ap/libc/glibc/glibc-2.23/conform/linknamespace.pl - T106_DC - Gitiles

 #!/usr/bin/perl

 # Check that use of symbols declared in a given header does not result
 # in any symbols being brought in that are not reserved with external
 # linkage for the given standard.

 # Copyright (C) 2014-2016 Free Software Foundation, Inc.
 # This file is part of the GNU C Library.

 # The GNU C Library is free software; you can redistribute it and/or
 # modify it under the terms of the GNU Lesser General Public
 # License as published by the Free Software Foundation; either
 # version 2.1 of the License, or (at your option) any later version.

 # The GNU C Library 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
 # Lesser General Public License for more details.

 # You should have received a copy of the GNU Lesser General Public
 # License along with the GNU C Library; if not, see
 # <http://www.gnu.org/licenses/>.

 use GlibcConform;
 use Getopt::Long;

 GetOptions ('header=s' => \$header, 'standard=s' => \$standard,
 	    'flags=s' => \$flags, 'cc=s' => \$CC, 'tmpdir=s' => \$tmpdir,
 	    'stdsyms=s' => \$stdsyms_file, 'libsyms=s' => \$libsyms_file,
 	    'readelf=s' => \$READELF);

 # Load the list of symbols that are OK.
 %stdsyms = ();
 open (STDSYMS, "<$stdsyms_file") || die ("open $stdsyms_file: $!\n");
 while (<STDSYMS>) {
   chomp;
   $stdsyms{$_} = 1;
 }
 close (STDSYMS) || die ("close $stdsyms_file: $!\n");

 # The following whitelisted symbols are also allowed for now.
 #
 # * Bug 17576: stdin, stdout, stderr only reserved with external
 # linkage when stdio.h included (and possibly not then), not
 # generally.
 #
 # * Bug 18442: re_syntax_options wrongly brought in by regcomp and
 # used by re_comp.
 #
 # * False positive: matherr only used conditionally.  matherrf/matherrl are used
 # by IA64 too for the same reason.
 #
 @whitelist = qw(stdin stdout stderr re_syntax_options matherr matherrf
 		matherrl);
 foreach my $sym (@whitelist) {
   $stdsyms{$sym} = 1;
 }

 # Return information about GLOBAL and WEAK symbols listed in readelf
 # -s output.
 sub list_syms {
   my ($syms_file) = @_;
   open (SYMS, "<$syms_file") || die ("open $syms_file: $!\n");
   my ($file) = $syms_file;
   my (@ret) = ();
   while (<SYMS>) {
     chomp;
     if (/^File: (.*)/) {
       $file = $1;
       $file =~ s|^.*/||;
       next;
     }
     s/^\s*//;
     # Architecture-specific st_other bits appear inside [] and disrupt
     # the format of readelf output.
     s/\[.*?\]//;
     my (@fields) = split (/\s+/, $_);
     if (@fields < 8) {
       next;
     }
     my ($bind) = $fields[4];
     my ($ndx) = $fields[6];
     my ($sym) = $fields[7];
     if ($bind ne "GLOBAL" && $bind ne "WEAK") {
       next;
     }
     if ($sym !~ /^\w+$/) {
       next;
     }
     push (@ret, [$file, $sym, $bind, $ndx ne "UND"]);
   }
   close (SYMS) || die ("close $syms_file: $!\n");
   return @ret;
 }

 # Load information about GLOBAL and WEAK symbols defined or used in
 # the standard libraries.
 # Symbols from a given object, except for weak defined symbols.
 %seen_syms = ();
 # Strong undefined symbols from a given object.
 %strong_undef_syms = ();
 # Objects defining a given symbol (strongly or weakly).
 %sym_objs = ();
 @sym_data = list_syms ($libsyms_file);
 foreach my $sym (@sym_data) {
   my ($file, $name, $bind, $defined) = @$sym;
   if ($defined) {
     if (!defined ($sym_objs{$name})) {
       $sym_objs{$name} = [];
     }
     push (@{$sym_objs{$name}}, $file);
   }
   if ($bind eq "GLOBAL" || !$defined) {
     if (!defined ($seen_syms{$file})) {
       $seen_syms{$file} = [];
     }
     push (@{$seen_syms{$file}}, $name);
   }
   if ($bind eq "GLOBAL" && !$defined) {
     if (!defined ($strong_undef_syms{$file})) {
       $strong_undef_syms{$file} = [];
     }
     push (@{$strong_undef_syms{$file}}, $name);
   }
 }

 # Determine what ELF-level symbols are brought in by use of C-level
 # symbols declared in the given header.
 #
 # The rules followed are heuristic and so may produce false positives
 # and false negatives.
 #
 # * All undefined symbols are considered of signficance, but it is
 # possible that (a) any standard library definition is weak, so can be
 # overridden by the user's definition, and (b) the symbol is only used
 # conditionally and not if the program is limited to standard
 # functionality.  (matherr is an example of such a false positive.)
 #
 # * If a symbol reference is only brought in by the user using a data
 # symbol rather than a function from the standard library, this will
 # not be detected.
 #
 # * If a symbol reference is only brought in by crt*.o or libgcc, this
 # will not be detected.
 #
 # * If a symbol reference is only brought in through __builtin_foo in
 # a standard macro being compiled to call foo, this will not be
 # detected.
 #
 # * Header inclusions should be compiled several times with different
 # options such as -O2, -D_FORTIFY_SOURCE and -D_FILE_OFFSET_BITS=64 to
 # find out what symbols are undefined from such a compilation; this is
 # not yet implemented.
 #
 # * This script finds symbols referenced through use of macros on the
 # basis that if a macro calls an internal function, that function must
 # also be declared in the header.  However, the header might also
 # declare implementation-namespace functions that are not called by
 # any standard macro in the header, resulting in false positives for
 # any symbols brought in only through use of those
 # implementation-namespace functions.
 #
 # * Namespace issues can apply for dynamic linking as well as static
 # linking, when a call is from one shared library to another or uses a
 # PLT entry for a call within a shared library; such issues are only
 # detected by this script if the same namespace issue applies for
 # static linking.

 @c_syms = list_exported_functions ("$CC $flags", $standard, $header, $tmpdir);
 $cincfile = "$tmpdir/undef-$$.c";
 $cincfile_o = "$tmpdir/undef-$$.o";
 $cincfile_sym = "$tmpdir/undef-$$.sym";
 open (CINCFILE, ">$cincfile") || die ("open $cincfile: $!\n");
 print CINCFILE "#include <$header>\n";
 foreach my $sym (sort @c_syms) {
   print CINCFILE "void *__glibc_test_$sym = (void *) &$sym;\n";
 }
 close CINCFILE || die ("close $cincfile: $!\n");
 system ("$CC $flags -D_ISOMAC $CFLAGS{$standard} -c $cincfile -o $cincfile_o")
   && die ("compiling failed\n");
 system ("LC_ALL=C $READELF -W -s $cincfile_o > $cincfile_sym")
   && die ("readelf failed\n");
 @elf_syms = list_syms ($cincfile_sym);
 unlink ($cincfile) || die ("unlink $cincfile: $!\n");
 unlink ($cincfile_o) || die ("unlink $cincfile_o: $!\n");
 unlink ($cincfile_sym) || die ("unlink $cincfile_sym: $!\n");

 %seen_where = ();
 %files_seen = ();
 %all_undef = ();
 %current_undef = ();
 foreach my $sym (@elf_syms) {
   my ($file, $name, $bind, $defined) = @$sym;
   if ($bind eq "GLOBAL" && !$defined) {
     $seen_where{$name} = "[initial] $name";
     $all_undef{$name} = "[initial] $name";
     $current_undef{$name} = "[initial] $name";
   }
 }

 while (%current_undef) {
   %new_undef = ();
   foreach my $sym (sort keys %current_undef) {
     foreach my $file (@{$sym_objs{$sym}}) {
       if (defined ($files_seen{$file})) {
 	next;
       }
       $files_seen{$file} = 1;
       foreach my $ssym (@{$seen_syms{$file}}) {
 	if (!defined ($seen_where{$ssym})) {
 	  $seen_where{$ssym} = "$current_undef{$sym} -> [$file] $ssym";
 	}
       }
       foreach my $usym (@{$strong_undef_syms{$file}}) {
 	if (!defined ($all_undef{$usym})) {
 	  $all_undef{$usym} = "$current_undef{$sym} -> [$file] $usym";
 	  $new_undef{$usym} = "$current_undef{$sym} -> [$file] $usym";
 	}
       }
     }
   }
   %current_undef = %new_undef;
 }

 $ret = 0;
 foreach my $sym (sort keys %seen_where) {
   if ($sym =~ /^_/) {
     next;
   }
   if (defined ($stdsyms{$sym})) {
     next;
   }
   print "$seen_where{$sym}\n";
   $ret = 1;
 }

 exit $ret;
	#!/usr/bin/perl

	# Check that use of symbols declared in a given header does not result
	# in any symbols being brought in that are not reserved with external
	# linkage for the given standard.

	# Copyright (C) 2014-2016 Free Software Foundation, Inc.
	# This file is part of the GNU C Library.

	# The GNU C Library is free software; you can redistribute it and/or
	# modify it under the terms of the GNU Lesser General Public
	# License as published by the Free Software Foundation; either
	# version 2.1 of the License, or (at your option) any later version.

	# The GNU C Library 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
	# Lesser General Public License for more details.

	# You should have received a copy of the GNU Lesser General Public
	# License along with the GNU C Library; if not, see
	# <http://www.gnu.org/licenses/>.

	use GlibcConform;
	use Getopt::Long;

	GetOptions ('header=s' => \$header, 'standard=s' => \$standard,
	'flags=s' => \$flags, 'cc=s' => \$CC, 'tmpdir=s' => \$tmpdir,
	'stdsyms=s' => \$stdsyms_file, 'libsyms=s' => \$libsyms_file,
	'readelf=s' => \$READELF);

	# Load the list of symbols that are OK.
	%stdsyms = ();
	open (STDSYMS, "<$stdsyms_file") \|\| die ("open $stdsyms_file: $!\n");
	while (<STDSYMS>) {
	chomp;
	$stdsyms{$_} = 1;
	}
	close (STDSYMS) \|\| die ("close $stdsyms_file: $!\n");

	# The following whitelisted symbols are also allowed for now.
	#
	# * Bug 17576: stdin, stdout, stderr only reserved with external
	# linkage when stdio.h included (and possibly not then), not
	# generally.
	#
	# * Bug 18442: re_syntax_options wrongly brought in by regcomp and
	# used by re_comp.
	#
	# * False positive: matherr only used conditionally. matherrf/matherrl are used
	# by IA64 too for the same reason.
	#
	@whitelist = qw(stdin stdout stderr re_syntax_options matherr matherrf
	matherrl);
	foreach my $sym (@whitelist) {
	$stdsyms{$sym} = 1;
	}

	# Return information about GLOBAL and WEAK symbols listed in readelf
	# -s output.
	sub list_syms {
	my ($syms_file) = @_;
	open (SYMS, "<$syms_file") \|\| die ("open $syms_file: $!\n");
	my ($file) = $syms_file;
	my (@ret) = ();
	while (<SYMS>) {
	chomp;
	if (/^File: (.*)/) {
	$file = $1;
	$file =~ s\|^.*/\|\|;
	next;
	}
	s/^\s*//;
	# Architecture-specific st_other bits appear inside [] and disrupt
	# the format of readelf output.
	s/\[.*?\]//;
	my (@fields) = split (/\s+/, $_);
	if (@fields < 8) {
	next;
	}
	my ($bind) = $fields[4];
	my ($ndx) = $fields[6];
	my ($sym) = $fields[7];
	if ($bind ne "GLOBAL" && $bind ne "WEAK") {
	next;
	}
	if ($sym !~ /^\w+$/) {
	next;
	}
	push (@ret, [$file, $sym, $bind, $ndx ne "UND"]);
	}
	close (SYMS) \|\| die ("close $syms_file: $!\n");
	return @ret;
	}

	# Load information about GLOBAL and WEAK symbols defined or used in
	# the standard libraries.
	# Symbols from a given object, except for weak defined symbols.
	%seen_syms = ();
	# Strong undefined symbols from a given object.
	%strong_undef_syms = ();
	# Objects defining a given symbol (strongly or weakly).
	%sym_objs = ();
	@sym_data = list_syms ($libsyms_file);
	foreach my $sym (@sym_data) {
	my ($file, $name, $bind, $defined) = @$sym;
	if ($defined) {
	if (!defined ($sym_objs{$name})) {
	$sym_objs{$name} = [];
	}
	push (@{$sym_objs{$name}}, $file);
	}
	if ($bind eq "GLOBAL" \|\| !$defined) {
	if (!defined ($seen_syms{$file})) {
	$seen_syms{$file} = [];
	}
	push (@{$seen_syms{$file}}, $name);
	}
	if ($bind eq "GLOBAL" && !$defined) {
	if (!defined ($strong_undef_syms{$file})) {
	$strong_undef_syms{$file} = [];
	}
	push (@{$strong_undef_syms{$file}}, $name);
	}
	}

	# Determine what ELF-level symbols are brought in by use of C-level
	# symbols declared in the given header.
	#
	# The rules followed are heuristic and so may produce false positives
	# and false negatives.
	#
	# * All undefined symbols are considered of signficance, but it is
	# possible that (a) any standard library definition is weak, so can be
	# overridden by the user's definition, and (b) the symbol is only used
	# conditionally and not if the program is limited to standard
	# functionality. (matherr is an example of such a false positive.)
	#
	# * If a symbol reference is only brought in by the user using a data
	# symbol rather than a function from the standard library, this will
	# not be detected.
	#
	# * If a symbol reference is only brought in by crt*.o or libgcc, this
	# will not be detected.
	#
	# * If a symbol reference is only brought in through __builtin_foo in
	# a standard macro being compiled to call foo, this will not be
	# detected.
	#
	# * Header inclusions should be compiled several times with different
	# options such as -O2, -D_FORTIFY_SOURCE and -D_FILE_OFFSET_BITS=64 to
	# find out what symbols are undefined from such a compilation; this is
	# not yet implemented.
	#
	# * This script finds symbols referenced through use of macros on the
	# basis that if a macro calls an internal function, that function must
	# also be declared in the header. However, the header might also
	# declare implementation-namespace functions that are not called by
	# any standard macro in the header, resulting in false positives for
	# any symbols brought in only through use of those
	# implementation-namespace functions.
	#
	# * Namespace issues can apply for dynamic linking as well as static
	# linking, when a call is from one shared library to another or uses a
	# PLT entry for a call within a shared library; such issues are only
	# detected by this script if the same namespace issue applies for
	# static linking.

	@c_syms = list_exported_functions ("$CC $flags", $standard, $header, $tmpdir);
	$cincfile = "$tmpdir/undef-$$.c";
	$cincfile_o = "$tmpdir/undef-$$.o";
	$cincfile_sym = "$tmpdir/undef-$$.sym";
	open (CINCFILE, ">$cincfile") \|\| die ("open $cincfile: $!\n");
	print CINCFILE "#include <$header>\n";
	foreach my $sym (sort @c_syms) {
	print CINCFILE "void __glibc_test_$sym = (void ) &$sym;\n";
	}
	close CINCFILE \|\| die ("close $cincfile: $!\n");
	system ("$CC $flags -D_ISOMAC $CFLAGS{$standard} -c $cincfile -o $cincfile_o")
	&& die ("compiling failed\n");
	system ("LC_ALL=C $READELF -W -s $cincfile_o > $cincfile_sym")
	&& die ("readelf failed\n");
	@elf_syms = list_syms ($cincfile_sym);
	unlink ($cincfile) \|\| die ("unlink $cincfile: $!\n");
	unlink ($cincfile_o) \|\| die ("unlink $cincfile_o: $!\n");
	unlink ($cincfile_sym) \|\| die ("unlink $cincfile_sym: $!\n");

	%seen_where = ();
	%files_seen = ();
	%all_undef = ();
	%current_undef = ();
	foreach my $sym (@elf_syms) {
	my ($file, $name, $bind, $defined) = @$sym;
	if ($bind eq "GLOBAL" && !$defined) {
	$seen_where{$name} = "[initial] $name";
	$all_undef{$name} = "[initial] $name";
	$current_undef{$name} = "[initial] $name";
	}
	}

	while (%current_undef) {
	%new_undef = ();
	foreach my $sym (sort keys %current_undef) {
	foreach my $file (@{$sym_objs{$sym}}) {
	if (defined ($files_seen{$file})) {
	next;
	}
	$files_seen{$file} = 1;
	foreach my $ssym (@{$seen_syms{$file}}) {
	if (!defined ($seen_where{$ssym})) {
	$seen_where{$ssym} = "$current_undef{$sym} -> [$file] $ssym";
	}
	}
	foreach my $usym (@{$strong_undef_syms{$file}}) {
	if (!defined ($all_undef{$usym})) {
	$all_undef{$usym} = "$current_undef{$sym} -> [$file] $usym";
	$new_undef{$usym} = "$current_undef{$sym} -> [$file] $usym";
	}
	}
	}
	}
	%current_undef = %new_undef;
	}

	$ret = 0;
	foreach my $sym (sort keys %seen_where) {
	if ($sym =~ /^_/) {
	next;
	}
	if (defined ($stdsyms{$sym})) {
	next;
	}
	print "$seen_where{$sym}\n";
	$ret = 1;
	}

	exit $ret;