1 /* Copyright (C) 2011 Andre Noll <maan@tuebingen.mpg.de>, see file COPYING. */
3 /** \file interactive.c Readline abstraction for interactive sessions. */
8 #include <readline/readline.h>
9 #include <readline/history.h>
10 #include <sys/ioctl.h>
14 #include "buffer_tree.h"
17 #include "interactive.h"
22 struct i9e_client_info *ici;
26 char empty_line[1000];
27 char key_sequence[32];
28 unsigned key_sequence_length;
30 struct btr_node *stdout_btrn;
31 bool last_write_was_status;
39 static struct i9e_private i9e_private, *i9ep = &i9e_private;
42 * Return the error state of the i9e task.
44 * This is mainly useful for other tasks to tell whether the i9e task is still
47 * \return A negative return value of zero means the i9e task terminated. Only
48 * in this case it is safe to call i9e_close().
50 int i9e_get_error(void)
52 return task_status(i9ep->task);
55 static bool is_prefix(const char *partial, const char *full, size_t len)
58 len = strlen(partial);
59 return !strncmp(partial, full, len);
63 * Generator function for command completion. STATE lets us know whether
64 * to start from scratch; without any state (i.e. STATE == 0), then we
65 * start at the top of the list.
67 static char *command_generator(const char *text, int state)
69 static int list_index, len;
71 struct i9e_client_info *ici = i9ep->ici;
73 rl_attempted_completion_over = 1; /* disable filename completion */
75 * If this is a new word to complete, initialize now. This includes
76 * saving the length of TEXT for efficiency, and initializing the index
83 /* Return the next name which partially matches from the command list. */
84 while ((name = ici->completers[list_index].name)) {
86 if (is_prefix(text, name, len))
87 return para_strdup(name);
89 return NULL; /* no names matched */
92 static void reset_completion_result(struct i9e_completion_result *cr)
94 cr->dont_append_space = false;
95 cr->filename_completion_desired = false;
99 static void create_matches(struct i9e_completion_info *ci,
100 struct i9e_completer *completers,
101 struct i9e_completion_result *cr)
105 reset_completion_result(cr);
107 ret = create_argv(ci->buffer, " ", &ci->argv);
108 if (ret < 0 || !ci->argv[0])
112 ci->word_num = compute_word_num(ci->buffer, " ", ci->point);
113 for (i = 0; completers[i].name; i++) {
114 if (strcmp(completers[i].name, ci->argv[0]) != 0)
116 completers[i].completer(ci, cr);
119 PARA_DEBUG_LOG("current word: %d (%s)\n", ci->word_num,
120 ci->argv[ci->word_num]);
122 for (i = 0; cr->matches[i]; i++)
123 PARA_DEBUG_LOG("match %d: %s\n", i, cr->matches[i]);
126 static char *completion_generator(const char *word, int state)
128 static int list_index;
129 static char **argv, **matches;
130 struct i9e_completer *completers = i9ep->ici->completers;
131 struct i9e_completion_info ci = {
132 .word = (char *)word,
134 .buffer = rl_line_buffer,
136 struct i9e_completion_result cr = {.matches = NULL};
140 /* clean up previous matches and set defaults */
146 rl_completion_append_character = ' ';
147 rl_completion_suppress_append = false;
148 rl_attempted_completion_over = true;
150 create_matches(&ci, completers, &cr);
152 matches = cr.matches;
154 rl_completion_suppress_append = cr.dont_append_space;
155 rl_attempted_completion_over = !cr.filename_completion_desired;
159 return matches[list_index++];
163 * Attempt to complete on the contents of TEXT. START and END bound the
164 * region of rl_line_buffer that contains the word to complete. TEXT is
165 * the word to complete. We can use the entire contents of rl_line_buffer
166 * in case we want to do some simple parsing. Return the array of matches,
167 * or NULL if there aren't any.
169 static char **i9e_completer(const char *text, int start, __a_unused int end)
171 struct i9e_client_info *ici = i9ep->ici;
173 if (!ici->completers)
175 /* Complete on command names if this is the first word in the line. */
177 return rl_completion_matches(text, command_generator);
178 return rl_completion_matches(text, completion_generator);
182 * Prepare writing to stdout.
184 * \param producer The buffer tree node which produces output.
186 * The i9e subsystem maintains a buffer tree node which may be attached to
187 * another node which generates output (a "producer"). When attached, the i9e
188 * buffer tree node copies the buffers generated by the producer to stdout.
190 * This function attaches the i9e input queue to an output queue of \a
193 void i9e_attach_to_stdout(struct btr_node *producer)
195 btr_remove_node(&i9ep->stdout_btrn);
196 i9ep->stdout_btrn = btr_new_node(&(struct btr_node_description)
197 EMBRACE(.name = "interactive_stdout", .parent = producer));
198 rl_set_keymap(i9ep->bare_km);
201 static void wipe_bottom_line(void)
203 fprintf(i9ep->stderr_stream, "\r%s\r", i9ep->empty_line);
206 #ifndef RL_FREE_KEYMAP_DECLARED
208 * Free all storage associated with a keymap.
210 * This function is not declared in the readline headers although the symbol is
211 * exported and the function is documented in the readline info file. So we
212 * have to declare it here.
214 * \param keymap The keymap to deallocate.
216 void rl_free_keymap(Keymap keymap);
220 * Reset the terminal and save the in-memory command line history.
222 * This should be called before the caller exits.
226 char *hf = i9ep->ici->history_file;
228 rl_free_keymap(i9ep->bare_km);
229 rl_callback_handler_remove();
234 fcntl(i9ep->ici->fds[0], F_SETFL, i9ep->fd_flags[0]);
235 fcntl(i9ep->ici->fds[1], F_SETFL, i9ep->fd_flags[1]);
238 static void clear_bottom_line(void)
243 if (rl_point == 0 && rl_end == 0)
244 return wipe_bottom_line();
246 * We might have a multi-line input that needs to be wiped here, so the
247 * simple printf("\r<space>\r") is insufficient. To workaround this, we
248 * remove the whole line, redisplay and restore the killed text.
251 text = rl_copy_text(0, rl_end);
252 rl_kill_full_line(0, 0);
254 wipe_bottom_line(); /* wipe out the prompt */
255 rl_insert_text(text);
260 static void i9e_line_handler(char *line)
263 struct btr_node *dummy;
266 i9ep->input_eof = true;
272 dummy = btr_new_node(&(struct btr_node_description)
273 EMBRACE(.name = "dummy line handler"));
274 i9e_attach_to_stdout(dummy);
275 ret = i9ep->ici->line_handler(line);
277 PARA_WARNING_LOG("%s\n", para_strerror(-ret));
279 btr_remove_node(&dummy);
284 static int i9e_post_monitor(__a_unused struct sched *s, __a_unused void *context)
287 struct i9e_client_info *ici = i9ep->ici;
289 size_t sz, consumed = 0;
294 ret = -E_I9E_TERM_RQ;
295 if (i9ep->caught_sigterm)
298 if (i9ep->caught_sigint)
300 while (read_ok(i9ep->ici->fds[0]) > 0) {
301 if (i9ep->stdout_btrn) {
302 while (i9ep->key_sequence_length < sizeof(i9ep->key_sequence) - 1) {
303 buf = i9ep->key_sequence + i9ep->key_sequence_length;
304 ret = read(i9ep->ici->fds[0], buf, 1);
306 ret = -ERRNO_TO_PARA_ERROR(errno);
314 i9ep->key_sequence_length++;
315 rl_stuff_char((int)(unsigned char)*buf);
316 rl_callback_read_char();
317 if (read_ok(i9ep->ici->fds[0]) <= 0)
320 i9ep->key_sequence_length = 0;
322 rl_callback_read_char();
325 if (!i9ep->stdout_btrn)
327 ret = btr_node_status(i9ep->stdout_btrn, 0, BTR_NT_LEAF);
335 sz = btr_next_buffer(i9ep->stdout_btrn, &buf);
338 if (i9ep->last_write_was_status)
339 fprintf(i9ep->stderr_stream, "\n");
340 i9ep->last_write_was_status = false;
341 ret = xwrite(ici->fds[1], buf, sz);
344 btr_consume(i9ep->stdout_btrn, ret);
346 if (ret == sz && consumed < 10000)
350 if (i9ep->stdout_btrn) {
352 btr_remove_node(&i9ep->stdout_btrn);
353 rl_set_keymap(i9ep->standard_km);
354 rl_set_prompt(i9ep->ici->prompt);
360 i9ep->caught_sigint = false;
364 static void i9e_pre_monitor(struct sched *s, __a_unused void *context)
368 if (i9ep->input_eof || i9ep->caught_sigint || i9ep->caught_sigterm) {
372 if (i9ep->stdout_btrn) {
373 ret = btr_node_status(i9ep->stdout_btrn, 0, BTR_NT_LEAF);
379 sched_monitor_writefd(i9ep->ici->fds[1], s);
382 * fd[0] might have been reset to blocking mode if our job was moved to
383 * the background due to CTRL-Z or SIGSTOP, so set the fd back to
386 ret = mark_fd_nonblocking(i9ep->ici->fds[0]);
388 PARA_WARNING_LOG("set to nonblock failed: (fd0 %d, %s)\n",
389 i9ep->ici->fds[0], para_strerror(-ret));
390 sched_monitor_readfd(i9ep->ici->fds[0], s);
393 static void update_winsize(void)
396 int ret = ioctl(i9ep->ici->fds[2], TIOCGWINSZ, (char *)&w);
399 assert(w.ws_col < sizeof(i9ep->empty_line));
400 i9ep->num_columns = w.ws_col;
402 i9ep->num_columns = 80;
404 memset(i9ep->empty_line, ' ', i9ep->num_columns);
405 i9ep->empty_line[i9ep->num_columns] = '\0';
408 static int dispatch_key(__a_unused int count, __a_unused int key)
413 if (i9ep->key_sequence_length == 0)
415 for (i = i9ep->num_key_bindings - 1; i >= 0; i--) {
416 if (strcmp(i9ep->key_sequence, i9ep->ici->bound_keyseqs[i]))
418 i9ep->key_sequence[0] = '\0';
419 i9ep->key_sequence_length = 0;
420 ret = i9ep->ici->key_handler(i);
421 return ret < 0? ret : 0;
423 PARA_WARNING_LOG("ignoring key %d\n", i9ep->key_sequence[0]);
425 * We received an undefined key sequence. Throw away the first byte,
426 * and try to parse the remainder.
428 memmove(i9ep->key_sequence, i9ep->key_sequence + 1,
429 i9ep->key_sequence_length); /* move also terminating zero byte */
430 i9ep->key_sequence_length--;
435 * Register the i9e task and initialize readline.
437 * \param ici The i9e configuration parameters set by the caller.
438 * \param s The scheduler instance to add the i9e task to.
440 * The caller must allocate and initialize the structure \a ici points to.
444 int i9e_open(struct i9e_client_info *ici, struct sched *s)
448 memset(i9ep, 0, sizeof(struct i9e_private));
449 if (!isatty(ici->fds[0]))
450 return -E_I9E_SETUPTERM;
451 ret = fcntl(ici->fds[0], F_GETFL);
453 return -E_I9E_SETUPTERM;
454 i9ep->fd_flags[0] = ret;
455 ret = fcntl(ici->fds[1], F_GETFL);
457 return -E_I9E_SETUPTERM;
458 i9ep->fd_flags[1] = ret;
459 ret = mark_fd_nonblocking(ici->fds[0]);
462 ret = mark_fd_nonblocking(ici->fds[1]);
465 i9ep->task = task_register(&(struct task_info) {
467 .pre_monitor = i9e_pre_monitor,
468 .post_monitor = i9e_post_monitor,
472 rl_readline_name = "para_i9e";
473 rl_basic_word_break_characters = " ";
474 rl_attempted_completion_function = i9e_completer;
476 i9ep->stderr_stream = fdopen(ici->fds[2], "w");
477 setvbuf(i9ep->stderr_stream, NULL, _IONBF, 0);
479 i9ep->standard_km = rl_get_keymap();
480 i9ep->bare_km = rl_make_bare_keymap();
481 if (ici->bound_keyseqs) {
484 /* bind each key sequence to our dispatcher */
485 for (i = 0; (seq = ici->bound_keyseqs[i]); i++) {
486 if (strlen(seq) >= sizeof(i9ep->key_sequence) - 1) {
487 PARA_WARNING_LOG("ignoring overlong key %s\n",
491 if (rl_bind_keyseq_in_map(seq,
492 dispatch_key, i9ep->bare_km) != 0)
493 PARA_WARNING_LOG("could not bind #%d: %s\n", i, seq);
495 i9ep->num_key_bindings = i;
497 if (ici->history_file)
498 read_history(ici->history_file);
501 rl_callback_handler_install("", i9e_line_handler);
502 i9e_attach_to_stdout(ici->producer);
504 rl_callback_handler_install(i9ep->ici->prompt, i9e_line_handler);
508 static void reset_line_state(void)
510 if (i9ep->stdout_btrn)
513 rl_reset_line_state();
514 rl_forced_update_display();
518 * The log function of the i9e subsystem.
520 * \param ll Severity log level.
521 * \param fmt Printf-like format string.
523 * This clears the bottom line of the terminal if necessary and writes the
524 * string given by \a fmt to fd[2], where fd[] is the array provided earlier in
527 __printf_2_3 void i9e_log(int ll, const char* fmt,...)
531 if (ll < i9ep->ici->loglevel)
535 vfprintf(i9ep->stderr_stream, fmt, argp);
538 i9ep->last_write_was_status = false;
542 * Print the current status to stderr.
544 * \param buf The text to print.
545 * \param len The number of bytes in \a buf.
547 * This clears the bottom line, moves to the beginning of the line and prints
548 * the given text. If the length of this text exceeds the width of the
549 * terminal, the text is shortened by leaving out a part in the middle.
551 void i9e_print_status_bar(char *buf, unsigned len)
553 size_t x = i9ep->num_columns, y = (x - 4) / 2;
558 fprintf(i9ep->stderr_stream, "\r%s", buf);
559 fprintf(i9ep->stderr_stream, " .. ");
560 fprintf(i9ep->stderr_stream, "%s", buf + len - y);
566 strcpy(scratch + 1, buf);
567 memset(scratch + 1 + len, ' ', y);
568 scratch[1 + len + y] = '\r';
569 scratch[2 + len + y] = '\0';
570 fprintf(i9ep->stderr_stream, "\r%s", scratch);
572 i9ep->last_write_was_status = true;
576 * Tell i9e that the caller received a signal.
578 * \param sig_num The number of the signal received.
580 void i9e_signal_dispatch(int sig_num)
582 if (sig_num == SIGWINCH)
583 return update_winsize();
584 if (sig_num == SIGINT) {
585 fprintf(i9ep->stderr_stream, "\n");
586 rl_replace_line ("", false /* clear_undo */);
588 i9ep->caught_sigint = true;
590 if (sig_num == SIGTERM)
591 i9ep->caught_sigterm = true;
595 * Wrapper for poll(2) which handles EINTR and returns paraslash error codes.
597 * \param fds See poll(2).
598 * \param nfds See poll(2).
599 * \param timeout See poll(2).
601 * \return See poll(2).
603 * The only difference between this function and \ref xpoll() is that \ref
604 * i9e_poll() returns zero if the system call was interrupted while xpoll()
605 * restarts the system call in this case.
607 int i9e_poll(struct pollfd *fds, nfds_t nfds, int timeout)
609 int ret = poll(fds, nfds, timeout);
614 ret = -ERRNO_TO_PARA_ERROR(errno);
620 * Return the possible completions for a given word.
622 * \param word The word to complete.
623 * \param string_list All possible words in this context.
624 * \param result String list is returned here.
626 * This function never fails. If no completion was found, a string list of
627 * length zero is returned. In any case, the result must be freed by the caller
628 * using \ref free_argv().
630 * This function is independent of readline and may be called before
633 * \return The number of possible completions.
635 int i9e_extract_completions(const char *word, char **string_list,
638 char **matches = alloc(sizeof(char *));
639 int match_count = 0, matches_len = 1;
641 int len = strlen(word);
643 for (p = string_list; *p; p++) {
644 if (!is_prefix(word, *p, len))
647 if (match_count >= matches_len) {
649 matches = arr_realloc(matches, matches_len,
652 matches[match_count - 1] = para_strdup(*p);
654 matches[match_count] = NULL;
660 * Return the list of partially matching words.
662 * \param word The command to complete.
663 * \param completers The array containing all command names.
665 * This is similar to \ref i9e_extract_completions(), but completes on the
666 * command names in \a completers.
668 * \return See \ref i9e_extract_completions().
670 char **i9e_complete_commands(const char *word, struct i9e_completer *completers)
674 int i, match_count, len = strlen(word);
677 * In contrast to completing against an arbitrary string list, here we
678 * know all possible completions and expect that there will not be many
679 * of them. So it should be OK to iterate twice over all commands which
680 * simplifies the code a bit.
682 for (i = 0, match_count = 0; (cmd = completers[i].name); i++) {
683 if (is_prefix(word, cmd, len))
686 matches = arr_alloc(match_count + 1, sizeof(*matches));
687 for (i = 0, match_count = 0; (cmd = completers[i].name); i++)
688 if (is_prefix(word, cmd, len))
689 matches[match_count++] = para_strdup(cmd);
690 matches[match_count] = NULL;
695 * Complete according to the given options.
697 * \param opts All available options.
698 * \param ci Information which was passed to the completer.
699 * \param cr Result pointer.
701 * This convenience helper can be used to complete an option. The array of all
702 * possible options is passed as the first argument. Flags, i.e. options
703 * without an argument, are expected to be listed as strings of type "-X" in \a
704 * opts while options which require an argument should be passed with a
705 * trailing "=" character like "-X=".
707 * If the word can be uniquely completed to a flag option, an additional space
708 * character is appended to the output. For non-flag options no space character
711 void i9e_complete_option(char **opts, struct i9e_completion_info *ci,
712 struct i9e_completion_result *cr)
716 num_matches = i9e_extract_completions(ci->word, opts, &cr->matches);
717 if (num_matches == 1) {
718 char *opt = cr->matches[0];
719 char c = opt[strlen(opt) - 1];
721 cr->dont_append_space = true;
726 * Print possible completions to stdout.
728 * \param completers The array of completion functions.
730 * At the end of the output a line starting with "-o=", followed by the
731 * (possibly empty) list of completion options is printed. Currently, the only
732 * two completion options are "nospace" and "filenames". The former indicates
733 * that no space should be appended even for a unique match while the latter
734 * indicates that usual filename completion should be performed in addition to
735 * the previously printed options.
739 int i9e_print_completions(struct i9e_completer *completers)
741 struct i9e_completion_result cr;
742 struct i9e_completion_info ci;
747 reset_completion_result(&cr);
748 buf = getenv("COMP_POINT");
749 ci.point = buf? atoi(buf) : 0;
750 ci.buffer = para_strdup(getenv("COMP_LINE"));
752 ci.argc = create_argv(ci.buffer, " ", &ci.argv);
753 ci.word_num = compute_word_num(ci.buffer, " ", ci.point);
755 /* determine the current word to complete */
756 end = ci.buffer + ci.point;
759 if (ci.point == 0 || ci.buffer[ci.point - 1] == ' ') {
760 ci.word = para_strdup(NULL);
762 } else /* The cursor is positioned right after a word */
765 for (p = end; p > ci.buffer && *p != ' '; p--)
770 ci.word = alloc(n + 1);
771 strncpy(ci.word, p, n);
774 PARA_DEBUG_LOG("line: %s, point: %d (%c), wordnum: %d, word: %s\n",
775 ci.buffer, ci.point, ci.buffer[ci.point], ci.word_num, ci.word);
776 if (ci.word_num == 0)
777 cr.matches = i9e_complete_commands(ci.word, completers);
779 create_matches(&ci, completers, &cr);
781 if (cr.matches && cr.matches[0]) {
782 for (i = 0; cr.matches[i]; i++)
783 printf("%s\n", cr.matches[i]);
787 if (cr.dont_append_space)
789 if (cr.filename_completion_desired)
790 printf(",filenames");
792 free_argv(cr.matches);
800 * Complete on severity strings.
802 * \param ci See struct \ref i9e_completer.
803 * \param cr See struct \ref i9e_completer.
805 * This is used by para_client and para_audioc which need the same completion
806 * primitive for the ll server/audiod command. Both define their own completer
807 * which is implemented as a trivial wrapper that calls this function.
809 void i9e_ll_completer(struct i9e_completion_info *ci,
810 struct i9e_completion_result *cr)
812 char *sev[] = {SEVERITIES, NULL};
814 if (ci->word_num != 1) {
818 i9e_extract_completions(ci->word, sev, &cr->matches);