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3840aabcd5
glibc supports the deprecated matherr hook for math error reporting. The conform tests take this into consideration and whitelist this symbol when running linknamespace tests. The ia64 libm code has long provided two additional hooks in this space: matherrf (for floats) matherrl (for long doubles) Which causes the conform tests to fail with chains that all look like: [initial] __atan2 -> [libm.a(e_atan2.o)] __libm_error_support -> [libm.a(libm_error.o)] matherrf We can't (losslessly) redirect existing usage of these funcs to matherr because the structure passed in is different -- matherr uses a struct with doubles while matherrf/matherrl use floats and long doubles respectively. Plus, this has been part of the exported ABI since glibc-2.2.3, so it doesn't feel right to change it so late. Until we get around to obsoleting matherr entirely, whitelist these two additional ia64 symbols.
245 lines
7.9 KiB
Raku
245 lines
7.9 KiB
Raku
#! /usr/bin/perl
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# Check that use of symbols declared in a given header does not result
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# in any symbols being brought in that are not reserved with external
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# linkage for the given standard.
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# Copyright (C) 2014-2015 Free Software Foundation, Inc.
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# This file is part of the GNU C Library.
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# The GNU C Library is free software; you can redistribute it and/or
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# modify it under the terms of the GNU Lesser General Public
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# License as published by the Free Software Foundation; either
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# version 2.1 of the License, or (at your option) any later version.
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# The GNU C Library is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# Lesser General Public License for more details.
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# You should have received a copy of the GNU Lesser General Public
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# License along with the GNU C Library; if not, see
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# <http://www.gnu.org/licenses/>.
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use GlibcConform;
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use Getopt::Long;
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GetOptions ('header=s' => \$header, 'standard=s' => \$standard,
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'flags=s' => \$flags, 'cc=s' => \$CC, 'tmpdir=s' => \$tmpdir,
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'stdsyms=s' => \$stdsyms_file, 'libsyms=s' => \$libsyms_file,
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'readelf=s' => \$READELF);
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# Load the list of symbols that are OK.
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%stdsyms = ();
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open (STDSYMS, "<$stdsyms_file") || die ("open $stdsyms_file: $!\n");
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while (<STDSYMS>) {
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chomp;
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$stdsyms{$_} = 1;
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}
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close (STDSYMS) || die ("close $stdsyms_file: $!\n");
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# The following whitelisted symbols are also allowed for now.
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#
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# * Bug 15421: lgamma wrongly sets signgam for ISO C.
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#
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# * Bug 17576: stdin, stdout, stderr only reserved with external
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# linkage when stdio.h included (and possibly not then), not
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# generally.
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#
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# * Bug 18442: re_syntax_options wrongly brought in by regcomp and
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# used by re_comp.
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#
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# * False positive: matherr only used conditionally. matherrf/matherrl are used
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# by IA64 too for the same reason.
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#
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@whitelist = qw(signgam stdin stdout stderr re_syntax_options matherr matherrf
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matherrl);
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foreach my $sym (@whitelist) {
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$stdsyms{$sym} = 1;
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}
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# Return information about GLOBAL and WEAK symbols listed in readelf
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# -s output.
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sub list_syms {
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my ($syms_file) = @_;
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open (SYMS, "<$syms_file") || die ("open $syms_file: $!\n");
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my ($file) = $syms_file;
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my (@ret) = ();
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while (<SYMS>) {
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chomp;
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if (/^File: (.*)/) {
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$file = $1;
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$file =~ s|^.*/||;
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next;
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}
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s/^\s*//;
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# Architecture-specific st_other bits appear inside [] and disrupt
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# the format of readelf output.
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s/\[.*?\]//;
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my (@fields) = split (/\s+/, $_);
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if (@fields < 8) {
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next;
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}
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my ($bind) = $fields[4];
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my ($ndx) = $fields[6];
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my ($sym) = $fields[7];
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if ($bind ne "GLOBAL" && $bind ne "WEAK") {
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next;
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}
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if ($sym !~ /^\w+$/) {
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next;
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}
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push (@ret, [$file, $sym, $bind, $ndx ne "UND"]);
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}
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close (SYMS) || die ("close $syms_file: $!\n");
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return @ret;
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}
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# Load information about GLOBAL and WEAK symbols defined or used in
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# the standard libraries.
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# Strong symbols (defined or undefined) from a given object.
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%strong_syms = ();
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# Strong undefined symbols from a given object.
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%strong_undef_syms = ();
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# Objects defining a given symbol (strongly or weakly).
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%sym_objs = ();
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@sym_data = list_syms ($libsyms_file);
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foreach my $sym (@sym_data) {
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my ($file, $name, $bind, $defined) = @$sym;
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if ($defined) {
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if (!defined ($sym_objs{$name})) {
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$sym_objs{$name} = [];
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}
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push (@{$sym_objs{$name}}, $file);
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}
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if ($bind eq "GLOBAL") {
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if (!defined ($strong_syms{$file})) {
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$strong_syms{$file} = [];
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}
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push (@{$strong_syms{$file}}, $name);
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if (!$defined) {
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if (!defined ($strong_undef_syms{$file})) {
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$strong_undef_syms{$file} = [];
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}
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push (@{$strong_undef_syms{$file}}, $name);
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}
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}
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}
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# Determine what ELF-level symbols are brought in by use of C-level
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# symbols declared in the given header.
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#
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# The rules followed are heuristic and so may produce false positives
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# and false negatives.
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#
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# * Weak undefined symbols are ignored; however, if a code path that
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# references one (even just to check if its address is 0) is executed,
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# that may conflict with a definition of that symbol in the user's
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# program.
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#
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# * Strong undefined symbols are considered of signficance, but it is
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# possible that (a) any standard library definition is weak, so can be
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# overridden by the user's definition, and (b) the symbol is only used
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# conditionally and not if the program is limited to standard
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# functionality. (matherr is an example of such a false positive.)
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#
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# * If a symbol reference is only brought in by the user using a data
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# symbol rather than a function from the standard library, this will
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# not be detected.
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#
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# * If a symbol reference is only brought in by crt*.o or libgcc, this
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# will not be detected.
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#
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# * If a symbol reference is only brought in through __builtin_foo in
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# a standard macro being compiled to call foo, this will not be
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# detected.
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#
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# * Header inclusions should be compiled several times with different
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# options such as -O2, -D_FORTIFY_SOURCE and -D_FILE_OFFSET_BITS=64 to
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# find out what symbols are undefined from such a compilation; this is
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# not yet implemented.
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#
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# * This script finds symbols referenced through use of macros on the
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# basis that if a macro calls an internal function, that function must
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# also be declared in the header. However, the header might also
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# declare implementation-namespace functions that are not called by
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# any standard macro in the header, resulting in false positives for
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# any symbols brought in only through use of those
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# implementation-namespace functions.
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#
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# * Namespace issues can apply for dynamic linking as well as static
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# linking, when a call is from one shared library to another or uses a
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# PLT entry for a call within a shared library; such issues are only
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# detected by this script if the same namespace issue applies for
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# static linking.
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@c_syms = list_exported_functions ("$CC $flags", $standard, $header, $tmpdir);
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$cincfile = "$tmpdir/undef-$$.c";
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$cincfile_o = "$tmpdir/undef-$$.o";
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$cincfile_sym = "$tmpdir/undef-$$.sym";
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open (CINCFILE, ">$cincfile") || die ("open $cincfile: $!\n");
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print CINCFILE "#include <$header>\n";
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foreach my $sym (sort @c_syms) {
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print CINCFILE "void *__glibc_test_$sym = (void *) &$sym;\n";
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}
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close CINCFILE || die ("close $cincfile: $!\n");
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system ("$CC $flags -D_ISOMAC $CFLAGS{$standard} -c $cincfile -o $cincfile_o")
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&& die ("compiling failed\n");
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system ("LC_ALL=C $READELF -W -s $cincfile_o > $cincfile_sym")
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&& die ("readelf failed\n");
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@elf_syms = list_syms ($cincfile_sym);
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unlink ($cincfile) || die ("unlink $cincfile: $!\n");
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unlink ($cincfile_o) || die ("unlink $cincfile_o: $!\n");
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unlink ($cincfile_sym) || die ("unlink $cincfile_sym: $!\n");
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%strong_seen = ();
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%files_seen = ();
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%all_undef = ();
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%current_undef = ();
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foreach my $sym (@elf_syms) {
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my ($file, $name, $bind, $defined) = @$sym;
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if ($bind eq "GLOBAL" && !$defined) {
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$strong_seen{$name} = "[initial] $name";
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$all_undef{$name} = "[initial] $name";
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$current_undef{$name} = "[initial] $name";
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}
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}
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while (%current_undef) {
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%new_undef = ();
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foreach my $sym (sort keys %current_undef) {
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foreach my $file (@{$sym_objs{$sym}}) {
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if (defined ($files_seen{$file})) {
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next;
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}
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$files_seen{$file} = 1;
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foreach my $ssym (@{$strong_syms{$file}}) {
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if (!defined ($strong_seen{$ssym})) {
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$strong_seen{$ssym} = "$current_undef{$sym} -> [$file] $ssym";
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}
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}
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foreach my $usym (@{$strong_undef_syms{$file}}) {
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if (!defined ($all_undef{$usym})) {
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$all_undef{$usym} = "$current_undef{$sym} -> [$file] $usym";
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$new_undef{$usym} = "$current_undef{$sym} -> [$file] $usym";
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}
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}
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}
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}
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%current_undef = %new_undef;
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}
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$ret = 0;
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foreach my $sym (sort keys %strong_seen) {
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if ($sym =~ /^_/) {
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next;
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}
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if (defined ($stdsyms{$sym})) {
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next;
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}
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print "$strong_seen{$sym}\n";
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$ret = 1;
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}
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exit $ret;
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