Commit | Line | Data |
68dc0745 |
1 | =head1 NAME |
2 | |
109f0441 |
3 | perlfaq8 - System Interaction |
68dc0745 |
4 | |
5 | =head1 DESCRIPTION |
6 | |
7 | This section of the Perl FAQ covers questions involving operating |
a6dd486b |
8 | system interaction. Topics include interprocess communication (IPC), |
68dc0745 |
9 | control over the user-interface (keyboard, screen and pointing |
10 | devices), and most anything else not related to data manipulation. |
11 | |
12 | Read the FAQs and documentation specific to the port of perl to your |
46fc3d4c |
13 | operating system (eg, L<perlvms>, L<perlplan9>, ...). These should |
68dc0745 |
14 | contain more detailed information on the vagaries of your perl. |
15 | |
16 | =head2 How do I find out which operating system I'm running under? |
17 | |
8d2e243f |
18 | The C<$^O> variable (C<$OSNAME> if you use C<English>) contains an |
19 | indication of the name of the operating system (not its release |
20 | number) that your perl binary was built for. |
68dc0745 |
21 | |
22 | =head2 How come exec() doesn't return? |
109f0441 |
23 | X<exec> X<system> X<fork> X<open> X<pipe> |
68dc0745 |
24 | |
109f0441 |
25 | (contributed by brian d foy) |
26 | |
27 | The C<exec> function's job is to turn your process into another |
28 | command and never to return. If that's not what you want to do, don't |
29 | use C<exec>. :) |
30 | |
31 | If you want to run an external command and still keep your Perl process |
32 | going, look at a piped C<open>, C<fork>, or C<system>. |
68dc0745 |
33 | |
34 | =head2 How do I do fancy stuff with the keyboard/screen/mouse? |
35 | |
36 | How you access/control keyboards, screens, and pointing devices |
37 | ("mice") is system-dependent. Try the following modules: |
38 | |
39 | =over 4 |
40 | |
41 | =item Keyboard |
42 | |
58103a2e |
43 | Term::Cap Standard perl distribution |
44 | Term::ReadKey CPAN |
45 | Term::ReadLine::Gnu CPAN |
46 | Term::ReadLine::Perl CPAN |
47 | Term::Screen CPAN |
68dc0745 |
48 | |
49 | =item Screen |
50 | |
58103a2e |
51 | Term::Cap Standard perl distribution |
52 | Curses CPAN |
53 | Term::ANSIColor CPAN |
68dc0745 |
54 | |
55 | =item Mouse |
56 | |
58103a2e |
57 | Tk CPAN |
68dc0745 |
58 | |
59 | =back |
60 | |
58103a2e |
61 | Some of these specific cases are shown as examples in other answers |
62 | in this section of the perlfaq. |
c8db1d39 |
63 | |
64 | =head2 How do I print something out in color? |
65 | |
66 | In general, you don't, because you don't know whether |
67 | the recipient has a color-aware display device. If you |
68 | know that they have an ANSI terminal that understands |
3bc3c5be |
69 | color, you can use the C<Term::ANSIColor> module from CPAN: |
c8db1d39 |
70 | |
ac9dac7f |
71 | use Term::ANSIColor; |
72 | print color("red"), "Stop!\n", color("reset"); |
73 | print color("green"), "Go!\n", color("reset"); |
c8db1d39 |
74 | |
75 | Or like this: |
76 | |
ac9dac7f |
77 | use Term::ANSIColor qw(:constants); |
78 | print RED, "Stop!\n", RESET; |
79 | print GREEN, "Go!\n", RESET; |
c8db1d39 |
80 | |
81 | =head2 How do I read just one key without waiting for a return key? |
82 | |
83 | Controlling input buffering is a remarkably system-dependent matter. |
d92eb7b0 |
84 | On many systems, you can just use the B<stty> command as shown in |
c8db1d39 |
85 | L<perlfunc/getc>, but as you see, that's already getting you into |
197aec24 |
86 | portability snags. |
c8db1d39 |
87 | |
ac9dac7f |
88 | open(TTY, "+</dev/tty") or die "no tty: $!"; |
89 | system "stty cbreak </dev/tty >/dev/tty 2>&1"; |
90 | $key = getc(TTY); # perhaps this works |
91 | # OR ELSE |
92 | sysread(TTY, $key, 1); # probably this does |
93 | system "stty -cbreak </dev/tty >/dev/tty 2>&1"; |
c8db1d39 |
94 | |
3bc3c5be |
95 | The C<Term::ReadKey> module from CPAN offers an easy-to-use interface that |
c8db1d39 |
96 | should be more efficient than shelling out to B<stty> for each key. |
97 | It even includes limited support for Windows. |
98 | |
ac9dac7f |
99 | use Term::ReadKey; |
100 | ReadMode('cbreak'); |
101 | $key = ReadKey(0); |
102 | ReadMode('normal'); |
c8db1d39 |
103 | |
a6dd486b |
104 | However, using the code requires that you have a working C compiler |
105 | and can use it to build and install a CPAN module. Here's a solution |
23bec515 |
106 | using the standard C<POSIX> module, which is already on your system |
a6dd486b |
107 | (assuming your system supports POSIX). |
c8db1d39 |
108 | |
ac9dac7f |
109 | use HotKey; |
110 | $key = readkey(); |
c8db1d39 |
111 | |
3bc3c5be |
112 | And here's the C<HotKey> module, which hides the somewhat mystifying calls |
c8db1d39 |
113 | to manipulate the POSIX termios structures. |
114 | |
ac9dac7f |
115 | # HotKey.pm |
116 | package HotKey; |
c8db1d39 |
117 | |
ac9dac7f |
118 | @ISA = qw(Exporter); |
119 | @EXPORT = qw(cbreak cooked readkey); |
c8db1d39 |
120 | |
ac9dac7f |
121 | use strict; |
122 | use POSIX qw(:termios_h); |
123 | my ($term, $oterm, $echo, $noecho, $fd_stdin); |
c8db1d39 |
124 | |
ac9dac7f |
125 | $fd_stdin = fileno(STDIN); |
126 | $term = POSIX::Termios->new(); |
127 | $term->getattr($fd_stdin); |
128 | $oterm = $term->getlflag(); |
c8db1d39 |
129 | |
ac9dac7f |
130 | $echo = ECHO | ECHOK | ICANON; |
131 | $noecho = $oterm & ~$echo; |
c8db1d39 |
132 | |
ac9dac7f |
133 | sub cbreak { |
134 | $term->setlflag($noecho); # ok, so i don't want echo either |
135 | $term->setcc(VTIME, 1); |
136 | $term->setattr($fd_stdin, TCSANOW); |
137 | } |
c8db1d39 |
138 | |
ac9dac7f |
139 | sub cooked { |
140 | $term->setlflag($oterm); |
141 | $term->setcc(VTIME, 0); |
142 | $term->setattr($fd_stdin, TCSANOW); |
143 | } |
c8db1d39 |
144 | |
ac9dac7f |
145 | sub readkey { |
146 | my $key = ''; |
147 | cbreak(); |
148 | sysread(STDIN, $key, 1); |
149 | cooked(); |
150 | return $key; |
151 | } |
c8db1d39 |
152 | |
ac9dac7f |
153 | END { cooked() } |
c8db1d39 |
154 | |
ac9dac7f |
155 | 1; |
c8db1d39 |
156 | |
157 | =head2 How do I check whether input is ready on the keyboard? |
158 | |
159 | The easiest way to do this is to read a key in nonblocking mode with the |
3bc3c5be |
160 | C<Term::ReadKey> module from CPAN, passing it an argument of -1 to indicate |
c8db1d39 |
161 | not to block: |
162 | |
ac9dac7f |
163 | use Term::ReadKey; |
c8db1d39 |
164 | |
ac9dac7f |
165 | ReadMode('cbreak'); |
c8db1d39 |
166 | |
ac9dac7f |
167 | if (defined ($char = ReadKey(-1)) ) { |
168 | # input was waiting and it was $char |
169 | } else { |
170 | # no input was waiting |
171 | } |
c8db1d39 |
172 | |
ac9dac7f |
173 | ReadMode('normal'); # restore normal tty settings |
c8db1d39 |
174 | |
175 | =head2 How do I clear the screen? |
176 | |
109f0441 |
177 | (contributed by brian d foy) |
c8db1d39 |
178 | |
109f0441 |
179 | To clear the screen, you just have to print the special sequence |
180 | that tells the terminal to clear the screen. Once you have that |
181 | sequence, output it when you want to clear the screen. |
c8db1d39 |
182 | |
109f0441 |
183 | You can use the C<Term::ANSIScreen> module to get the special |
184 | sequence. Import the C<cls> function (or the C<:screen> tag): |
c8db1d39 |
185 | |
109f0441 |
186 | use Term::ANSIScreen qw(cls); |
187 | my $clear_screen = cls(); |
188 | |
189 | print $clear_screen; |
c8db1d39 |
190 | |
109f0441 |
191 | The C<Term::Cap> module can also get the special sequence if you want |
192 | to deal with the low-level details of terminal control. The C<Tputs> |
193 | method returns the string for the given capability: |
c8db1d39 |
194 | |
ac9dac7f |
195 | use Term::Cap; |
109f0441 |
196 | |
197 | $terminal = Term::Cap->Tgetent( { OSPEED => 9600 } ); |
ac9dac7f |
198 | $clear_string = $terminal->Tputs('cl'); |
c8db1d39 |
199 | |
109f0441 |
200 | print $clear_screen; |
201 | |
202 | On Windows, you can use the C<Win32::Console> module. After creating |
203 | an object for the output filehandle you want to affect, call the |
204 | C<Cls> method: |
205 | |
206 | Win32::Console; |
207 | |
208 | $OUT = Win32::Console->new(STD_OUTPUT_HANDLE); |
209 | my $clear_string = $OUT->Cls; |
210 | |
211 | print $clear_screen; |
212 | |
213 | If you have a command-line program that does the job, you can call |
214 | it in backticks to capture whatever it outputs so you can use it |
215 | later: |
216 | |
217 | $clear_string = `clear`; |
218 | |
219 | print $clear_string; |
220 | |
c8db1d39 |
221 | =head2 How do I get the screen size? |
222 | |
3bc3c5be |
223 | If you have C<Term::ReadKey> module installed from CPAN, |
c8db1d39 |
224 | you can use it to fetch the width and height in characters |
225 | and in pixels: |
226 | |
ac9dac7f |
227 | use Term::ReadKey; |
228 | ($wchar, $hchar, $wpixels, $hpixels) = GetTerminalSize(); |
c8db1d39 |
229 | |
197aec24 |
230 | This is more portable than the raw C<ioctl>, but not as |
c8db1d39 |
231 | illustrative: |
232 | |
ac9dac7f |
233 | require 'sys/ioctl.ph'; |
234 | die "no TIOCGWINSZ " unless defined &TIOCGWINSZ; |
235 | open(TTY, "+</dev/tty") or die "No tty: $!"; |
236 | unless (ioctl(TTY, &TIOCGWINSZ, $winsize='')) { |
237 | die sprintf "$0: ioctl TIOCGWINSZ (%08x: $!)\n", &TIOCGWINSZ; |
238 | } |
239 | ($row, $col, $xpixel, $ypixel) = unpack('S4', $winsize); |
240 | print "(row,col) = ($row,$col)"; |
241 | print " (xpixel,ypixel) = ($xpixel,$ypixel)" if $xpixel || $ypixel; |
242 | print "\n"; |
c8db1d39 |
243 | |
68dc0745 |
244 | =head2 How do I ask the user for a password? |
245 | |
246 | (This question has nothing to do with the web. See a different |
247 | FAQ for that.) |
248 | |
a6dd486b |
249 | There's an example of this in L<perlfunc/crypt>). First, you put the |
250 | terminal into "no echo" mode, then just read the password normally. |
3bc3c5be |
251 | You may do this with an old-style C<ioctl()> function, POSIX terminal |
b73a15ae |
252 | control (see L<POSIX> or its documentation the Camel Book), or a call |
68dc0745 |
253 | to the B<stty> program, with varying degrees of portability. |
254 | |
3bc3c5be |
255 | You can also do this for most systems using the C<Term::ReadKey> module |
68dc0745 |
256 | from CPAN, which is easier to use and in theory more portable. |
257 | |
ac9dac7f |
258 | use Term::ReadKey; |
c8db1d39 |
259 | |
ac9dac7f |
260 | ReadMode('noecho'); |
261 | $password = ReadLine(0); |
c8db1d39 |
262 | |
68dc0745 |
263 | =head2 How do I read and write the serial port? |
264 | |
265 | This depends on which operating system your program is running on. In |
266 | the case of Unix, the serial ports will be accessible through files in |
a6dd486b |
267 | /dev; on other systems, device names will doubtless differ. |
68dc0745 |
268 | Several problem areas common to all device interaction are the |
a6dd486b |
269 | following: |
68dc0745 |
270 | |
271 | =over 4 |
272 | |
273 | =item lockfiles |
274 | |
275 | Your system may use lockfiles to control multiple access. Make sure |
a6dd486b |
276 | you follow the correct protocol. Unpredictable behavior can result |
68dc0745 |
277 | from multiple processes reading from one device. |
278 | |
279 | =item open mode |
280 | |
281 | If you expect to use both read and write operations on the device, |
282 | you'll have to open it for update (see L<perlfunc/"open"> for |
283 | details). You may wish to open it without running the risk of |
3bc3c5be |
284 | blocking by using C<sysopen()> and C<O_RDWR|O_NDELAY|O_NOCTTY> from the |
285 | C<Fcntl> module (part of the standard perl distribution). See |
68dc0745 |
286 | L<perlfunc/"sysopen"> for more on this approach. |
287 | |
288 | =item end of line |
289 | |
290 | Some devices will be expecting a "\r" at the end of each line rather |
291 | than a "\n". In some ports of perl, "\r" and "\n" are different from |
292 | their usual (Unix) ASCII values of "\012" and "\015". You may have to |
293 | give the numeric values you want directly, using octal ("\015"), hex |
294 | ("0x0D"), or as a control-character specification ("\cM"). |
295 | |
ac9dac7f |
296 | print DEV "atv1\012"; # wrong, for some devices |
297 | print DEV "atv1\015"; # right, for some devices |
68dc0745 |
298 | |
a6dd486b |
299 | Even though with normal text files a "\n" will do the trick, there is |
68dc0745 |
300 | still no unified scheme for terminating a line that is portable |
46fc3d4c |
301 | between Unix, DOS/Win, and Macintosh, except to terminate I<ALL> line |
68dc0745 |
302 | ends with "\015\012", and strip what you don't need from the output. |
303 | This applies especially to socket I/O and autoflushing, discussed |
304 | next. |
305 | |
306 | =item flushing output |
307 | |
3bc3c5be |
308 | If you expect characters to get to your device when you C<print()> them, |
309 | you'll want to autoflush that filehandle. You can use C<select()> |
197aec24 |
310 | and the C<$|> variable to control autoflushing (see L<perlvar/$E<verbar>> |
b432a672 |
311 | and L<perlfunc/select>, or L<perlfaq5>, "How do I flush/unbuffer an |
312 | output filehandle? Why must I do this?"): |
68dc0745 |
313 | |
ac9dac7f |
314 | $oldh = select(DEV); |
315 | $| = 1; |
316 | select($oldh); |
68dc0745 |
317 | |
318 | You'll also see code that does this without a temporary variable, as in |
319 | |
ac9dac7f |
320 | select((select(DEV), $| = 1)[0]); |
68dc0745 |
321 | |
c8db1d39 |
322 | Or if you don't mind pulling in a few thousand lines |
3bc3c5be |
323 | of code just because you're afraid of a little C<$|> variable: |
c8db1d39 |
324 | |
ac9dac7f |
325 | use IO::Handle; |
326 | DEV->autoflush(1); |
c8db1d39 |
327 | |
68dc0745 |
328 | As mentioned in the previous item, this still doesn't work when using |
8305e449 |
329 | socket I/O between Unix and Macintosh. You'll need to hard code your |
68dc0745 |
330 | line terminators, in that case. |
331 | |
332 | =item non-blocking input |
333 | |
3bc3c5be |
334 | If you are doing a blocking C<read()> or C<sysread()>, you'll have to |
68dc0745 |
335 | arrange for an alarm handler to provide a timeout (see |
336 | L<perlfunc/alarm>). If you have a non-blocking open, you'll likely |
337 | have a non-blocking read, which means you may have to use a 4-arg |
3bc3c5be |
338 | C<select()> to determine whether I/O is ready on that device (see |
68dc0745 |
339 | L<perlfunc/"select">. |
340 | |
341 | =back |
342 | |
8d2e243f |
343 | While trying to read from his caller-id box, the notorious Jamie |
344 | Zawinski C<< <jwz@netscape.com> >>, after much gnashing of teeth and |
345 | fighting with C<sysread>, C<sysopen>, POSIX's C<tcgetattr> business, |
346 | and various other functions that go bump in the night, finally came up |
347 | with this: |
c8db1d39 |
348 | |
ac9dac7f |
349 | sub open_modem { |
350 | use IPC::Open2; |
351 | my $stty = `/bin/stty -g`; |
352 | open2( \*MODEM_IN, \*MODEM_OUT, "cu -l$modem_device -s2400 2>&1"); |
353 | # starting cu hoses /dev/tty's stty settings, even when it has |
354 | # been opened on a pipe... |
355 | system("/bin/stty $stty"); |
356 | $_ = <MODEM_IN>; |
357 | chomp; |
358 | if ( !m/^Connected/ ) { |
359 | print STDERR "$0: cu printed `$_' instead of `Connected'\n"; |
360 | } |
c8db1d39 |
361 | } |
c8db1d39 |
362 | |
68dc0745 |
363 | =head2 How do I decode encrypted password files? |
364 | |
365 | You spend lots and lots of money on dedicated hardware, but this is |
366 | bound to get you talked about. |
367 | |
a6dd486b |
368 | Seriously, you can't if they are Unix password files--the Unix |
ac003c96 |
369 | password system employs one-way encryption. It's more like hashing |
370 | than encryption. The best you can do is check whether something else |
371 | hashes to the same string. You can't turn a hash back into the |
372 | original string. Programs like Crack can forcibly (and intelligently) |
373 | try to guess passwords, but don't (can't) guarantee quick success. |
68dc0745 |
374 | |
375 | If you're worried about users selecting bad passwords, you should |
376 | proactively check when they try to change their password (by modifying |
377 | passwd(1), for example). |
378 | |
379 | =head2 How do I start a process in the background? |
380 | |
109f0441 |
381 | (contributed by brian d foy) |
49d635f9 |
382 | |
109f0441 |
383 | There's not a single way to run code in the background so you don't |
384 | have to wait for it to finish before your program moves on to other |
385 | tasks. Process management depends on your particular operating system, |
386 | and many of the techniques are in L<perlipc>. |
387 | |
3bc3c5be |
388 | Several CPAN modules may be able to help, including C<IPC::Open2> or |
8d2e243f |
389 | C<IPC::Open3>, C<IPC::Run>, C<Parallel::Jobs>, |
390 | C<Parallel::ForkManager>, C<POE>, C<Proc::Background>, and |
391 | C<Win32::Process>. There are many other modules you might use, so |
392 | check those namespaces for other options too. |
109f0441 |
393 | |
23bec515 |
394 | If you are on a Unix-like system, you might be able to get away with a |
109f0441 |
395 | system call where you put an C<&> on the end of the command: |
68dc0745 |
396 | |
ac9dac7f |
397 | system("cmd &") |
68dc0745 |
398 | |
109f0441 |
399 | You can also try using C<fork>, as described in L<perlfunc> (although |
400 | this is the same thing that many of the modules will do for you). |
68dc0745 |
401 | |
402 | =over 4 |
403 | |
c8db1d39 |
404 | =item STDIN, STDOUT, and STDERR are shared |
68dc0745 |
405 | |
406 | Both the main process and the backgrounded one (the "child" process) |
407 | share the same STDIN, STDOUT and STDERR filehandles. If both try to |
408 | access them at once, strange things can happen. You may want to close |
409 | or reopen these for the child. You can get around this with |
410 | C<open>ing a pipe (see L<perlfunc/"open">) but on some systems this |
411 | means that the child process cannot outlive the parent. |
412 | |
413 | =item Signals |
414 | |
415 | You'll have to catch the SIGCHLD signal, and possibly SIGPIPE too. |
416 | SIGCHLD is sent when the backgrounded process finishes. SIGPIPE is |
417 | sent when you write to a filehandle whose child process has closed (an |
418 | untrapped SIGPIPE can cause your program to silently die). This is |
419 | not an issue with C<system("cmd&")>. |
420 | |
421 | =item Zombies |
422 | |
49d635f9 |
423 | You have to be prepared to "reap" the child process when it finishes. |
68dc0745 |
424 | |
ac9dac7f |
425 | $SIG{CHLD} = sub { wait }; |
197aec24 |
426 | |
ac9dac7f |
427 | $SIG{CHLD} = 'IGNORE'; |
197aec24 |
428 | |
3bc3c5be |
429 | You can also use a double fork. You immediately C<wait()> for your |
430 | first child, and the init daemon will C<wait()> for your grandchild once |
49d635f9 |
431 | it exits. |
432 | |
433 | unless ($pid = fork) { |
ac9dac7f |
434 | unless (fork) { |
435 | exec "what you really wanna do"; |
436 | die "exec failed!"; |
437 | } |
438 | exit 0; |
439 | } |
440 | waitpid($pid, 0); |
68dc0745 |
441 | |
442 | See L<perlipc/"Signals"> for other examples of code to do this. |
443 | Zombies are not an issue with C<system("prog &")>. |
444 | |
445 | =back |
446 | |
447 | =head2 How do I trap control characters/signals? |
448 | |
c8db1d39 |
449 | You don't actually "trap" a control character. Instead, that character |
450 | generates a signal which is sent to your terminal's currently |
451 | foregrounded process group, which you then trap in your process. |
b73a15ae |
452 | Signals are documented in L<perlipc/"Signals"> and the |
b432a672 |
453 | section on "Signals" in the Camel. |
68dc0745 |
454 | |
3bc3c5be |
455 | You can set the values of the C<%SIG> hash to be the functions you want |
456 | to handle the signal. After perl catches the signal, it looks in C<%SIG> |
c98c5709 |
457 | for a key with the same name as the signal, then calls the subroutine |
458 | value for that key. |
459 | |
460 | # as an anonymous subroutine |
6670e5e7 |
461 | |
c98c5709 |
462 | $SIG{INT} = sub { syswrite(STDERR, "ouch\n", 5 ) }; |
6670e5e7 |
463 | |
c98c5709 |
464 | # or a reference to a function |
6670e5e7 |
465 | |
c98c5709 |
466 | $SIG{INT} = \&ouch; |
6670e5e7 |
467 | |
c98c5709 |
468 | # or the name of the function as a string |
6670e5e7 |
469 | |
470 | $SIG{INT} = "ouch"; |
c98c5709 |
471 | |
472 | Perl versions before 5.8 had in its C source code signal handlers which |
473 | would catch the signal and possibly run a Perl function that you had set |
3bc3c5be |
474 | in C<%SIG>. This violated the rules of signal handling at that level |
475 | causing perl to dump core. Since version 5.8.0, perl looks at C<%SIG> |
476 | B<after> the signal has been caught, rather than while it is being caught. |
c98c5709 |
477 | Previous versions of this answer were incorrect. |
68dc0745 |
478 | |
68dc0745 |
479 | =head2 How do I modify the shadow password file on a Unix system? |
480 | |
a6dd486b |
481 | If perl was installed correctly and your shadow library was written |
3bc3c5be |
482 | properly, the C<getpw*()> functions described in L<perlfunc> should in |
c8db1d39 |
483 | theory provide (read-only) access to entries in the shadow password |
484 | file. To change the file, make a new shadow password file (the format |
197aec24 |
485 | varies from system to system--see L<passwd> for specifics) and use |
3bc3c5be |
486 | C<pwd_mkdb(8)> to install it (see L<pwd_mkdb> for more details). |
68dc0745 |
487 | |
488 | =head2 How do I set the time and date? |
489 | |
490 | Assuming you're running under sufficient permissions, you should be |
3bc3c5be |
491 | able to set the system-wide date and time by running the C<date(1)> |
68dc0745 |
492 | program. (There is no way to set the time and date on a per-process |
493 | basis.) This mechanism will work for Unix, MS-DOS, Windows, and NT; |
494 | the VMS equivalent is C<set time>. |
495 | |
8305e449 |
496 | However, if all you want to do is change your time zone, you can |
68dc0745 |
497 | probably get away with setting an environment variable: |
498 | |
23bec515 |
499 | $ENV{TZ} = "MST7MDT"; # Unixish |
ac9dac7f |
500 | $ENV{'SYS$TIMEZONE_DIFFERENTIAL'}="-5" # vms |
501 | system "trn comp.lang.perl.misc"; |
68dc0745 |
502 | |
503 | =head2 How can I sleep() or alarm() for under a second? |
c195e131 |
504 | X<Time::HiRes> X<BSD::Itimer> X<sleep> X<select> |
68dc0745 |
505 | |
c195e131 |
506 | If you want finer granularity than the 1 second that the C<sleep()> |
507 | function provides, the easiest way is to use the C<select()> function as |
508 | documented in L<perlfunc/"select">. Try the C<Time::HiRes> and |
509 | the C<BSD::Itimer> modules (available from CPAN, and starting from |
510 | Perl 5.8 C<Time::HiRes> is part of the standard distribution). |
68dc0745 |
511 | |
512 | =head2 How can I measure time under a second? |
c195e131 |
513 | X<Time::HiRes> X<BSD::Itimer> X<sleep> X<select> |
68dc0745 |
514 | |
c195e131 |
515 | (contributed by brian d foy) |
68dc0745 |
516 | |
c195e131 |
517 | The C<Time::HiRes> module (part of the standard distribution as of |
518 | Perl 5.8) measures time with the C<gettimeofday()> system call, which |
519 | returns the time in microseconds since the epoch. If you can't install |
520 | C<Time::HiRes> for older Perls and you are on a Unixish system, you |
521 | may be able to call C<gettimeofday(2)> directly. See |
522 | L<perlfunc/syscall>. |
68dc0745 |
523 | |
524 | =head2 How can I do an atexit() or setjmp()/longjmp()? (Exception handling) |
525 | |
d12d61cf |
526 | You can use the C<END> block to simulate C<atexit()>. Each package's |
527 | C<END> block is called when the program or thread ends See L<perlmod> |
528 | manpage for more details about C<END> blocks. |
c8db1d39 |
529 | |
d12d61cf |
530 | For example, you can use this to make sure your filter program managed |
531 | to finish its output without filling up the disk: |
c8db1d39 |
532 | |
ac9dac7f |
533 | END { |
534 | close(STDOUT) || die "stdout close failed: $!"; |
535 | } |
c8db1d39 |
536 | |
3bc3c5be |
537 | The C<END> block isn't called when untrapped signals kill the program, |
538 | though, so if you use C<END> blocks you should also use |
68dc0745 |
539 | |
540 | use sigtrap qw(die normal-signals); |
541 | |
8d2e243f |
542 | Perl's exception-handling mechanism is its C<eval()> operator. You |
d12d61cf |
543 | can use C<eval()> as C<setjmp> and C<die()> as C<longjmp>. For |
8d2e243f |
544 | details of this, see the section on signals, especially the time-out |
545 | handler for a blocking C<flock()> in L<perlipc/"Signals"> or the |
d12d61cf |
546 | section on "Signals" in I<Programming Perl>. |
68dc0745 |
547 | |
d12d61cf |
548 | If exception handling is all you're interested in, use one of the |
549 | many CPAN modules that handle exceptions, such as C<Try::Tiny>. |
68dc0745 |
550 | |
d12d61cf |
551 | If you want the C<atexit()> syntax (and an C<rmexit()> as well), try the |
552 | C<AtExit> module available from CPAN. |
68dc0745 |
553 | |
a6dd486b |
554 | =head2 Why doesn't my sockets program work under System V (Solaris)? What does the error message "Protocol not supported" mean? |
68dc0745 |
555 | |
556 | Some Sys-V based systems, notably Solaris 2.X, redefined some of the |
557 | standard socket constants. Since these were constant across all |
558 | architectures, they were often hardwired into perl code. The proper |
559 | way to deal with this is to "use Socket" to get the correct values. |
560 | |
561 | Note that even though SunOS and Solaris are binary compatible, these |
562 | values are different. Go figure. |
563 | |
564 | =head2 How can I call my system's unique C functions from Perl? |
565 | |
a6dd486b |
566 | In most cases, you write an external module to do it--see the answer |
68dc0745 |
567 | to "Where can I learn about linking C with Perl? [h2xs, xsubpp]". |
568 | However, if the function is a system call, and your system supports |
3bc3c5be |
569 | C<syscall()>, you can use the C<syscall> function (documented in |
68dc0745 |
570 | L<perlfunc>). |
571 | |
572 | Remember to check the modules that came with your distribution, and |
ac9dac7f |
573 | CPAN as well--someone may already have written a module to do it. On |
3bc3c5be |
574 | Windows, try C<Win32::API>. On Macs, try C<Mac::Carbon>. If no module |
197aec24 |
575 | has an interface to the C function, you can inline a bit of C in your |
3bc3c5be |
576 | Perl source with C<Inline::C>. |
68dc0745 |
577 | |
578 | =head2 Where do I get the include files to do ioctl() or syscall()? |
579 | |
3bc3c5be |
580 | Historically, these would be generated by the C<h2ph> tool, part of the |
581 | standard perl distribution. This program converts C<cpp(1)> directives |
68dc0745 |
582 | in C header files to files containing subroutine definitions, like |
3bc3c5be |
583 | C<&SYS_getitimer>, which you can use as arguments to your functions. |
68dc0745 |
584 | It doesn't work perfectly, but it usually gets most of the job done. |
585 | Simple files like F<errno.h>, F<syscall.h>, and F<socket.h> were fine, |
3bc3c5be |
586 | but the hard ones like F<ioctl.h> nearly always need to be hand-edited. |
68dc0745 |
587 | Here's how to install the *.ph files: |
588 | |
ac9dac7f |
589 | 1. become super-user |
590 | 2. cd /usr/include |
591 | 3. h2ph *.h */*.h |
68dc0745 |
592 | |
593 | If your system supports dynamic loading, for reasons of portability and |
3bc3c5be |
594 | sanity you probably ought to use C<h2xs> (also part of the standard perl |
68dc0745 |
595 | distribution). This tool converts C header files to Perl extensions. |
3bc3c5be |
596 | See L<perlxstut> for how to get started with C<h2xs>. |
68dc0745 |
597 | |
598 | If your system doesn't support dynamic loading, you still probably |
3bc3c5be |
599 | ought to use C<h2xs>. See L<perlxstut> and L<ExtUtils::MakeMaker> for |
68dc0745 |
600 | more information (in brief, just use B<make perl> instead of a plain |
601 | B<make> to rebuild perl with a new static extension). |
602 | |
603 | =head2 Why do setuid perl scripts complain about kernel problems? |
604 | |
605 | Some operating systems have bugs in the kernel that make setuid |
606 | scripts inherently insecure. Perl gives you a number of options |
607 | (described in L<perlsec>) to work around such systems. |
608 | |
609 | =head2 How can I open a pipe both to and from a command? |
610 | |
8d2e243f |
611 | The C<IPC::Open2> module (part of the standard perl distribution) is |
612 | an easy-to-use approach that internally uses C<pipe()>, C<fork()>, and |
613 | C<exec()> to do the job. Make sure you read the deadlock warnings in |
614 | its documentation, though (see L<IPC::Open2>). See |
197aec24 |
615 | L<perlipc/"Bidirectional Communication with Another Process"> and |
13a2d996 |
616 | L<perlipc/"Bidirectional Communication with Yourself"> |
c8db1d39 |
617 | |
3bc3c5be |
618 | You may also use the C<IPC::Open3> module (part of the standard perl |
c8db1d39 |
619 | distribution), but be warned that it has a different order of |
3bc3c5be |
620 | arguments from C<IPC::Open2> (see L<IPC::Open3>). |
68dc0745 |
621 | |
3fe9a6f1 |
622 | =head2 Why can't I get the output of a command with system()? |
623 | |
3bc3c5be |
624 | You're confusing the purpose of C<system()> and backticks (``). C<system()> |
46fc3d4c |
625 | runs a command and returns exit status information (as a 16 bit value: |
c8db1d39 |
626 | the low 7 bits are the signal the process died from, if any, and |
46fc3d4c |
627 | the high 8 bits are the actual exit value). Backticks (``) run a |
3fe9a6f1 |
628 | command and return what it sent to STDOUT. |
629 | |
ac9dac7f |
630 | $exit_status = system("mail-users"); |
631 | $output_string = `ls`; |
3fe9a6f1 |
632 | |
68dc0745 |
633 | =head2 How can I capture STDERR from an external command? |
634 | |
635 | There are three basic ways of running external commands: |
636 | |
ac9dac7f |
637 | system $cmd; # using system() |
638 | $output = `$cmd`; # using backticks (``) |
639 | open (PIPE, "cmd |"); # using open() |
68dc0745 |
640 | |
3bc3c5be |
641 | With C<system()>, both STDOUT and STDERR will go the same place as the |
642 | script's STDOUT and STDERR, unless the C<system()> command redirects them. |
643 | Backticks and C<open()> read B<only> the STDOUT of your command. |
68dc0745 |
644 | |
3bc3c5be |
645 | You can also use the C<open3()> function from C<IPC::Open3>. Benjamin |
49d635f9 |
646 | Goldberg provides some sample code: |
647 | |
648 | To capture a program's STDOUT, but discard its STDERR: |
649 | |
ac9dac7f |
650 | use IPC::Open3; |
651 | use File::Spec; |
652 | use Symbol qw(gensym); |
653 | open(NULL, ">", File::Spec->devnull); |
654 | my $pid = open3(gensym, \*PH, ">&NULL", "cmd"); |
655 | while( <PH> ) { } |
656 | waitpid($pid, 0); |
49d635f9 |
657 | |
658 | To capture a program's STDERR, but discard its STDOUT: |
659 | |
ac9dac7f |
660 | use IPC::Open3; |
661 | use File::Spec; |
662 | use Symbol qw(gensym); |
663 | open(NULL, ">", File::Spec->devnull); |
664 | my $pid = open3(gensym, ">&NULL", \*PH, "cmd"); |
665 | while( <PH> ) { } |
666 | waitpid($pid, 0); |
49d635f9 |
667 | |
668 | To capture a program's STDERR, and let its STDOUT go to our own STDERR: |
669 | |
ac9dac7f |
670 | use IPC::Open3; |
671 | use Symbol qw(gensym); |
672 | my $pid = open3(gensym, ">&STDERR", \*PH, "cmd"); |
673 | while( <PH> ) { } |
674 | waitpid($pid, 0); |
49d635f9 |
675 | |
676 | To read both a command's STDOUT and its STDERR separately, you can |
677 | redirect them to temp files, let the command run, then read the temp |
678 | files: |
679 | |
ac9dac7f |
680 | use IPC::Open3; |
681 | use Symbol qw(gensym); |
682 | use IO::File; |
683 | local *CATCHOUT = IO::File->new_tmpfile; |
684 | local *CATCHERR = IO::File->new_tmpfile; |
685 | my $pid = open3(gensym, ">&CATCHOUT", ">&CATCHERR", "cmd"); |
686 | waitpid($pid, 0); |
687 | seek $_, 0, 0 for \*CATCHOUT, \*CATCHERR; |
688 | while( <CATCHOUT> ) {} |
689 | while( <CATCHERR> ) {} |
49d635f9 |
690 | |
3bc3c5be |
691 | But there's no real need for B<both> to be tempfiles... the following |
49d635f9 |
692 | should work just as well, without deadlocking: |
693 | |
ac9dac7f |
694 | use IPC::Open3; |
695 | use Symbol qw(gensym); |
696 | use IO::File; |
697 | local *CATCHERR = IO::File->new_tmpfile; |
698 | my $pid = open3(gensym, \*CATCHOUT, ">&CATCHERR", "cmd"); |
699 | while( <CATCHOUT> ) {} |
700 | waitpid($pid, 0); |
701 | seek CATCHERR, 0, 0; |
702 | while( <CATCHERR> ) {} |
49d635f9 |
703 | |
704 | And it'll be faster, too, since we can begin processing the program's |
705 | stdout immediately, rather than waiting for the program to finish. |
706 | |
68dc0745 |
707 | With any of these, you can change file descriptors before the call: |
708 | |
ac9dac7f |
709 | open(STDOUT, ">logfile"); |
710 | system("ls"); |
68dc0745 |
711 | |
712 | or you can use Bourne shell file-descriptor redirection: |
713 | |
ac9dac7f |
714 | $output = `$cmd 2>some_file`; |
715 | open (PIPE, "cmd 2>some_file |"); |
68dc0745 |
716 | |
717 | You can also use file-descriptor redirection to make STDERR a |
718 | duplicate of STDOUT: |
719 | |
ac9dac7f |
720 | $output = `$cmd 2>&1`; |
721 | open (PIPE, "cmd 2>&1 |"); |
68dc0745 |
722 | |
723 | Note that you I<cannot> simply open STDERR to be a dup of STDOUT |
724 | in your Perl program and avoid calling the shell to do the redirection. |
725 | This doesn't work: |
726 | |
ac9dac7f |
727 | open(STDERR, ">&STDOUT"); |
728 | $alloutput = `cmd args`; # stderr still escapes |
68dc0745 |
729 | |
3bc3c5be |
730 | This fails because the C<open()> makes STDERR go to where STDOUT was |
731 | going at the time of the C<open()>. The backticks then make STDOUT go to |
68dc0745 |
732 | a string, but don't change STDERR (which still goes to the old |
733 | STDOUT). |
734 | |
3bc3c5be |
735 | Note that you I<must> use Bourne shell (C<sh(1)>) redirection syntax in |
736 | backticks, not C<csh(1)>! Details on why Perl's C<system()> and backtick |
06a5f41f |
737 | and pipe opens all use the Bourne shell are in the |
738 | F<versus/csh.whynot> article in the "Far More Than You Ever Wanted To |
49d635f9 |
739 | Know" collection in http://www.cpan.org/misc/olddoc/FMTEYEWTK.tgz . To |
06a5f41f |
740 | capture a command's STDERR and STDOUT together: |
68dc0745 |
741 | |
ac9dac7f |
742 | $output = `cmd 2>&1`; # either with backticks |
743 | $pid = open(PH, "cmd 2>&1 |"); # or with an open pipe |
744 | while (<PH>) { } # plus a read |
c8db1d39 |
745 | |
746 | To capture a command's STDOUT but discard its STDERR: |
747 | |
ac9dac7f |
748 | $output = `cmd 2>/dev/null`; # either with backticks |
749 | $pid = open(PH, "cmd 2>/dev/null |"); # or with an open pipe |
750 | while (<PH>) { } # plus a read |
c8db1d39 |
751 | |
752 | To capture a command's STDERR but discard its STDOUT: |
753 | |
ac9dac7f |
754 | $output = `cmd 2>&1 1>/dev/null`; # either with backticks |
755 | $pid = open(PH, "cmd 2>&1 1>/dev/null |"); # or with an open pipe |
756 | while (<PH>) { } # plus a read |
c8db1d39 |
757 | |
758 | To exchange a command's STDOUT and STDERR in order to capture the STDERR |
759 | but leave its STDOUT to come out our old STDERR: |
760 | |
ac9dac7f |
761 | $output = `cmd 3>&1 1>&2 2>&3 3>&-`; # either with backticks |
762 | $pid = open(PH, "cmd 3>&1 1>&2 2>&3 3>&-|");# or with an open pipe |
763 | while (<PH>) { } # plus a read |
c8db1d39 |
764 | |
765 | To read both a command's STDOUT and its STDERR separately, it's easiest |
2359510d |
766 | to redirect them separately to files, and then read from those files |
767 | when the program is done: |
c8db1d39 |
768 | |
ac9dac7f |
769 | system("program args 1>program.stdout 2>program.stderr"); |
c8db1d39 |
770 | |
771 | Ordering is important in all these examples. That's because the shell |
772 | processes file descriptor redirections in strictly left to right order. |
773 | |
ac9dac7f |
774 | system("prog args 1>tmpfile 2>&1"); |
775 | system("prog args 2>&1 1>tmpfile"); |
c8db1d39 |
776 | |
777 | The first command sends both standard out and standard error to the |
778 | temporary file. The second command sends only the old standard output |
779 | there, and the old standard error shows up on the old standard out. |
68dc0745 |
780 | |
781 | =head2 Why doesn't open() return an error when a pipe open fails? |
782 | |
3bc3c5be |
783 | If the second argument to a piped C<open()> contains shell |
784 | metacharacters, perl C<fork()>s, then C<exec()>s a shell to decode the |
dfdf0730 |
785 | metacharacters and eventually run the desired program. If the program |
786 | couldn't be run, it's the shell that gets the message, not Perl. All |
787 | your Perl program can find out is whether the shell itself could be |
788 | successfully started. You can still capture the shell's STDERR and |
789 | check it for error messages. See L<"How can I capture STDERR from an |
790 | external command?"> elsewhere in this document, or use the |
3bc3c5be |
791 | C<IPC::Open3> module. |
dfdf0730 |
792 | |
3bc3c5be |
793 | If there are no shell metacharacters in the argument of C<open()>, Perl |
dfdf0730 |
794 | runs the command directly, without using the shell, and can correctly |
795 | report whether the command started. |
68dc0745 |
796 | |
797 | =head2 What's wrong with using backticks in a void context? |
798 | |
799 | Strictly speaking, nothing. Stylistically speaking, it's not a good |
dfdf0730 |
800 | way to write maintainable code. Perl has several operators for |
801 | running external commands. Backticks are one; they collect the output |
802 | from the command for use in your program. The C<system> function is |
197aec24 |
803 | another; it doesn't do this. |
68dc0745 |
804 | |
dfdf0730 |
805 | Writing backticks in your program sends a clear message to the readers |
806 | of your code that you wanted to collect the output of the command. |
807 | Why send a clear message that isn't true? |
68dc0745 |
808 | |
809 | Consider this line: |
810 | |
ac9dac7f |
811 | `cat /etc/termcap`; |
68dc0745 |
812 | |
dfdf0730 |
813 | You forgot to check C<$?> to see whether the program even ran |
814 | correctly. Even if you wrote |
68dc0745 |
815 | |
ac9dac7f |
816 | print `cat /etc/termcap`; |
68dc0745 |
817 | |
a6dd486b |
818 | this code could and probably should be written as |
68dc0745 |
819 | |
ac9dac7f |
820 | system("cat /etc/termcap") == 0 |
68dc0745 |
821 | or die "cat program failed!"; |
822 | |
ee891a00 |
823 | which will echo the cat command's output as it is generated, instead |
824 | of waiting until the program has completed to print it out. It also |
825 | checks the return value. |
68dc0745 |
826 | |
ac9dac7f |
827 | C<system> also provides direct control over whether shell wildcard |
68dc0745 |
828 | processing may take place, whereas backticks do not. |
829 | |
830 | =head2 How can I call backticks without shell processing? |
831 | |
49d635f9 |
832 | This is a bit tricky. You can't simply write the command |
833 | like this: |
68dc0745 |
834 | |
ac9dac7f |
835 | @ok = `grep @opts '$search_string' @filenames`; |
68dc0745 |
836 | |
ac003c96 |
837 | As of Perl 5.8.0, you can use C<open()> with multiple arguments. |
838 | Just like the list forms of C<system()> and C<exec()>, no shell |
49d635f9 |
839 | escapes happen. |
840 | |
ac9dac7f |
841 | open( GREP, "-|", 'grep', @opts, $search_string, @filenames ); |
842 | chomp(@ok = <GREP>); |
843 | close GREP; |
49d635f9 |
844 | |
845 | You can also: |
68dc0745 |
846 | |
ac9dac7f |
847 | my @ok = (); |
848 | if (open(GREP, "-|")) { |
849 | while (<GREP>) { |
850 | chomp; |
851 | push(@ok, $_); |
ac003c96 |
852 | } |
853 | close GREP; |
ac9dac7f |
854 | } else { |
855 | exec 'grep', @opts, $search_string, @filenames; |
856 | } |
68dc0745 |
857 | |
ac003c96 |
858 | Just as with C<system()>, no shell escapes happen when you C<exec()> a |
859 | list. Further examples of this can be found in L<perlipc/"Safe Pipe |
860 | Opens">. |
68dc0745 |
861 | |
ac003c96 |
862 | Note that if you're using Windows, no solution to this vexing issue is |
863 | even possible. Even if Perl were to emulate C<fork()>, you'd still be |
864 | stuck, because Windows does not have an argc/argv-style API. |
c8db1d39 |
865 | |
54310121 |
866 | =head2 Why can't my script read from STDIN after I gave it EOF (^D on Unix, ^Z on MS-DOS)? |
68dc0745 |
867 | |
f12f5f55 |
868 | This happens only if your perl is compiled to use stdio instead of |
23bec515 |
869 | perlio, which is the default. Some (maybe all?) stdios set error and |
3bc3c5be |
870 | eof flags that you may need to clear. The C<POSIX> module defines |
871 | C<clearerr()> that you can use. That is the technically correct way to |
f12f5f55 |
872 | do it. Here are some less reliable workarounds: |
68dc0745 |
873 | |
874 | =over 4 |
875 | |
876 | =item 1 |
877 | |
878 | Try keeping around the seekpointer and go there, like this: |
879 | |
ac9dac7f |
880 | $where = tell(LOG); |
881 | seek(LOG, $where, 0); |
68dc0745 |
882 | |
883 | =item 2 |
884 | |
885 | If that doesn't work, try seeking to a different part of the file and |
886 | then back. |
887 | |
888 | =item 3 |
889 | |
890 | If that doesn't work, try seeking to a different part of |
891 | the file, reading something, and then seeking back. |
892 | |
893 | =item 4 |
894 | |
895 | If that doesn't work, give up on your stdio package and use sysread. |
896 | |
897 | =back |
898 | |
899 | =head2 How can I convert my shell script to perl? |
900 | |
901 | Learn Perl and rewrite it. Seriously, there's no simple converter. |
902 | Things that are awkward to do in the shell are easy to do in Perl, and |
903 | this very awkwardness is what would make a shell->perl converter |
904 | nigh-on impossible to write. By rewriting it, you'll think about what |
905 | you're really trying to do, and hopefully will escape the shell's |
46fc3d4c |
906 | pipeline datastream paradigm, which while convenient for some matters, |
68dc0745 |
907 | causes many inefficiencies. |
908 | |
909 | =head2 Can I use perl to run a telnet or ftp session? |
910 | |
8d2e243f |
911 | Try the C<Net::FTP>, C<TCP::Client>, and C<Net::Telnet> modules |
d12d61cf |
912 | (available from CPAN). |
8d2e243f |
913 | http://www.cpan.org/scripts/netstuff/telnet.emul.shar will also help |
914 | for emulating the telnet protocol, but C<Net::Telnet> is quite |
915 | probably easier to use. |
46fc3d4c |
916 | |
917 | If all you want to do is pretend to be telnet but don't need |
918 | the initial telnet handshaking, then the standard dual-process |
919 | approach will suffice: |
920 | |
ac9dac7f |
921 | use IO::Socket; # new in 5.004 |
922 | $handle = IO::Socket::INET->new('www.perl.com:80') |
923 | or die "can't connect to port 80 on www.perl.com: $!"; |
924 | $handle->autoflush(1); |
925 | if (fork()) { # XXX: undef means failure |
926 | select($handle); |
927 | print while <STDIN>; # everything from stdin to socket |
928 | } else { |
929 | print while <$handle>; # everything from socket to stdout |
930 | } |
931 | close $handle; |
932 | exit; |
68dc0745 |
933 | |
934 | =head2 How can I write expect in Perl? |
935 | |
3bc3c5be |
936 | Once upon a time, there was a library called L<chat2.pl> (part of the |
c8db1d39 |
937 | standard perl distribution), which never really got finished. If you |
938 | find it somewhere, I<don't use it>. These days, your best bet is to |
939 | look at the Expect module available from CPAN, which also requires two |
3bc3c5be |
940 | other modules from CPAN, C<IO::Pty> and C<IO::Stty>. |
68dc0745 |
941 | |
942 | =head2 Is there a way to hide perl's command line from programs such as "ps"? |
943 | |
944 | First of all note that if you're doing this for security reasons (to |
945 | avoid people seeing passwords, for example) then you should rewrite |
946 | your program so that critical information is never given as an |
947 | argument. Hiding the arguments won't make your program completely |
948 | secure. |
949 | |
950 | To actually alter the visible command line, you can assign to the |
951 | variable $0 as documented in L<perlvar>. This won't work on all |
952 | operating systems, though. Daemon programs like sendmail place their |
953 | state there, as in: |
954 | |
ac9dac7f |
955 | $0 = "orcus [accepting connections]"; |
68dc0745 |
956 | |
957 | =head2 I {changed directory, modified my environment} in a perl script. How come the change disappeared when I exited the script? How do I get my changes to be visible? |
958 | |
959 | =over 4 |
960 | |
961 | =item Unix |
962 | |
a6dd486b |
963 | In the strictest sense, it can't be done--the script executes as a |
68dc0745 |
964 | different process from the shell it was started from. Changes to a |
a6dd486b |
965 | process are not reflected in its parent--only in any children |
68dc0745 |
966 | created after the change. There is shell magic that may allow you to |
3bc3c5be |
967 | fake it by C<eval()>ing the script's output in your shell; check out the |
197aec24 |
968 | comp.unix.questions FAQ for details. |
68dc0745 |
969 | |
68dc0745 |
970 | =back |
971 | |
972 | =head2 How do I close a process's filehandle without waiting for it to complete? |
973 | |
974 | Assuming your system supports such things, just send an appropriate signal |
a6dd486b |
975 | to the process (see L<perlfunc/"kill">). It's common to first send a TERM |
68dc0745 |
976 | signal, wait a little bit, and then send a KILL signal to finish it off. |
977 | |
978 | =head2 How do I fork a daemon process? |
979 | |
980 | If by daemon process you mean one that's detached (disassociated from |
981 | its tty), then the following process is reported to work on most |
982 | Unixish systems. Non-Unix users should check their Your_OS::Process |
983 | module for other solutions. |
984 | |
985 | =over 4 |
986 | |
987 | =item * |
988 | |
197aec24 |
989 | Open /dev/tty and use the TIOCNOTTY ioctl on it. See L<tty> |
3bc3c5be |
990 | for details. Or better yet, you can just use the C<POSIX::setsid()> |
c8db1d39 |
991 | function, so you don't have to worry about process groups. |
68dc0745 |
992 | |
993 | =item * |
994 | |
995 | Change directory to / |
996 | |
997 | =item * |
998 | |
999 | Reopen STDIN, STDOUT, and STDERR so they're not connected to the old |
1000 | tty. |
1001 | |
1002 | =item * |
1003 | |
1004 | Background yourself like this: |
1005 | |
ac9dac7f |
1006 | fork && exit; |
68dc0745 |
1007 | |
1008 | =back |
1009 | |
3bc3c5be |
1010 | The C<Proc::Daemon> module, available from CPAN, provides a function to |
1a91aff4 |
1011 | perform these actions for you. |
1012 | |
68dc0745 |
1013 | =head2 How do I find out if I'm running interactively or not? |
1014 | |
589a5df2 |
1015 | (contributed by brian d foy) |
68dc0745 |
1016 | |
d12d61cf |
1017 | This is a difficult question to answer, and the best answer is |
1018 | only a guess. |
8d2e243f |
1019 | |
1020 | What do you really want to know? If you merely want to know if one of |
1021 | your filehandles is connected to a terminal, you can try the C<-t> |
1022 | file test: |
ac9dac7f |
1023 | |
589a5df2 |
1024 | if( -t STDOUT ) { |
1025 | print "I'm connected to a terminal!\n"; |
1026 | } |
d12d61cf |
1027 | |
589a5df2 |
1028 | However, you might be out of luck if you expect that means there is a |
1029 | real person on the other side. With the C<Expect> module, another |
1030 | program can pretend to be a person. The program might even come close |
1031 | to passing the Turing test. |
1032 | |
1033 | The C<IO::Interactive> module does the best it can to give you an |
1034 | answer. Its C<is_interactive> function returns an output filehandle; |
1035 | that filehandle points to standard output if the module thinks the |
1036 | session is interactive. Otherwise, the filehandle is a null handle |
1037 | that simply discards the output: |
1038 | |
1039 | use IO::Interactive; |
d12d61cf |
1040 | |
589a5df2 |
1041 | print { is_interactive } "I might go to standard output!\n"; |
1042 | |
1043 | This still doesn't guarantee that a real person is answering your |
1044 | prompts or reading your output. |
1045 | |
1046 | If you want to know how to handle automated testing for your |
1047 | distribution, you can check the environment. The CPAN |
1048 | Testers, for instance, set the value of C<AUTOMATED_TESTING>: |
1049 | |
1050 | unless( $ENV{AUTOMATED_TESTING} ) { |
1051 | print "Hello interactive tester!\n"; |
ac9dac7f |
1052 | } |
68dc0745 |
1053 | |
1054 | =head2 How do I timeout a slow event? |
1055 | |
3bc3c5be |
1056 | Use the C<alarm()> function, probably in conjunction with a signal |
b73a15ae |
1057 | handler, as documented in L<perlipc/"Signals"> and the section on |
b432a672 |
1058 | "Signals" in the Camel. You may instead use the more flexible |
3bc3c5be |
1059 | C<Sys::AlarmCall> module available from CPAN. |
68dc0745 |
1060 | |
3bc3c5be |
1061 | The C<alarm()> function is not implemented on all versions of Windows. |
49d635f9 |
1062 | Check the documentation for your specific version of Perl. |
1063 | |
68dc0745 |
1064 | =head2 How do I set CPU limits? |
c195e131 |
1065 | X<BSD::Resource> X<limit> X<CPU> |
1066 | |
1067 | (contributed by Xho) |
1068 | |
1069 | Use the C<BSD::Resource> module from CPAN. As an example: |
68dc0745 |
1070 | |
c195e131 |
1071 | use BSD::Resource; |
1072 | setrlimit(RLIMIT_CPU,10,20) or die $!; |
1073 | |
1074 | This sets the soft and hard limits to 10 and 20 seconds, respectively. |
1075 | After 10 seconds of time spent running on the CPU (not "wall" time), |
1076 | the process will be sent a signal (XCPU on some systems) which, if not |
1077 | trapped, will cause the process to terminate. If that signal is |
1078 | trapped, then after 10 more seconds (20 seconds in total) the process |
1079 | will be killed with a non-trappable signal. |
1080 | |
1081 | See the C<BSD::Resource> and your systems documentation for the gory |
1082 | details. |
68dc0745 |
1083 | |
1084 | =head2 How do I avoid zombies on a Unix system? |
1085 | |
3bc3c5be |
1086 | Use the reaper code from L<perlipc/"Signals"> to call C<wait()> when a |
68dc0745 |
1087 | SIGCHLD is received, or else use the double-fork technique described |
49d635f9 |
1088 | in L<perlfaq8/"How do I start a process in the background?">. |
68dc0745 |
1089 | |
1090 | =head2 How do I use an SQL database? |
1091 | |
3bc3c5be |
1092 | The C<DBI> module provides an abstract interface to most database |
04d666b1 |
1093 | servers and types, including Oracle, DB2, Sybase, mysql, Postgresql, |
1094 | ODBC, and flat files. The DBI module accesses each database type |
1095 | through a database driver, or DBD. You can see a complete list of |
1096 | available drivers on CPAN: http://www.cpan.org/modules/by-module/DBD/ . |
1097 | You can read more about DBI on http://dbi.perl.org . |
1098 | |
8d2e243f |
1099 | Other modules provide more specific access: C<Win32::ODBC>, C<Alzabo>, |
1100 | C<iodbc>, and others found on CPAN Search: http://search.cpan.org . |
68dc0745 |
1101 | |
1102 | =head2 How do I make a system() exit on control-C? |
1103 | |
3bc3c5be |
1104 | You can't. You need to imitate the C<system()> call (see L<perlipc> for |
68dc0745 |
1105 | sample code) and then have a signal handler for the INT signal that |
c8db1d39 |
1106 | passes the signal on to the subprocess. Or you can check for it: |
1107 | |
ac9dac7f |
1108 | $rc = system($cmd); |
1109 | if ($rc & 127) { die "signal death" } |
68dc0745 |
1110 | |
1111 | =head2 How do I open a file without blocking? |
1112 | |
1113 | If you're lucky enough to be using a system that supports |
1114 | non-blocking reads (most Unixish systems do), you need only to use the |
3bc3c5be |
1115 | C<O_NDELAY> or C<O_NONBLOCK> flag from the C<Fcntl> module in conjunction with |
1116 | C<sysopen()>: |
68dc0745 |
1117 | |
ac9dac7f |
1118 | use Fcntl; |
1119 | sysopen(FH, "/foo/somefile", O_WRONLY|O_NDELAY|O_CREAT, 0644) |
1120 | or die "can't open /foo/somefile: $!": |
68dc0745 |
1121 | |
c98c5709 |
1122 | =head2 How do I tell the difference between errors from the shell and perl? |
1123 | |
ac003c96 |
1124 | (answer contributed by brian d foy) |
c98c5709 |
1125 | |
1126 | When you run a Perl script, something else is running the script for you, |
1127 | and that something else may output error messages. The script might |
1128 | emit its own warnings and error messages. Most of the time you cannot |
1129 | tell who said what. |
1130 | |
1131 | You probably cannot fix the thing that runs perl, but you can change how |
1132 | perl outputs its warnings by defining a custom warning and die functions. |
1133 | |
1134 | Consider this script, which has an error you may not notice immediately. |
1135 | |
1136 | #!/usr/locl/bin/perl |
1137 | |
1138 | print "Hello World\n"; |
1139 | |
1140 | I get an error when I run this from my shell (which happens to be |
3bc3c5be |
1141 | bash). That may look like perl forgot it has a C<print()> function, |
c98c5709 |
1142 | but my shebang line is not the path to perl, so the shell runs the |
1143 | script, and I get the error. |
1144 | |
1145 | $ ./test |
1146 | ./test: line 3: print: command not found |
1147 | |
1148 | A quick and dirty fix involves a little bit of code, but this may be all |
1149 | you need to figure out the problem. |
1150 | |
1151 | #!/usr/bin/perl -w |
6670e5e7 |
1152 | |
c98c5709 |
1153 | BEGIN { |
1154 | $SIG{__WARN__} = sub{ print STDERR "Perl: ", @_; }; |
1155 | $SIG{__DIE__} = sub{ print STDERR "Perl: ", @_; exit 1}; |
1156 | } |
6670e5e7 |
1157 | |
c98c5709 |
1158 | $a = 1 + undef; |
1159 | $x / 0; |
1160 | __END__ |
1161 | |
3bc3c5be |
1162 | The perl message comes out with "Perl" in front. The C<BEGIN> block |
c98c5709 |
1163 | works at compile time so all of the compilation errors and warnings |
1164 | get the "Perl:" prefix too. |
1165 | |
1166 | Perl: Useless use of division (/) in void context at ./test line 9. |
1167 | Perl: Name "main::a" used only once: possible typo at ./test line 8. |
1168 | Perl: Name "main::x" used only once: possible typo at ./test line 9. |
1169 | Perl: Use of uninitialized value in addition (+) at ./test line 8. |
1170 | Perl: Use of uninitialized value in division (/) at ./test line 9. |
1171 | Perl: Illegal division by zero at ./test line 9. |
1172 | Perl: Illegal division by zero at -e line 3. |
1173 | |
1174 | If I don't see that "Perl:", it's not from perl. |
1175 | |
1176 | You could also just know all the perl errors, and although there are |
1177 | some people who may know all of them, you probably don't. However, they |
3bc3c5be |
1178 | all should be in the L<perldiag> manpage. If you don't find the error in |
c98c5709 |
1179 | there, it probably isn't a perl error. |
1180 | |
1181 | Looking up every message is not the easiest way, so let perl to do it |
1182 | for you. Use the diagnostics pragma with turns perl's normal messages |
1183 | into longer discussions on the topic. |
1184 | |
1185 | use diagnostics; |
1186 | |
1187 | If you don't get a paragraph or two of expanded discussion, it |
1188 | might not be perl's message. |
1189 | |
d92eb7b0 |
1190 | =head2 How do I install a module from CPAN? |
1191 | |
589a5df2 |
1192 | (contributed by brian d foy) |
68dc0745 |
1193 | |
589a5df2 |
1194 | The easiest way is to have a module also named CPAN do it for you by using |
1195 | the C<cpan> command the comes with Perl. You can give it a list of modules |
1196 | to install: |
68dc0745 |
1197 | |
589a5df2 |
1198 | $ cpan IO::Interactive Getopt::Whatever |
68dc0745 |
1199 | |
589a5df2 |
1200 | If you prefer C<CPANPLUS>, it's just as easy: |
68dc0745 |
1201 | |
589a5df2 |
1202 | $ cpanp i IO::Interactive Getopt::Whatever |
d12d61cf |
1203 | |
589a5df2 |
1204 | If you want to install a distribution from the current directory, you can |
1205 | tell C<CPAN.pm> to install C<.> (the full stop): |
68dc0745 |
1206 | |
589a5df2 |
1207 | $ cpan . |
68dc0745 |
1208 | |
589a5df2 |
1209 | See the documentation for either of those commands to see what else |
1210 | you can do. |
68dc0745 |
1211 | |
589a5df2 |
1212 | If you want to try to install a distribution by yourself, resolving |
1213 | all dependencies on your own, you follow one of two possible build |
1214 | paths. |
68dc0745 |
1215 | |
589a5df2 |
1216 | For distributions that use I<Makefile.PL>: |
68dc0745 |
1217 | |
589a5df2 |
1218 | $ perl Makefile.PL |
1219 | $ make test install |
d12d61cf |
1220 | |
589a5df2 |
1221 | For distributions that use I<Build.PL>: |
68dc0745 |
1222 | |
589a5df2 |
1223 | $ perl Build.PL |
1224 | $ ./Build test |
1225 | $ ./Build install |
68dc0745 |
1226 | |
589a5df2 |
1227 | Some distributions may need to link to libraries or other third-party |
1228 | code and their build and installation sequences may be more complicated. |
1229 | Check any I<README> or I<INSTALL> files that you may find. |
c8db1d39 |
1230 | |
1231 | =head2 What's the difference between require and use? |
1232 | |
109f0441 |
1233 | (contributed by brian d foy) |
1234 | |
1235 | Perl runs C<require> statement at run-time. Once Perl loads, compiles, |
1236 | and runs the file, it doesn't do anything else. The C<use> statement |
1237 | is the same as a C<require> run at compile-time, but Perl also calls the |
1238 | C<import> method for the loaded package. These two are the same: |
1239 | |
1240 | use MODULE qw(import list); |
c8db1d39 |
1241 | |
109f0441 |
1242 | BEGIN { |
1243 | require MODULE; |
1244 | MODULE->import(import list); |
1245 | } |
1246 | |
1247 | However, you can suppress the C<import> by using an explicit, empty |
1248 | import list. Both of these still happen at compile-time: |
c8db1d39 |
1249 | |
109f0441 |
1250 | use MODULE (); |
c8db1d39 |
1251 | |
109f0441 |
1252 | BEGIN { |
1253 | require MODULE; |
1254 | } |
c8db1d39 |
1255 | |
109f0441 |
1256 | Since C<use> will also call the C<import> method, the actual value |
1257 | for C<MODULE> must be a bareword. That is, C<use> cannot load files |
1258 | by name, although C<require> can: |
c8db1d39 |
1259 | |
109f0441 |
1260 | require "$ENV{HOME}/lib/Foo.pm"; # no @INC searching! |
1261 | |
1262 | See the entry for C<use> in L<perlfunc> for more details. |
46fc3d4c |
1263 | |
1264 | =head2 How do I keep my own module/library directory? |
1265 | |
d12d61cf |
1266 | When you build modules, tell Perl where to install the modules. |
1267 | |
1268 | If you want to install modules for your own use, the easiest way might |
1269 | be C<local::lib>, which you can download from CPAN. It sets various |
1270 | installation settings for you, and uses those same settings within |
1271 | your programs. |
1272 | |
1273 | If you want more flexibility, you need to configure your CPAN client |
1274 | for your particular situation. |
ac003c96 |
1275 | |
109f0441 |
1276 | For C<Makefile.PL>-based distributions, use the INSTALL_BASE option |
ac003c96 |
1277 | when generating Makefiles: |
46fc3d4c |
1278 | |
109f0441 |
1279 | perl Makefile.PL INSTALL_BASE=/mydir/perl |
46fc3d4c |
1280 | |
8d2e243f |
1281 | You can set this in your C<CPAN.pm> configuration so modules |
1282 | automatically install in your private library directory when you use |
1283 | the CPAN.pm shell: |
46fc3d4c |
1284 | |
ac003c96 |
1285 | % cpan |
109f0441 |
1286 | cpan> o conf makepl_arg INSTALL_BASE=/mydir/perl |
ac003c96 |
1287 | cpan> o conf commit |
46fc3d4c |
1288 | |
ac003c96 |
1289 | For C<Build.PL>-based distributions, use the --install_base option: |
65acb1b1 |
1290 | |
109f0441 |
1291 | perl Build.PL --install_base /mydir/perl |
ac003c96 |
1292 | |
3bc3c5be |
1293 | You can configure C<CPAN.pm> to automatically use this option too: |
65acb1b1 |
1294 | |
ac003c96 |
1295 | % cpan |
8d2e243f |
1296 | cpan> o conf mbuild_arg "--install_base /mydir/perl" |
ac003c96 |
1297 | cpan> o conf commit |
46fc3d4c |
1298 | |
109f0441 |
1299 | INSTALL_BASE tells these tools to put your modules into |
1300 | F</mydir/perl/lib/perl5>. See L<How do I add a directory to my |
1301 | include path (@INC) at runtime?> for details on how to run your newly |
589a5df2 |
1302 | installed modules. |
109f0441 |
1303 | |
1304 | There is one caveat with INSTALL_BASE, though, since it acts |
1305 | differently than the PREFIX and LIB settings that older versions of |
3bc3c5be |
1306 | C<ExtUtils::MakeMaker> advocated. INSTALL_BASE does not support |
109f0441 |
1307 | installing modules for multiple versions of Perl or different |
1308 | architectures under the same directory. You should consider if you |
1309 | really want that , and if you do, use the older PREFIX and LIB |
3bc3c5be |
1310 | settings. See the C<ExtUtils::Makemaker> documentation for more details. |
109f0441 |
1311 | |
46fc3d4c |
1312 | =head2 How do I add the directory my program lives in to the module/library search path? |
1313 | |
ac003c96 |
1314 | (contributed by brian d foy) |
1315 | |
1316 | If you know the directory already, you can add it to C<@INC> as you would |
1317 | for any other directory. You might <use lib> if you know the directory |
1318 | at compile time: |
1319 | |
1320 | use lib $directory; |
109f0441 |
1321 | |
ac003c96 |
1322 | The trick in this task is to find the directory. Before your script does |
1323 | anything else (such as a C<chdir>), you can get the current working |
1324 | directory with the C<Cwd> module, which comes with Perl: |
1325 | |
1326 | BEGIN { |
1327 | use Cwd; |
1328 | our $directory = cwd; |
1329 | } |
109f0441 |
1330 | |
ac003c96 |
1331 | use lib $directory; |
109f0441 |
1332 | |
ac003c96 |
1333 | You can do a similar thing with the value of C<$0>, which holds the |
1334 | script name. That might hold a relative path, but C<rel2abs> can turn |
109f0441 |
1335 | it into an absolute path. Once you have the |
ac003c96 |
1336 | |
109f0441 |
1337 | BEGIN { |
ac003c96 |
1338 | use File::Spec::Functions qw(rel2abs); |
1339 | use File::Basename qw(dirname); |
109f0441 |
1340 | |
ac003c96 |
1341 | my $path = rel2abs( $0 ); |
1342 | our $directory = dirname( $path ); |
1343 | } |
109f0441 |
1344 | |
ac003c96 |
1345 | use lib $directory; |
1346 | |
109f0441 |
1347 | The C<FindBin> module, which comes with Perl, might work. It finds the |
1348 | directory of the currently running script and puts it in C<$Bin>, which |
1349 | you can then use to construct the right library path: |
ac003c96 |
1350 | |
109f0441 |
1351 | use FindBin qw($Bin); |
d12d61cf |
1352 | |
1353 | You can also use C<local::lib> to do much of the same thing. Install |
1354 | modules using C<local::lib>'s settings then use the module in your |
1355 | program: |
1356 | |
1357 | use local::lib; # sets up a local lib at ~/perl5 |
1358 | |
1359 | See the C<local::lib> documentation for more details. |
46fc3d4c |
1360 | |
f0d19b68 |
1361 | =head2 How do I add a directory to my include path (@INC) at runtime? |
46fc3d4c |
1362 | |
ac003c96 |
1363 | Here are the suggested ways of modifying your include path, including |
1364 | environment variables, run-time switches, and in-code statements: |
1365 | |
1366 | =over 4 |
1367 | |
d12d61cf |
1368 | =item the C<PERLLIB> environment variable |
ac003c96 |
1369 | |
1370 | $ export PERLLIB=/path/to/my/dir |
1371 | $ perl program.pl |
1372 | |
d12d61cf |
1373 | =item the C<PERL5LIB> environment variable |
46fc3d4c |
1374 | |
ac003c96 |
1375 | $ export PERL5LIB=/path/to/my/dir |
1376 | $ perl program.pl |
1377 | |
d12d61cf |
1378 | =item the C<perl -Idir> command line flag |
ac003c96 |
1379 | |
1380 | $ perl -I/path/to/my/dir program.pl |
1381 | |
d12d61cf |
1382 | =item the C<lib> pragma: |
ac003c96 |
1383 | |
1384 | use lib "$ENV{HOME}/myown_perllib"; |
1385 | |
d12d61cf |
1386 | =item the C<local::lib> module: |
1387 | |
1388 | use local::lib; |
1389 | |
1390 | use local::lib "~/myown_perllib"; |
1391 | |
ac003c96 |
1392 | =back |
46fc3d4c |
1393 | |
ac003c96 |
1394 | The last is particularly useful because it knows about machine |
3bc3c5be |
1395 | dependent architectures. The C<lib.pm> pragmatic module was first |
46fc3d4c |
1396 | included with the 5.002 release of Perl. |
68dc0745 |
1397 | |
65acb1b1 |
1398 | =head2 What is socket.ph and where do I get it? |
1399 | |
e9d185f8 |
1400 | It's a Perl 4 style file defining values for system networking |
3bc3c5be |
1401 | constants. Sometimes it is built using C<h2ph> when Perl is installed, |
65acb1b1 |
1402 | but other times it is not. Modern programs C<use Socket;> instead. |
1403 | |
fc36a67e |
1404 | =head1 AUTHOR AND COPYRIGHT |
1405 | |
8d2e243f |
1406 | Copyright (c) 1997-2010 Tom Christiansen, Nathan Torkington, and |
7678cced |
1407 | other authors as noted. All rights reserved. |
5a964f20 |
1408 | |
5a7beb56 |
1409 | This documentation is free; you can redistribute it and/or modify it |
1410 | under the same terms as Perl itself. |
5a964f20 |
1411 | |
1412 | Irrespective of its distribution, all code examples in this file |
1413 | are hereby placed into the public domain. You are permitted and |
1414 | encouraged to use this code in your own programs for fun |
1415 | or for profit as you see fit. A simple comment in the code giving |
1416 | credit would be courteous but is not required. |