eval '(exit $?0)' && eval 'exec perl -S $0 ${1+"$@"}' & eval 'exec perl -S $0 $argv:q' if 0; # Fuzz is a script whose purpose is to check through ACE/TAO files for # easy to spot (by a perl script, at least) problems. use lib "$ENV{ACE_ROOT}/bin"; if (defined $ENV{srcdir}) { use lib "$ENV{srcdir}/bin"; } use Cwd; use File::Find; use File::Basename; use Getopt::Std; use PerlACE::Run_Test; ###### TODO # # Add tests for these: # # - Guards in .h files # - no global functions # - other commit_check checks # # And others in ACE_Guidelines and Design Rules # # Also add a -g flag to ignore tao_idl generated files # ###### END TODO # Lists of all the files @files_cdp = (); @files_cpp = (); @files_inl = (); @files_h = (); @files_html = (); @files_dsp = (); @files_dsw = (); @files_gnu = (); @files_idl = (); @files_pl = (); @files_py = (); @files_changelog = (); @files_makefile = (); @files_mpc = (); @files_bor = (); @files_noncvs = (); @files_sln = (); @files_vcproj = (); @files_run_pl = (); @files_generic = (); @files_doxygen = (); @files_conf = (); @files_rb = (); @files_features = (); # To keep track of errors and warnings $errors = 0; $warnings = 0; # to register suppressed tests %suppressed_tests = (); # to register excluded directories @excluded_dirs = (); ############################################################################## # Use 'git status -s' to get a list of locally modified # files to look through sub find_mod_git_files () { unless (open (GIT, "git status -s |")) { print STDERR "Error: Could not run git\n"; return 0; } while () { if (/^ [MA] +(.*)$/) { store_file ($1); } } close (GIT); return 1; } sub find_mod_files () { if (!find_mod_git_files()) { print "Could use git to find modified files\n"; exit (1); } } sub is_excluded ($) { # exclude will contain the full file name my $exclude = shift; foreach (@excluded_dirs) { if ($exclude =~ /$_/) { return 1; } } return 0; } # Find_Files will search for files with certain extensions in the # directory tree sub find_files () { # wanted is only used for the File::Find sub wanted { store_file ($File::Find::name); } find (\&wanted, '.'); } # sub store_file ($) { my $name = shift; return if is_excluded ($name); if ($name =~ /\.(c|cc|cpp|cxx|tpp)$/i) { push @files_cpp, ($name); } elsif ($name =~ /\.(inl|i)$/i) { push @files_inl, ($name); } elsif ($name =~ /\.(h|hh|hpp|hxx)$/i) { push @files_h, ($name); } elsif ($name =~ /\.(htm|html)$/i) { push @files_html, ($name); } elsif ($name =~ /\.(bor)$/i) { push @files_bor, ($name); } elsif ($name =~ /\.(GNU)$/i) { push @files_gnu, ($name); } elsif ($name =~ /\.(dsp|vcp)$/i) { push @files_dsp, ($name); } elsif ($name =~ /\.(dsw|vcp)$/i) { push @files_dsw, ($name); } elsif ($name =~ /\.(pidl|idl|idl3|idl3p)$/i) { push @files_idl, ($name); } elsif ($name =~ /\.pl$/i) { if ($name =~ /fuzz.pl/) { return; } push @files_pl, ($name); if ($name =~ /^run.*\.pl$/i) { push @files_run_pl, ($name); } } elsif ($name =~ /\.py$/i) { push @files_py, ($name); } elsif ($name =~ /\.(rb|erb)$/i) { push @files_rb, ($name); } elsif ($name =~ /\.features$/i) { push @files_features, ($name); } elsif ($name =~ /\.vcproj$/i) { push @files_vcproj, ($name); } elsif ($name =~ /\.sln$/i) { push @files_sln, ($name); } elsif ($name =~ /ChangeLog/i && -f $name) { push @files_changelog, ($name); } elsif ($name =~ /\/GNUmakefile.*.[^~]$/) { push @files_makefile, ($name); } elsif ($name =~ /\.(mpc|mwc|mpb|mpt)$/i) { push @files_mpc, ($name); } elsif ($name =~ /\.(icc|ncb|zip)$/i) { push @files_noncvs, ($name); } elsif ($name =~ /\.(cdp)$/i) { push @files_cdp, ($name); } elsif ($name =~ /\.(doxygen)$/i) { push @files_doxygen, ($name); } elsif ($name =~ /\.(conf)$/i) { if ($name =~ /\.(WCHAR_T.conf|UTF-16.conf)$/i) { return; } push @files_conf, ($name); } elsif ($name =~ /\.(conf.xml)$/i) { if ($name =~ /\.(WCHAR_T.conf.xml|UTF-16.conf.xml)$/i) { return; } push @files_conf, ($name); } elsif ($name =~ /\.(pm|cmd|java|sh|txt|xml)$/i) { push @files_generic, ($name); } elsif ($name =~ /README$/i) { push @files_generic, ($name); } } ############################################################################## ## Just messages sub print_error ($) { my $msg = shift; print "Error: $msg\n"; ++$errors; } sub print_warning ($) { my $msg = shift; print "Warning: $msg\n"; ++$warnings; } ############################################################################## ## Check if test is suppressed sub is_suppressed () { my $method = (split (/::/, (caller(1))[3]))[-1]; return (defined $suppressed_tests{$method} ? 1 : 0); } ############################################################################## ## Tests # The point of this test is to check for the existence of ACE_INLINE # or ASYS_INLINE in a .cpp file. This is most commonly caused by # copy/pasted code from a .inl/.i file sub check_for_inline_in_cpp () { return if is_suppressed (); print "Running ACE_INLINE/ASYS_INLINE check\n"; foreach $file (@files_cpp) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { if (/^ACE_INLINE/) { print_error ("$file:$.: ACE_INLINE found"); } if (/^ASYS_INLINE/) { print_error ("$file:$.: ASYS_INLINE found"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks to make sure we have no files with $Id string in them. sub check_for_id_string () { return if is_suppressed (); print "Running \$Id\$ string check\n"; foreach $file (@files_cpp, @files_inl, @files_h, @files_mpc, @files_bor, @files_gnu, @files_html, @files_idl, @files_pl, @files_cdp, @files_py, @files_conf, @files_generic, @files_features) { my $found = 0; if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { if (/\$id\$/) { print_error ("$file:$.: Incorrect \$id\$ found (correct casing)"); } if (/\$Id:\$/) { print_error ("$file:$.: Incorrect \$Id:\$ found (remove colon)"); } if (/\$Id\$/ || /\$Id: /) { $found = 1; } } close (FILE); if ($found == 1) { print_error ("$file: \$Id\$ string found, not used anymore."); } } else { print STDERR "Error: Could not open $file\n"; } } } # check for _MSC_VER sub check_for_msc_ver_string () { return if is_suppressed (); print "Running _MSC_VER check\n"; foreach $file (@files_cpp, @files_inl, @files_h) { my $found = 0; if (open (FILE, $file)) { my $disable = 0; my $mscline = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_msc_ver/) { $disable = 1; } if (/FUZZ\: enable check_for_msc_ver/) { $disable = 0; } if ($disable == 0 and /\_MSC_VER \<= 1200/) { $found = 1; $mscline = $.; } if ($disable == 0 and /\_MSC_VER \>= 1200/) { $found = 1; $mscline = $.; } if ($disable == 0 and /\_MSC_VER \> 1200/) { $found = 1; $mscline = $.; } if ($disable == 0 and /\_MSC_VER \< 1300/) { $found = 1; $mscline = $.; } if ($disable == 0 and /\_MSC_VER \<= 1300/) { $found = 1; $mscline = $.; } if ($disable == 0 and /\_MSC_VER \>= 1300/) { $found = 1; $mscline = $.; } if ($disable == 0 and /\_MSC_VER \< 1310/) { $found = 1; $mscline = $.; } if ($disable == 0 and /\_MSC_VER \>= 1310/) { $found = 1; $mscline = $.; } } close (FILE); if ($found == 1) { print_error ("$file:$mscline: Incorrect _MSC_VER check found"); } } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the newline at the end of a file sub check_for_newline () { return if is_suppressed (); print "Running newline check\n"; foreach $file (@files_cpp, @files_inl, @files_h, @files_html, @files_idl, @files_pl) { if (open (FILE, $file)) { my $line; print "Looking at file $file\n" if $opt_d; while () { $line = $_ } close (FILE); if ($line !~ /\n$/) { print_error ("$file:$.: No ending newline found in $file"); } } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for files that are not allowed to be in version control sub check_for_noncvs_files () { return if is_suppressed (); print "Running non versioned controlled files check\n"; foreach $file (@files_noncvs, @files_dsp, @files_dsw, @files_makefile, @files_bor) { print_error ("File $file should not be in version control!"); } } # This test checks for the use of ACE_SYNCH_MUTEX in TAO, # TAO_SYNCH_MUTEX should used instead. sub check_for_ACE_SYNCH_MUTEX () { return if is_suppressed (); print "Running ACE_SYNCH_MUTEX check\n"; ITERATION: foreach $file (@files_cpp, @files_inl, @files_h) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_ACE_SYNCH_MUTEX/) { $disable = 1; } if (/FUZZ\: enable check_for_ACE_SYNCH_MUTEX/) { $disable = 0; next; } if ($disable == 0 and /ACE_SYNCH_MUTEX/) { # It is okay to use ACE_SYNCH_MUTEX in ACE # so don't check the ACE directory. The below # will check it for TAO if (($file !~ /.*TAO.*/)) { next ITERATION; } # Disable the check in the ESF directory for the # time being until we fix the issues there. if(($file =~ /.*TAO\/orbsvcs\/orbsvcs\/ESF.*/)) { next ITERATION; } print_error ("$file:$.: found ACE_SYNCH_MUTEX, use TAO_SYNCH_MUTEX instead"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the use of ACE_Thread_Mutex in TAO, # TAO_SYNCH_MUTEX should used instead to make the code build # in single-threaded builds. sub check_for_ACE_Thread_Mutex () { return if is_suppressed (); print "Running ACE_Thread_Mutex check\n"; ITERATION: foreach $file (@files_cpp, @files_inl, @files_h) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_ACE_Thread_Mutex/) { $disable = 1; } if (/FUZZ\: enable check_for_ACE_Thread_Mutex/) { $disable = 0; next; } if ($disable == 0 and /ACE_Thread_Mutex/) { # It is okay to use ACE_Thread_Mutex in ACE # so don't check the ACE directory. The below # will check it for TAO if (($file !~ /.*TAO.*/)) { next ITERATION; } print_error ("$file:$.: found ACE_Thread_Mutex, use TAO_SYNCH_MUTEX instead to allow the code to work in single-threaded builds"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the use of ACE_Guard # ACE_GUARD should used because it checks if we really got a lock # in single-threaded builds. sub check_for_ACE_Guard () { return if is_suppressed (); print "Running ACE_Guard check\n"; ITERATION: foreach $file (@files_cpp, @files_inl, @files_h) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_ACE_Guard/) { $disable = 1; } if (/FUZZ\: enable check_for_ACE_Guard/) { $disable = 0; next; } if ($disable == 0 and /ACE_Guard/) { print_error ("$file:$.: found ACE_Guard, use ACE_GUARD"); } if ($disable == 0 and /ACE_Read_Guard/) { print_error ("$file:$.: found ACE_Read_Guard, use ACE_READ_GUARD"); } if ($disable == 0 and /ACE_Write_Guard/) { print_error ("$file:$.: found ACE_Write_Guard, use ACE_WRITE_GUARD"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the use of tabs, spaces should be used instead of tabs sub check_for_tab () { return if is_suppressed (); print "Running tabs check\n"; ITERATION: foreach $file (@files_cpp, @files_inl, @files_h, @files_idl, @files_cdp, @files_doxygen, @files_changelog) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_tab/) { $disable = 1; } if (/FUZZ\: enable check_for_tab/) { $disable = 0; } if ($disable == 0 and /.*\t.*/) { print_error ("$file:$.: found tab"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } sub check_for_trailing_whitespace () { return if is_suppressed (); print "Running trailing_whitespaces check\n"; ITERATION: foreach $file (@files_cpp, @files_inl, @files_h, @files_idl, @files_cdp, @files_pl, @files_py, @files_generic) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_trailing_whitespace/) { $disable = 1; } if (/FUZZ\: enable check_for_trailing_whitespace/) { $disable = 0; } if ($disable == 0 and /\s\n$/) { print_error ("$file:$.: found trailing whitespace"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the lack of ACE_OS sub check_for_lack_ACE_OS () { return if is_suppressed (); $OS_NS_arpa_inet_symbols = "inet_addr|inet_aton|inet_ntoa|inet_ntop|inet_pton"; $OS_NS_ctype_symbols = "isalnum|isalpha|iscntrl|isdigit|isgraph|islower|isprint|ispunct|isspace|isupper|isxdigit|tolower|toupper|isblank|isascii|isctype|iswctype"; $OS_NS_dirent_symbols = "closedir|opendir|readdir|readdir_r|rewinddir|scandir|alphasort|seekdir|telldir|opendir_emulation|scandir_emulation|closedir_emulation|readdir_emulation"; $OS_NS_dlfcn_symbols = "dlclose|dlerror|dlopen|dlsym"; $OS_NS_errno_symbols = "last_error|set_errno_to_last_error|set_errno_to_wsa_last_error"; $OS_NS_fcntl_symbols = "fcntl|open"; $OS_NS_math_symbols = "floor|ceil|log2"; $OS_NS_netdb_symbols = "gethostbyaddr|gethostbyaddr_r|gethostbyname|gethostbyname_r|getipnodebyaddr|getipnodebyname|getmacaddress|getprotobyname|getprotobyname_r|getprotobynumber|getprotobynumber_r|getservbyname|getservbyname_r|netdb_acquire|netdb_release"; $OS_NS_poll_symbols = "poll"; $OS_NS_pwd_symbols = "endpwent|getpwent|getpwnam|getpwnam_r|setpwent"; $OS_NS_regex_symbols = "compile|step"; $OS_NS_signal_symbols = "kill|pthread_sigmask|sigaction|sigaddset|sigdelset|sigemptyset|sigfillset|sigismember|signal|sigprocmask|sigsuspend|raise"; $OS_NS_stdio_symbols = "fileno|checkUnicodeFormat|clearerr|cuserid|fclose|fdopen|fflush|fgetc|getc|fgetpos|fgets|flock_adjust_params|flock_init|flock_destroy|flock_rdlock|flock_tryrdlock|flock_trywrlock|flock_unlock|flock_wrlock|fopen|default_win32_security_attributes|default_win32_security_attributes_r|get_win32_versioninfo|get_win32_resource_module|set_win32_resource_module|fprintf|ungetc|fputc|putc|fputs|fread|freopen|fseek|fsetpos|ftell|fwrite|perror|printf|puts|rename|rewind|snprintf|sprintf|tempnam|vsprintf|vsnprintf|asprintf|aswprintf|vasprintf|vaswprintf"; $OS_NS_stdlib_symbols = "_exit|abort|atexit|atof|atol|atoi|atop|bsearch|calloc|exit|free|getenv|getenvstrings|itoa|itoa_emulation|itow_emulation|malloc|mkstemp|mkstemp_emulation|mktemp|setenv|unsetenv|putenv|qsort|rand|rand_r|realloc|realpath|set_exit_hook|srand|strenvdup|strtod|strtol|strtol_emulation|strtoul|strtoul_emulation|strtoll|strtoll_emulation|strtoull|strtoull_emulation|system|getprogname|setprogname"; $OS_NS_string_symbols = "memchr|memchr_emulation|memcmp|memcpy|fast_memcpy|memmove|memset|strcat|strchr|strcmp|strcpy|strcspn|strdup|strdup_emulation|strecpy|strerror|strerror_emulation|strsignal|strlen|strncat|strnchr|strncmp|strncpy|strnlen|strnstr|strpbrk|strrchr|strrchr_emulation|strsncpy|strspn|strstr|strtok|strtok_r|strtok_r_emulation"; $OS_NS_strings_symbols = "strcasecmp|strncasecmp|strcasecmp_emulation"; $OS_NS_stropts_symbols = "getmsg|getpmsg|fattach|fdetach|ioctl|isastream|putmsg|putpmsg"; $OS_NS_sys_mman_symbols = "madvise|mmap|mprotect|msync|munmap|shm_open|shm_unlink"; $OS_NS_sys_msg_symbols = "msgctl|msgget|msgrcv|msgsnd"; $OS_NS_sys_resource_symbols = "getrlimit|getrusage|setrlimit"; $OS_NS_sys_select_symbols = "select"; $OS_NS_sys_sendfile_symbols = "sendfile|sendfile_emulation"; $OS_NS_sys_shm_symbols = "shmat|shmctl|shmdt|shmget"; $OS_NS_sys_socket_symbols = "accept|bind|closesocket|connect|enum_protocols|getpeername|getsockname|getsockopt|join_leaf|listen|recv|recvfrom|recvmsg|recvv|send|sendmsg|sendto|sendv|setsockopt|shutdown|if_nametoindex|if_indextoname|if_nameindex|socket_init|socket_fini|socket|socketpair"; $OS_NS_sys_stat_symbols = "creat|filesize|fstat|lstat|mkdir|mkfifo|stat|umask"; $OS_NS_sys_time_symbols = "gettimeofday"; $OS_NS_sys_uio_symbols = "readv|readv_emulation|writev|writev_emulation"; $OS_NS_sys_utsname_symbols = "uname"; $OS_NS_sys_wait_symbols = "wait|waitpid"; $OS_NS_Thread_symbols = "cleanup_tss|condattr_init|condattr_destroy|cond_broadcast|cond_destroy|cond_init|cond_signal|cond_timedwait|cond_wait|event_destroy|event_init|event_pulse|event_reset|event_signal|event_timedwait|event_wait|lwp_getparams|lwp_setparams|mutex_destroy|mutex_init|mutex_lock|mutex_lock_cleanup|mutex_trylock|mutex_unlock|priority_control|recursive_mutex_cond_unlock|recursive_mutex_cond_relock|recursive_mutex_destroy|recursive_mutex_init|recursive_mutex_lock|recursive_mutex_trylock|recursive_mutex_unlock|rw_rdlock|rw_tryrdlock|rw_trywrlock|rw_trywrlock_upgrade|rw_unlock|rw_wrlock|rwlock_destroy|rwlock_init|sched_params|scheduling_class|sema_destroy|sema_init|sema_post|sema_trywait|sema_wait|semctl|semget|semop|set_scheduling_params|sigtimedwait|sigwait|sigwaitinfo|thr_cancel|thr_cmp|thr_continue|thr_create|thr_equal|thr_exit|thr_getconcurrency|thr_getprio|thr_getspecific_native|thr_getspecific|thr_join|thr_get_affinity|thr_set_affinity|thr_key_detach|thr_key_used|thr_keycreate_native|thr_keycreate|thr_keyfree|thr_kill|thr_min_stack|thr_self|thr_setcancelstate|thr_setcanceltype|thr_setconcurrency|thr_setprio|thr_setspecific_native|thr_setspecific|thr_sigsetmask|thr_suspend|thr_testcancel|thr_yield|thread_mutex_destroy|thread_mutex_init|thread_mutex_lock|thread_mutex_trylock|thread_mutex_unlock|unique_name"; $OS_NS_time_symbols = "asctime|asctime_r|clock_gettime|clock_settime|ctime|ctime_r|difftime|gmtime|gmtime_r|localtime|localtime_r|mktime|nanosleep|readPPCTimeBase|strftime|strptime|strptime_emulation|strptime_getnum|time|timezone|tzset"; $OS_NS_unistd_symbols = "access|alarm|allocation_granularity|argv_to_string|chdir|rmdir|close|dup|dup2|execl|execle|execlp|execv|execve|execvp|fork|fork_exec|fsync|ftruncate|getcwd|getgid|getegid|getopt|getpagesize|getpgid|getpid|getppid|getuid|geteuid|hostname|isatty|lseek|llseek|num_processors|num_processors_online|pipe|pread|pwrite|read|read_n|readlink|sbrk|setgid|setegid|setpgid|setregid|setreuid|setsid|setuid|seteuid|sleep|string_to_argv|swab|sysconf|sysinfo|truncate|ualarm|unlink|write|write_n"; $OS_NS_wchar_symbols = "fgetwc|wcscat_emulation|wcschr_emulation|wcscmp_emulation|wcscpy_emulation|wcscspn_emulation|wcsicmp_emulation|wcslen_emulation|wcsncat_emulation|wcsncmp_emulation|wcsncpy_emulation|wcsnicmp_emulation|wcspbrk_emulation|wcsrchr_emulation|wcsrchr_emulation|wcsspn_emulation|wcsstr_emulation|wslen|wscpy|wscmp|wsncmp|ungetwc"; print "Running ACE_OS check\n"; foreach $file (@files_cpp, @files_inl) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_lack_ACE_OS/) { $disable = 1; } if (/FUZZ\: enable check_for_lack_ACE_OS/) { $disable = 0; } if ($disable == 0) { if($file !~ /.c$/ && $file !~ /S.cpp$/ && $file !~ /S.inl$/ && $file !~ /C.cpp$/ && $file !~ /C.inl$/) { if($file !~ /OS_NS_arpa_inet/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_arpa_inet_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_arpa_inet.h"); } } if($file !~ /OS_NS_ctype/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_ctype_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_ctype.h"); } } if($file !~ /OS_NS_dirent/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_dirent_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_dirent.h"); } } if($file !~ /OS_NS_dlfcn/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_dlfcn_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_dlfcn.h"); } } if($file !~ /OS_NS_errno/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_errno_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_errno.h"); } } if($file !~ /OS_NS_fcntl/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_fcntl_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_fcntl.h"); } } if($file !~ /OS_NS_math/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_math_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_math."); } } if($file !~ /OS_NS_netdb/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_netdb_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_netdb.h"); } } if($file !~ /OS_NS_poll/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_netdb_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_poll.h"); } } if($file !~ /OS_NS_pwd/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_pwd_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_pwd.h"); } } if($file !~ /OS_NS_regex/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_regex_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_regex.h"); } } if($file !~ /OS_NS_signal/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_signal_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_signal.h"); } } if($file !~ /OS_NS_stdlib/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_stdlib_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_stdlib.h"); } } if($file !~ /OS_NS_stdio/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_stdio_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_stdio.h"); } } if($file !~ /OS_NS_string/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_string_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_string.h"); } } if($file !~ /OS_NS_strings/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_strings_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_strings.h"); } } if($file !~ /OS_NS_stropts/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_stropts_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_stropts.h"); } } if($file !~ /OS_NS_sys_mman/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_mman_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_mman.h"); } } if($file !~ /OS_NS_sys_msg/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_msg_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_msg.h"); } } if($file !~ /OS_NS_sys_resource/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_resource_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_resource.h"); } } if($file !~ /OS_NS_sys_select/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_select_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_select.h"); } } if($file !~ /OS_NS_sys_sendfile/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_sendfile_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_sendfile.h"); } } if($file !~ /OS_NS_sys_shm/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_shm_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_shm.h"); } } if($file !~ /OS_NS_sys_socket/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_socket_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_socket.h"); } } if($file !~ /OS_NS_sys_stat/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_stat_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_stat.h"); } } if($file !~ /OS_NS_sys_time/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_time_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_time.h"); } } if($file !~ /OS_NS_sys_uio/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_uio_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_uio.h"); } } if($file !~ /OS_NS_sys_utsname/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_utsname_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_utsname.h"); } } if($file !~ /OS_NS_sys_wait/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_sys_wait_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_sys_wait.h"); } } if($file !~ /OS_NS_Thread/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_Thread_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_Thread.h"); } } if($file !~ /OS_NS_time/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_time_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_time.h"); } } if($file !~ /OS_NS_unistd/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_unistd_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_unistd.h"); } } if($file !~ /OS_NS_wchar/) { if(/(\s+:{0,2}|\(:{0,2}|\s*!:{0,2}|^|\):{0,2})($OS_NS_wchar_symbols)\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: missing ACE_OS use ace/OS_NS_wchar.h"); } } } } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the use of exception specification, # exception specification has fallen out of favor, and generally # should not be used. sub check_for_exception_spec () { return if is_suppressed (); print "Running exception specification check\n"; foreach $file (@files_cpp, @files_inl, @files_h) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_exception_sepc/) { $disable = 1; } if (/FUZZ\: enable check_for_exception_sepc/) { $disable = 0; } if ($disable == 0) { if(/throw\s*\(\s*\)/) { #next; } elsif(/(^|\s+)throw\s*\(/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: exception specification found"); } } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the use of NULL, # NULL shouldn't be used, use 0 instead sub check_for_NULL () { return if is_suppressed (); print "Running NULL usage check\n"; foreach $file (@files_cpp, @files_inl, @files_h) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_NULL/) { $disable = 1; } if (/FUZZ\: enable check_for_NULL/) { $disable = 0; } if ($disable == 0) { if(/(\(|\)|\s+|=)NULL(\)|\s+|\;|\,)/ and $` !~ /\/\// and $` !~ /\/\*/ and $` !~ /\*\*+/ and $` !~ /\s+\*+\s+/) { print_error ("$file:$.: NULL found, use nullptr"); } } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for improper main declaration, # the proper form should look like: # int ACE_TMAIN (int argc, ACE_TCHAR *argv[]) sub check_for_improper_main_declaration () { return if is_suppressed (); print "Running Improper main() declaration check\n"; foreach $file (@files_cpp) { if (open (FILE, $file)) { my $disable = 0; my $type_of_main; my $multi_line; my $not_found_end_line_count= 0; print "Looking at file $file\n" if $opt_d; while () { if (!defined $multi_line) { if (/FUZZ\: disable check_for_improper_main_declaration/) { $disable = 1; next; } elsif (/FUZZ\: enable check_for_improper_main_declaration/) { $disable = 0; next; } elsif ($disable == 0) { s/^\s+//; ## Remove leading space s/\s*(\/\/.*)?$//; ## Remove trailing space and line comments if (s/^(?:.*\s)?(main|ACE_TMAIN)\s*//) { $type_of_main = $1; ## main or ACE_TMAIN $multi_line = $_; ## Rest of the line } else { next; } } } else { $_ =~ s/^\s+//; ## Remove leading space $_ =~ s/\s*(\/\/.*)?$//; ## Remove trailling space and line comments if ($multi_line eq "") { ## Append this line to existing statement. $multi_line = $_; } else { $multi_line .= ' ' . $_; } } $multi_line =~ s!^(/+\*.*?\*/\s*)*!!; ## Remove leading /* ... */ comments next if ($multi_line eq ""); ## Must have something after main if ($multi_line !~ m/^\(/) { ## Not a function opening bracket, we will ignore this one ## it is not a main function. undef $multi_line; $not_found_end_line_count = 0; } elsif ($multi_line =~ s/^\(\s*([^\)]*?)\s*\)[^;\{]*?\{//) { $multi_line = $1; ## What was between the main's ( and ) $multi_line =~ s/\s{2,}/ /g; ## Compress white space my $was = $multi_line; $multi_line =~ s!([^/])\*\s([^/])!$1\*$2!g; ## Remove space after * (except around comment) $multi_line =~ s!([^/])\s\[!$1\[!g; ## Remove space before [ (except following comment) $multi_line =~ s!\s?\*/\s?/\*\s?! !g; ## Connect seporate adjacent /* ... */ comments if ($multi_line =~ s!^([^,]*?)\s?,\s?(/+\*.*?\*/\s?)*!!) { # Fails if only 1 parameter (ignore this main) my $arg1 = $1; if ($multi_line =~ s/^(\w[\w\d]*)\s?//) { # Fails if no type for 2nd parameter (ignore this main) my $arg2_type = $1; $multi_line =~ s!^(?:/+\*.*?\*/\s?)?(\**)(\w[\w\d]*|\s?/\*.*?\*/\s?)?!!; my $prefix = $1; ## should be * or ** my $name = $2; ## is now arg2's variable name $multi_line =~ s!\s?\*/\s?/\*\s?! !g; ## Connect seporate adjacent /* ... */ comments ## remove any comment after postfix if ($multi_line =~ s!\s?(/+\*.*?\*/)$!! && $name eq '') { $name = "$1 "; ## Some name argv in comment after [] } ## multi_line now postfix, should be [] if ($type_of_main ne 'ACE_TMAIN' || $arg2_type ne 'ACE_TCHAR' || !(($prefix eq '*' && $multi_line eq '[]') || ($prefix eq '**' && $multi_line eq '' )) ) { print_error ("$file:$.: $type_of_main ($was) should be ACE_TMAIN ($arg1, ACE_TCHAR \*$name\[])"); } } } undef $multi_line; $not_found_end_line_count = 0; } elsif ($not_found_end_line_count < 10) { # Limit the search for ( ... ) following main to ten lines ++$not_found_end_line_count; } else { undef $multi_line; $not_found_end_line_count = 0; } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the use of "inline" instead of ACE_INLINE sub check_for_inline () { return if is_suppressed (); print "Running inline check\n"; foreach $file (@files_inl) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_inline/) { $disable = 1; } if (/FUZZ\: enable check_for_inline/) { $disable = 0; } if ($disable == 0 and m/^\s*inline/) { print_error ("$file:$.: 'inline' keyword found"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the inclusion of math.h. math.h should be avoided # since on some platforms, "exceptions" is defined as a struct, which will # cause problems with exception handling sub check_for_math_include () { return if is_suppressed (); print "Running math.h test\n"; foreach $file (@files_h, @files_cpp, @files_inl) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_math_include/) { $disable = 1; } if (/FUZZ\: enable check_for_math_include/) { $disable = 0; } if ($disable == 0 and /^\s*#\s*include\s*(\/\*\*\/){0,1}\s*\/) { print_error ("$file:$.: included"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the inclusion of streams.h. # // FUZZ: disable check_for_streams_include sub check_for_streams_include () { return if is_suppressed (); print "Running ace/streams.h test\n"; foreach $file (@files_h, @files_cpp, @files_inl) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_streams_include/) { $disable = 1; } if (/FUZZ\: enable check_for_streams_include/) { $disable = 0; } if ($disable == 0 and /^\s*#\s*include\s*\"ace\/streams\.h\"/) { print_error ("$file:$.: expensive ace/streams.h included; consider ace/iosfwd.h"); print " ace/streams.h is very expensive in both "; print "compile-time and footprint. \n"; print " Please consider including ace/iosfwd.h instead.\n\n"; } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the inclusion of Synch*.h. sub check_for_synch_include () { return if is_suppressed (); print "Running ace/Synch*.h test\n"; foreach $file (@files_h, @files_cpp, @files_inl) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_synch_include/) { $disable = 1; } if (/FUZZ\: enable check_for_synch_include/) { $disable = 0; } if ($disable == 0 and (/^\s*#\s*include\s*\"(ace\/Synch\.h)\"/ or /^\s*#\s*include\s*\"(ace\/Synch_T\.h)\"/)) { my $synch = $1; print_error ("$file:$.: expensive $synch included; consider individual synch file"); print " $synch is very expensive in both "; print "compile-time and footprint. \n"; print " Please consider including one of the "; print "individual synch files instead.\n\n"; } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # For general readability, lines should not contain more than 80 characters sub check_for_line_length () { return if is_suppressed (); print "Running line length test\n"; foreach $file (@files_h, @files_cpp, @files_inl) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { # Make sure to ignore ACE_RCSID lines, since they # are difficult to get under 80 chars. if (/.{80,}/ and !/^ACE_RCSID/) { print_error ("$file:$.: line longer than 80 chars"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # For preprocessor directives, only the old C style comments (/* */) # should be used, not the newer // style. sub check_for_preprocessor_comments () { return if is_suppressed (); print "Running preprocessor comment test\n"; foreach $file (@files_h, @files_cpp, @files_inl) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { if (/^\#.*\/\//) { print_error ("$file:$.: C++ comment in directive"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # We should not have empty files in the repo sub check_for_empty_files () { return if is_suppressed (); print "Running empty file test\n"; foreach $file (@files_inl, @files_cpp, @files_rb) { my $found_non_empty_line = 0; if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { next if /^[[:blank:]]*$/; # skip empty lines next if /^[[:blank:]]*\/\//; # skip C++ comments next if /^[[:blank:]]*\/\*/; # skip C++ comments $found_non_empty_line = 1; last; } close (FILE); if ($found_non_empty_line == 0) { print_error ("$file:1: empty file should not be in the repository"); } } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the use of the Win32 Unicode string defines # or outdated ASYS_* macros # We should only be using the ACE_TCHAR, ACE_TEXT macros instead. sub check_for_tchar { return if is_suppressed (); print "Running TCHAR test\n"; foreach $file (@files_h, @files_cpp, @files_inl) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_tchar/) { $disable = 1; } if (/FUZZ\: enable check_for_tchar/) { $disable = 0; } if ($disable == 0) { if (/LPTSTR/) { print_error ("$file:$.: LPTSTR found"); } if (/LPCTSTR/) { print_error ("$file:$.: LPCTSTR found"); } if (/ASYS_TCHAR/) { print_error ("$file:$.: ASYS_TCHAR found"); } elsif (/TCHAR/ and !/ACE_TCHAR/) { ### Do a double check, since some macros do have TCHAR ### (like DEFAULTCHARS) if (/^TCHAR[^\w_]/ or /[^\w_]TCHAR[^\w_]/) { print_error ("$file:$.: TCHAR found"); } } if (/ASYS_TEXT/) { print_error ("$file:$.: ASYS_TEXT found"); } elsif (/TEXT/ and !/ACE_TEXT/) { ### Do a double check, since there are several macros ### that end with TEXT if (/^TEXT\s*\(/ or /[^\w_]TEXT\s*\(/) { print_error ("$file:$.: TEXT found"); } } } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This checks to see if Makefiles define a DEPENDENCY_FILE, and if they do # whether or not it's in the cvs repo. sub check_for_dependency_file () { return if is_suppressed (); print "Running DEPENDENCY_FILE test\n"; foreach $file (@files_makefile) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { if (/^DEPENDENCY_FILE\s* =\s*(.*)/) { my $depend = $1; my $path = $file; $path =~ s/\/GNUmakefile.*/\//; $depend = $path . $depend; unless (open (DFILE, $depend)) { print_error ("DEPENDENCY_FILE \"$depend\" not found"); print " Either add \"$depend\" to git "; print "or remove DEPENDENCY_FILE variable\n"; print " from $file\n\n"; } close (DFILE); } } close (FILE); } else { print_error ("cannot open $file"); } } } # This checks to see if GNUmakefiles define a MAKEFILE, and if it matches the # name of the GNUmakefile sub check_for_makefile_variable () { return if is_suppressed (); print "Running MAKEFILE variable test\n"; foreach $file (@files_makefile) { if (!(substr($file,-4) eq ".bor") and !(substr($file,-3) eq ".am") and !(substr($file,-4) eq ".vac") and !(substr($file,-4) eq ".alt")) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; my $makevarfound = 0; my $filename = basename($file,""); while () { if (/^MAKEFILE\s*=\s*(.*)/) { $makevarfound = 1; $makevar = $1; if (!($makevar eq $filename)) { print_error ("$file:$.: MAKEFILE variable $makevar != $filename"); print " Change MAKEFILE = $filename in $file.\n\n"; } } } if ($makevarfound == 0 and !($filename eq "GNUmakefile")) { print_error ("$file:$.: MAKEFILE variable missing in $file"); print " Add MAKEFILE = $filename to the top of $file.\n\n"; } close (FILE); } else { print_error ("cannot open $file"); } } } } # This checks to make sure files include ace/post.h if ace/pre.h is included # and vice versa. sub check_for_pre_and_post () { return if is_suppressed (); print "Running pre.h/post.h test\n"; foreach $file (@files_h) { my $pre = 0; my $post = 0; if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_pre_and_post/) { $disable = 1; } if (/FUZZ\: enable check_for_pre_and_post/) { $disable = 0; } if ($disable == 0) { if (/^\s*#\s*include\s*\"ace\/pre\.h\"/) { print_error ("$file:$.: pre.h missing \"/**/\""); ++$pre; } if (/^\s*#\s*include\s*\s*\"ace\/post\.h\"/) { print_error ("$file:$.: post.h missing \"/**/\""); ++$post; } if (/^\s*#\s*include\s*\/\*\*\/\s*\"ace\/pre\.h\"/) { ++$pre; } if (/^\s*#\s*include\s*\/\*\*\/\s*\"ace\/post\.h\"/) { ++$post; } } } close (FILE); if ($disable == 0 && $pre != $post) { print_error ("$file:1: pre.h/post.h mismatch"); } } else { print STDERR "Error: Could not open $file\n"; } } } # This test verifies that the same number of "#pragma warning(push)" and # "#pragma warning(pop)" pragmas are used in a given header. sub check_for_push_and_pop () { return if is_suppressed (); print "Running #pragma (push)/(pop) test\n"; foreach $file (@files_h) { my $push_count = 0; my $pop_count = 0; if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_push_and_pop/) { $disable = 1; } if (/FUZZ\: enable check_for_push_and_pop/) { $disable = 0; } if ($disable == 0) { if (/^\s*#\s*pragma\s*warning\s*\(\s*push[,1-4]*\s*\)/) { ++$push_count; } if (/^\s*#\s*pragma\s*warning\s*\(\s*pop\s*\)/) { ++$pop_count; } } } close (FILE); if ($disable == 0 && $push_count != $pop_count) { print_error ("$file: #pragma warning(push)/(pop) mismatch"); } } else { print STDERR "Error: Could not open $file\n"; } } } # This test verifies that the same number of # "ACE_VERSIONED_NAMESPACE_BEGIN_DECL" and # "ACE_END_VERSIONED_NAMESPACE_DECL" macros are used in a given # source file. sub check_for_versioned_namespace_begin_end () { return if is_suppressed (); print "Running versioned namespace begin/end test\n"; foreach $file (@files_cpp, @files_inl, @files_h) { my $begin_count = 0; my $end_count = 0; if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { if (/^\s*\w+_BEGIN_VERSIONED_NAMESPACE_DECL/) { ++$begin_count; } if (/^\s*\w+_END_VERSIONED_NAMESPACE_DECL/) { ++$end_count; } if ($begin_count > $end_count and /^\s*#\s*include(\s*\/\*\*\/)?\s*"/) { print_error ("$file:$.: #include directive within Versioned namespace block"); } } close (FILE); if ($begin_count != $end_count) { print_error ("$file: Versioned namespace begin($begin_count)/end($end_count) mismatch"); } } else { print STDERR "Error: Could not open $file\n"; } } } # Check doxygen @file comments sub check_for_mismatched_filename () { return if is_suppressed (); print "Running doxygen \@file test\n"; foreach $file (@files_h, @files_cpp, @files_inl, @files_idl) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (m/\@file\s*([^\s]+)/){ # $file includes complete path, $1 is the name after # @file. We must check whether the last part of $file # is equal to $1 if ($file !~ /$1$/) { print_error ("$file:$.: \@file mismatch in $file, found $1"); } } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # check for bad run_test sub check_for_bad_run_test () { return if is_suppressed (); print "Running run_test.pl test\n"; foreach $file (@files_run_pl) { if (open (FILE, $file)) { my $is_run_test = 0; my $sub = 0; if (($file =~ /.*TAO\/examples\/Advanced.*/)) { next ITERATION; } if (($file =~ /.*TAO\/orbsvcs\/examples\/Security\/Send_File.*/)) { next ITERATION; } print "Looking at file $file\n" if $opt_d; while () { if (m/PerlACE/ || m/ACEutils/) { $is_run_test = 1; } if ($is_run_test == 1) { if (m/ACEutils/) { print_error ("$file:$.: ACEutils.pm still in use"); } if (m/unshift \@INC/) { print_error ("$file:$.: unshifting \@INC; use \"use lib\""); } if (m/\$EXEPREFIX/) { print_error ("$file:$.: using \$EXEPREFIX"); } if (m/\$EXE_EXT/) { print_error ("$file:$.: using \$EXE_EXT"); } if (m/Sys::Hostname/) { print_error ("$file:$.: using Sys::Hostname"); } if (m/PerlACE::wait_interval_for_process_creation/) { print_error ("$file:$.: using PerlACE::wait_interval_for_process_creation"); } if (m/PerlACE::waitforfile_timed/) { print_error ("$file:$.: using PerlACE::waitforfile_timed"); } if (m/PerlACE::is_vxworks_test/) { print_error ("$file:$.: using PerlACE::is_vxworks_test"); } if (m/PerlACE::add_lib_path/) { print_error ("$file:$.: using PerlACE::add_lib_path, use AddLibPath on the target"); } if (m/PerlACE::Run_Test/) { print_error ("$file:$.: using PerlACE::Run_Test, use PerlACE::TestTarget"); } if (m/PerlACE::random_port/) { print_error ("$file:$.: using PerlACE::random_port, use TestTarget::random_port"); } if (m/PerlACE::Process/) { print_error ("$file:$.: using PerlACE::Process"); } if (m/PerlACE::TestConfig/) { print_error ("$file:$.: using PerlACE::TestConfig"); } if (m/ACE_RUN_VX_TGTHOST/) { print_error ("$file:$.: using ACE_RUN_VX_TGTHOST, use TestTarget::HostName"); } if (m/Spawn(Wait(Kill)?)?\s*\(.+\->ProcessStop.*\)/) { print_error ("$file:$.: uses Stop together with Spawn"); } if (m/Spawn(Wait(Kill)?)?\s*\(\d+\)/) { print_error ("$file:$.: uses hardcoded timeout for Spawn"); } if (m/Kill\s*\(\d+\)/) { print_error ("$file:$.: uses hardcoded timeout for Kill"); } if (m/unlink/) { print_error ("$file:$.: using unlink"); } if (m/PerlACE::LocalFile/) { print_error ("$file:$.: using PerlACE::LocalFile"); } if (m/\$DIR_SEPARATOR/) { print_error ("$file:$.: using \$DIR_SEPARATOR"); } if (m/ACE\:\:/ && !m/PerlACE\:\:/) { print_error ("$file:$.: using ACE::*"); } if (m/Process\:\:/ && !m/PerlACE\:\:Process\:\:/) { print_error ("$file:$.: using Process::*"); } if (m/Process\:\:Create/) { print_error ("$file:$.: using Process::Create"); } if (m/^ [^ ]/) { print_warning ("$file:$.: using two-space indentation"); } if (m/^\s*\t/) { print_error ("$file:$.: Indenting using tabs"); } if (m/^\s*\{/ && $sub != 1) { print_warning ("$file:$.: Using Curly Brace alone"); } if (m/timedout/i && !m/\#/) { print_error ("$file:$.: timedout message found"); } if (m/^\s*sub/) { $sub = 1; } else { $sub = 0; } } } close (FILE); if ($is_run_test) { my @output = `perl -wc $file 2>&1`; foreach $output (@output) { chomp $output; if ($output =~ m/error/i) { print_error ($output); } elsif ($output !~ m/syntax OK/) { print_warning ($output); } } } } } } # Check for links to ~schmidt/ACE_wrappers/, which should not be in the # documentation sub check_for_absolute_ace_wrappers() { return if is_suppressed (); print "Running absolute ACE_wrappers test\n"; foreach $file (@files_html) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { if (m/\~schmidt\/ACE_wrappers\//) { chomp; print_error ("$file:$.: ~schmidt/ACE_wrappers found"); print_error ($_); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # Check for generated headers in the code documentation sub check_for_generated_headers() { return if is_suppressed (); print "Running generated headers test\n"; foreach $file (@files_cpp, @files_inl, @files_h) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { if (m/Code generated by the The ACE ORB \(TAO\) IDL Compiler/) { chomp; print_error ("$file:$.: header found"); print_error ($_); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # Make sure ACE_[OS_]TRACE matches the function/method sub check_for_bad_ace_trace() { return if is_suppressed (); print "Running TRACE test\n"; foreach $file (@files_inl, @files_cpp) { if (open (FILE, $file)) { my $class; my $function; print "Looking at file $file\n" if $opt_d; while () { # look for methods or functions if (m/(^[^\s][^\(]*)\:\:([^\:^\(]*[^\s^\(])\s*/) { $class = $1; $function = $2; } elsif (m/^([^\s^\(^\#]*) \(/i) { $class = ""; $function = $1; } elsif (m/^(operator.*) \(/i) { $class = ""; $function = $1; } elsif (m/^class (.*)\s*:/) { $class = $1; $function = ""; } elsif (m/^class (.*)\s*$/) { $class = $1; $function = ""; } # print "TRACE_CHECK. Class = $class\n"; # Look for TRACE statements if (m/ACE_OS_TRACE\s*\(\s*\"(.*)\"/ || m/ACE_TRACE\s*\(\s*\"(.*)\"/) { my $trace = $1; # reduce the classname if ($class =~ m/([^\s][^\<^\s]*)\s*\) { if (/ACE_THROW_SPEC/) { ## Do not use ACE_THROW_SPEC in TAO. if ($file =~ /TAO/i || $cwd =~ /TAO/i) { print_error ("$file:$.: ACE_THROW_SPEC found."); } } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for ptr_arith_t usage in source code. ptr_arith_t # is non-portable. Use ptrdiff_t instead. sub check_for_ptr_arith_t () { return if is_suppressed (); print "Running ptr_arith_t check\n"; foreach $file (@files_cpp, @files_inl, @files_h) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { next if m/^\s*\/\//; # Ignore C++ comments. next if m/^\s*$/; # Skip lines only containing # whitespace. # Check for ptr_arith_t usage. This test should # ignore typedefs, and should only catch variable # declarations and parameter types. if (m/ptr_arith_t / || m/ptr_arith_t,/) { print_error ("$file:$.: ptr_arith_t; use ptrdiff_t instead."); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the #include # This check is suggested by Don Hinton to force user to use # " " instead of <> to avoid confict with Doxygen. sub check_for_include () { return if is_suppressed (); print "Running the include check\n"; foreach $file (@files_h, @files_cpp, @files_inl, @files_idl) { my $bad_occurance = 0; if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_include/) { $disable = 1; } if (/FUZZ\: enable check_for_include/) { $disable = 0; } if ($disable == 0) { if (/^\s*#\s*include\s*<[(ace)|(TAO)]\/.*>/) { print_error ("$file:$.: include used"); ++$bad_occurance; } if (/^\s*#\s*include\s*/) { print_error ("$file:$.: include used"); ++$bad_occurance; } } } close (FILE); if ($disable == 0 && $bad_occurance > 0 ) { print_error ("$file:1: found $bad_occurance usage(s) of #include <> of ace\/tao."); } } else { print STDERR "Error: Could not open $file\n"; } } } # This test verifies that all equality, relational and logical # operators return bool, as is the norm for modern C++. # # NOTE: This test isn't fool proof yet. sub check_for_non_bool_operators () { return if is_suppressed (); print "Running non-bool equality, relational and logical operator check\n"; foreach $file (@files_h, @files_inl, @files_cpp) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; my $found_bool = 0; my $found_return_type = 0; while () { if ($found_bool == 0 && (/[^\w]bool\s*$/ || /^bool\s*$/ || /\sbool\s+\w/ || /^bool\s+\w/ || /[^\w]return\s*$/)) { $found_bool = 1; $found_return_type = 0; next; } if ($found_bool == 0 && $found_return_type == 0 && /^(?:\w+|\s+\w+)\s*$/ && !/[^\w]return\s*$/) { $found_return_type = 1; $found_bool = 0; next; } if ($found_bool == 0 && /(?\s*::)operator\s*(?:!|<|<=|>|>=|==|!=|&&|\|\|)\s*\(/ && !/\(.*operator\s*(?:!|<|<=|>|>=|==|!=|&&|\|\|)\s*\(/ && !/^\s*return\s+/) { print_error ("$file:$.: non-bool return type for operator"); } $found_return_type = 0; $found_bool = 0; } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test verifies that all filenames are short enough sub check_for_long_file_names () { return if is_suppressed (); my $max_filename = 50; my $max_mpc_projectname = $max_filename - 12; ## GNUmakefile.[project_name] print "Running file names check\n"; foreach $file (@files_cpp, @files_inl, @files_h, @files_html, @files_dsp, @files_dsw, @files_gnu, @files_idl, @files_pl, @files_changelog, @files_makefile, @files_bor, @files_mpc, @files_generic) { if ( length( basename($file) ) >= $max_filename ) { print_error ("File name $file meets or exceeds $max_filename chars."); } } foreach $file (grep(/\.mpc$/, @files_mpc)) { if (open(FH, $file)) { my($blen) = length(basename($file)) - 4; ## .mpc while() { if (/project\s*(:.*)\s*{/) { if ($blen >= $max_mpc_projectname) { print_warning ("File name $file meets or exceeds $max_mpc_projectname chars."); } } elsif (/project\s*\(([^\)]+)\)/) { my($name) = $1; if ($name =~ /\*/) { my($length) = length($name) + (($name =~ tr/*//) * $blen); if ($length >= $max_mpc_projectname) { print_warning ("Project name ($name) from $file will meet or exceed $max_mpc_projectname chars when expanded by MPC."); } } else { if (length($name) >= $max_mpc_projectname) { print_warning ("Project name ($name) from $file meets or exceeds $max_mpc_projectname chars."); } } } } close(FH); } } } sub check_for_refcountservantbase () { return if is_suppressed (); print "Running PortableServer::RefCountServantBase derivation check\n"; foreach $file (@files_h, @files_cpp, @files_inl) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { if (/PortableServer::RefCountServantBase/) { print_error ("$file:$.: reference to deprecated PortableServer::RefCountServantBase"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } sub check_for_old_documentation_style () { return if is_suppressed (); print "Running documentation style check\n"; foreach $file (@files_h, @files_cpp, @files_inl) { if (open (FILE, $file)) { print "Looking at file $file\n" if $opt_d; while () { if (/\/\/\s*\= TITLE/) { print_error ("$file:$.: found old documentation style // = TITLE"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } sub check_for_TAO_Local_RefCounted_Object () { return if is_suppressed (); print "Running TAO_Local_RefCounted_Object check\n"; ITERATION: foreach $file (@files_h, @files_cpp, @files_inl) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_TAO_Local_RefCounted_Object/) { $disable = 1; } if (/FUZZ\: enable check_for_TAO_Local_RefCounted_Object/) { $disable = 0; } if ($disable == 0 and /TAO_Local_RefCounted_Object/) { print_error ("$file:$.: TAO_Local_RefCounted_Object is deprecated, use CORBA::LocalObject instead"); } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the correct use of ORB_init() so as # to be compatible with wide character builds. sub check_for_ORB_init () { return if is_suppressed (); print "Running the ORB_init() wide character incompatibility check\n"; foreach $file (@files_cpp, @files_inl) { if (open (FILE, $file)) { my $disable = 0; my $multi_line; my $not_found_end_line_count= 0; print "Looking at file $file\n" if $opt_d; while () { if (!defined $multi_line) { if (/FUZZ\: disable check_for_ORB_init/) { $disable = 1; next; } elsif (/FUZZ\: enable check_for_ORB_init/) { $disable = 0; next; } elsif ($disable == 0) { s/^\s+//; ## Remove leading space s/\s*(\/\/.*)?$//; ## Remove trailling space and line comments if (s/^([^=]*=)?\s*(CORBA\s*::\s*)?ORB_init\s*//) { $multi_line = $_; ## Rest of the line } else { next; } } } else { $_ =~ s/^\s+//; ## Remove leading space $_ =~ s/\s*(\/\/.*)?$//; ## Remove trailling space and line comments if ($multi_line eq "") { ## Append this line to existing statement. $multi_line = $_; } else { $multi_line .= ' ' . $_; } } my $testing = $multi_line; if ($testing =~ s/^\(([^\"\/\)]*(\"([^\"\\]*(\\.)*)\")?(\/+\*.*?\*\/\s*)*)*\)//) { # $testing has thrown away what we actually want, i.e. # we want to ignore what's left in $testing. $multi_line = substr ($multi_line, 0, -length ($testing)); $multi_line =~ s!/\*.*?\*/! !g; ## Remove any internal /* ... */ comments $multi_line =~ s!\s{2,}! !g; ## collapse multi spaces $multi_line =~ s/^\(\s*//; ## Trim leading ( and space $multi_line =~ s/\s*\)$//; ## Trim trailing space and ) if ($multi_line =~ s/^[^,]*,\s*//) { # If this fails there is only 1 parameter (which we will ignore) # 1st parameter has been removed by the above, split up remaining 2 & 3 $multi_line =~ s/^([^,]*),?\s*//; my $param2 = $1; $param2 =~ s/\s+$//; # Trim trailing spaces print_error ("$file:$.: ORB_init() 2nd parameter requires static_cast(0)") if ($param2 eq '0'); print_error ("$file:$.: ORB_init() 3rd parameter is redundant (default orbID or give as string)") if ($multi_line eq '0'); print_error ("$file:$.: ORB_init() 3rd parameter is redundant (default orbID already \"\")") if ($multi_line eq '""'); } undef $multi_line; $not_found_end_line_count = 0; } elsif ($not_found_end_line_count < 10) { # Limit the search for ( ... ) following ORB_init to ten lines ++$not_found_end_line_count; } else { undef $multi_line; $not_found_end_line_count = 0; } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } # This test checks for the presence of an include for ace/OS.h # which should never occur. Only user code is allowed to include OS.h. sub check_for_include_OS_h () { return if is_suppressed (); print "Running the OS.h inclusion check\n"; foreach $file (@files_h, @files_cpp, @files_inl) { if (open (FILE, $file)) { my $disable = 0; print "Looking at file $file\n" if $opt_d; while () { if (/FUZZ\: disable check_for_include_OS_h/) { $disable = 1; next; } elsif (/FUZZ\: enable check_for_include_OS_h/) { $disable = 0; next; } elsif ($disable == 0 and /^\s*#\s*include\s*<[(ace)|(TAO)]\/.*>/) { print_error ("$file:$.: include used"); } else { if ($disable == 0 and /^\s*#\s*include\s*"ace\/OS.h"/) { print_error ("$file:$.: include ace/OS.h used"); } } } close (FILE); } else { print STDERR "Error: Could not open $file\n"; } } } sub check_for_ace_log_categories () { return if is_suppressed (); print "Running the ACE log categories check\n"; my @macros = qw/HEX_DUMP ERROR ERROR_RETURN ERROR_BREAK DEBUG/; my $macros = join ('|', @macros); for my $f (@files_h, @files_cpp, @files_inl) { my $cat = 'ACE'; $f =~ s!\\!/!g; if ($f =~ /\bace\/(\w+)/) { next if $1 eq 'Log_Msg' || $` =~ /\/protocols\/$/; $cat = 'ACELIB'; } elsif ($f =~ /tao\// && $f !~ /interop-tests\//) { $cat = 'TAOLIB'; } elsif ($f =~ /\/orbsvcs\// && $f !~ /tests|examples/i) { $cat = 'ORBSVCS'; } elsif ($f =~ /tests\/Log_Msg_Test\.cpp/) { next; } if (open (IN, $f)) { print "Looking at file $f for category $cat\n" if $opt_d; my $disable = 0; while () { if (/FUZZ: disable check_for_ace_log_categories/) { $disable = 1; next; } elsif (/FUZZ: enable check_for_ace_log_categories/) { $disable = 0; next; } elsif ($disable == 0 && /\b(ACE|ACELIB|TAOLIB|ORBSVCS)_($macros)\b/g && $1 ne $cat) { print_error ("$f:$.: found log macro $1_$2, " . "expecting ${cat}_$2"); } } close IN; } else { print STDERR "Error: Could not open $f\n"; } } } ############################################################################## use vars qw/$opt_c $opt_d $opt_x $opt_h $opt_l $opt_t $opt_s $opt_m/; if (!getopts ('cdx:hl:t:s:mv') || $opt_h) { print "fuzz.pl [-cdhm] [-l level] [-t test_names] [file1, file2, ...]\n"; print "\n"; print " -c only look at the files passed in\n"; print " -d turn on debugging\n"; print " -x specify comma-separated list of path masks\n"; " (regex) to exclude\n"; print " -h display this help\n"; print " -l level set detection level (default = 5)\n"; print " -t test_names specify comma-separated list of tests to run\n". " this will disable the run level setting\n"; print " -s test_names specify comma-separated list of tests to suppress\n". " this will supplement the run level setting\n"; print " -m only check locally modified files (uses git)\n"; print "======================================================\n"; print "list of the tests that could be run or suppressed:\n"; print < 0) ? 1 : 0; } if ($opt_s) { my @tests = split '\s*,\s*', $opt_s; for my $test (@tests) { $suppressed_tests{$test} = 1; } } print "--------------------Configuration: Fuzz - Level ",$opt_l, "--------------------\n"; check_for_trailing_whitespace () if ($opt_l >= 4); check_for_lack_ACE_OS () if ($opt_l >= 6); check_for_ACE_Guard () if ($opt_l >= 1); check_for_generated_headers () if ($opt_l >= 6); check_for_bad_run_test () if ($opt_l >= 5); check_for_deprecated_macros () if ($opt_l >= 1); check_for_refcountservantbase () if ($opt_l >= 1); check_for_msc_ver_string () if ($opt_l >= 3); check_for_empty_files () if ($opt_l >= 1); check_for_noncvs_files () if ($opt_l >= 1); check_for_streams_include () if ($opt_l >= 6); check_for_dependency_file () if ($opt_l >= 1); check_for_makefile_variable () if ($opt_l >= 1); check_for_inline_in_cpp () if ($opt_l >= 2); check_for_id_string () if ($opt_l >= 1); check_for_newline () if ($opt_l >= 1); check_for_ACE_Thread_Mutex () if ($opt_l >= 1); check_for_ACE_SYNCH_MUTEX () if ($opt_l >= 1); check_for_tab () if ($opt_l >= 1); check_for_exception_spec () if ($opt_l >= 1); check_for_NULL () if ($opt_l >= 1); check_for_inline () if ($opt_l >= 2); check_for_math_include () if ($opt_l >= 3); check_for_synch_include () if ($opt_l >= 6); check_for_line_length () if ($opt_l >= 8); check_for_preprocessor_comments () if ($opt_l >= 7); check_for_tchar () if ($opt_l >= 4); check_for_pre_and_post () if ($opt_l >= 4); check_for_push_and_pop () if ($opt_l >= 4); check_for_versioned_namespace_begin_end () if ($opt_l >= 4); check_for_mismatched_filename () if ($opt_l >= 2); check_for_absolute_ace_wrappers () if ($opt_l >= 3); check_for_bad_ace_trace () if ($opt_l >= 4); check_for_ptr_arith_t () if ($opt_l >= 4); check_for_non_bool_operators () if ($opt_l > 2); check_for_long_file_names () if ($opt_l >= 1); check_for_improper_main_declaration () if ($opt_l >= 1); check_for_TAO_Local_RefCounted_Object () if ($opt_l >= 1); check_for_include_OS_h () if ($opt_l >= 1); check_for_ORB_init () if ($opt_l >= 1); check_for_old_documentation_style () if ($opt_l >= 6); check_for_ace_log_categories () if ($opt_l >= 5); print "\nfuzz.pl - $errors error(s), $warnings warning(s)\n"; exit (1) if $errors > 0;