cc_cmd $tmpdir/libbar1a.so "$shared $tmpdir/bar1a.o $tmpdir/libfoo1a.so"]} then {
	fail "ELF weak"
	} else {
	build_lib "ELF DSO weak func first" libfoo "foo.o bar.o" dso.dsym
	build_lib "ELF DSO weak func last" libfoo "bar.o foo.o" dso.dsym
	build_lib "ELF DSO weak func first DSO" libfoo "foo.o libbar.so" dsow.dsym
	build_lib "ELF DSO weak func last DSO" libfoo "libbar.so foo.o" dsow.dsym
	build_exec "ELF weak func first" foo "main.o bar.o" "" strong "" strong.sym
	build_exec "ELF weak func last" foo "bar.o main.o" "" strong "" strong.sym
	build_exec "ELF weak func first DSO" foo "main.o libbar.so" "-Wl,-rpath,.,--no-as-needed" weak weak.dsym ""
	build_exec "ELF weak func last DSO" foo "libbar.so main.o" "-Wl,-rpath,.,--no-as-needed" weak weak.dsym ""
	build_lib "ELF DSO weak data first" libfoo "bar1a.o foo1a.o" dsodata.dsym
	build_lib "ELF DSO weak data last" libfoo "foo1a.o bar1a.o" dsodata.dsym
	build_lib "ELF DSO weak data first DSO" libfoo "main1.o libfoo1a.so" dsowdata.dsym
	build_lib "ELF DSO weak data last DSO" libfoo "libfoo1a.so main1.o" dsowdata.dsym
	build_lib "ELF DSO weak data first DSO common" libfoo "main1.o libfoo1b.so" dsowdata.dsym
	build_lib "ELF DSO weak data last DSO common" libfoo "libfoo1b.so main1.o" dsowdata.dsym
	build_exec "ELF weak data first" foo "main1.o bar1a.o foo1a.o" "" strongdata "" strongdata.sym
	build_exec "ELF weak data last" foo "foo1a.o main1.o bar1a.o" "" strongdata "" strongdata.sym
	build_exec "ELF weak data first common" foo "main1.o bar1a.o foo1b.o" "" strongdata "" strongcomm.sym
	build_exec "ELF weak data last common" foo "foo1b.o main1.o bar1a.o" "" strongdata "" strongcomm.sym
	build_exec "ELF weak data first DSO" foo "main1.o libbar1a.so libfoo1a.so" "-Wl,-rpath,.,--no-as-needed" weakdata weakdata.dsym ""
	build_exec "ELF weak data last DSO" foo "libfoo1a.so main1.o libbar1a.so" "-Wl,-rpath,.,--no-as-needed" weakdata weakdata.dsym ""
	build_exec "ELF weak data first DSO common" foo "main1.o libbar1a.so libfoo1b.so" "-Wl,--no-as-needed,-rpath,.,-rpath-link,." weakdata weakdata.dsym ""
	build_exec "ELF weak data last DSO common" foo "libfoo1b.so main1.o libbar1a.so" "-Wl,--no-as-needed,-rpath,.,-rpath-link,." weakdata weakdata.dsym ""
	}

	if {![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/size_foo.c $tmpdir/size_foo.o]
	\|\| ![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/size_bar.c $tmpdir/size_bar_s.o]
	\|\| ![ld_compile "$cc_cmd $picflag -DSIZE_BIG" $srcdir/$subdir/size_bar.c $tmpdir/size_bar.o]
	\|\| ![ld_compile "$cc_cmd" $srcdir/$subdir/size_main.c $tmpdir/size_main.o]} then {
	unsupported "ELF weak (size)"
	} else {
	build_lib "ELF DSO small bar (size)" libsize_bar_s "size_bar_s.o" ""
	build_lib "ELF DSO foo with small bar (size)" libsize_foo "size_foo.o libsize_bar_s.so" ""
	build_lib "ELF DSO big bar (size)" libsize_bar "size_bar.o" ""
	build_exec "ELF weak size" size_main "size_main.o libsize_foo.so libsize_bar.so" "-Wl,-rpath=.,-rpath-link=.,--no-as-needed" size "" ""
	}

	verbose "size2"
	run_dump_test $srcdir/$subdir/size2

	if {![ld_compile "$cc_cmd $picflag" $srcdir/$subdir/alias.c $tmpdir/alias.o]
	\|\| ![ld_link $cc_cmd $tmpdir/alias.so "$shared $tmpdir/alias.o"]
	\|\| ![ld_compile $cc_cmd $srcdir/$subdir/aliasmain.c $tmpdir/aliasmain.o]
	\|\| ![ld_compile $cc_cmd $srcdir/$subdir/weakref1.c $tmpdir/weakref1.o]
	\|\| ![ld_compile $cc_cmd $srcdir/$subdir/weakref2.c $tmpdir/weakref2.o]} then {
	unsupported "ELF weak (alias)"
	} else {
	build_exec "ELF weak (alias)" alias "aliasmain.o weakref1.o weakref2.o alias.so" "-Wl,-rpath=.,--no-as-needed" alias "" ""
	}

	set CFLAGS_FOR_TARGET "$saved_CFLAGS"