#!/usr/perl5/bin/perl -w # # CDDL HEADER START # # The contents of this file are subject to the terms of the # Common Development and Distribution License (the "License"). # You may not use this file except in compliance with the License. # # You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE # or http://www.opensolaris.org/os/licensing. # See the License for the specific language governing permissions # and limitations under the License. # # When distributing Covered Code, include this CDDL HEADER in each # file and include the License file at usr/src/OPENSOLARIS.LICENSE. # If applicable, add the following below this CDDL HEADER, with the # fields enclosed by brackets "[]" replaced with your own identifying # information: Portions Copyright [yyyy] [name of copyright owner] # # CDDL HEADER END # # # Copyright 2009 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # # # # Check ELF information. # # This script descends a directory hierarchy inspecting ELF dynamic executables # and shared objects. The general theme is to verify that common Makefile rules # have been used to build these objects. Typical failures occur when Makefile # rules are re-invented rather than being inherited from "cmd/lib" Makefiles. # # As always, a number of components don't follow the rules, and these are # excluded to reduce this scripts output. Pathnames used for this exclusion # assume this script is being run over a "proto" area. The -a (all) option # skips any exclusions. # # By default any file that has conditions that should be reported is first # listed and then each condition follows. The -o (one-line) option produces a # more terse output which is better for sorting/diffing with "nightly". # # NOTE: missing dependencies, symbols or versions are reported by running the # file through ldd(1). As objects within a proto area are built to exist in a # base system, standard use of ldd(1) will bind any objects to dependencies # that exist in the base system. It is frequently the case that newer objects # exist in the proto area that are required to satisfy other objects # dependencies, and without using these newer objects an ldd(1) will produce # misleading error messages. To compensate for this, the -d option (or the # existence of the CODEMSG_WS/ROOT environment variables) cause the creation of # alternative dependency mappings via crle(1) configuration files that establish # any proto shared objects as alternatives to their base system location. Thus # ldd(1) can be executed against these configuration files so that objects in a # proto area bind to their dependencies in the same proto area. # Define all global variables (required for strict) use vars qw($SkipDirs $SkipFiles $SkipTextrelFiles $SkipDirectBindFiles); use vars qw($SkipUndefFiles $SkipUnusedDirs); use vars qw($SkipStabFiles $SkipNoExStkFiles $SkipCrleConf); use vars qw($SkipUnusedSearchPath $SkipUnrefObject); use vars qw($Prog $Mach $Isalist $Env $Ena64 $Tmpdir $Error $Gnuc); use vars qw($UnusedPaths $LddNoU $Crle32 $Crle64 $Conf32 $Conf64); use vars qw($SkipDirectBindDirs $SkipInterps $SkipSymSort $OldDeps %opt); use strict; # Define any directories we should skip completely. $SkipDirs = qr{ usr/lib/devfsadm | # 4382889 usr/lib/libc | # optimized libc usr/lib/rcm | # 4426119 usr/perl5 | # alan's taking care of these :-) usr/src # no need to look at shipped source }x; # Define any files we should skip completely. $SkipFiles = qr{ ^(?: lddstub | # lddstub has no dependencies geniconvtbl\.so | # 4384329 libssagent\.so\.1 | # 4328854 libpsvcplugin_psr\.so\.1 | # 4385799 libpsvcpolicy_psr\.so\.1 | # " " libpsvcpolicy\.so\.1 | # " " picl_slm\.so | # " " mod_ipp\.so | # Apache loadable module fptest | # USIII specific extns. cause ldd noise on USII bld. m/c grub )$ }x; # Define any files that are allowed text relocations. $SkipTextrelFiles = qr{ ^(?: unix | # kernel models are non-pic mdb # relocations against __RTC (dbx) )$ }x; # Define any directories or files that are allowed to have no direct bound # symbols $SkipDirectBindDirs = qr{ usr/ucb }x; $SkipDirectBindFiles = qr{ ^(?: unix | sbcp | libproc.so.1 | libnisdb.so.2 )$ }x; # Define any files that are allowed undefined references. $SkipUndefFiles = qr{ ^(?: libsvm\.so\.1 | # libspmicommon.so.1 lacking libnisdb\.so\.2 # C++ )$ }x; # Define any files that have unused dependencies. $SkipUnusedDirs = qr{ lib/picl/plugins/ | # require devtree dependencies /lib/libp # profile libc makes libm an unused }x; # dependency of standard libc # Define any files that should contain debugging information. $SkipStabFiles = qr{ ^(?: unix )$ }x; # Define any files that don't require a non-executable stack definition. $SkipNoExStkFiles = qr{ ^(?: forth | unix | multiboot )$ }x; # Identify any files that should be skipped when building a crle(1) # configuration file. As the hwcap libraries can be loop-back mounted onto # libc, these can confuse crle(1) because of their identical dev/inode. $SkipCrleConf = qr{ lib/libc/libc_hwcap }x; # Skip "unused search path=" ldd(1) diagnostics. $SkipUnusedSearchPath = qr{ /usr/lib/fs/autofs.*\ from\ .automountd | # dlopen() /etc/ppp/plugins.*\ from\ .*pppd | # dlopen() /usr/lib/inet/ppp.*\ from\ .*pppd | # dlopen() /usr/sfw/lib.*\ from\ .*libipsecutil.so.1 | # dlopen() /usr/platform/.*rsmlib.*\ from\ .*librsm.so.2 | # dlopen() \$ORIGIN.*\ from\ .*fcode.so | # dlopen() /opt/VRTSvxvm/lib.*\ from\ .*libdiskmgt\.so\.1 | # dlopen() /usr/platform/.*\ from\ .*/usr/platform | # picl /usr/lib/picl/.*\ from\ .*/usr/platform | # picl /usr/platform/.*\ from\ .*/usr/lib/picl | # picl /usr/lib/smbsrv.*\ from\ .*libsmb\.so\.1 | # future needs /usr/lib/mps/secv1.*\ from\ .*libnss3\.so | # non-OSNet /usr/lib/mps.*\ from\ .*libnss3\.so | # non-OSNet /usr/sfw/lib.*\ from\ .*libdbus-1\.so\.3 | # non-OSNet /usr/sfw/lib.*\ from\ .*libdbus-glib-1\.so\.2 | # non-OSNet /usr/sfw/lib.*\ from\ .*libglib-2\.0\.so\.0 | # non-OSNet /usr/X11/lib.*\ from\ .*libglib-2\.0\.so\.0 | # non-OSNet /usr/sfw/lib.*\ from\ .*libgobject-2\.0\.so\.0 | # non-OSNet /usr/X11/lib.*\ from\ .*libgobject-2\.0\.so\.0 | # non-OSNet /usr/sfw/lib.*\ from\ .*libcrypto\.so\.0\.9\.8 | # non-OSNet /usr/sfw/lib.*\ from\ .*libnetsnmp\.so\.5 | # non-OSNet /usr/sfw/lib.*\ from\ .*libgcc_s\.so\.1 | # non-OSNet /usr.*\ from\ .*tst\.gcc\.exe | # gcc built /usr/postgres/8.3/lib.*\ from\ .*libpq\.so\.5 # non-OSNET }x; # Skip "unreferenced object=" ldd(1) diagnostics. $SkipUnrefObject = qr{ /libmapmalloc\.so\.1;\ unused\ dependency\ of | # interposer /libstdc\+\+\.so\.6;\ unused\ dependency\ of | # gcc build /libm\.so\.2.*\ of\ .*libstdc\+\+\.so\.6 | # gcc build /lib.*\ of\ .*/lib/picl/plugins/ | # picl /lib.*\ of\ .*libcimapi\.so | # non-OSNET /lib.*\ of\ .*libjvm\.so | # non-OSNET /lib.*\ of\ .*libnetsnmp\.so\.5 | # non-OSNET /lib.*\ of\ .*libnetsnmpagent\.so\.5 | # non-OSNET /lib.*\ of\ .*libnetsnmpmibs\.so\.5 | # non-OSNET /lib.*\ of\ .*libnetsnmphelpers\.so\.5 | # non-OSNET /lib.*\ of\ .*libnspr4\.so | # non-OSNET /lib.*\ of\ .*libsoftokn3\.so | # non-OSNET /lib.*\ of\ .*libspmicommon\.so\.1 | # non-OSNET /lib.*\ of\ .*libspmocommon\.so\.1 | # non-OSNET /lib.*\ of\ .*libssl3\.so | # non-OSNET /lib.*\ of\ .*libxml2\.so\.2 | # non-OSNET /lib.*\ of\ .*libxslt\.so\.1 | # non-OSNET /lib.*\ of\ .*libpq\.so\.4 # non-OSNET }x; # Define any files that should only have unused (ldd -u) processing. $UnusedPaths = qr{ ucb/shutdown # libucb interposes on libc and makes # dependencies on libc seem unnecessary }x; # Define interpreters we should ignore. $SkipInterps = qr{ misc/krtld | misc/amd64/krtld | misc/sparcv9/krtld }x; # Catch libintl and libw, although ld(1) will bind to these and thus determine # they're needed, their content was moved into libc as of on297 build 7. # libthread and libpthread were completely moved into libc as of on10 build 53. # libdl was moved into libc as of on10 build 49. librt and libaio were moved # into libc as of Nevada build 44. $OldDeps = qr{ ^(?: libintl\.so\.1 | libw\.so\.1 | libthread\.so\.1 | libpthread\.so\.1 | libdl\.so\.1 | librt\.so\.1 | libaio\.so\.1 )$ }x; # Files for which we skip checking of duplicate addresses in the # symbol sort sections. Such exceptions should be rare --- most code will # not have duplicate addresses, since it takes assember or a "#pragma weak" # to do such aliasing in C. C++ is different: The compiler generates aliases # for implementation reasons, and the mangled names used to encode argument # and return value types are difficult to handle well in mapfiles. # Furthermore, the Sun compiler and gcc use different and incompatible # name mangling conventions. Since ON must be buildable by either, we # would have to maintain two sets of mapfiles for each such object. # C++ use is rare in ON, so this is not worth pursuing. # $SkipSymSort = qr{ ^.*(?: opt/SUNWdtrt/tst/common/pid/tst.weak2.exe | # DTrace test lib/amd64/libnsl\.so\.1 | # C++ lib/sparcv9/libnsl\.so\.1 | # C++ lib/sparcv9/libfru\.so\.1 | # C++ usr/lib/sgml/nsgmls | # C++ ld\.so\.1 | # libc_pic.a user lib/libsun_fc\.so\.1 | # C++ lib/amd64/libsun_fc\.so\.1 | # C++ lib/sparcv9/libsun_fc\.so\.1 # C++ )$ }x; use Getopt::Std; # ----------------------------------------------------------------------------- # Reliably compare two OS revisions. Arguments are . # is the string form of a normal numeric comparison operator. sub cmp_os_ver { my @ver1 = split(/\./, $_[0]); my $op = $_[1]; my @ver2 = split(/\./, $_[2]); push @ver2, ("0") x $#ver1 - $#ver2; push @ver1, ("0") x $#ver2 - $#ver1; my $diff = 0; while (@ver1 || @ver2) { if (($diff = shift(@ver1) - shift(@ver2)) != 0) { last; } } return (eval "$diff $op 0" ? 1 : 0); } # This script relies on ldd returning output reflecting only the binary # contents. But if LD_PRELOAD* environment variables are present, libraries # named by them will also appear in the output, disrupting our analysis. # So, before we get too far, scrub the environment. delete($ENV{LD_PRELOAD}); delete($ENV{LD_PRELOAD_32}); delete($ENV{LD_PRELOAD_64}); # Establish a program name for any error diagnostics. chomp($Prog = `basename $0`); # Determine what machinery is available. $Mach = `uname -p`; $Isalist = `isalist`; $Env = ""; if ($Mach =~ /sparc/) { if ($Isalist =~ /sparcv9/) { $Ena64 = "ok"; } } elsif ($Mach =~ /i386/) { if ($Isalist =~ /amd64/) { $Ena64 = "ok"; } } # Check that we have arguments. if ((getopts('ad:imos', \%opt) == 0) || ($#ARGV == -1)) { print "usage: $Prog [-a] [-d depdir] [-m] [-o] [-s] file | dir, ...\n"; print "\t[-a]\t\tprocess all files (ignore any exception lists)\n"; print "\t[-d dir]\testablish dependencies from under directory\n"; print "\t[-i]\t\tproduce dynamic table entry information\n"; print "\t[-m]\t\tprocess mcs(1) comments\n"; print "\t[-o]\t\tproduce one-liner output (prefixed with pathname)\n"; print "\t[-s]\t\tprocess .stab and .symtab entries\n"; exit 1; } else { my($Proto); if ($opt{d}) { # User specified dependency directory - make sure it exists. if (! -d $opt{d}) { print "$Prog: $opt{d} is not a directory\n"; exit 1; } $Proto = $opt{d}; } elsif ($ENV{CODEMGR_WS}) { my($Root); # Without a user specified dependency directory see if we're # part of a codemanager workspace and if a proto area exists. if (($Root = $ENV{ROOT}) && (-d $Root)) { $Proto = $Root; } } if (!($Tmpdir = $ENV{TMPDIR}) || (! -d $Tmpdir)) { $Tmpdir = "/tmp"; } # Determine whether this is a __GNUC build. If so, unused search path # processing is disabled. if (defined $ENV{__GNUC}) { $Gnuc = 1; } else { $Gnuc = 0; } # Look for dependencies under $Proto. if ($Proto) { # To support alternative dependency mapping we'll need ldd(1)'s # -e option. This is relatively new (s81_30), so make sure # ldd(1) is capable before gathering any dependency information. if (system('ldd -e /usr/lib/lddstub 2> /dev/null')) { print "ldd: does not support -e, unable to "; print "create alternative dependency mappingings.\n"; print "ldd: option added under 4390308 (s81_30).\n\n"; } else { # Gather dependencies and construct a alternative # dependency mapping via a crle(1) configuration file. GetDeps($Proto, "/"); GenConf(); } } # To support unreferenced dependency detection we'll need ldd(1)'s -U # option. This is relatively new (4638070), and if not available we # can still fall back to -u. Even with this option, don't use -U with # releases prior to 5.10 as the cleanup for -U use only got integrated # into 5.10 under 4642023. Note, that nightly doesn't typically set a # RELEASE from the standard files. Users who wish to disable use # of ldd(1)'s -U should set (or uncomment) RELEASE in their file # if using nightly, or otherwise establish it in their environment. if (system('ldd -U /usr/lib/lddstub 2> /dev/null')) { $LddNoU = 1; } else { my($Release); if (($Release = $ENV{RELEASE}) && (cmp_os_ver($Release, "<", "5.10"))) { $LddNoU = 1; } else { $LddNoU = 0; } } # For each argument determine if we're dealing with a file or directory. foreach my $Arg (@ARGV) { # Ignore symbolic links. if (-l $Arg) { next; } if (!stat($Arg)) { next; } # Process simple files. if (-f _) { my($RelPath) = $Arg; my($File) = $Arg; my($Secure) = 0; $RelPath =~ s!^.*/!./!; $File =~ s!^.*/!!; if (-u _ || -g _) { $Secure = 1; } ProcFile($Arg, $RelPath, $File, $Secure); next; } # Process directories. if (-d _) { ProcDir($Arg, "."); next; } print "$Arg is not a file or directory\n"; $Error = 1; } # Cleanup CleanUp(); } $Error = 0; # Clean up any temporary files. sub CleanUp { if ($Crle64) { unlink $Crle64; } if ($Conf64) { unlink $Conf64; } if ($Crle32) { unlink $Crle32; } if ($Conf32) { unlink $Conf32; } } # Create an output message, either a one-liner (under -o) or preceded by the # files relative pathname as a title. sub OutMsg { my($Ttl, $Path, $Msg) = @_; if ($opt{o}) { $Msg =~ s/^[ \t]*//; print "$Path: $Msg\n"; } else { if ($Ttl eq 0) { print "==== $Path ====\n"; } print "$Msg\n"; } } # Determine whether this a ELF dynamic object and if so investigate its runtime # attributes. sub ProcFile { my($FullPath, $RelPath, $File, $Secure) = @_; my(@Elf, @Ldd, $Dyn, $Intp, $Dll, $Ttl, $Sym, $Interp, $Stack); my($Sun, $Relsz, $Pltsz, $Tex, $Stab, $Strip, $Lddopt, $SymSort); my($Val, $Header, $SkipLdd, $IsX86, $RWX, $UnDep); my($HasDirectBinding); # Ignore symbolic links. if (-l $FullPath) { return; } $Ttl = 0; @Ldd = 0; # Determine whether we have access to inspect the file. if (!(-r $FullPath)) { OutMsg($Ttl++, $RelPath, "\tunable to inspect file: permission denied"); return; } # Determine if this is a file we don't care about. if (!$opt{a}) { if ($File =~ $SkipFiles) { return; } } # Determine whether we have a executable (static or dynamic) or a # shared object. @Elf = split(/\n/, `elfdump -epdicy $FullPath 2>&1`); $Dyn = $Intp = $Dll = $Stack = $IsX86 = $RWX = 0; $Interp = 1; $Header = 'None'; foreach my $Line (@Elf) { # If we have an invalid file type (which we can tell from the # first line), or we're processing an archive, bail. if ($Header eq 'None') { if (($Line =~ /invalid file/) || ($Line =~ /$FullPath(.*):/)) { return; } } if ($Line =~ /^ELF Header/) { $Header = 'Ehdr'; } elsif ($Line =~ /^Program Header/) { $Header = 'Phdr'; $RWX = 0; } elsif ($Line =~ /^Interpreter/) { $Header = 'Intp'; } elsif ($Line =~ /^Dynamic Section/) { # A dynamic section indicates we're a dynamic object # (this makes sure we don't check static executables). $Dyn = 1; } elsif (($Header eq 'Ehdr') && ($Line =~ /e_type:/)) { # The e_type field indicates whether this file is a # shared object (ET_DYN) or an executable (ET_EXEC). if ($Line =~ /ET_DYN/) { $Dll = 1; } elsif ($Line !~ /ET_EXEC/) { return; } } elsif (($Header eq 'Ehdr') && ($Line =~ /ei_class:/)) { # If we encounter a 64-bit object, but we're not running # on a 64-bit system, suppress calling ldd(1). if (($Line =~ /ELFCLASS64/) && !$Ena64) { $SkipLdd = 1; } } elsif (($Header eq 'Ehdr') && ($Line =~ /e_machine:/)) { # If it's a X86 object, we need to enforce RW- data. if (($Line =~ /(EM_AMD64|EM_386)/)) { $IsX86 = 1; } } elsif (($Header eq 'Phdr') && ($Line =~ /\[ PF_X PF_W PF_R \]/)) { # RWX segment seen. $RWX = 1; } elsif (($Header eq 'Phdr') && ($Line =~ /\[ PT_LOAD \]/ && $RWX && $IsX86)) { # Seen an RWX PT_LOAD segment. if ($File !~ $SkipNoExStkFiles) { OutMsg($Ttl++, $RelPath, "\tapplication requires non-executable " . "data\t"); } } elsif (($Header eq 'Phdr') && ($Line =~ /\[ PT_SUNWSTACK \]/)) { # This object defines a non-executable stack. $Stack = 1; } elsif (($Header eq 'Intp') && !$opt{a} && ($Line =~ $SkipInterps)) { # This object defines an interpretor we should skip. $Interp = 0; } } # Determine whether this ELF executable or shared object has a # conforming mcs(1) comment section. If the correct $(POST_PROCESS) # macros are used, only a 3 or 4 line .comment section should exist # containing one or two "@(#)SunOS" identifying comments (one comment # for a non-debug build, and two for a debug build). The results of # the following split should be three or four lines, the last empty # line being discarded by the split. if ($opt{m}) { my(@Mcs, $Con, $Dev); @Mcs = split(/\n/, `mcs -p $FullPath 2>&1`); $Con = $Dev = $Val = 0; foreach my $Line (@Mcs) { $Val++; if (($Val == 3) && ($Line !~ /^@\(#\)SunOS/)) { $Con = 1; last; } if (($Val == 4) && ($Line =~ /^@\(#\)SunOS/)) { $Dev = 1; next; } if (($Dev == 0) && ($Val == 4)) { $Con = 1; last; } if (($Dev == 1) && ($Val == 5)) { $Con = 1; last; } } if ($opt{m} && ($Con == 1)) { OutMsg($Ttl++, $RelPath, "\tnon-conforming mcs(1) comment\t"); } } # Applications should contain a non-executable stack definition. if (($Dll == 0) && ($Stack == 0)) { if (!$opt{a}) { if ($File =~ $SkipNoExStkFiles) { goto DYN; } } OutMsg($Ttl++, $RelPath, "\tapplication requires non-executable stack\t"); } DYN: # Having caught any static executables in the mcs(1) check and non- # executable stack definition check, continue with dynamic objects # from now on. if ($Dyn eq 0) { return; } # Only use ldd unless we've encountered an interpreter that should # be skipped. if (!$SkipLdd && $Interp) { my $LDDFullPath = $FullPath; if ($Secure) { # The execution of a secure application over an nfs file # system mounted nosuid will result in warning messages # being sent to /var/adm/messages. As this type of # environment can occur with root builds, move the file # being investigated to a safe place first. In addition # remove its secure permission so that it can be # influenced by any alternative dependency mappings. my($TmpPath) = "$Tmpdir/$File"; system('cp', $LDDFullPath, $TmpPath); chmod 0777, $TmpPath; $LDDFullPath = $TmpPath; } # Use ldd(1) to determine the objects relocatability and use. # By default look for all unreferenced dependencies. However, # some objects have legitimate dependencies that they do not # reference. if ($LddNoU || ($RelPath =~ $UnusedPaths)) { $Lddopt = "-ru"; } else { $Lddopt = "-rU"; } @Ldd = split(/\n/, `ldd $Lddopt $Env $LDDFullPath 2>&1`); if ($Secure) { unlink $LDDFullPath; } } $Val = 0; $Sym = 5; $UnDep = 1; foreach my $Line (@Ldd) { if ($Val == 0) { $Val = 1; # Make sure ldd(1) worked. One possible failure is that # this is an old ldd(1) prior to -e addition (4390308). if ($Line =~ /usage:/) { $Line =~ s/$/\t/; OutMsg($Ttl++, $RelPath, $Line); last; } elsif ($Line =~ /execution failed/) { OutMsg($Ttl++, $RelPath, $Line); last; } # It's possible this binary can't be executed, ie. we've # found a sparc binary while running on an intel system, # or a sparcv9 binary on a sparcv7/8 system. if ($Line =~ /wrong class/) { OutMsg($Ttl++, $RelPath, "\thas wrong class or data encoding"); next; } # Historically, ldd(1) likes executable objects to have # their execute bit set. Note that this test isn't # applied unless the -a option is in effect, as any # non-executable files are skipped by default to reduce # the cost of running this script. if ($Line =~ /not executable/) { OutMsg($Ttl++, $RelPath, "\tis not executable"); next; } } # Look for "file" or "versions" that aren't found. Note that # these lines will occur before we find any symbol referencing # errors. if (($Sym == 5) && ($Line =~ /not found\)/)) { if ($Line =~ /file not found\)/) { $Line =~ s/$/\t/; } OutMsg($Ttl++, $RelPath, $Line); next; } # Look for relocations whose symbols can't be found. Note, we # only print out the first 5 relocations for any file as this # output can be excessive. if ($Sym && ($Line =~ /symbol not found/)) { # Determine if this file is allowed undefined # references. if ($Sym == 5) { if (!$opt{a}) { if ($File =~ $SkipUndefFiles) { $Sym = 0; next; } } } if ($Sym-- == 1) { if (!$opt{o}) { OutMsg($Ttl++, $RelPath, "\tcontinued ..."); } next; } # Just print the symbol name. $Line =~ s/$/\t/; OutMsg($Ttl++, $RelPath, $Line); next; } # Look for any unused search paths. if ($Line =~ /unused search path=/) { # Note, skip this comparison for __GNUC builds, as the # gnu compilers insert numerous unused search paths. if ($Gnuc == 1) { next; } if (!$opt{a}) { if ($Line =~ $SkipUnusedSearchPath) { next; } } if ($Secure) { $Line =~ s!$Tmpdir/!!; } $Line =~ s/^[ \t]*(.*)/\t$1\t/; OutMsg($Ttl++, $RelPath, $Line); next; } # Look for unreferenced dependencies. Note, if any unreferenced # objects are ignored, then set $UnDep so as to suppress any # associated unused-object messages. if ($Line =~ /unreferenced object=/) { if (!$opt{a}) { if ($Line =~ $SkipUnrefObject) { $UnDep = 0; next; } } if ($Secure) { $Line =~ s!$Tmpdir/!!; } $Line =~ s/^[ \t]*(.*)/\t$1\t/; OutMsg($Ttl++, $RelPath, $Line); next; } # Look for any unused dependencies. if ($UnDep && ($Line =~ /unused/)) { if (!$opt{a}) { if ($RelPath =~ $SkipUnusedDirs) { $UnDep = 0; next; } } if ($Secure) { $Line =~ s!$Tmpdir/!!; } $Line =~ s/^[ \t]*(.*)/\t$1\t/; OutMsg($Ttl++, $RelPath, $Line); next; } } # Reuse the elfdump(1) data to investigate additional dynamic linking # information. $Sun = $Relsz = $Pltsz = $Dyn = $Stab = $SymSort = 0; $Tex = $Strip = 1; $HasDirectBinding = 0; $Header = 'None'; ELF: foreach my $Line (@Elf) { # We're only interested in the section headers and the dynamic # section. if ($Line =~ /^Section Header/) { $Header = 'Shdr'; if (($Sun == 0) && ($Line =~ /\.SUNW_reloc/)) { # This object has a combined relocation section. $Sun = 1; } elsif (($Stab == 0) && ($Line =~ /\.stab/)) { # This object contain .stabs sections $Stab = 1; } elsif (($SymSort == 0) && ($Line =~ /\.SUNW_dyn(sym)|(tls)sort/)) { # This object contains a symbol sort section $SymSort = 1; } if (($Strip == 1) && ($Line =~ /\.symtab/)) { # This object contains a complete symbol table. $Strip = 0; } next; } elsif ($Line =~ /^Dynamic Section/) { $Header = 'Dyn'; next; } elsif ($Line =~ /^Syminfo Section/) { $Header = 'Syminfo'; next; } elsif (($Header ne 'Dyn') && ($Header ne 'Syminfo')) { next; } # Look into the Syminfo section. # Does this object have at least one Directly Bound symbol? if (($Header eq 'Syminfo')) { my(@Symword); if ($HasDirectBinding == 1) { next; } @Symword = split(' ', $Line); if (!defined($Symword[1])) { next; } if ($Symword[1] =~ /B/) { $HasDirectBinding = 1; } next; } # Does this object contain text relocations. if ($Tex && ($Line =~ /TEXTREL/)) { # Determine if this file is allowed text relocations. if (!$opt{a}) { if ($File =~ $SkipTextrelFiles) { $Tex = 0; next ELF; } } OutMsg($Ttl++, $RelPath, "\tTEXTREL .dynamic tag\t\t\t"); $Tex = 0; next; } # Does this file have any relocation sections (there are a few # psr libraries with no relocations at all, thus a .SUNW_reloc # section won't exist either). if (($Relsz == 0) && ($Line =~ / RELA?SZ/)) { $Relsz = hex((split(' ', $Line))[2]); next; } # Does this file have any plt relocations. If the plt size is # equivalent to the total relocation size then we don't have # any relocations suitable for combining into a .SUNW_reloc # section. if (($Pltsz == 0) && ($Line =~ / PLTRELSZ/)) { $Pltsz = hex((split(' ', $Line))[2]); next; } # Does this object have any dependencies. if ($Line =~ /NEEDED/) { my($Need) = (split(' ', $Line))[3]; if ($Need =~ $OldDeps) { # Catch any old (unnecessary) dependencies. OutMsg($Ttl++, $RelPath, "\tNEEDED=$Need\t"); } elsif ($opt{i}) { # Under the -i (information) option print out # any useful dynamic entries. OutMsg($Ttl++, $RelPath, "\tNEEDED=$Need"); } next; } # Is this object built with -B direct flag on? if ($Line =~ / DIRECT /) { $HasDirectBinding = 1; } # Does this object specify a runpath. if ($opt{i} && ($Line =~ /RPATH/)) { my($Rpath) = (split(' ', $Line))[3]; OutMsg($Ttl++, $RelPath, "\tRPATH=$Rpath"); next; } } # A shared object, that contains non-plt relocations, should have a # combined relocation section indicating it was built with -z combreloc. if ($Dll && $Relsz && ($Relsz != $Pltsz) && ($Sun == 0)) { OutMsg($Ttl++, $RelPath, "\tSUNW_reloc section missing\t\t"); } # No objects released to a customer should have any .stabs sections # remaining, they should be stripped. if ($opt{s} && $Stab) { if (!$opt{a}) { if ($File =~ $SkipStabFiles) { goto DONESTAB; } } OutMsg($Ttl++, $RelPath, "\tdebugging sections should be deleted\t"); } # Identify an object that is not built with either -B direct or # -z direct. if (($RelPath =~ $SkipDirectBindDirs) || ($File =~ $SkipDirectBindFiles)) { goto DONESTAB; } if ($Relsz && ($HasDirectBinding == 0)) { OutMsg($Ttl++, $RelPath, "\tobject has no direct bindings\t"); } DONESTAB: # All objects should have a full symbol table to provide complete # debugging stack traces. if ($Strip) { OutMsg($Ttl++, $RelPath, "\tsymbol table should not be stripped\t"); } # If there are symbol sort sections in this object, report on # any that have duplicate addresses. ProcSymSort($FullPath, $RelPath, \$Ttl) if $SymSort; } ## ProcSymSortOutMsg(RefTtl, RelPath, secname, addr, names...) # # Call OutMsg for a duplicate address error in a symbol sort # section # sub ProcSymSortOutMsg { my($RefTtl, $RelPath, $secname, $addr, @names) = @_; OutMsg($$RefTtl++, $RelPath, "$secname: duplicate $addr: ". join(', ', @names)); } ## ProcSymSort(FullPath, RelPath) # # Examine the symbol sort sections for the given object and report # on any duplicate addresses found. Ideally, mapfile directives # should be used when building objects that have multiple symbols # with the same address so that only one of them appears in the sort # section. This saves space, reduces user confusion, and ensures that # libproc and debuggers always display public names instead of symbols # that are merely implementation details. # sub ProcSymSort { my($FullPath, $RelPath, $RefTtl) = @_; # If this object is exempt from checking, return quietly return if ($FullPath =~ $SkipSymSort); open(SORT, "elfdump -S $FullPath|") || die "$Prog: Unable to execute elfdump (symbol sort sections)\n"; my $line; my $last_addr; my @dups = (); my $secname; while ($line = ) { chomp $line; next if ($line eq ''); # If this is a header line, pick up the section name if ($line =~ /^Symbol Sort Section:\s+([^\s]+)\s+/) { $secname = $1; # Every new section is followed by a column header line $line = ; # Toss header line # Flush anything left from previous section ProcSymSortOutMsg($RefTtl, $RelPath, $secname, $last_addr, @dups) if (scalar(@dups) > 1); # Reset variables for new sort section $last_addr = ''; @dups = (); next; } # Process symbol line my @fields = split /\s+/, $line; my $new_addr = $fields[2]; my $new_type = $fields[8]; my $new_name = $fields[9]; if ($new_type eq 'UNDEF') { OutMsg($RefTtl++, $RelPath, "$secname: unexpected UNDEF symbol " . "(link-editor error): $new_name"); next; } if ($new_addr eq $last_addr) { push @dups, $new_name; } else { ProcSymSortOutMsg($RefTtl, $RelPath, $secname, $last_addr, @dups) if (scalar(@dups) > 1); @dups = ( $new_name ); $last_addr = $new_addr; } } ProcSymSortOutMsg($RefTtl, $RelPath, $secname, $last_addr, @dups) if (scalar(@dups) > 1); close SORT; } sub ProcDir { my($FullDir, $RelDir) = @_; my($NewFull, $NewRel); # Determine if this is a directory we don't care about. if (!$opt{a}) { if ($RelDir =~ $SkipDirs) { return; } } # Open the directory and read each entry, omit files starting with "." if (opendir(DIR, $FullDir)) { foreach my $Entry (readdir(DIR)) { if ($Entry =~ /^\./) { next; } $NewFull = "$FullDir/$Entry"; # Ignore symlinks. if (-l $NewFull) { next; } if (!stat($NewFull)) { next; } $NewRel = "$RelDir/$Entry"; # Descend into and process any directories. if (-d _) { ProcDir($NewFull, $NewRel); next; } # Typically dynamic objects are executable, so we can # reduce the overall cost of this script (a lot!) by # screening out non-executables here, rather than pass # them to file(1) later. However, it has been known # for shared objects to be mistakenly left non- # executable, so with -a let all files through so that # this requirement can be verified (see ProcFile()). if (!$opt{a}) { if (! -x _) { next; } } # Process any standard files. if (-f _) { my($Secure) = 0; if (-u _ || -g _) { $Secure = 1; } ProcFile($NewFull, $NewRel, $Entry, $Secure); next; } } closedir(DIR); } } # Create a crle(1) script for any 64-bit dependencies we locate. A runtime # configuration file will be generated to establish alternative dependency # mappings for all these dependencies. sub Entercrle64 { my($FullDir, $RelDir, $Entry) = @_; if (!$Crle64) { # Create and initialize the script if is doesn't already exit. $Crle64 = "$Tmpdir/$Prog.crle64.$$"; open(CRLE64, "> $Crle64") || die "$Prog: open failed: $Crle64: $!"; print CRLE64 "#!/bin/sh\ncrle -64\\\n"; } print CRLE64 "\t-o $FullDir -a $RelDir/$Entry \\\n"; } # Create a crle(1) script for any 32-bit dependencies we locate. A runtime # configuration file will be generated to establish alternative dependency # mappings for all these dependencies. sub Entercrle32 { my($FullDir, $RelDir, $Entry) = @_; if (!$Crle32) { # Create and initialize the script if is doesn't already exit. $Crle32 = "$Tmpdir/$Prog.crle32.$$"; open(CRLE32, "> $Crle32") || die "$Prog: open failed: $Crle32: $!"; print CRLE32 "#!/bin/sh\ncrle \\\n"; } print CRLE32 "\t-o $FullDir -a $RelDir/$Entry \\\n"; } # Having finished gathering dependencies, complete any crle(1) scripts and # execute them to generate the associated runtime configuration files. In # addition establish the environment variable required to pass the configuration # files to ldd(1). sub GenConf { if ($Crle64) { $Conf64 = "$Tmpdir/$Prog.conf64.$$"; print CRLE64 "\t-c $Conf64\n"; chmod 0755, $Crle64; close CRLE64; if (system($Crle64)) { undef $Conf64; } } if ($Crle32) { $Conf32 = "$Tmpdir/$Prog.conf32.$$"; print CRLE32 "\t-c $Conf32\n"; chmod 0755, $Crle32; close CRLE32; if (system($Crle32)) { undef $Conf32; } } if ($Crle64 && $Conf64 && $Crle32 && $Conf32) { $Env = "-e LD_FLAGS=config_64=$Conf64,config_32=$Conf32"; } elsif ($Crle64 && $Conf64) { $Env = "-e LD_FLAGS=config_64=$Conf64"; } elsif ($Crle32 && $Conf32) { $Env = "-e LD_FLAGS=config_32=$Conf32"; } } # Recurse through a directory hierarchy looking for appropriate dependencies. sub GetDeps { my($FullDir, $RelDir) = @_; my($NewFull); # Open the directory and read each entry, omit files starting with "." if (opendir(DIR, $FullDir)) { foreach my $Entry (readdir(DIR)) { if ($Entry =~ /^\./) { next; } $NewFull = "$FullDir/$Entry"; # We need to follow links so that any dependencies # are expressed in all their available forms. # Bail on symlinks like 32 -> . if (-l $NewFull) { if (readlink($NewFull) =~ /^\.$/) { next; } } if (!stat($NewFull)) { next; } if (!$opt{a}) { if ($NewFull =~ $SkipCrleConf) { next; } } # If this is a directory descend into it. if (-d _) { my($NewRel); if ($RelDir =~ /^\/$/) { $NewRel = "$RelDir$Entry"; } else { $NewRel = "$RelDir/$Entry"; } GetDeps($NewFull, $NewRel); next; } # If this is a regular file determine if its a # valid ELF dependency. if (-f _) { my($File); # Typically shared object dependencies end with # ".so" or ".so.?", hence we can reduce the cost # of this script (a lot!) by screening out files # that don't follow this pattern. if (!$opt{a}) { if ($Entry !~ /\.so(?:\.\d+)*$/) { next; } } $File = `file $NewFull`; if ($File !~ /dynamic lib/) { next; } if ($File =~ /32-bit/) { Entercrle32($FullDir, $RelDir, $Entry); } elsif ($Ena64) { Entercrle64($FullDir, $RelDir, $Entry); } next; } } closedir(DIR); } } exit $Error