xref: /illumos-gate/usr/src/cmd/abi/appcert/scripts/symprof.pl (revision 2a6e99a0f1f7d22c0396e8b2ce9b9babbd1056cf)
1#!/usr/perl5/bin/perl -w
2#
3# CDDL HEADER START
4#
5# The contents of this file are subject to the terms of the
6# Common Development and Distribution License, Version 1.0 only
7# (the "License").  You may not use this file except in compliance
8# with the License.
9#
10# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
11# or http://www.opensolaris.org/os/licensing.
12# See the License for the specific language governing permissions
13# and limitations under the License.
14#
15# When distributing Covered Code, include this CDDL HEADER in each
16# file and include the License file at usr/src/OPENSOLARIS.LICENSE.
17# If applicable, add the following below this CDDL HEADER, with the
18# fields enclosed by brackets "[]" replaced with your own identifying
19# information: Portions Copyright [yyyy] [name of copyright owner]
20#
21# CDDL HEADER END
22#
23#
24# ident	"%Z%%M%	%I%	%E% SMI"
25#
26# Copyright 2004 Sun Microsystems, Inc.  All rights reserved.
27# Use is subject to license terms.
28#
29
30#
31# This utility program creates the profiles of the binaries to be
32# checked.
33#
34# The dynamic profiling is done by running ldd -r on the binary with
35# LD_DEBUG=files,bindings and parsing the linker debug output.
36#
37# The static profiling (gathering of .text symbols) is done by calling
38# the utility program static_prof.
39#
40
41require 5.005;
42use strict;
43use locale;
44use POSIX qw(locale_h);
45use Sun::Solaris::Utils qw(textdomain gettext);
46use File::Basename;
47use File::Path;
48
49use lib qw(/usr/lib/abi/appcert);
50use AppcertUtil;
51
52setlocale(LC_ALL, "");
53textdomain(TEXT_DOMAIN);
54
55use vars qw(
56	$tmp_prof_dir
57);
58
59set_clean_up_exit_routine(\&clean_up_exit);
60
61import_vars_from_environment();
62
63signals('on', \&interrupted);
64
65set_working_dir();
66
67profile_objects();
68
69clean_up();
70
71exit 0;
72
73#
74# working_dir has been imported by import_vars_from_environment() from
75# appcert.  A sanity check is performed here to make sure it exists.
76#
77sub set_working_dir
78{
79	if (! defined($working_dir) || ! -d $working_dir) {
80		exiter("$command_name: " . sprintf(gettext(
81		    "cannot locate working directory: %s\n"), $working_dir));
82	}
83}
84
85#
86# Routine called when interrupted by user (e.g. SIGINT).
87#
88sub interrupted
89{
90	$SIG{$_[0]} = 'DEFAULT';
91	signals('off');
92	clean_up_exit(1);
93}
94
95#
96# Does the cleanup then exits with return code $rc.  Note: The utility
97# routine exiter() calls this routine.
98#
99sub clean_up_exit
100{
101	my ($rc) = @_;
102	$rc = 0 unless ($rc);
103
104	clean_up();
105	exit $rc;
106}
107
108#
109# General cleanup activities.
110#
111sub clean_up
112{
113	if (defined($tmp_prof_dir) && -d $tmp_prof_dir) {
114		rmtree($tmp_prof_dir);
115	}
116}
117
118#
119# Top level routine to loop over the objects and call the profiling
120# routines on each.
121#
122sub profile_objects
123{
124	# Make a tmp directory for the profiling work.
125	$tmp_prof_dir = create_tmp_dir($tmp_dir);
126
127	if (! -d $tmp_prof_dir) {
128		exiter(nocreatedir($tmp_prof_dir, $!));
129	}
130
131	my ($dir, $path_to_object);
132
133	#
134	# Loop over each object item in the working_dir.
135	#  - $dir will be each one of these object directories.
136	#  - $path_to_object will be the corresponding actual path
137	#    to the the binary to be profiled.
138	# Output will usually be placed down in $dir, e.g. "$dir/profile.static"
139	#
140
141	my $cnt = -1;
142	my $last_i;
143	while (defined($dir = next_dir_name())) {
144		$cnt++;
145		if ($block_max ne '') {
146			next if ($cnt < $block_min || $cnt >= $block_max);
147		}
148
149		$last_i = $cnt;
150
151		# Map object output directory to actual path of the object:
152		$path_to_object = dir_name_to_path($dir);
153
154		if (! -f $path_to_object) {
155			exiter(nopathexist($path_to_object, $!));
156		}
157
158		# Profile it:
159
160		emsg(gettext("profiling: %s\n"), $path_to_object);
161
162		static_profile($path_to_object, $dir);
163
164		dynamic_profile($path_to_object, $dir);
165	}
166
167	# Only try this after everything has been initially profiled.
168	if (! $block_max || $last_i >= $binary_count - 1) {
169		redo_unbound_profile();
170	}
171	clean_up();	# Remove any tmp dirs and files.
172}
173
174#
175# Runs utility program static_prof on the object and places results in
176# output directory.
177#
178sub static_profile($$)
179{
180	my ($object, $output_dir) = @_;
181
182	# This is the location of static_prof's output file:
183
184	my $outfile = "$output_dir/profile.static";
185
186	# It is consumed by static_check_object() in symcheck.
187
188	#
189	# Do not run on *completely* statically linked objects.  This
190	# case will be caught and noted in the dynamic profiling and
191	# checking.
192	#
193	my $skip_it;
194	if (is_statically_linked($object)) {
195		$skip_it = "STATICALLY_LINKED";
196	} elsif (! is_elf($object)) {
197		$skip_it = "NON_ELF";
198	}
199
200	my $static_prof_fh = do { local *FH; *FH };
201	if (defined($skip_it)) {
202		open($static_prof_fh, ">$outfile") ||
203		    exiter(nofile($outfile, $!));
204
205		print $static_prof_fh "#SKIPPED_TEST: $skip_it\n";
206		close($static_prof_fh);
207
208		return;
209	}
210
211	#
212	# system() when run in the following manner will prevent the
213	# shell from expanding any strange characters in $object. Quotes
214	# around '$object' would be almost as safe.  since excluded
215	# earlier the cases where it contains the ' character.
216	#
217	system("$appcert_lib_dir/static_prof", '-p', '-s', '-o', $outfile,
218	    $object);
219
220	if ($? != 0) {
221		open($static_prof_fh, ">$outfile") ||
222		    exiter(nofile($outfile, $!));
223
224		#
225		# For completeness, we'll use elfdump to record the
226		# static profile for 64 bit binaries, although the
227		# static linking problems only occur for 32-bit
228		# applications.
229		#
230		my ($prof, $sym);
231		$prof = '';
232		my $elfdump_fh = do { local *FH; *FH };
233		if (open($elfdump_fh, "$cmd_elfdump -s -N .dynsym '$object' " .
234		    " 2>/dev/null |")) {
235			while (<$elfdump_fh>) {
236				chomp;
237				if (/\s\.text\s+(\S+)$/) {
238					$sym = $1;
239					if (! /\bFUNC\b/) {
240						next;
241					}
242					if (/\bGLOB\b/) {
243						$prof .= "$object|TEXT|GLOB|" .
244						    "FUNC|$sym\n";
245					} else {
246						$prof .= "$object|TEXT|WEAK|" .
247						    "FUNC|$sym\n";
248					}
249				}
250			}
251			close($elfdump_fh);
252		}
253		if ($prof ne '') {
254			my $line;
255			print $static_prof_fh "#generated by symprof/elfdump\n";
256			print $static_prof_fh "#dtneeded:";
257			foreach $line (split(/\n/, cmd_output_dump($object))) {
258				if ($line =~ /\bNEEDED\s+(\S+)/) {
259					print $static_prof_fh " $1";
260				}
261			}
262			print $static_prof_fh "\n";
263			print $static_prof_fh $prof;
264		} else {
265			print $static_prof_fh "#SKIPPED_TEST: " .
266			    "PROFILER_PROGRAM_static_prof_RETURNED:$?\n";
267		}
268		close($static_prof_fh);
269
270
271		return;
272	}
273
274	# Also store the dtneededs from the static profile output.
275	my $dtneeded = "$output_dir/info.dtneeded";
276
277	my $dtneeded_fh = do { local *FH; *FH };
278	open($dtneeded_fh, ">$dtneeded") ||
279	    exiter(nofile($dtneeded, $!));
280
281	open($static_prof_fh, "<$outfile") ||
282	    exiter(nofile($outfile, $!));
283
284	my $lib;
285	while (<$static_prof_fh>) {
286
287		next unless (/^\s*#/);
288
289		if (/^\s*#\s*dtneeded:\s*(\S.*)$/) {
290			foreach $lib (split(/\s+/, $1)) {
291				next if ($lib eq '');
292				print $dtneeded_fh "$lib\n";
293			}
294			last;
295		}
296	}
297	close($dtneeded_fh);
298	close($static_prof_fh);
299}
300
301#
302# Top level subroutine for doing a dynamic profile of an object.  It
303# calls get_dynamic_profile() which handles the details of the actual
304# profiling and returns the newline separated "preprocessed format" to
305# this subroutine.
306#
307# The records are then processed and placed in the output directory.
308#
309sub dynamic_profile
310{
311	my ($object, $output_dir) = @_;
312
313	my ($profile, $line, $tmp);
314
315	# This is the profile output file.
316	my $outfile = "$output_dir/profile.dynamic";
317
318	$profile = get_dynamic_profile($object);
319
320	if ($profile =~ /^ERROR:\s*(.*)$/) {
321		# There was some problem obtaining the dynamic profile
322		my $msg = $1;
323		my $errfile = "$output_dir/profile.dynamic.errors";
324
325		my $profile_error_fh = do { local *FH; *FH };
326		open($profile_error_fh, ">>$errfile") ||
327		    exiter(nofile($errfile, $!));
328
329		$msg =~ s/\n/ /g;
330		$msg =~ s/;/,/g;
331		print $profile_error_fh $msg, "\n";
332		close($profile_error_fh);
333
334		# Write a comment to the profile file as well:
335		my $profile_fh = do { local *FH; *FH };
336		open($profile_fh, ">$outfile") ||
337		    exiter(nofile($outfile, $!));
338		print $profile_fh "#NO_BINDINGS_FOUND $msg\n";
339		close($profile_fh);
340
341		return;
342	}
343
344	my ($filter, $filtee, $from, $to, $sym);
345	my ($type, $saw_bindings, $all_needed);
346	my (%filter_map, %symlink_map);
347
348	# Resolve the symlink of the object, if any.
349	$symlink_map{$object} = follow_symlink($object);
350
351	#
352	# Collect the filter or static linking info first.  Since the
353	# filter info may be used to alias libraries, it is safest to do
354	# it before any bindings processing.  that is why we iterate
355	# through $profile twice.
356	#
357	my @dynamic_profile_array = split(/\n/, $profile);
358
359	foreach $line (@dynamic_profile_array) {
360
361		if ($line =~ /^FILTER_AUX:(.*)$/) {
362			#
363			# Here is the basic example of an auxiliary filter:
364			#
365			# FILTER: /usr/lib/libc.so.1
366			# FILTEE: /usr/platform/sun4u/lib/libc_psr.so.1
367			#
368			# The app links against symbol memcpy() in
369			# libc.so.1 at build time. Now, at run time IF
370			# memcpy() is provided by libc_psr.so.1 then
371			# that "code" is used, otherwise it backs off to
372			# use the memcpy()in libc.so.1. The
373			# libc_psr.so.1 doesn't even have to exist.
374			#
375			# The dynamic linker happily informs us that it
376			# has found (and will bind to) memcpy() in
377			# /usr/platform/sun4u/lib/libc_psr.so.1.  We
378			# want to alias libc_psr.so.1 => libc.so.1.
379			# Why?
380			#	- less models to maintain. Note the symlink
381			#	  situation in /usr/platform.
382			#	- libc_psr.so.1 is versioned, but we would be
383			#	  incorrect since it has memcpy() as SUNWprivate
384			#
385			# Therefore we record this aliasing in the hash
386			# %filter_map.  This will be used below to
387			# replace occurrences of the FILTEE string by
388			# the FILTER string. Never the other way round.
389			#
390
391			($filter, $filtee) = split(/\|/, $1, 2);
392			$filter_map{$filtee} = $filter;
393
394			# Map the basenames too:
395			$filter = basename($filter);
396			$filtee = basename($filtee);
397			$filter_map{$filtee} = $filter;
398
399		} elsif ($line =~ /^FILTER_STD:(.*)$/) {
400
401			#
402			# Here is the basic example(s) of a standard filter:
403			#
404			# FILTER: /usr/lib/libsys.so.1
405			# FILTEE: /usr/lib/libc.so.1
406			#
407			# Here is another:
408			#
409			# FILTER: /usr/lib/libw.so.1
410			# FILTEE: /usr/lib/libc.so.1
411			#
412			# Here is a more perverse one, libxnet.so.1 has 3
413			# filtees:
414			#
415			# FILTER: /usr/lib/libxnet.so.1
416			# FILTEE: /usr/lib/{libsocket.so.1,libnsl.so.1,libc.so.1}
417			#
418			# The important point to note about standard
419			# filters is that they contain NO CODE AT ALL.
420			# All of the symbols in the filter MUST be found
421			# in (and bound to) the filtee(s) or there is a
422			# relocation error.
423			#
424			# The app links against symbol getwc() in
425			# libw.so.1 at build time. Now, at run time
426			# getwc() is actually provided by libc.so.1.
427			#
428			# The dynamic linker happily informs us that it
429			# has found (and will bind to) getwc() in
430			# libc.so.1. IT NEVER DIRECTLY TELLS US getwc was
431			# actually referred to in libw.so.1
432			#
433			# So, unless we open a model file while
434			# PROFILING, we cannot figure out which ones
435			# come from libw.so.1 and which ones come from
436			# libc.so.1. In one sense this is too bad: the
437			# libw.so.1 structure is lost.
438			#
439			# The bottom line is we should not alias
440			# libc.so.1 => libw.so.1 (FILTEE => FILTER) as
441			# we did above with FILTER_AUX. That would be a
442			# disaster. (would say EVERYTHING in libc came
443			# from libw!)
444			#
445			# So we DO NOT store the alias in this case, this
446			# leads to:
447			#	- more models to maintain.
448			#
449			# Thus we basically skip this info.
450			# EXCEPT for one case, libdl.so.1, see below.
451			#
452
453			($filter, $filtee) = split(/\|/, $1, 2);
454
455			#
456			# The dlopen(), ... family of functions in
457			# libdl.so.1 is implemented as a filter for
458			# ld.so.1.  We DO NOT want to consider a symbol
459			# model for ld.so.1. So in this case alone we
460			# want to alias ld.so.1 => libdl.so.1
461			#
462			#
463			# We only need to substitute the standard filter
464			# libdl.so.n. Record the alias in that case.
465			#
466			if ($filter =~ /\blibdl\.so\.\d+/) {
467				$filter_map{$filtee} = $filter;
468
469				# Map basenames too:
470				$filter = basename($filter);
471				$filtee = basename($filtee);
472				$filter_map{$filtee} = $filter;
473			}
474
475		} elsif ($line =~ /^DYNAMIC_PROFILE_SKIPPED_NOT_ELF/ ||
476		    $line =~ /^STATICALLY_LINKED:/) {
477			#
478			# This info will go as a COMMENT into the
479			# output.  n.b.: there is no checking whether
480			# this piece of info is consistent with the rest
481			# of the profile output.
482			#
483			# The $message string will come right after the
484			# header, and before the bindings (if any).  See
485			# below where we write to the PROF filehandle.
486			#
487
488			my $profile_msg_fh = do { local *FH; *FH };
489			open($profile_msg_fh, ">>$outfile") ||
490			    exiter(nofile($outfile, $!));
491			print $profile_msg_fh "#$line\n";
492			close($profile_msg_fh);
493
494		} elsif ($line =~ /^NEEDED_FOUND:(.*)$/) {
495			#
496			# These libraries are basically information
497			# contained in the ldd "libfoo.so.1 =>
498			# /usr/lib/libfoo.so.1" output lines.  It is the
499			# closure of the neededs (not just the directly
500			# needed ones).
501			#
502
503			$all_needed .= $1 . "\n";
504		}
505	}
506
507	#
508	# Now collect the bindings info:
509	#
510	# Each BINDING record refers to 1 symbol. After manipulation
511	# here it will go into 1 record into the profile output.
512	#
513	# What sort of manipulations? Looking below reveals:
514	#
515	#  - we apply the library FILTER_AUX aliases in %filter_map
516	#  - for shared objects we resolve symbolic links to the actual
517	#    files they point to.
518	#  - we may be in a mode where we do not store full paths of
519	#    the shared objects, e.g. /usr/lib/libc.so.1, but rather
520	#    just their basename "libc.so.1"
521	#
522	# There are exactly four(4) types of bindings that will be
523	# returned to us by get_dynamic_profile().  See
524	# get_dynamic_profile() and Get_ldd_Profile() for more details.
525	#
526	# Here are the 4 types:
527	#
528	# BINDING_DIRECT:from|to|sym
529	#	The object being profiled is the "from" here!
530	#	It directly calls "sym" in library "to".
531	#
532	# BINDING_INDIRECT:from|to|sym
533	#	The object being profiled is NOT the "from"  here.
534	#	"from" is a shared object, and "from" calls "sym" in
535	#	library "to".
536	#
537	# BINDING_REVERSE:from|to|sym
538	#	The shared object "from" makes a reverse binding
539	#	all the way back to the object being profiled! We call
540	#	this *REVERSE*. "to" is the object being profiled.
541	#
542	# BINDING_UNBOUND:from|sym
543	#	object "from" wants to call "sym", but "sym" was
544	#	not found! We didn't find the "to", and so no
545	#	"to" is passed to us.
546	#
547
548	my $put_DIRECT_in_the_UNBOUND_record;
549
550	$saw_bindings = 0;
551	#
552	# Start the sorting pipeline that appends to the output file.
553	# It will be written to in the following loop.
554	#
555	# Tracing back $outfile to $outdir to $working_dir, one sees $outfile
556	# should have no single-quote characters.  We double check it does not
557	# before running the command.
558	#
559	if ($outfile =~ /'/) {
560	    exiter(norunprog("|$cmd_sort -t'|' +1 | $cmd_uniq >> '$outfile'"));
561	}
562
563	my $prof_fh = do { local *FH; *FH };
564	open($prof_fh, "|$cmd_sort -t'|' +1 | $cmd_uniq >> '$outfile'") ||
565	    exiter(norunprog("|$cmd_sort -t'|' +1 | $cmd_uniq >> '$outfile'",
566	    $!));
567	local($SIG{'PIPE'}) = sub {
568		exiter(norunprog(
569		    "|$cmd_sort -t'|' +1 | $cmd_uniq >> '$outfile'", $!));
570	};
571
572	foreach $line (@dynamic_profile_array) {
573
574		if ($line =~ /^BINDING_([^:]+):(.*)$/) {
575
576			$type = $1;
577
578			if ($type eq 'UNBOUND') {
579				#
580				# If the symbol was unbound, there is no
581				# "to" library. We make an empty "to"
582				# value so as to avoid special casing
583				# "to" all through the code that
584				# follows.  It is easy to verify no
585				# matter what happens with the $to
586				# variable, it will NOT be printed to the
587				# profile output file in the UNBOUND
588				# case.
589				#
590
591				($from, $sym) = split(/\|/, $2, 2);
592				$to = '';
593
594			} else {
595				# Otherwise, we have the full triple:
596
597				($from, $to, $sym) = split(/\|/, $2, 3);
598			}
599
600			#
601			# We record here information to be used in
602			# writing out UNBOUND records, namely if the
603			# "from" happened to also be the object being
604			# profiled. In that case The string "*DIRECT*"
605			# will be placed in the "*UNBOUND*" record,
606			# otherwise the "from" will stand as is in the
607			# "*UNBOUND*" record. We do this check here
608			# before the filter_map is applied. The chances
609			# of it making a difference is small, but we had
610			# best to do it here.
611			#
612			if (files_equal($from, $object)) {
613				#
614				# Switch to indicate placing *DIRECT* in
615				# the *UNBOUND* line, etc.
616				#
617				$put_DIRECT_in_the_UNBOUND_record = 1;
618			} else  {
619				$put_DIRECT_in_the_UNBOUND_record = 0;
620			}
621
622			#
623			# See if there is a filter name that "aliases"
624			# either of the "from" or "to" libraries, if so
625			# then rename it.
626			#
627			if ($to ne '' && $filter_map{$to}) {
628				$to = $filter_map{$to};
629			}
630			if ($type ne 'DIRECT' && $filter_map{$from}) {
631				$from = $filter_map{$from};
632			}
633
634			#
635			# Record symlink information.
636			#
637			# Note that follow_symlink returns the file
638			# name itself when the file is not a symlink.
639			#
640			# Work out if either "from" or "to" are
641			# symlinks.  For efficiency we keep them in the
642			# %symlink_map hash.  Recall that we are in a
643			# loop here, so why do libc.so.1 200 times?
644			#
645			if ($from ne '') {
646				if (! exists($symlink_map{$from})) {
647					$symlink_map{$from} =
648					    follow_symlink($from);
649				}
650			}
651			if ($to ne '') {
652				if (! exists($symlink_map{$to})) {
653					$symlink_map{$to} =
654					    follow_symlink($to);
655				}
656			}
657
658			#
659			# Now make the actual profile output line. Construct
660			# it in $tmp and then append it to $prof_fh pipeline.
661			#
662			$tmp = '';
663
664			if ($type eq "DIRECT") {
665				$tmp = "$object|*DIRECT*|$to|$sym";
666			} elsif ($type eq "INDIRECT") {
667				$tmp = "$object|$from|$to|$sym";
668			} elsif ($type eq "REVERSE") {
669				$tmp = "$object|*REVERSE*|$from|$sym";
670			} elsif ($type eq "UNBOUND") {
671				if ($put_DIRECT_in_the_UNBOUND_record) {
672					$tmp =
673					    "$object|*DIRECT*|*UNBOUND*|$sym";
674				} else {
675					$tmp = "$object|$from|*UNBOUND*|$sym";
676				}
677			} else {
678				exiter("$command_name: " . sprintf(gettext(
679				    "unrecognized ldd(1) LD_DEBUG " .
680				    "bindings line: %s\n"), $line));
681			}
682
683			# write it to the sorting pipeline:
684			print $prof_fh $tmp, "\n";
685			$saw_bindings = 1;
686		} elsif ($line =~ /^DYNAMIC_PROFILE_SKIPPED_NOT_ELF/) {
687			# ignore no bindings warning for non-ELF
688			$saw_bindings = 1;
689		}
690	}
691
692	if (! $saw_bindings) {
693		print $prof_fh "#NO_BINDINGS_FOUND\n";
694	}
695	close($prof_fh);
696	if ($? != 0) {
697		exiter(norunprog(
698		    "|$cmd_sort -t'|' +1 | $cmd_uniq >> '$outfile'", $!));
699	}
700
701	# Print out the library location and symlink info.
702	$outfile = "$output_dir/profile.dynamic.objects";
703
704	my $objects_fh = do { local *FH; *FH };
705	open($objects_fh, ">$outfile") || exiter(nofile($outfile, $!));
706
707	my ($var, $val);
708	while (($var, $val) = each(%ENV)) {
709		if ($var =~ /^LD_/) {
710			print $objects_fh "#info: $var=$val\n";
711		}
712	}
713
714	my $obj;
715	foreach $obj (sort(keys(%symlink_map))) {
716		next if ($obj eq '');
717		print $objects_fh "$obj => $symlink_map{$obj}\n";
718	}
719	close($objects_fh);
720
721	# Print out ldd shared object resolution.
722	$outfile = "$output_dir/profile.dynamic.ldd";
723
724	my $ldd_prof_fh = do { local *FH; *FH };
725	open($ldd_prof_fh, ">$outfile") || exiter(nofile($outfile, $!));
726
727	if (defined($all_needed)) {
728		print $ldd_prof_fh $all_needed;
729	}
730	close($ldd_prof_fh);
731
732}
733
734#
735# If the users environment is not the same when running symprof as when
736# running their application, the dynamic linker cannot resolve all of
737# the dynamic bindings and we get "unbound symbols".
738# redo_unbound_profile attempts to alleviate this somewhat. In
739# particular, for shared objects that do not have all of their
740# dependencies recorded, it attempts to use binding information in the
741# other *executables* under test to supplement the binding information
742# for the shared object with unbound symbols.  This is not the whole
743# story (e.g. dlopen(3L)), but it often helps considerably.
744#
745sub redo_unbound_profile
746{
747	my ($dir, $path_to_object);
748	my ($profile, $total, $count);
749	my (%unbound_bins);
750
751	#
752	# Find the objects with unbound symbols. Put them in the list
753	# %unbound_bins.
754	#
755	$total = 0;
756	while (defined($dir = next_dir_name())) {
757
758		$profile = "$dir/profile.dynamic";
759		my $profile_fh = do { local *FH; *FH };
760		if (! -f $profile || ! open($profile_fh, "<$profile")) {
761			next;
762		}
763
764		$count = 0;
765		while (<$profile_fh>) {
766			next if (/^\s*#/);
767			$count++ if (/\|\*UNBOUND\*\|/);
768		}
769		close($profile_fh);
770
771		$unbound_bins{$dir} = $count if ($count);
772		$total += $count;
773	}
774
775	# we are done if no unbounds are detected.
776	return unless (%unbound_bins);
777	return if ($total == 0);
778
779	my (%dtneededs_lookup_full, %dtneededs_lookup_base);
780
781	# Read in *ALL* objects dt_neededs.
782
783	my ($soname, $base, $full);
784	while (defined($dir = next_dir_name())) {
785
786		$profile = "$dir/profile.dynamic.ldd";
787		my $all_neededs_fh = do { local *FH; *FH };
788		if (! open($all_neededs_fh, "<$profile")) {
789			# this is a heuristic, so we skip on to the next
790			next;
791		}
792
793		while (<$all_neededs_fh>) {
794			chop;
795			next if (/^\s*#/);
796			# save the dtneeded info:
797			($soname, $full) = split(/\s+=>\s+/, $_);
798
799			if ($full !~ /not found|\)/) {
800				$dtneededs_lookup_full{$full}{$dir} = 1;
801			}
802			if ($soname !~ /not found|\)/) {
803				$base = basename($soname);
804				$dtneededs_lookup_base{$base}{$dir} = 1;
805			}
806		}
807		close($all_neededs_fh);
808	}
809
810	emsg("\n" . gettext(
811	    "re-profiling binary objects with unbound symbols") . " ...\n");
812
813	# Now combine the above info with each object having unbounds:
814
815	my $uref = \%unbound_bins;
816	foreach $dir (keys(%unbound_bins)) {
817
818		# Map object output directory to the actual path of the object:
819		$path_to_object = dir_name_to_path($dir);
820
821		#
822		# Here is the algorithm:
823		#
824		# 1) binary with unbounds must be a shared object.
825		#
826		# 2) check if it is in the dtneeded of other product binaries.
827		#	if so, use the dynamic profile of those binaries
828		#	to augment the bindings of the binary with unbounds
829		#
830
831		if (! -f $path_to_object) {
832			exiter(nopathexist($path_to_object, $!));
833		}
834
835		# only consider shared objects (e.g. with no DTNEEDED recorded)
836		if (! is_shared_object($path_to_object)) {
837			next;
838		}
839
840		$base = basename($path_to_object);
841
842		my (@dirlist);
843
844		my $result = 0;
845
846		if (defined($dtneededs_lookup_base{$base})) {
847			# the basename is on another's dtneededs:
848			@dirlist = keys(%{$dtneededs_lookup_base{$base}});
849			# try using the bindings of these executables:
850			$result =
851			    try_executables_bindings($dir, $uref, @dirlist);
852		}
853		if ($result) {
854			# we achieved some improvements and so are done:
855			next;
856		}
857
858		# Otherwise, try objects that have our full path in their
859		# dtneededs:
860		@dirlist = ();
861		foreach $full (keys(%dtneededs_lookup_full)) {
862			if (! files_equal($path_to_object, $full)) {
863				next;
864			}
865			push(@dirlist, keys(%{$dtneededs_lookup_full{$full}}));
866		}
867		if (@dirlist) {
868			$result =
869			    try_executables_bindings($dir, $uref, @dirlist);
870		}
871	}
872	emsg("\n");
873}
874
875#
876# We are trying to reduce unbound symbols of shared objects/libraries
877# under test that *have not* recorded their dependencies (i.e.
878# DTNEEDED's). So we look for Executables being checked that have *this*
879# binary ($path_to_object, a shared object) on *its* DTNEEDED. If we
880# find one, we use those bindings.
881#
882sub try_executables_bindings
883{
884	my ($dir, $uref, @dirlist) = @_;
885
886	my $path_to_object = dir_name_to_path($dir);
887
888	#
889	# N.B. The word "try" here means for a binary (a shared library,
890	# actually) that had unbound symbols, "try" to use OTHER
891	# executables binding info to resolve those unbound symbols.
892	#
893	# At least one executable needs this library; we select the one
894	# with minimal number of its own unbounds.
895	#
896	my (%sorting_list);
897	my (@executables_to_try);
898	my ($dir2, $cnt);
899	foreach $dir2 (@dirlist) {
900		next if (! defined($dir2));
901		next if ($dir2 eq $dir);
902		if (exists($uref->{$dir2})) {
903			$cnt = $uref->{$dir2};
904		} else {
905			#
906			# This binary is not on the unbounds list, so
907			# give it the highest priority.
908			#
909			$cnt = 0;
910		}
911		$sorting_list{"$dir2 $cnt"} = $dir2;
912	}
913
914	foreach my $key (reverse(sort_on_count(keys %sorting_list))) {
915		push(@executables_to_try, $sorting_list{$key});
916	}
917
918	my ($my_new_count, $my_new_profile, %my_new_symbols);
919	my ($object, $caller, $callee, $sym, $profile);
920	my $reprofiled = 0;
921
922	my ($line, $path2);
923
924	foreach $dir2 (@executables_to_try) {
925		$path2 = dir_name_to_path($dir2);
926		emsg(gettext(
927		    "re-profiling: %s\n" .
928		    "using:        %s\n"), $path_to_object, $path2);
929
930		# read the other binary's profile
931
932		$profile = "$dir2/profile.dynamic";
933		if (! -f $profile) {
934			next;
935		}
936
937		my $prof_try_fh = do { local *FH; *FH };
938		open($prof_try_fh, "<$profile") ||
939		    exiter(nofile($profile, $!));
940
941		# initialize for the next try:
942		$my_new_profile = '';
943		$my_new_count = 0;
944		%my_new_symbols = ();
945
946		# try to find bindings that involve us ($dir)
947		while (<$prof_try_fh>) {
948			chop($line = $_);
949			next if (/^\s*#/);
950			next if (/^\s*$/);
951			($object, $caller, $callee, $sym) =
952			    split(/\|/, $line, 4);
953
954			if ($caller eq '*REVERSE*') {
955				next if ($callee =~ /^\*.*\*$/);
956				if (! files_equal($callee, $path_to_object)) {
957					next;
958				}
959
960				$my_new_profile .=
961				    "$callee|*DIRECT*|REVERSE_TO:" .
962				    "$object|$sym\n";
963
964				$my_new_symbols{$sym}++;
965				$my_new_count++;
966
967			} elsif (files_equal($caller, $path_to_object)) {
968				$my_new_profile .=
969				    "$caller|*DIRECT*|$callee|$sym\n";
970
971				$my_new_symbols{$sym}++;
972				$my_new_count++;
973			}
974		}
975		close($prof_try_fh);
976
977		next if (! $my_new_count);
978
979		# modify our profile with the new information:
980		$profile = "$dir/profile.dynamic";
981		if (! rename($profile, "$profile.0") || ! -f "$profile.0") {
982			return 0;
983		}
984		my $prof_orig_fh = do { local *FH; *FH };
985		if (! open($prof_orig_fh, "<$profile.0")) {
986			rename("$profile.0", $profile);
987			return 0;
988		}
989		my $prof_fh = do { local *FH; *FH };
990		if (! open($prof_fh, ">$profile")) {
991			rename("$profile.0", $profile);
992			return 0;
993		}
994		my $resolved_from = dir_name_to_path($dir2);
995		print $prof_fh "# REDUCING_UNBOUNDS_VIA_PROFILE_FROM: " .
996		    "$resolved_from\n";
997
998		while (<$prof_orig_fh>) {
999			if (/^\s*#/) {
1000				print $prof_fh $_;
1001				next;
1002			}
1003			chop($line = $_);
1004			($object, $caller, $callee, $sym) =
1005			    split(/\|/, $line, 4);
1006			if (! exists($my_new_symbols{$sym})) {
1007				print $prof_fh $_;
1008				next;
1009			}
1010			print $prof_fh "# RESOLVED_FROM=$resolved_from: $_";
1011		}
1012		close($prof_orig_fh);
1013		print $prof_fh "# NEW_PROFILE:\n" . $my_new_profile;
1014		close($prof_fh);
1015
1016		$reprofiled = 1;
1017		last;
1018	}
1019	return $reprofiled;
1020}
1021
1022#
1023# This routine calls get_ldd_output on the object and parses the
1024# LD_DEBUG output. Returns a string containing the information in
1025# standard form.
1026#
1027sub get_dynamic_profile
1028{
1029	my ($object) = @_;
1030
1031	# Check if the object is statically linked:
1032
1033	my $str;
1034	if (! is_elf($object)) {
1035		return "DYNAMIC_PROFILE_SKIPPED_NOT_ELF";
1036	} elsif (is_statically_linked($object)) {
1037		$str = cmd_output_file($object);
1038		return "STATICALLY_LINKED: $str";
1039	}
1040
1041	# Get the raw ldd output:
1042	my $ldd_output = get_ldd_output($object);
1043
1044	if ($ldd_output =~ /^ERROR:/) {
1045		# some problem occurred, pass the error upward:
1046		return $ldd_output;
1047	}
1048
1049	# variables for manipulating the output:
1050	my ($line, $filters, $neededs, $rest);
1051	my ($tmp, $tmp2, @bindings);
1052
1053	# Now parse it:
1054
1055	foreach $line (split(/\n/, $ldd_output)) {
1056
1057		if ($line =~ /^\d+:\s*(.*)$/) {
1058			# LD_DEBUG profile line, starts with "NNNNN:"
1059			$tmp = $1;
1060			next if ($tmp eq '');
1061
1062			if ($tmp =~ /^binding (.*)$/) {
1063				#
1064				# First look for:
1065				# binding file=/bin/pagesize to \
1066				# file=/usr/lib/libc.so.1: symbol `exit'
1067				#
1068				$tmp = $1;
1069				push(@bindings, ldd_binding_line($1, $object));
1070
1071			} elsif ($tmp =~ /^file=\S+\s+(.*)$/) {
1072				#
1073				# Next look for:
1074				# file=/usr/platform/SUNW,Ultra-1/\
1075				# lib/libc_psr.so.1;  filtered by /usr...
1076				# file=libdl.so.1;  needed by /usr/lib/libc.so.1
1077				#
1078				$rest =  trim($1);
1079
1080				if ($rest =~ /^filtered by /) {
1081					$filters .=
1082					    ldd_filter_line($tmp);
1083				} elsif ($rest =~ /^needed by /) {
1084					$neededs .=
1085					    ldd_needed_line($tmp, $object);
1086				}
1087
1088			}
1089
1090		} elsif ($line =~ /^stdout:(.*)$/) {
1091			# LD_DEBUG stdout line:
1092
1093			$tmp = trim($1);
1094			next if ($tmp eq '');
1095
1096			if ($tmp =~ /\s+=>\s+/) {
1097				#
1098				# First look for standard dependency
1099				# resolution lines:
1100				#
1101				#      libsocket.so.1 => /usr/lib/libsocket.so.1
1102				#
1103				# Note that these are *all* of the
1104				# needed shared objects, not just the
1105				# directly needed ones.
1106				#
1107				$tmp =~ s/\s+/ /g;
1108				$neededs .= "NEEDED_FOUND:$tmp" . "\n";
1109
1110			} elsif ($tmp =~ /symbol not found: (.*)$/) {
1111				#
1112				# Next look for unbound symbols:
1113				# symbol not found: gethz     (/usr/\
1114				# local/bin/gethz)
1115				#
1116
1117				$tmp = trim($1);
1118				($tmp, $tmp2) = split(/\s+/, $tmp, 2);
1119				$tmp2 =~ s/[\(\)]//g;	# trim off ().
1120
1121				# $tmp is the symbol, $tmp2 is the
1122				# calling object.
1123
1124				push(@bindings,
1125				    "BINDING_UNBOUND:$tmp2|$tmp" . "\n"
1126				);
1127			}
1128		}
1129	}
1130
1131	# Return the output:
1132	my $ret = '';
1133	$ret .= $filters if (defined($filters));
1134	$ret .= $neededs if (defined($neededs));
1135	$ret .= join('', @bindings);
1136
1137	return $ret;
1138}
1139
1140#
1141# Routine used to parse a LD_DEBUG "binding" line.
1142#
1143# Returns "preprocessed format line" if line is ok, or
1144# null string otherwise.
1145#
1146sub ldd_binding_line
1147{
1148	my ($line, $object) = @_;
1149
1150	my ($from, $to, $sym);
1151
1152	my ($t1, $t2, $t3);	# tmp vars for regex output
1153
1154	#
1155	# Working on a line like:
1156	#
1157	# binding file=/bin/pagesize to file=/usr/lib/libc.so.1: symbol `exit'
1158	#
1159	# (with the leading "binding " removed).
1160	#
1161
1162	if ($line =~ /^file=(\S+)\s+to file=(\S+)\s+symbol(.*)$/) {
1163		#
1164		# The following trim off spaces, ', `, ;, and :, from
1165		# the edges so if the filename had those there could
1166		# be a problem.
1167		#
1168		$from = $1;
1169		$to = $2;
1170		$sym = $3;
1171		#
1172		# guard against future changes to the LD_DEBUG output
1173		# (i.e. information appended to the end)
1174		#
1175		$sym =~ s/'\s+.*$//;
1176
1177		$to =~ s/:$//;
1178
1179		$sym =~ s/[\s:;`']*$//;
1180		$sym =~ s/^[\s:;`']*//;
1181
1182	} elsif ($line =~ /^file=(.+) to file=(.+): symbol (.*)$/) {
1183		# This will catch spaces, but is less robust.
1184		$t1 = $1;
1185		$t2 = $2;
1186		$t3 = $3;
1187		#
1188		# guard against future changes to the LD_DEBUG output
1189		# (i.e. information appended to the end)
1190		#
1191		$t3 =~ s/'\s+.*$//;
1192
1193		$from = wclean($t1, 1);
1194		$to   = wclean($t2, 1);
1195		$sym  = wclean($t3);
1196
1197	} else {
1198		return '';
1199	}
1200
1201	if ($from eq '' || $to eq '' || $sym eq '') {
1202		return '';
1203	}
1204
1205	#
1206	# OK, we have 3 files: $from, $to, $object
1207	# Which, if any, are the same file?
1208	#
1209	# Note that we have not yet done the Filter library
1210	# substitutions yet. So one cannot be too trusting of the file
1211	# comparisons done here.
1212	#
1213
1214	if (files_equal($from, $to, 0)) {
1215		#
1216		# We skip the "from" = "to" case
1217		# (could call this: BINDING_SELF).
1218		#
1219		return '';
1220	} elsif (files_equal($object, $from, 0)) {
1221		# DIRECT CASE (object calls library):
1222		return "BINDING_DIRECT:$from|$to|$sym"   . "\n";
1223	} elsif (files_equal($object, $to, 0)) {
1224		# REVERSE CASE (library calls object):
1225		return "BINDING_REVERSE:$from|$to|$sym"  . "\n";
1226	} else {
1227		#
1228		# INDIRECT CASE (needed library calls library):
1229		# (this will not be a library calling itself because
1230		# we skip $from eq $to above).
1231		#
1232		return "BINDING_INDIRECT:$from|$to|$sym" . "\n";
1233	}
1234}
1235
1236#
1237# Routine used to parse a LD_DEBUG "filtered by" line.
1238#
1239# Returns "preprocessed format line" if line is ok, or null string
1240# otherwise.
1241#
1242sub ldd_filter_line
1243{
1244	my ($line) = @_;
1245
1246	my ($filter, $filtee);
1247
1248	#
1249	# Working on a line like:
1250	#
1251	# file=/usr/platform/SUNW,Ultra-1/lib/libc_psr.so.1;  \
1252	#					filtered by /usr/lib/libc.so.1
1253	#
1254
1255	my ($t1, $t2);	# tmp vars for regex output
1256
1257	if ($line =~ /file=(\S+)\s+filtered by\s+(\S.*)$/) {
1258		$t1 = $1;
1259		$t2 = $2;
1260		$filtee = wclean($t1);
1261		$filter = wclean($t2);
1262	} elsif ($line =~ /file=(.+);  filtered by (.*)$/) {
1263		$t1 = $1;
1264		$t2 = $2;
1265		$filtee = wclean($t1, 1);
1266		$filter = wclean($t2, 1);
1267	} else {
1268		return '';
1269	}
1270
1271	if ($filtee eq '' || $filter eq '') {
1272		return '';
1273	}
1274	#
1275	# What kind of filter is $filter?
1276	#	STANDARD  (contains no "real code", e.g. libxnet.so.1), or
1277	#	AUXILIARY (provides "code" if needed, but
1278	#	           prefers to pass filtee's "code", e.g. libc.so.1)
1279	#
1280	# LD_DEBUG output does not indicate this, so dump -Lv is run on it
1281	# in filter_lib_type:
1282	#
1283
1284	my $type = 'unknown';
1285
1286	$type = filter_lib_type($filter);
1287
1288	if ($type eq 'STD') {
1289		return "FILTER_STD:$filter|$filtee" . "\n";
1290	} elsif ($type eq 'AUX') {
1291		return "FILTER_AUX:$filter|$filtee" . "\n";
1292	} else {
1293		return '';
1294	}
1295}
1296
1297#
1298# Routine used to parse a LD_DEBUG "needed by" line.
1299#
1300# Returns "preprocessed format line" if line is ok, or the null string
1301# otherwise.
1302#
1303sub ldd_needed_line
1304{
1305	my ($line, $object) = @_;
1306
1307	my ($thing_needed, $file);
1308
1309	my ($t1, $t2);	# tmp variables for regex output.
1310
1311	#
1312	# Working on a line like:
1313	#
1314	# file=libdl.so.1;  needed by /usr/lib/libc.so.1
1315	#
1316
1317	if ($line =~ /file=(\S+)\s+needed by\s+(\S.*)$/) {
1318		$t1 = $1;
1319		$t2 = $2;
1320		$thing_needed	= wclean($t1);
1321		$file		= wclean($t2);
1322	} elsif ($line =~ /file=(.+);  needed by (.*)$/) {
1323		$t1 = $1;
1324		$t2 = $2;
1325		$thing_needed	= wclean($t1, 1);
1326		$file		= wclean($t2, 1);
1327	} else {
1328		return '';
1329	}
1330
1331	if ($thing_needed eq '' || $file eq '') {
1332		return '';
1333	}
1334
1335	#
1336	# Note that $thing_needed is not a path to a file, just the
1337	# short name unresolved, e.g. "libc.so.1".  The next line of the
1338	# LD_DEBUG output would tell us where $thing_needed is resolved
1339	# to.
1340	#
1341
1342	if (files_equal($object, $file)) {
1343		return "NEEDED_DIRECT:$thing_needed|$file"   . "\n";
1344	} else {
1345		return "NEEDED_INDIRECT:$thing_needed|$file" . "\n";
1346	}
1347}
1348
1349#
1350# Routine to clean up a "word" string from ldd output.
1351#
1352# This is specialized for removing the stuff surrounding files and
1353# symbols in the LD_DEBUG output. It is usually a file name or symbol
1354# name.
1355#
1356sub wclean
1357{
1358	my ($w, $keep_space) = @_;
1359
1360	if (! $keep_space) {
1361		# make sure leading/trailing spaces are gone.
1362		$w =~ s/[\s:;`']*$//;	# get rid of : ; ' and `
1363		$w =~ s/^[\s:;`']*//;
1364	} else {
1365		$w =~ s/[:;`']*$//;	# get rid of : ; ' and `
1366		$w =~ s/^[:;`']*//;
1367	}
1368
1369	return $w;
1370}
1371
1372#
1373# This routine runs ldd -r on the object file with LD_DEBUG flags turned
1374# on.  It collects the stdout and the LD_DEBUG profile data for the
1375# object (it must skip the LD_DEBUG profile data for /usr/bin/ldd
1376# /bin/sh, or any other extraneous processes).
1377#
1378# It returns the profile data as a single string with \n separated
1379# records. Records starting with "stdout: " are the stdout lines,
1380# Records starting with "NNNNN: " are the LD_DEBUG lines.  Our caller
1381# must split and parse those lines.
1382#
1383# If there is some non-fatal error, it returns a 1-line string like:
1384#	ERROR: <error-message>
1385#
1386sub get_ldd_output
1387{
1388
1389	my ($object) = @_;
1390
1391	my ($tmpdir, $outfile, $errfile);
1392
1393	if (! -f $object) {
1394		exiter(nopathexist($object));
1395	}
1396
1397	# We use the tmp_dir for our work:
1398	$tmpdir = $tmp_prof_dir;
1399
1400	# Clean out the tmpdir.
1401	if ($tmpdir !~ m,^/*$,) {
1402		unlink(<$tmpdir/*>);
1403		#
1404		# The following puts xgettext(1) back on track. It is
1405		# confused and believes it is inside a C-style /* comment */
1406		#
1407		my $unused = "*/";
1408	}
1409
1410	# Output files for collecting output of the ldd -r command:
1411	$errfile = "$tmpdir/stderr";
1412	$outfile = "$tmpdir/stdout";
1413
1414	my ($rc, $msg, $child, $result);
1415
1416	#
1417	# This forking method should have 2 LD_DEBUG bind.<PID> files
1418	# one for ldd and the other for $object. system() could have
1419	# another from the shell.
1420	#
1421
1422	# Fork off a child:
1423	$child = fork();
1424
1425	#
1426	# Note: the file "/tmp/.../bind.$child" should be the "ldd"
1427	# profile, but we do not want to depend upon that.
1428	#
1429
1430	if (! defined($child)) {
1431		# Problem forking:
1432		exiter(sprintf(gettext(
1433		    "cannot fork for command: ldd -r %s: %s\n"), $object, $!));
1434
1435	} elsif ($child == 0) {
1436
1437		# Reopen std output to the desired output files:
1438		open(STDOUT, ">$outfile") ||
1439		    exiter(nofile($outfile, $!));
1440
1441		open(STDERR, ">$errfile") ||
1442		    exiter(nofile($errfile, $!));
1443
1444		#
1445		# Set the env to turn on debugging from the linker:
1446		#
1447		$ENV{'LD_DEBUG'} = "files,bindings";
1448		$ENV{'LD_DEBUG_OUTPUT'} = "$tmpdir/bind";
1449
1450		#
1451		# Set LD_NOAUXFLTR to avoid auxiliary filters (e.g. libc_psr)
1452		# since they are not of interest to the public/private
1453		# symbol status and confuse things more than anything else.
1454		#
1455		$ENV{'LD_NOAUXFLTR'} = "1";
1456
1457		# Run ldd -r:
1458		c_locale(1);
1459		exec($cmd_ldd, '-r', $object);
1460		exit 1;		# only reached if exec fails.
1461	} else {
1462		wait;		# Wait for children to finish.
1463		$rc = $?; 	# Record exit status.
1464		$msg = $!;
1465	}
1466
1467	# Check the exit status:
1468	if ($rc != 0) {
1469		if (-s $errfile) {
1470			my $tmp;
1471			my $errfile_fh = do { local *FH; *FH };
1472			if (open($errfile_fh, "<$errfile")) {
1473				while (<$errfile_fh>) {
1474					if (/ldd:/) {
1475						$tmp = $_;
1476						last;
1477					}
1478				}
1479				close($errfile_fh);
1480			}
1481			if (defined($tmp))  {
1482				chomp($tmp);
1483				if ($tmp =~ /ldd:\s*(\S.*)$/) {
1484					$tmp = $1;
1485				}
1486				if ($tmp =~ /^[^:]+:\s*(\S.*)$/) {
1487					my $t = $1;
1488					if ($t !~ /^\s*$/) {
1489						$tmp = $t;
1490					}
1491				}
1492				$msg = $tmp if ($tmp !~ /^\s*$/);
1493			}
1494		}
1495		emsg("%s", norunprog("$cmd_ldd -r $object", "$msg\n"));
1496		$msg =~ s/\n/ /g;
1497		$msg =~ s/;/,/g;
1498		$msg = sprintf("ERROR: " . gettext(
1499		    "Error running: ldd -r LD_DEBUG: %s"), $msg);
1500		return $msg;
1501	}
1502
1503	#
1504	# We now have all the output files created. We read them and
1505	# merge them into one long string to return to whoever called
1506	# us.  The caller will parse it, not us. Our goal here is to
1507	# just return the correct LD_DEBUG profile data.
1508	#
1509
1510	if (-f "$tmpdir/stdout") {
1511		my $out_fh = do { local *FH; *FH };
1512		if (! open($out_fh, "<$tmpdir/stdout")) {
1513			exiter(nofile("$tmpdir/stdout", $!));
1514		}
1515		while (<$out_fh>) {
1516			# Add the special prefix for STDOUT:
1517			$result .= "stdout: $_";
1518		}
1519		close($out_fh);
1520	}
1521
1522	my ($file, $count, $goodone, $ok, $aok, @file);
1523
1524	$count = 0;
1525
1526	my $prevline;
1527
1528	# Loop over each "bind.NNNNN" file in the tmp directory:
1529	foreach $file (<$tmpdir/bind.*>) {
1530
1531		# Open it for reading:
1532		my $ldd_file_fh = do { local *FH; *FH };
1533		if (! open($ldd_file_fh, "<$file")) {
1534			exiter(nofile($file, $!));
1535		}
1536
1537		#
1538		# ok = 1 means this file we are reading the profile file
1539		# corresponding to $object. We set ok = 0 as soon as we
1540		# discover otherwise.
1541		#
1542		$ok = 1;
1543
1544		#
1545		# $aok = 1 means always OK. I.e. we are definitely in the
1546		# correct profile.
1547		#
1548		$aok = 0;
1549
1550		#
1551		# this variable will hold the previous line so that we
1552		# can skip adjacent duplicates.
1553		#
1554		$prevline = '';
1555
1556		my $idx;
1557
1558		while (<$ldd_file_fh>) {
1559
1560			#
1561			# This check is done to perform a simple
1562			# uniq'ing of the output. Non-PIC objects have
1563			# lots of duplicates, many of them right after
1564			# each other.
1565			#
1566
1567			next if ($_ eq $prevline);
1568			$prevline = $_;
1569
1570			#
1571			# Check to see if this is the wrong profile
1572			# file:  The ones we know about are "ldd" and
1573			# "sh".  If the object under test is ever "ldd"
1574			# or "sh" this will fail.
1575			#
1576			if ($aok) {
1577				;
1578			} elsif ($ok) {
1579			#
1580			# checks line:
1581			# file=ldd;  analyzing  [ RTLD_GLOBAL  RTLD_LAZY ]
1582			#
1583				if (/\bfile=\S+\b(ldd|sh)\b/) {
1584					$ok = 0;
1585				} else {
1586					$idx =
1587					index($_, " file=$object;  analyzing");
1588					$aok = 1 if ($idx != -1);
1589				}
1590			}
1591
1592			# We can skip this file as soon as we see $ok = 0.
1593			last unless ($ok);
1594
1595			# Gather the profile output into a string:
1596			$file[$count] .= $_;
1597		}
1598
1599		#
1600		# Note that this one is the desired profile
1601		# (i.e. if $ok is still true):
1602		#
1603		$goodone .= "$count," if ($ok);
1604
1605		# On to the next $file:
1606		close($ldd_file_fh);
1607		$count++;
1608	}
1609
1610	if (defined($goodone)) {
1611		$goodone =~ s/,$//;	# Trim the last comma off.
1612	}
1613
1614	# If we have none or more than one "good one" we are in trouble:
1615	if (! defined($goodone) || ($goodone !~ /^\d+$/) || ($goodone =~ /,/)) {
1616
1617		#
1618		# Note that this is the first point at which we would detect
1619		# a problem with the checking of SUID/SGID objects, although
1620		# in theory we could have skipped these objects earlier.
1621		# We prefer to let the linker, ld.so.1, indicate this failure
1622		# and then we catch it and diagnose it here.
1623		#
1624		my $suid = is_suid($object);
1625
1626		if ($suid == 1) {
1627			$result = "ERROR: " . gettext(
1628			    "SUID - ldd(1) LD_DEBUG profile failed");
1629		} elsif ($suid == 2) {
1630			$result = "ERROR: " . gettext(
1631			    "SGID - ldd(1) LD_DEBUG profile failed");
1632		} else {
1633			$result = "ERROR: " . gettext(
1634			    "could not get ldd(1) LD_DEBUG profile output");
1635		}
1636
1637	} else {
1638		# Append the correct profile to the result and return it:
1639		$result .= $file[$goodone];
1640	}
1641
1642	# Tidy up our mess by cleaning out the tmpdir.
1643	unlink(<$tmpdir/*>) if ($tmpdir !~ m,^/*$,);
1644
1645	return $result;
1646}
1647