xref: /titanic_50/usr/src/tools/scripts/interface_check.pl (revision 6e1ae2a33c618c4c2b14aec7d2f21743ddea5837)
1#!/usr/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 (the "License").
7# You may not use this file except in compliance with the License.
8#
9# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10# or http://www.opensolaris.org/os/licensing.
11# See the License for the specific language governing permissions
12# and limitations under the License.
13#
14# When distributing Covered Code, include this CDDL HEADER in each
15# file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16# If applicable, add the following below this CDDL HEADER, with the
17# fields enclosed by brackets "[]" replaced with your own identifying
18# information: Portions Copyright [yyyy] [name of copyright owner]
19#
20# CDDL HEADER END
21#
22
23#
24# Copyright (c) 2009, 2010, Oracle and/or its affiliates. All rights reserved.
25#
26
27#
28# Check versioning information.
29#
30# This script descends a directory hierarchy inspecting ELF shared objects for
31# version definitions.  The general theme is to verify that common versioning
32# rules have been used to build these objects.
33#
34# As always, a number of components don't follow the rules, or require
35# special handling. An exceptions file is used to specify these cases.
36#
37# By default any file that has conditions that should be reported is first
38# listed and then each condition follows.  The -o (one-line) option produces a
39# more terse output which is better for sorting/diffing with "nightly".
40#
41# Besides the default operation of checking the files within a directory
42# hierarchy, a detailed analysis of each files versions can be created with the
43# -d option.  The database created is useful for auditing the difference between
44# different builds, and for thus monitoring that versioning changes are made in
45# a compatible manner.
46
47
48# Define all global variables (required for strict)
49use vars  qw($Prog $Intfdir);
50use vars  qw(%opt @SaveArgv $ErrFH $ObjCnt);
51
52
53# An exception file is used to specify regular expressions to match
54# objects. These directives specify special attributes of the object.
55# The regular expressions are read from the file and compiled into the
56# regular expression variables.
57#
58# The name of each regular expression variable is of the form
59#
60#	$EXRE_xxx
61#
62# where xxx is the name of the exception in lower case. For example,
63# the regular expression variable for PLUGINS is $EXRE_plugins.
64#
65# onbld_elfmod::LoadExceptionsToEXRE() depends on this naming convention
66# to initialize the regular expression variables, and to detect invalid
67# exception names.
68#
69# If a given exception is not used in the exception file, its regular
70# expression variable will be undefined. Users of these variables must
71# test the variable with defined() prior to use:
72#
73#	defined($EXRE_plugins) && ($foo =~ $EXRE_plugins)
74#
75# ----
76#
77# The exceptions are:
78#
79# NONSTD_VERNAME
80#	Objects are expected to use standard names for versions.
81#	This directive is used to relax that requirement.
82#
83# NOVERDEF
84#	Objects that are not required to have a versioned name. Note that
85#	PLUGINS objects are implicitly NOVERDEF, so this directive is
86#	for use with non-plugin objects.
87#
88# PLUGINS
89#	Plugin objects are not required to have a versioned name, and are
90#	not required to be internally versioned.
91#
92use vars  qw($EXRE_nonstd_vername $EXRE_noverdef $EXRE_plugin);
93
94use strict;
95
96use POSIX qw(getenv);
97use Getopt::Std;
98use File::Basename;
99
100
101
102
103## ProcFile(BasePath, RelPath, Class, Type, Verdef, Alias)
104#
105# Investigate runtime attributes of a sharable object
106#
107# entry:
108#	BasePath - Base path from which relative paths are taken
109#	RelPath - Path of object taken relative to BasePath
110#	Class - ELFCLASS of object
111#	Type - ELF type of object
112#	Verdef - VERDEF if object defines versions, NOVERDEF otherwise
113#	Alias - Alias lines corresponding to the object, or an empty ('')
114#		string if there are no aliases.
115#
116sub ProcFile {
117	my($BasePath, $RelPath, $Class, $Type, $Verdef, $Alias) = @_;
118
119	my($File, $FullPath, %Vers, $VersCnt, %TopVer);
120	my($Val, $Ttl, $NotPlugin);
121
122	$FullPath = "$BasePath/$RelPath";
123	@_ = split /\//, $RelPath;
124	$File = $_[$#_];
125
126	$Ttl = 0;
127
128	# If this object is not a symlink, does not follow the runtime
129	# versioned name convention, and it does not reside underneath
130	# a directory identified as containing plugin objects intended
131	# for use with dlopen() only, issue a warning.
132	#
133	# Note that it can only be a symlink if the user specified
134	# a single file on the command line, because the use of
135	# 'find_elf -a' is required for a symlink to be seen.
136	$NotPlugin = !defined($EXRE_plugin) || ($RelPath !~ $EXRE_plugin);
137	if (($File !~ /\.so\./) && $NotPlugin && (! -l $FullPath)) {
138		onbld_elfmod::OutMsg($ErrFH, \$Ttl, $RelPath,
139		    "does not have a versioned name");
140	}
141
142	# If there are no versions in the file we're done.
143	if ($Verdef eq 'NOVERDEF') {
144	        # Report the lack of versioning, unless the object is
145	    	# a known plugin, or is explicitly exempt.
146		if ($NotPlugin &&
147		    (!defined($EXRE_noverdef) || ($RelPath !~ $EXRE_noverdef))) {
148			onbld_elfmod::OutMsg($ErrFH, \$Ttl, $RelPath,
149			    "no versions found");
150		}
151		return;
152	}
153
154	# Get a hash of the top versions in the inheritance chains.
155	%TopVer = ();
156	foreach my $Line (split(/\n/, `pvs -don $FullPath 2>&1`)) {
157		$Line =~ s/^.*-\s*(.*);/$1/;
158		$TopVer{$Line} = 1;
159	}
160
161	# Determine the name used for the base version. It should match the
162	# soname if the object has one, and the object basename otherwise.
163	#
164	# Note that elfedit writes an error to stderr if the object lacks an
165	# soname, so we direct stderr to /dev/null.
166	my $soname =
167	    `elfedit -r -osimple -e 'dyn:value dt_soname' $FullPath 2>/dev/null`;
168	if ($soname eq '') {
169		$soname = $File;
170	} else {
171		chomp $soname;
172	}
173
174	# First determine what versions exist that offer interfaces.  pvs -dos
175	# will list these.  Note that other versions may exist, ones that
176	# don't offer interfaces ... we'll get to those next.
177	%Vers = ();
178	$VersCnt = 0;
179	my %TopNumberedVers = ();
180	foreach my $Line (split(/\n/, `pvs -dos $FullPath 2>&1`)) {
181		my($Ver) = $Line;
182
183		$Ver =~ s/^.*-\t(.*): .*/$1/; 		# isolate version
184
185		# See if we've already caught this version name. We only look
186		# at each version once.
187		next if ($Vers{$Ver}) ;
188
189		# Note that the non-empty version has been seen
190		$Vers{$Ver} = 1;
191		$VersCnt++;
192
193		# Identify the version type
194		my @Cat = onbld_elfmod_vertype::Category($Ver, $soname);
195
196
197		# Numbered public versions have the form
198		#
199		#	<prefix>major.minor[.micro]
200		#
201		# with 2 or three numeric values. We expect these versions to
202		# use inheritance, so there should only be one top version for
203		# each major number. It is possible, though rare, to have more
204		# than one top version if the major numbers differ.
205		#
206		# %TopNumberedVers uses the prefix and major number as the
207		# key. Each key holds a reference to an array which contains
208		# the top versions with the same prefix and major number.
209		if ($Cat[0] eq 'NUMBERED') {
210			push @{$TopNumberedVers{"$Cat[2]$Cat[3]"}}, $Ver
211			    if $TopVer{$Ver};
212			next;
213		}
214
215		# If it is a non-standard version, and there's not an
216		# exception in place for it, report an error.
217		if ($Cat[0] eq 'UNKNOWN') {
218			if (!defined($EXRE_nonstd_vername) ||
219			    ($RelPath !~ $EXRE_nonstd_vername)) {
220				onbld_elfmod::OutMsg($ErrFH, \$Ttl, $RelPath,
221				   "non-standard version name: $Ver");
222			}
223			next;
224		}
225
226		# If we are here, it is one of PLAIN, PRIVATE, or SONAME,
227		# all of which we quietly accept.
228		next;
229	}
230
231	# If this file has been scoped, but not versioned (i.e., a mapfile was
232	# used to demote symbols but no version name was applied to the
233	# global interfaces) then it's another non-standard case.
234	if ($VersCnt eq 0) {
235		onbld_elfmod::OutMsg($ErrFH, \$Ttl, $RelPath,
236		    "scoped object contains no versions");
237		return;
238	}
239
240	# If this file has multiple inheritance chains starting with the
241	# same prefix and major number, that's wrong.
242	foreach my $Ver (sort keys %TopNumberedVers) {
243		if (scalar(@{$TopNumberedVers{$Ver}}) > 1) {
244			onbld_elfmod::OutMsg($ErrFH, \$Ttl, $RelPath,
245			    "multiple $Ver inheritance chains (missing " .
246			    "inheritance?): " .
247			    join(', ', @{$TopNumberedVers{$Ver}}));
248		}
249	}
250
251
252	# Produce an interface description for the object.
253	# For each version, generate a VERSION declaration of the form:
254	#
255	#	[TOP_]VERSION  version  direct-count  total-count
256	#		symname1
257	#		symname2
258	#		...
259	#
260	# We suppress base and private versions from this output.
261	# Everything else goes in, whether it's a version we recognize
262	# or not. If an object only has base or private versions, we do
263	# not produce an interface description for that object.
264	#
265	if ($opt{i}) {
266		my $header_done = 0;
267
268		# The use of 'pvs -v' is to identify the BASE version
269		foreach my $Line (split(/\n/, `pvs -dv $FullPath 2>&1`)) {
270			# Skip base version
271			next if ($Line =~ /\[BASE\]/);
272
273			# Directly inherited versions follow the version name
274			# in a comma separated list within {} brackets. Capture
275			# that information, for use with our VERSION line.
276			my $InheritVers = ($Line =~ /(\{.*\});$/) ? "\t$1" : '';
277
278			# Extract the version name
279			$Line =~ s/^\s*([^;: ]*).*/$1/;
280
281			# Skip version if it is in the SONAME or PRIVATE
282			# categories.
283			#
284			# The above test for BASE should have caught the
285			# SONAME already, but older versions of pvs have a
286			# bug that prevents them from printing [BASE] on
287			# the base version. In order to solidify things even
288			# more, we also exclude versions that end with
289			# a '.so.*' suffix.
290			my @Cat = onbld_elfmod_vertype::Category($Line, $soname);
291			if (($Cat[0] eq 'SONAME') ||
292			    ($Cat[0] eq 'PRIVATE') ||
293			    ($Line =~ /\.so\.\d+$/)) {
294			    next;
295			}
296
297			# We want to output the symbols in sorted order, so
298			# we gather them first, and then sort the results.
299			# An array would suffice, but we have observed objects
300			# with odd inheritance chains in which the same
301			# sub-version gets inherited more than once, leading
302			# to the same symbol showing up more than once. Using
303			# a hash instead of an array thins out the duplicates.
304			my %Syms = ();
305			my $symitem = $opt{I} ? 'NEW' : 'SYMBOL';
306			my $version_cnt = 0;
307			foreach my $Sym
308			    (split(/\n/, `pvs -ds -N $Line $FullPath 2>&1`)) {
309				if ($Sym =~ /:$/) {
310					$version_cnt++;
311					# If this is an inherited sub-version,
312					# we don't need to continue unless
313					# generating output in -I mode.
314					if ($version_cnt >= 2) {
315						last if !$opt{I};
316						$symitem = 'INHERIT';
317					}
318					next;
319				}
320				$Sym =~ s/[ \t]*(.*);$/$1/;
321				$Sym =~ s/ .*$//;	# remove any data size
322				$Syms{$Sym} = $symitem;
323			}
324
325			if (!$header_done) {
326				print INTFILE "\n" if !$opt{h} && ($ObjCnt != 0);
327				$ObjCnt++;
328				print INTFILE "OBJECT\t$RelPath\n";
329				print INTFILE "CLASS\tELFCLASS$Class\n";
330				print INTFILE "TYPE\tET_$Type\n";
331				print INTFILE $Alias if ($Alias ne '');
332				$header_done = 1;
333			}
334
335			my $item = $TopVer{$Line} ? 'TOP_VERSION' : 'VERSION';
336			print INTFILE "$item\t$Line$InheritVers\n";
337
338			# Output symbols in sorted order
339			foreach my $Sym (sort keys %Syms) {
340				print INTFILE "\t$Syms{$Sym}\t$Sym\n";
341			}
342		}
343	}
344}
345
346## ProcFindElf(file)
347#
348# Open the specified file, which must be produced by "find_elf -r",
349# and process the files it describes.
350sub ProcFindElf {
351	my $file = $_[0];
352	my $line;
353	my $LineNum = 0;
354	my $prefix;
355	my @ObjList = ();
356	my %ObjToAlias = ();
357
358	open(FIND_ELF, $file) || die "$Prog: Unable to open $file";
359
360	# This script requires relative paths, created by the 'find_elf -r'
361	# option. When this is done, the first non-comment line will always
362	# be PREFIX. Obtain that line, or issue a fatal error.
363	while ($line = onbld_elfmod::GetLine(\*FIND_ELF, \$LineNum)) {
364		if ($line =~ /^PREFIX\s+(.*)$/) {
365			$prefix = $1;
366			last;
367		}
368
369		die "$file: PREFIX expected on line $LineNum\n";
370	}
371
372
373	# Process the remainder of the file.
374	while ($line = onbld_elfmod::GetLine(\*FIND_ELF, \$LineNum)) {
375		if ($line =~ /^OBJECT\s/i) {
376			push @ObjList, $line;
377			next;
378		}
379
380		if ($line =~ /^ALIAS\s/i) {
381			my ($item, $obj, $alias) = split(/\s+/, $line, 3);
382			my $str = "ALIAS\t$alias\n";
383
384			if (defined($ObjToAlias{$obj})) {
385				$ObjToAlias{$obj} .= $str;
386			} else {
387				$ObjToAlias{$obj} = $str;
388			}
389		}
390	}
391
392	foreach $line (@ObjList) {
393		my ($item, $class, $type, $verdef, $obj) =
394		    split(/\s+/, $line, 5);
395
396		my $alias = defined($ObjToAlias{$obj}) ? $ObjToAlias{$obj} : '';
397
398		# We are only interested in sharable objects. We may see
399		# other file types if processing a list of objects
400		# supplied via the -f option.
401		next if ($type ne 'DYN');
402
403		ProcFile($prefix, $obj, $class, $type, $verdef, $alias);
404	}
405
406	close FIND_ELF;
407}
408
409
410# -----------------------------------------------------------------------------
411
412# Establish a program name for any error diagnostics.
413chomp($Prog = `basename $0`);
414
415# Check that we have arguments.
416@SaveArgv = @ARGV;
417if ((getopts('c:E:e:f:hIi:ow:', \%opt) == 0) || (!$opt{f} && ($#ARGV == -1))) {
418	print "usage: $Prog [-hIo] [-c vtype_mod] [-E errfile] [-e exfile]\n";
419	print "\t\t[-f listfile] [-i intffile] [-w outdir] file | dir, ...\n";
420	print "\n";
421	print "\t[-c vtype_mod]\tsupply alternative version category module\n";
422	print "\t[-E errfile]\tdirect error output to file\n";
423	print "\t[-e exfile]\texceptions file\n";
424	print "\t[-f listfile]\tuse file list produced by find_elf -r\n";
425	print "\t[-h]\t\tdo not produce a CDDL/Copyright header comment\n";
426	print "\t[-I]\t\tExpand inheritance in -i output (debugging)\n";
427	print "\t[-i intffile]\tcreate interface description output file\n";
428	print "\t[-o]\t\tproduce one-liner output (prefixed with pathname)\n";
429	print "\t[-w outdir]\tinterpret all files relative to given directory\n";
430	exit 1;
431}
432
433# We depend on the onbld_elfmod and onbld_elfmod_vertype perl modules.
434# Both modules are maintained in the same directory as this script,
435# and are installed in ../lib/perl. Use the local one if present,
436# and the installed one otherwise.
437#
438# The caller is allowed to supply an alternative implementation for
439# onbld_elfmod_vertype via the -c option. In this case, the alternative
440# implementation is expected to provide the same interface as the standard
441# copy, and is loaded instead.
442#
443my $moddir = my $vermoddir = dirname($0);
444$moddir = "$moddir/../lib/perl" if ! -f "$moddir/onbld_elfmod.pm";
445require "$moddir/onbld_elfmod.pm";
446if ($opt{c}) {
447	require "$opt{c}";
448} else {
449	$vermoddir = "$vermoddir/../lib/perl"
450	    if ! -f "$vermoddir/onbld_elfmod_vertype.pm";
451	require "$vermoddir/onbld_elfmod_vertype.pm";
452}
453
454# If -w, change working directory to given location
455!$opt{w} || chdir($opt{w}) || die "$Prog: can't cd to $opt{w}";
456
457
458# Error messages go to stdout unless -E is specified. $ErrFH is a
459# file handle reference that points at the file handle where error messages
460# are sent.
461if ($opt{E}) {
462	open(ERROR, ">$opt{E}") || die "$Prog: open failed: $opt{E}";
463	$ErrFH = \*ERROR;
464} else {
465	$ErrFH = \*STDOUT;
466}
467
468# Locate and process the exceptions file
469onbld_elfmod::LoadExceptionsToEXRE('interface_check');
470
471# If creating an interface description output file, prepare it for use
472if ($opt{i}) {
473	open (INTFILE, ">$opt{i}") ||
474	    die "$Prog: Unable to create file: $opt{i}";
475
476	# Generate the output header
477	onbld_elfmod::Header(\*INTFILE, $0, \@SaveArgv) if !$opt{h};;
478}
479
480# Number of OBJECTs output to INTFILE
481$ObjCnt = 0;
482
483# If we were passed a file previously produced by 'find_elf -r', use it.
484ProcFindElf($opt{f}) if $opt{f};
485
486# Process each argument: Run find_elf to find the files given by
487# $Arg. If the argument is a regular file (not a directory) then disable
488# find_elf's alias checking so that the file is processed whether or not
489# it is a symlink.
490foreach my $Arg (@ARGV) {
491	my $flag_a = (-d $Arg) ? '' : '-a';
492	ProcFindElf("find_elf -frs $flag_a $Arg|");
493}
494
495# Close any working output files.
496close INTFILE if $opt{i};
497close ERROR if $opt{E};
498
499exit 0;
500