#!/usr/bin/perl -w # Perl utility to run or verify FIPS 140-2 CMVP algorithm tests based on the # pathnames of input algorithm test files actually present (the unqualified # file names are consistent but the pathnames are not). # # FIPS test definitions # List of all the unqualified file names we expect and command lines to run # DSA tests my @fips_dsa_test_list = ( "DSA", [ "PQGGen", "fips_dssvs pqg" ], [ "KeyPair", "fips_dssvs keypair" ], [ "SigGen", "fips_dssvs siggen" ], [ "SigVer", "fips_dssvs sigver" ] ); my @fips_dsa_pqgver_test_list = ( [ "PQGVer", "fips_dssvs pqgver" ] ); # RSA tests my @fips_rsa_test_list = ( "RSA", [ "SigGen15", "fips_rsastest" ], [ "SigVer15", "fips_rsavtest" ], [ "SigVerRSA", "fips_rsavtest -x931" ], [ "KeyGenRSA", "fips_rsagtest" ], [ "SigGenRSA", "fips_rsastest -x931" ] ); # Special cases for PSS. The filename itself is # not sufficient to determine the test. Addditionally we # need to examine the file contents to determine the salt length # In these cases the test filename has (saltlen) appended. # RSA PSS salt length 0 tests my @fips_rsa_pss0_test_list = ( [ "SigGenPSS(0)", "fips_rsastest -saltlen 0", '^\s*#\s*salt\s+len:\s+0\s*$' ], [ "SigVerPSS(0)", "fips_rsavtest -saltlen 0", '^\s*#\s*salt\s+len:\s+0\s*$' ], ); # RSA PSS salt length 62 tests my @fips_rsa_pss62_test_list = ( [ "SigGenPSS(62)", "fips_rsastest -saltlen 62", '^\s*#\s*salt\s+len:\s+62\s*$' ], [ "SigVerPSS(62)", "fips_rsavtest -saltlen 62", '^\s*#\s*salt\s+len:\s+62\s*$' ], ); # SHA tests my @fips_sha_test_list = ( "SHA", [ "SHA1LongMsg", "fips_shatest" ], [ "SHA1Monte", "fips_shatest" ], [ "SHA1ShortMsg", "fips_shatest" ], [ "SHA224LongMsg", "fips_shatest" ], [ "SHA224Monte", "fips_shatest" ], [ "SHA224ShortMsg", "fips_shatest" ], [ "SHA256LongMsg", "fips_shatest" ], [ "SHA256Monte", "fips_shatest" ], [ "SHA256ShortMsg", "fips_shatest" ], [ "SHA384LongMsg", "fips_shatest" ], [ "SHA384Monte", "fips_shatest" ], [ "SHA384ShortMsg", "fips_shatest" ], [ "SHA512LongMsg", "fips_shatest" ], [ "SHA512Monte", "fips_shatest" ], [ "SHA512ShortMsg", "fips_shatest" ] ); # HMAC my @fips_hmac_test_list = ( "HMAC", [ "HMAC", "fips_hmactest" ] ); # CMAC my @fips_cmac_test_list = ( "CMAC", [ "CMACGenAES128", "fips_cmactest -a aes128 -g" ], [ "CMACVerAES128", "fips_cmactest -a aes128 -v" ], [ "CMACGenAES192", "fips_cmactest -a aes192 -g" ], [ "CMACVerAES192", "fips_cmactest -a aes192 -v" ], [ "CMACGenAES256", "fips_cmactest -a aes256 -g" ], [ "CMACVerAES256", "fips_cmactest -a aes256 -v" ], [ "CMACGenTDES3", "fips_cmactest -a tdes3 -g" ], [ "CMACVerTDES3", "fips_cmactest -a tdes3 -v" ], ); # RAND tests, AES version my @fips_rand_aes_test_list = ( "RAND (AES)", [ "ANSI931_AES128MCT", "fips_rngvs mct" ], [ "ANSI931_AES192MCT", "fips_rngvs mct" ], [ "ANSI931_AES256MCT", "fips_rngvs mct" ], [ "ANSI931_AES128VST", "fips_rngvs vst" ], [ "ANSI931_AES192VST", "fips_rngvs vst" ], [ "ANSI931_AES256VST", "fips_rngvs vst" ] ); # RAND tests, DES2 version my @fips_rand_des2_test_list = ( "RAND (DES2)", [ "ANSI931_TDES2MCT", "fips_rngvs mct" ], [ "ANSI931_TDES2VST", "fips_rngvs vst" ] ); # AES tests my @fips_aes_test_list = ( "AES", [ "CBCGFSbox128", "fips_aesavs -f" ], [ "CBCGFSbox192", "fips_aesavs -f" ], [ "CBCGFSbox256", "fips_aesavs -f" ], [ "CBCKeySbox128", "fips_aesavs -f" ], [ "CBCKeySbox192", "fips_aesavs -f" ], [ "CBCKeySbox256", "fips_aesavs -f" ], [ "CBCMCT128", "fips_aesavs -f" ], [ "CBCMCT192", "fips_aesavs -f" ], [ "CBCMCT256", "fips_aesavs -f" ], [ "CBCMMT128", "fips_aesavs -f" ], [ "CBCMMT192", "fips_aesavs -f" ], [ "CBCMMT256", "fips_aesavs -f" ], [ "CBCVarKey128", "fips_aesavs -f" ], [ "CBCVarKey192", "fips_aesavs -f" ], [ "CBCVarKey256", "fips_aesavs -f" ], [ "CBCVarTxt128", "fips_aesavs -f" ], [ "CBCVarTxt192", "fips_aesavs -f" ], [ "CBCVarTxt256", "fips_aesavs -f" ], [ "CFB128GFSbox128", "fips_aesavs -f" ], [ "CFB128GFSbox192", "fips_aesavs -f" ], [ "CFB128GFSbox256", "fips_aesavs -f" ], [ "CFB128KeySbox128", "fips_aesavs -f" ], [ "CFB128KeySbox192", "fips_aesavs -f" ], [ "CFB128KeySbox256", "fips_aesavs -f" ], [ "CFB128MCT128", "fips_aesavs -f" ], [ "CFB128MCT192", "fips_aesavs -f" ], [ "CFB128MCT256", "fips_aesavs -f" ], [ "CFB128MMT128", "fips_aesavs -f" ], [ "CFB128MMT192", "fips_aesavs -f" ], [ "CFB128MMT256", "fips_aesavs -f" ], [ "CFB128VarKey128", "fips_aesavs -f" ], [ "CFB128VarKey192", "fips_aesavs -f" ], [ "CFB128VarKey256", "fips_aesavs -f" ], [ "CFB128VarTxt128", "fips_aesavs -f" ], [ "CFB128VarTxt192", "fips_aesavs -f" ], [ "CFB128VarTxt256", "fips_aesavs -f" ], [ "CFB8GFSbox128", "fips_aesavs -f" ], [ "CFB8GFSbox192", "fips_aesavs -f" ], [ "CFB8GFSbox256", "fips_aesavs -f" ], [ "CFB8KeySbox128", "fips_aesavs -f" ], [ "CFB8KeySbox192", "fips_aesavs -f" ], [ "CFB8KeySbox256", "fips_aesavs -f" ], [ "CFB8MCT128", "fips_aesavs -f" ], [ "CFB8MCT192", "fips_aesavs -f" ], [ "CFB8MCT256", "fips_aesavs -f" ], [ "CFB8MMT128", "fips_aesavs -f" ], [ "CFB8MMT192", "fips_aesavs -f" ], [ "CFB8MMT256", "fips_aesavs -f" ], [ "CFB8VarKey128", "fips_aesavs -f" ], [ "CFB8VarKey192", "fips_aesavs -f" ], [ "CFB8VarKey256", "fips_aesavs -f" ], [ "CFB8VarTxt128", "fips_aesavs -f" ], [ "CFB8VarTxt192", "fips_aesavs -f" ], [ "CFB8VarTxt256", "fips_aesavs -f" ], [ "ECBGFSbox128", "fips_aesavs -f" ], [ "ECBGFSbox192", "fips_aesavs -f" ], [ "ECBGFSbox256", "fips_aesavs -f" ], [ "ECBKeySbox128", "fips_aesavs -f" ], [ "ECBKeySbox192", "fips_aesavs -f" ], [ "ECBKeySbox256", "fips_aesavs -f" ], [ "ECBMCT128", "fips_aesavs -f" ], [ "ECBMCT192", "fips_aesavs -f" ], [ "ECBMCT256", "fips_aesavs -f" ], [ "ECBMMT128", "fips_aesavs -f" ], [ "ECBMMT192", "fips_aesavs -f" ], [ "ECBMMT256", "fips_aesavs -f" ], [ "ECBVarKey128", "fips_aesavs -f" ], [ "ECBVarKey192", "fips_aesavs -f" ], [ "ECBVarKey256", "fips_aesavs -f" ], [ "ECBVarTxt128", "fips_aesavs -f" ], [ "ECBVarTxt192", "fips_aesavs -f" ], [ "ECBVarTxt256", "fips_aesavs -f" ], [ "OFBGFSbox128", "fips_aesavs -f" ], [ "OFBGFSbox192", "fips_aesavs -f" ], [ "OFBGFSbox256", "fips_aesavs -f" ], [ "OFBKeySbox128", "fips_aesavs -f" ], [ "OFBKeySbox192", "fips_aesavs -f" ], [ "OFBKeySbox256", "fips_aesavs -f" ], [ "OFBMCT128", "fips_aesavs -f" ], [ "OFBMCT192", "fips_aesavs -f" ], [ "OFBMCT256", "fips_aesavs -f" ], [ "OFBMMT128", "fips_aesavs -f" ], [ "OFBMMT192", "fips_aesavs -f" ], [ "OFBMMT256", "fips_aesavs -f" ], [ "OFBVarKey128", "fips_aesavs -f" ], [ "OFBVarKey192", "fips_aesavs -f" ], [ "OFBVarKey256", "fips_aesavs -f" ], [ "OFBVarTxt128", "fips_aesavs -f" ], [ "OFBVarTxt192", "fips_aesavs -f" ], [ "OFBVarTxt256", "fips_aesavs -f" ] ); my @fips_aes_cfb1_test_list = ( # AES CFB1 tests [ "CFB1GFSbox128", "fips_aesavs -f" ], [ "CFB1GFSbox192", "fips_aesavs -f" ], [ "CFB1GFSbox256", "fips_aesavs -f" ], [ "CFB1KeySbox128", "fips_aesavs -f" ], [ "CFB1KeySbox192", "fips_aesavs -f" ], [ "CFB1KeySbox256", "fips_aesavs -f" ], [ "CFB1MCT128", "fips_aesavs -f" ], [ "CFB1MCT192", "fips_aesavs -f" ], [ "CFB1MCT256", "fips_aesavs -f" ], [ "CFB1MMT128", "fips_aesavs -f" ], [ "CFB1MMT192", "fips_aesavs -f" ], [ "CFB1MMT256", "fips_aesavs -f" ], [ "CFB1VarKey128", "fips_aesavs -f" ], [ "CFB1VarKey192", "fips_aesavs -f" ], [ "CFB1VarKey256", "fips_aesavs -f" ], [ "CFB1VarTxt128", "fips_aesavs -f" ], [ "CFB1VarTxt192", "fips_aesavs -f" ], [ "CFB1VarTxt256", "fips_aesavs -f" ] ); # Triple DES tests my @fips_des3_test_list = ( "Triple DES", [ "TCBCinvperm", "fips_desmovs -f" ], [ "TCBCMMT1", "fips_desmovs -f" ], [ "TCBCMMT2", "fips_desmovs -f" ], [ "TCBCMMT3", "fips_desmovs -f" ], [ "TCBCMonte1", "fips_desmovs -f" ], [ "TCBCMonte2", "fips_desmovs -f" ], [ "TCBCMonte3", "fips_desmovs -f" ], [ "TCBCpermop", "fips_desmovs -f" ], [ "TCBCsubtab", "fips_desmovs -f" ], [ "TCBCvarkey", "fips_desmovs -f" ], [ "TCBCvartext", "fips_desmovs -f" ], [ "TCFB64invperm", "fips_desmovs -f" ], [ "TCFB64MMT1", "fips_desmovs -f" ], [ "TCFB64MMT2", "fips_desmovs -f" ], [ "TCFB64MMT3", "fips_desmovs -f" ], [ "TCFB64Monte1", "fips_desmovs -f" ], [ "TCFB64Monte2", "fips_desmovs -f" ], [ "TCFB64Monte3", "fips_desmovs -f" ], [ "TCFB64permop", "fips_desmovs -f" ], [ "TCFB64subtab", "fips_desmovs -f" ], [ "TCFB64varkey", "fips_desmovs -f" ], [ "TCFB64vartext", "fips_desmovs -f" ], [ "TCFB8invperm", "fips_desmovs -f" ], [ "TCFB8MMT1", "fips_desmovs -f" ], [ "TCFB8MMT2", "fips_desmovs -f" ], [ "TCFB8MMT3", "fips_desmovs -f" ], [ "TCFB8Monte1", "fips_desmovs -f" ], [ "TCFB8Monte2", "fips_desmovs -f" ], [ "TCFB8Monte3", "fips_desmovs -f" ], [ "TCFB8permop", "fips_desmovs -f" ], [ "TCFB8subtab", "fips_desmovs -f" ], [ "TCFB8varkey", "fips_desmovs -f" ], [ "TCFB8vartext", "fips_desmovs -f" ], [ "TECBinvperm", "fips_desmovs -f" ], [ "TECBMMT1", "fips_desmovs -f" ], [ "TECBMMT2", "fips_desmovs -f" ], [ "TECBMMT3", "fips_desmovs -f" ], [ "TECBMonte1", "fips_desmovs -f" ], [ "TECBMonte2", "fips_desmovs -f" ], [ "TECBMonte3", "fips_desmovs -f" ], [ "TECBpermop", "fips_desmovs -f" ], [ "TECBsubtab", "fips_desmovs -f" ], [ "TECBvarkey", "fips_desmovs -f" ], [ "TECBvartext", "fips_desmovs -f" ], [ "TOFBinvperm", "fips_desmovs -f" ], [ "TOFBMMT1", "fips_desmovs -f" ], [ "TOFBMMT2", "fips_desmovs -f" ], [ "TOFBMMT3", "fips_desmovs -f" ], [ "TOFBMonte1", "fips_desmovs -f" ], [ "TOFBMonte2", "fips_desmovs -f" ], [ "TOFBMonte3", "fips_desmovs -f" ], [ "TOFBpermop", "fips_desmovs -f" ], [ "TOFBsubtab", "fips_desmovs -f" ], [ "TOFBvarkey", "fips_desmovs -f" ], [ "TOFBvartext", "fips_desmovs -f" ] ); my @fips_des3_cfb1_test_list = ( # DES3 CFB1 tests [ "TCFB1invperm", "fips_desmovs -f" ], [ "TCFB1MMT1", "fips_desmovs -f" ], [ "TCFB1MMT2", "fips_desmovs -f" ], [ "TCFB1MMT3", "fips_desmovs -f" ], [ "TCFB1Monte1", "fips_desmovs -f" ], [ "TCFB1Monte2", "fips_desmovs -f" ], [ "TCFB1Monte3", "fips_desmovs -f" ], [ "TCFB1permop", "fips_desmovs -f" ], [ "TCFB1subtab", "fips_desmovs -f" ], [ "TCFB1varkey", "fips_desmovs -f" ], [ "TCFB1vartext", "fips_desmovs -f" ], ); # Verification special cases. # In most cases the output of a test is deterministic and # it can be compared to a known good result. A few involve # the genration and use of random keys and the output will # be different each time. In thoses cases we perform special tests # to simply check their consistency. For example signature generation # output will be run through signature verification to see if all outputs # show as valid. # my %verify_special = ( "PQGGen" => "fips_dssvs pqgver", "KeyPair" => "fips_dssvs keyver", "SigGen" => "fips_dssvs sigver", "SigGen15" => "fips_rsavtest", "SigGenRSA" => "fips_rsavtest -x931", "SigGenPSS(0)" => "fips_rsavtest -saltlen 0", "SigGenPSS(62)" => "fips_rsavtest -saltlen 62", ); my $win32 = $^O =~ m/mswin/i; my $onedir = 0; my $filter = ""; my $tvdir; my $tprefix; my $shwrap_prefix; my $debug = 0; my $quiet = 0; my $notest = 0; my $verify = 1; my $rspdir = "rsp"; my $ignore_missing = 0; my $ignore_bogus = 0; my $bufout = ''; my $list_tests = 0; my %fips_enabled = ( dsa => 1, "dsa-pqgver" => 0, rsa => 1, "rsa-pss0" => 0, "rsa-pss62" => 1, sha => 1, hmac => 1, cmac => 0, "rand-aes" => 1, "rand-des2" => 0, aes => 1, "aes-cfb1" => 0, des3 => 1, "des3-cfb1" => 0 ); foreach (@ARGV) { if ( $_ eq "--win32" ) { $win32 = 1; } elsif ( $_ eq "--onedir" ) { $onedir = 1; } elsif ( $_ eq "--debug" ) { $debug = 1; } elsif ( $_ eq "--ignore-missing" ) { $ignore_missing = 1; } elsif ( $_ eq "--ignore-bogus" ) { $ignore_bogus = 1; } elsif ( $_ eq "--generate" ) { $verify = 0; } elsif ( $_ eq "--notest" ) { $notest = 1; } elsif ( $_ eq "--quiet" ) { $quiet = 1; } elsif (/--dir=(.*)$/) { $tvdir = $1; } elsif (/--rspdir=(.*)$/) { $rspdir = $1; } elsif (/--tprefix=(.*)$/) { $tprefix = $1; } elsif (/--shwrap_prefix=(.*)$/) { $shwrap_prefix = $1; } elsif (/^--(enable|disable)-(.*)$/) { if ( !exists $fips_enabled{$2} ) { print STDERR "Unknown test $2\n"; } if ( $1 eq "enable" ) { $fips_enabled{$2} = 1; } else { $fips_enabled{$2} = 0; } } elsif (/--filter=(.*)$/) { $filter = $1; } elsif (/^--list-tests$/) { $list_tests = 1; } else { Help(); exit(1); } } my @fips_test_list; push @fips_test_list, @fips_dsa_test_list if $fips_enabled{"dsa"}; push @fips_test_list, @fips_dsa_pqgver_test_list if $fips_enabled{"dsa-pqgver"}; push @fips_test_list, @fips_rsa_test_list if $fips_enabled{"rsa"}; push @fips_test_list, @fips_rsa_pss0_test_list if $fips_enabled{"rsa-pss0"}; push @fips_test_list, @fips_rsa_pss62_test_list if $fips_enabled{"rsa-pss62"}; push @fips_test_list, @fips_sha_test_list if $fips_enabled{"sha"}; push @fips_test_list, @fips_hmac_test_list if $fips_enabled{"hmac"}; push @fips_test_list, @fips_cmac_test_list if $fips_enabled{"cmac"}; push @fips_test_list, @fips_rand_aes_test_list if $fips_enabled{"rand-aes"}; push @fips_test_list, @fips_rand_des2_test_list if $fips_enabled{"rand-des2"}; push @fips_test_list, @fips_aes_test_list if $fips_enabled{"aes"}; push @fips_test_list, @fips_aes_cfb1_test_list if $fips_enabled{"aes-cfb1"}; push @fips_test_list, @fips_des3_test_list if $fips_enabled{"des3"}; push @fips_test_list, @fips_des3_cfb1_test_list if $fips_enabled{"des3-cfb1"}; if ($list_tests) { my ( $test, $en ); print "=====TEST LIST=====\n"; foreach $test ( sort keys %fips_enabled ) { $en = $fips_enabled{$test}; $test =~ tr/[a-z]/[A-Z]/; printf "%-10s %s\n", $test, $en ? "enabled" : "disabled"; } exit(0); } foreach (@fips_test_list) { next unless ref($_); my $nm = $_->[0]; $_->[3] = ""; $_->[4] = ""; print STDERR "Duplicate test $nm\n" if exists $fips_tests{$nm}; $fips_tests{$nm} = $_; } $tvdir = "." unless defined $tvdir; if ($win32) { if ( !defined $tprefix ) { if ($onedir) { $tprefix = ".\\"; } else { $tprefix = "..\\out32dll\\"; } } } else { if ($onedir) { $tprefix = "./" unless defined $tprefix; $shwrap_prefix = "./" unless defined $shwrap_prefix; } else { $tprefix = "../test/" unless defined $tprefix; $shwrap_prefix = "../util/" unless defined $shwrap_prefix; } } sanity_check_exe( $win32, $tprefix, $shwrap_prefix ); my $cmd_prefix = $win32 ? "" : "${shwrap_prefix}shlib_wrap.sh "; find_files( $filter, $tvdir ); sanity_check_files(); my ( $runerr, $cmperr, $cmpok, $scheckrunerr, $scheckerr, $scheckok, $skipcnt ) = ( 0, 0, 0, 0, 0, 0, 0 ); exit(0) if $notest; run_tests( $verify, $win32, $tprefix, $filter, $tvdir ); if ($verify) { print "ALGORITHM TEST VERIFY SUMMARY REPORT:\n"; print "Tests skipped due to missing files: $skipcnt\n"; print "Algorithm test program execution failures: $runerr\n"; print "Test comparisons successful: $cmpok\n"; print "Test comparisons failed: $cmperr\n"; print "Test sanity checks successful: $scheckok\n"; print "Test sanity checks failed: $scheckerr\n"; print "Sanity check program execution failures: $scheckrunerr\n"; if ( $runerr || $cmperr || $scheckrunerr || $scheckerr ) { print "***TEST FAILURE***\n"; } else { print "***ALL TESTS SUCCESSFUL***\n"; } } else { print "ALGORITHM TEST SUMMARY REPORT:\n"; print "Tests skipped due to missing files: $skipcnt\n"; print "Algorithm test program execution failures: $runerr\n"; if ($runerr) { print "***TEST FAILURE***\n"; } else { print "***ALL TESTS SUCCESSFUL***\n"; } } #-------------------------------- sub Help { ( my $cmd ) = ( $0 =~ m#([^/]+)$# ); print < Optional root for *.req file search --filter= --onedir Assume all components in current directory --rspdir= Name of subdirectories containing *.rsp files, default "rsp" --shwrap_prefix= --tprefix= --ignore-bogus Ignore duplicate or bogus files --ignore-missing Ignore missing test files --quiet Shhh.... --generate Generate algorithm test output --win32 Win32 environment --enable- Enable algorithm set . --disable- Disable algorithm set . Where can be one of: EOF while (my ($key, $value) = each %fips_enabled) { printf "\t\t%-20s(%s by default)\n", $key , $value ? "enabled" : "disabled"; } } # Sanity check to see if all necessary executables exist sub sanity_check_exe { my ( $win32, $tprefix, $shwrap_prefix ) = @_; my %exe_list; my $bad = 0; $exe_list{ $shwrap_prefix . "shlib_wrap.sh" } = 1 unless $win32; foreach (@fips_test_list) { next unless ref($_); my $cmd = $_->[1]; $cmd =~ s/ .*$//; $cmd = $tprefix . $cmd; $cmd .= ".exe" if $win32; $exe_list{$cmd} = 1; } foreach ( sort keys %exe_list ) { if ( !-f $_ ) { print STDERR "ERROR: can't find executable $_\n"; $bad = 1; } } if ($bad) { print STDERR "FATAL ERROR: executables missing\n"; exit(1); } elsif ($debug) { print STDERR "Executable sanity check passed OK\n"; } } # Search for all request and response files sub find_files { my ( $filter, $dir ) = @_; my ( $dirh, $testname, $tref ); opendir( $dirh, $dir ); while ( $_ = readdir($dirh) ) { next if ( $_ eq "." || $_ eq ".." ); $_ = "$dir/$_"; if ( -f "$_" ) { if (/\/([^\/]*)\.rsp$/) { $tref = find_test($1, $_); $testname = $$tref[0]; if ( defined $tref ) { if ( $$tref[4] eq "" ) { $$tref[4] = $_; } else { print STDERR "WARNING: duplicate response file $_ for test $testname\n"; $nbogus++; } } else { print STDERR "WARNING: bogus file $_\n"; $nbogus++; } } next unless /$filter.*\.req$/i; if (/\/([^\/]*)\.req$/) { $tref = find_test($1, $_); $testname = $$tref[0]; if ( defined $tref ) { if ( $$tref[3] eq "" ) { $$tref[3] = $_; } else { print STDERR "WARNING: duplicate request file $_ for test $testname\n"; $nbogus++; } } elsif ( !/SHAmix\.req$/ ) { print STDERR "WARNING: unrecognized filename $_\n"; $nbogus++; } } } elsif ( -d "$_" ) { find_files( $filter, $_ ); } } closedir($dirh); } # # Find test based on filename. # In ambiguous cases search file contents for a match # sub find_test { my ( $test, $path ) = @_; foreach $tref (@fips_test_list) { next unless ref($tref); my ( $tst, $cmd, $regexp, $req, $resp ) = @$tref; $tst =~ s/\(.*$//; if ($tst eq $test) { return $tref if (!defined $regexp); my $found = 0; my $line; open( IN, $path ) || die "Can't Open File $path"; while ($line = ) { if ($line =~ /$regexp/i) { $found = 1; last; } } close IN; return $tref if $found == 1; } } return undef; } sub sanity_check_files { my $bad = 0; foreach (@fips_test_list) { next unless ref($_); my ( $tst, $cmd, $regexp, $req, $resp ) = @$_; #print STDERR "FILES $tst, $cmd, $req, $resp\n"; if ( $req eq "" ) { print STDERR "WARNING: missing request file for $tst\n"; $bad = 1; next; } if ( $verify && $resp eq "" ) { print STDERR "WARNING: no response file for test $tst\n"; $bad = 1; } elsif ( !$verify && $resp ne "" ) { print STDERR "WARNING: response file $resp will be overwritten\n"; } } if ($bad) { print STDERR "ERROR: test vector file set not complete\n"; exit(1) unless $ignore_missing; } if ($nbogus) { print STDERR "ERROR: $nbogus bogus or duplicate request and response files\n"; exit(1) unless $ignore_bogus; } if ( $debug && !$nbogus && !$bad ) { print STDERR "test vector file set complete\n"; } } sub run_tests { my ( $verify, $win32, $tprefix, $filter, $tvdir ) = @_; my ( $tname, $tref ); my $bad = 0; foreach (@fips_test_list) { if ( !ref($_) ) { print "Running $_ tests\n" unless $quiet; next; } my ( $tname, $tcmd, $regexp, $req, $rsp ) = @$_; my $out = $rsp; if ($verify) { $out =~ s/\.rsp$/.tst/; } if ( $req eq "" ) { print STDERR "WARNING: Request file for $tname missing: test skipped\n"; $skipcnt++; next; } if ( $verify && $rsp eq "" ) { print STDERR "WARNING: Response file for $tname missing: test skipped\n"; $skipcnt++; next; } elsif ( !$verify ) { if ( $rsp ne "" ) { print STDERR "WARNING: Response file for $tname deleted\n"; unlink $rsp; } $out = $req; $out =~ s|/req/(\S+)\.req|/$rspdir/$1.rsp|; my $outdir = $out; $outdir =~ s|/[^/]*$||; if ( !-d $outdir ) { print STDERR "DEBUG: Creating directory $outdir\n" if $debug; mkdir($outdir) || die "Can't create directory $outdir"; } } my $cmd = "$cmd_prefix$tprefix$tcmd "; if ( $tcmd =~ /-f$/ ) { $cmd .= "\"$req\" \"$out\""; } else { $cmd .= "\"$req\" \"$out\""; } print STDERR "DEBUG: running test $tname\n" if ( $debug && !$verify ); system($cmd); if ( $? != 0 ) { print STDERR "WARNING: error executing test $tname for command: $cmd\n"; $runerr++; next; } if ($verify) { if ( exists $verify_special{$tname} ) { my $vout = $rsp; $vout =~ s/\.rsp$/.ver/; $tcmd = $verify_special{$tname}; $cmd = "$cmd_prefix$tprefix$tcmd "; $cmd .= "\"$out\" \"$vout\""; system($cmd); if ( $? != 0 ) { print STDERR "WARNING: error executing verify test $tname $cmd\n"; $scheckrunerr++; next; } my ( $fcount, $pcount ) = ( 0, 0 ); open VER, "$vout"; while () { if (/^Result\s*=\s*(\S*)\s*$/i) { if ( $1 eq "F" ) { $fcount++; } else { $pcount++; } } } close VER; unlink $vout; if ( $fcount || $debug ) { print STDERR "DEBUG: $tname, Pass=$pcount, Fail=$fcount\n"; } if ( $fcount || !$pcount ) { $scheckerr++; } else { $scheckok++; } } elsif ( !cmp_file( $tname, $rsp, $out ) ) { $cmperr++; } else { $cmpok++; } unlink $out; } } } sub cmp_file { my ( $tname, $rsp, $tst ) = @_; my ( $rspf, $tstf ); my ( $rspline, $tstline ); if ( !open( $rspf, $rsp ) ) { print STDERR "ERROR: can't open request file $rsp\n"; return 0; } if ( !open( $tstf, $tst ) ) { print STDERR "ERROR: can't open output file $tst\n"; return 0; } for ( ; ; ) { $rspline = next_line($rspf); $tstline = next_line($tstf); if ( !defined($rspline) && !defined($tstline) ) { print STDERR "DEBUG: $tname file comparison OK\n" if $debug; return 1; } if ( !defined($rspline) ) { print STDERR "ERROR: $tname EOF on $rsp\n"; return 0; } if ( !defined($tstline) ) { print STDERR "ERROR: $tname EOF on $tst\n"; return 0; } # Workaround for bug in RAND des2 test output */ if ( $tstline =~ /^Key2 =/ && $rspline =~ /^Key1 =/ ) { $rspline =~ s/^Key1/Key2/; } if ( $tstline ne $rspline ) { print STDERR "ERROR: $tname mismatch:\n"; print STDERR "\t \"$tstline\" != \"$rspline\"\n"; return 0; } } return 1; } sub next_line { my ($in) = @_; while (<$in>) { chomp; # Delete comments s/#.*$//; # Ignore blank lines next if (/^\s*$/); # Translate multiple space into one s/\s+/ /g; # Delete trailing whitespace s/\s+$//; # Remove leading zeroes s/= 00/= /; # Translate to upper case return uc $_; } return undef; }