/* $OpenBSD: status.c,v 1.156 2016/12/07 23:03:04 nicm Exp $ */ /* * Copyright (c) 2007 Nicholas Marriott * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF MIND, USE, DATA OR PROFITS, WHETHER * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING * OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include "tmux.h" static char *status_redraw_get_left(struct client *, time_t, struct grid_cell *, size_t *); static char *status_redraw_get_right(struct client *, time_t, struct grid_cell *, size_t *); static char *status_print(struct client *, struct winlink *, time_t, struct grid_cell *); static char *status_replace(struct client *, struct winlink *, const char *, time_t); static void status_message_callback(int, short, void *); static void status_timer_callback(int, short, void *); static char *status_prompt_find_history_file(void); static const char *status_prompt_up_history(u_int *); static const char *status_prompt_down_history(u_int *); static void status_prompt_add_history(const char *); static const char **status_prompt_complete_list(u_int *, const char *); static char *status_prompt_complete_prefix(const char **, u_int); static char *status_prompt_complete(struct session *, const char *); /* Status prompt history. */ #define PROMPT_HISTORY 100 static char **status_prompt_hlist; static u_int status_prompt_hsize; /* Find the history file to load/save from/to. */ static char * status_prompt_find_history_file(void) { const char *home, *history_file; char *path; history_file = options_get_string(global_options, "history-file"); if (*history_file == '\0') return (NULL); if (*history_file == '/') return (xstrdup(history_file)); if (history_file[0] != '~' || history_file[1] != '/') return (NULL); if ((home = find_home()) == NULL) return (NULL); xasprintf(&path, "%s%s", home, history_file + 1); return (path); } /* Load status prompt history from file. */ void status_prompt_load_history(void) { FILE *f; char *history_file, *line, *tmp; size_t length; if ((history_file = status_prompt_find_history_file()) == NULL) return; log_debug("loading history from %s", history_file); f = fopen(history_file, "r"); if (f == NULL) { log_debug("%s: %s", history_file, strerror(errno)); free(history_file); return; } free(history_file); for (;;) { if ((line = fgetln(f, &length)) == NULL) break; if (length > 0) { if (line[length - 1] == '\n') { line[length - 1] = '\0'; status_prompt_add_history(line); } else { tmp = xmalloc(length + 1); memcpy(tmp, line, length); tmp[length] = '\0'; status_prompt_add_history(tmp); free(tmp); } } } fclose(f); } /* Save status prompt history to file. */ void status_prompt_save_history(void) { FILE *f; u_int i; char *history_file; if ((history_file = status_prompt_find_history_file()) == NULL) return; log_debug("saving history to %s", history_file); f = fopen(history_file, "w"); if (f == NULL) { log_debug("%s: %s", history_file, strerror(errno)); free(history_file); return; } free(history_file); for (i = 0; i < status_prompt_hsize; i++) { fputs(status_prompt_hlist[i], f); fputc('\n', f); } fclose(f); } /* Status timer callback. */ static void status_timer_callback(__unused int fd, __unused short events, void *arg) { struct client *c = arg; struct session *s = c->session; struct timeval tv; evtimer_del(&c->status_timer); if (s == NULL) return; if (c->message_string == NULL && c->prompt_string == NULL) c->flags |= CLIENT_STATUS; timerclear(&tv); tv.tv_sec = options_get_number(s->options, "status-interval"); if (tv.tv_sec != 0) evtimer_add(&c->status_timer, &tv); log_debug("client %p, status interval %d", c, (int)tv.tv_sec); } /* Start status timer for client. */ void status_timer_start(struct client *c) { struct session *s = c->session; if (event_initialized(&c->status_timer)) evtimer_del(&c->status_timer); else evtimer_set(&c->status_timer, status_timer_callback, c); if (s != NULL && options_get_number(s->options, "status")) status_timer_callback(-1, 0, c); } /* Start status timer for all clients. */ void status_timer_start_all(void) { struct client *c; TAILQ_FOREACH(c, &clients, entry) status_timer_start(c); } /* Get screen line of status line. -1 means off. */ int status_at_line(struct client *c) { struct session *s = c->session; if (!options_get_number(s->options, "status")) return (-1); if (options_get_number(s->options, "status-position") == 0) return (0); return (c->tty.sy - 1); } /* Retrieve options for left string. */ static char * status_redraw_get_left(struct client *c, time_t t, struct grid_cell *gc, size_t *size) { struct session *s = c->session; const char *template; char *left; size_t leftlen; style_apply_update(gc, s->options, "status-left-style"); template = options_get_string(s->options, "status-left"); left = status_replace(c, NULL, template, t); *size = options_get_number(s->options, "status-left-length"); leftlen = screen_write_cstrlen("%s", left); if (leftlen < *size) *size = leftlen; return (left); } /* Retrieve options for right string. */ static char * status_redraw_get_right(struct client *c, time_t t, struct grid_cell *gc, size_t *size) { struct session *s = c->session; const char *template; char *right; size_t rightlen; style_apply_update(gc, s->options, "status-right-style"); template = options_get_string(s->options, "status-right"); right = status_replace(c, NULL, template, t); *size = options_get_number(s->options, "status-right-length"); rightlen = screen_write_cstrlen("%s", right); if (rightlen < *size) *size = rightlen; return (right); } /* Get window at window list position. */ struct window * status_get_window_at(struct client *c, u_int x) { struct session *s = c->session; struct winlink *wl; struct options *oo; const char *sep; size_t seplen; x += c->wlmouse; RB_FOREACH(wl, winlinks, &s->windows) { oo = wl->window->options; sep = options_get_string(oo, "window-status-separator"); seplen = screen_write_cstrlen("%s", sep); if (x < wl->status_width) return (wl->window); x -= wl->status_width + seplen; } return (NULL); } /* Draw status for client on the last lines of given context. */ int status_redraw(struct client *c) { struct screen_write_ctx ctx; struct session *s = c->session; struct winlink *wl; struct screen old_status, window_list; struct grid_cell stdgc, lgc, rgc, gc; struct options *oo; time_t t; char *left, *right, *sep; u_int offset, needed; u_int wlstart, wlwidth, wlavailable, wloffset, wlsize; size_t llen, rlen, seplen; int larrow, rarrow; /* No status line? */ if (c->tty.sy == 0 || !options_get_number(s->options, "status")) return (1); left = right = NULL; larrow = rarrow = 0; /* Store current time. */ t = time(NULL); /* Set up default colour. */ style_apply(&stdgc, s->options, "status-style"); /* Create the target screen. */ memcpy(&old_status, &c->status, sizeof old_status); screen_init(&c->status, c->tty.sx, 1, 0); screen_write_start(&ctx, NULL, &c->status); for (offset = 0; offset < c->tty.sx; offset++) screen_write_putc(&ctx, &stdgc, ' '); screen_write_stop(&ctx); /* If the height is one line, blank status line. */ if (c->tty.sy <= 1) goto out; /* Work out left and right strings. */ memcpy(&lgc, &stdgc, sizeof lgc); left = status_redraw_get_left(c, t, &lgc, &llen); memcpy(&rgc, &stdgc, sizeof rgc); right = status_redraw_get_right(c, t, &rgc, &rlen); /* * Figure out how much space we have for the window list. If there * isn't enough space, just show a blank status line. */ needed = 0; if (llen != 0) needed += llen; if (rlen != 0) needed += rlen; if (c->tty.sx == 0 || c->tty.sx <= needed) goto out; wlavailable = c->tty.sx - needed; /* Calculate the total size needed for the window list. */ wlstart = wloffset = wlwidth = 0; RB_FOREACH(wl, winlinks, &s->windows) { free(wl->status_text); memcpy(&wl->status_cell, &stdgc, sizeof wl->status_cell); wl->status_text = status_print(c, wl, t, &wl->status_cell); wl->status_width = screen_write_cstrlen("%s", wl->status_text); if (wl == s->curw) wloffset = wlwidth; oo = wl->window->options; sep = options_get_string(oo, "window-status-separator"); seplen = screen_write_cstrlen("%s", sep); wlwidth += wl->status_width + seplen; } /* Create a new screen for the window list. */ screen_init(&window_list, wlwidth, 1, 0); /* And draw the window list into it. */ screen_write_start(&ctx, NULL, &window_list); RB_FOREACH(wl, winlinks, &s->windows) { screen_write_cnputs(&ctx, -1, &wl->status_cell, "%s", wl->status_text); oo = wl->window->options; sep = options_get_string(oo, "window-status-separator"); screen_write_cnputs(&ctx, -1, &stdgc, "%s", sep); } screen_write_stop(&ctx); /* If there is enough space for the total width, skip to draw now. */ if (wlwidth <= wlavailable) goto draw; /* Find size of current window text. */ wlsize = s->curw->status_width; /* * If the current window is already on screen, good to draw from the * start and just leave off the end. */ if (wloffset + wlsize < wlavailable) { if (wlavailable > 0) { rarrow = 1; wlavailable--; } wlwidth = wlavailable; } else { /* * Work out how many characters we need to omit from the * start. There are wlavailable characters to fill, and * wloffset + wlsize must be the last. So, the start character * is wloffset + wlsize - wlavailable. */ if (wlavailable > 0) { larrow = 1; wlavailable--; } wlstart = wloffset + wlsize - wlavailable; if (wlavailable > 0 && wlwidth > wlstart + wlavailable + 1) { rarrow = 1; wlstart++; wlavailable--; } wlwidth = wlavailable; } /* Bail if anything is now too small too. */ if (wlwidth == 0 || wlavailable == 0) { screen_free(&window_list); goto out; } /* * Now the start position is known, work out the state of the left and * right arrows. */ offset = 0; RB_FOREACH(wl, winlinks, &s->windows) { if (wl->flags & WINLINK_ALERTFLAGS && larrow == 1 && offset < wlstart) larrow = -1; offset += wl->status_width; if (wl->flags & WINLINK_ALERTFLAGS && rarrow == 1 && offset > wlstart + wlwidth) rarrow = -1; } draw: /* Begin drawing. */ screen_write_start(&ctx, NULL, &c->status); /* Draw the left string and arrow. */ screen_write_cursormove(&ctx, 0, 0); if (llen != 0) screen_write_cnputs(&ctx, llen, &lgc, "%s", left); if (larrow != 0) { memcpy(&gc, &stdgc, sizeof gc); if (larrow == -1) gc.attr ^= GRID_ATTR_REVERSE; screen_write_putc(&ctx, &gc, '<'); } /* Draw the right string and arrow. */ if (rarrow != 0) { screen_write_cursormove(&ctx, c->tty.sx - rlen - 1, 0); memcpy(&gc, &stdgc, sizeof gc); if (rarrow == -1) gc.attr ^= GRID_ATTR_REVERSE; screen_write_putc(&ctx, &gc, '>'); } else screen_write_cursormove(&ctx, c->tty.sx - rlen, 0); if (rlen != 0) screen_write_cnputs(&ctx, rlen, &rgc, "%s", right); /* Figure out the offset for the window list. */ if (llen != 0) wloffset = llen; else wloffset = 0; if (wlwidth < wlavailable) { switch (options_get_number(s->options, "status-justify")) { case 1: /* centred */ wloffset += (wlavailable - wlwidth) / 2; break; case 2: /* right */ wloffset += (wlavailable - wlwidth); break; } } if (larrow != 0) wloffset++; /* Copy the window list. */ c->wlmouse = -wloffset + wlstart; screen_write_cursormove(&ctx, wloffset, 0); screen_write_copy(&ctx, &window_list, wlstart, 0, wlwidth, 1); screen_free(&window_list); screen_write_stop(&ctx); out: free(left); free(right); if (grid_compare(c->status.grid, old_status.grid) == 0) { screen_free(&old_status); return (0); } screen_free(&old_status); return (1); } /* Replace special sequences in fmt. */ static char * status_replace(struct client *c, struct winlink *wl, const char *fmt, time_t t) { struct format_tree *ft; char *expanded; if (fmt == NULL) return (xstrdup("")); if (c->flags & CLIENT_STATUSFORCE) ft = format_create(NULL, FORMAT_STATUS|FORMAT_FORCE); else ft = format_create(NULL, FORMAT_STATUS); format_defaults(ft, c, NULL, wl, NULL); expanded = format_expand_time(ft, fmt, t); format_free(ft); return (expanded); } /* Return winlink status line entry and adjust gc as necessary. */ static char * status_print(struct client *c, struct winlink *wl, time_t t, struct grid_cell *gc) { struct options *oo = wl->window->options; struct session *s = c->session; const char *fmt; char *text; style_apply_update(gc, oo, "window-status-style"); fmt = options_get_string(oo, "window-status-format"); if (wl == s->curw) { style_apply_update(gc, oo, "window-status-current-style"); fmt = options_get_string(oo, "window-status-current-format"); } if (wl == TAILQ_FIRST(&s->lastw)) style_apply_update(gc, oo, "window-status-last-style"); if (wl->flags & WINLINK_BELL) style_apply_update(gc, oo, "window-status-bell-style"); else if (wl->flags & (WINLINK_ACTIVITY|WINLINK_SILENCE)) style_apply_update(gc, oo, "window-status-activity-style"); text = status_replace(c, wl, fmt, t); return (text); } /* Set a status line message. */ void status_message_set(struct client *c, const char *fmt, ...) { struct timeval tv; struct message_entry *msg, *msg1; va_list ap; int delay; u_int limit; limit = options_get_number(global_options, "message-limit"); status_message_clear(c); va_start(ap, fmt); xvasprintf(&c->message_string, fmt, ap); va_end(ap); msg = xcalloc(1, sizeof *msg); msg->msg_time = time(NULL); msg->msg_num = c->message_next++; msg->msg = xstrdup(c->message_string); TAILQ_INSERT_TAIL(&c->message_log, msg, entry); TAILQ_FOREACH_SAFE(msg, &c->message_log, entry, msg1) { if (msg->msg_num + limit >= c->message_next) break; free(msg->msg); TAILQ_REMOVE(&c->message_log, msg, entry); free(msg); } delay = options_get_number(c->session->options, "display-time"); if (delay > 0) { tv.tv_sec = delay / 1000; tv.tv_usec = (delay % 1000) * 1000L; if (event_initialized(&c->message_timer)) evtimer_del(&c->message_timer); evtimer_set(&c->message_timer, status_message_callback, c); evtimer_add(&c->message_timer, &tv); } c->tty.flags |= (TTY_NOCURSOR|TTY_FREEZE); c->flags |= CLIENT_STATUS; } /* Clear status line message. */ void status_message_clear(struct client *c) { if (c->message_string == NULL) return; free(c->message_string); c->message_string = NULL; if (c->prompt_string == NULL) c->tty.flags &= ~(TTY_NOCURSOR|TTY_FREEZE); c->flags |= CLIENT_REDRAW; /* screen was frozen and may have changed */ screen_reinit(&c->status); } /* Clear status line message after timer expires. */ static void status_message_callback(__unused int fd, __unused short event, void *data) { struct client *c = data; status_message_clear(c); } /* Draw client message on status line of present else on last line. */ int status_message_redraw(struct client *c) { struct screen_write_ctx ctx; struct session *s = c->session; struct screen old_status; size_t len; struct grid_cell gc; if (c->tty.sx == 0 || c->tty.sy == 0) return (0); memcpy(&old_status, &c->status, sizeof old_status); screen_init(&c->status, c->tty.sx, 1, 0); len = screen_write_strlen("%s", c->message_string); if (len > c->tty.sx) len = c->tty.sx; style_apply(&gc, s->options, "message-style"); screen_write_start(&ctx, NULL, &c->status); screen_write_cursormove(&ctx, 0, 0); screen_write_nputs(&ctx, len, &gc, "%s", c->message_string); for (; len < c->tty.sx; len++) screen_write_putc(&ctx, &gc, ' '); screen_write_stop(&ctx); if (grid_compare(c->status.grid, old_status.grid) == 0) { screen_free(&old_status); return (0); } screen_free(&old_status); return (1); } /* Enable status line prompt. */ void status_prompt_set(struct client *c, const char *msg, const char *input, int (*callbackfn)(void *, const char *), void (*freefn)(void *), void *data, int flags) { struct format_tree *ft; time_t t; char *tmp; ft = format_create(NULL, 0); format_defaults(ft, c, NULL, NULL, NULL); t = time(NULL); tmp = format_expand_time(ft, input, t); status_message_clear(c); status_prompt_clear(c); c->prompt_string = format_expand_time(ft, msg, t); c->prompt_buffer = utf8_fromcstr(tmp); c->prompt_index = utf8_strlen(c->prompt_buffer); c->prompt_callbackfn = callbackfn; c->prompt_freefn = freefn; c->prompt_data = data; c->prompt_hindex = 0; c->prompt_flags = flags; c->prompt_mode = PROMPT_ENTRY; c->tty.flags |= (TTY_NOCURSOR|TTY_FREEZE); c->flags |= CLIENT_STATUS; free(tmp); format_free(ft); } /* Remove status line prompt. */ void status_prompt_clear(struct client *c) { if (c->prompt_string == NULL) return; if (c->prompt_freefn != NULL && c->prompt_data != NULL) c->prompt_freefn(c->prompt_data); free(c->prompt_string); c->prompt_string = NULL; free(c->prompt_buffer); c->prompt_buffer = NULL; c->tty.flags &= ~(TTY_NOCURSOR|TTY_FREEZE); c->flags |= CLIENT_REDRAW; /* screen was frozen and may have changed */ screen_reinit(&c->status); } /* Update status line prompt with a new prompt string. */ void status_prompt_update(struct client *c, const char *msg, const char *input) { struct format_tree *ft; time_t t; char *tmp; ft = format_create(NULL, 0); format_defaults(ft, c, NULL, NULL, NULL); t = time(NULL); tmp = format_expand_time(ft, input, t); free(c->prompt_string); c->prompt_string = format_expand_time(ft, msg, t); free(c->prompt_buffer); c->prompt_buffer = utf8_fromcstr(tmp); c->prompt_index = utf8_strlen(c->prompt_buffer); c->prompt_hindex = 0; c->flags |= CLIENT_STATUS; free(tmp); format_free(ft); } /* Draw client prompt on status line of present else on last line. */ int status_prompt_redraw(struct client *c) { struct screen_write_ctx ctx; struct session *s = c->session; struct screen old_status; u_int i, offset, left, start, pcursor, pwidth, width; struct grid_cell gc, cursorgc; if (c->tty.sx == 0 || c->tty.sy == 0) return (0); memcpy(&old_status, &c->status, sizeof old_status); screen_init(&c->status, c->tty.sx, 1, 0); if (c->prompt_mode == PROMPT_COMMAND) style_apply(&gc, s->options, "message-command-style"); else style_apply(&gc, s->options, "message-style"); memcpy(&cursorgc, &gc, sizeof cursorgc); cursorgc.attr ^= GRID_ATTR_REVERSE; start = screen_write_strlen("%s", c->prompt_string); if (start > c->tty.sx) start = c->tty.sx; screen_write_start(&ctx, NULL, &c->status); screen_write_cursormove(&ctx, 0, 0); screen_write_nputs(&ctx, start, &gc, "%s", c->prompt_string); while (c->status.cx < screen_size_x(&c->status)) screen_write_putc(&ctx, &gc, ' '); screen_write_cursormove(&ctx, start, 0); left = c->tty.sx - start; if (left == 0) goto finished; pcursor = utf8_strwidth(c->prompt_buffer, c->prompt_index); pwidth = utf8_strwidth(c->prompt_buffer, -1); if (pcursor >= left) { /* * The cursor would be outside the screen so start drawing * with it on the right. */ offset = (pcursor - left) + 1; pwidth = left; } else offset = 0; if (pwidth > left) pwidth = left; width = 0; for (i = 0; c->prompt_buffer[i].size != 0; i++) { if (width < offset) { width += c->prompt_buffer[i].width; continue; } if (width >= offset + pwidth) break; width += c->prompt_buffer[i].width; if (width > offset + pwidth) break; if (i != c->prompt_index) { utf8_copy(&gc.data, &c->prompt_buffer[i]); screen_write_cell(&ctx, &gc); } else { utf8_copy(&cursorgc.data, &c->prompt_buffer[i]); screen_write_cell(&ctx, &cursorgc); } } if (c->status.cx < screen_size_x(&c->status) && c->prompt_index >= i) screen_write_putc(&ctx, &cursorgc, ' '); finished: screen_write_stop(&ctx); if (grid_compare(c->status.grid, old_status.grid) == 0) { screen_free(&old_status); return (0); } screen_free(&old_status); return (1); } /* Is this a separator? */ static int status_prompt_in_list(const char *ws, const struct utf8_data *ud) { if (ud->size != 1 || ud->width != 1) return (0); return (strchr(ws, *ud->data) != NULL); } /* Is this a space? */ static int status_prompt_space(const struct utf8_data *ud) { if (ud->size != 1 || ud->width != 1) return (0); return (*ud->data == ' '); } /* * Translate key from emacs to vi. Return 0 to drop key, 1 to process the key * as an emacs key; return 2 to append to the buffer. */ static int status_prompt_translate_key(struct client *c, key_code key, key_code *new_key) { if (c->prompt_mode == PROMPT_ENTRY) { switch (key) { case '\003': /* C-c */ case '\010': /* C-h */ case '\011': /* Tab */ case '\025': /* C-u */ case '\027': /* C-w */ case '\n': case '\r': case KEYC_BSPACE: case KEYC_DC: case KEYC_DOWN: case KEYC_END: case KEYC_HOME: case KEYC_LEFT: case KEYC_RIGHT: case KEYC_UP: *new_key = key; return (1); case '\033': /* Escape */ c->prompt_mode = PROMPT_COMMAND; c->flags |= CLIENT_STATUS; return (0); } *new_key = key; return (2); } switch (key) { case 'A': case 'I': case 'C': case 's': case 'a': c->prompt_mode = PROMPT_ENTRY; c->flags |= CLIENT_STATUS; break; /* switch mode and... */ case 'S': c->prompt_mode = PROMPT_ENTRY; c->flags |= CLIENT_STATUS; *new_key = '\025'; /* C-u */ return (1); case 'i': case '\033': /* Escape */ c->prompt_mode = PROMPT_ENTRY; c->flags |= CLIENT_STATUS; return (0); } switch (key) { case 'A': case '$': *new_key = KEYC_END; return (1); case 'I': case '0': case '^': *new_key = KEYC_HOME; return (1); case 'C': case 'D': *new_key = '\013'; /* C-k */ return (1); case KEYC_BSPACE: case 'X': *new_key = KEYC_BSPACE; return (1); case 'b': case 'B': *new_key = 'b'|KEYC_ESCAPE; return (1); case 'd': *new_key = '\025'; return (1); case 'e': case 'E': case 'w': case 'W': *new_key = 'f'|KEYC_ESCAPE; return (1); case 'p': *new_key = '\031'; /* C-y */ return (1); case 's': case KEYC_DC: case 'x': *new_key = KEYC_DC; return (1); case KEYC_DOWN: case 'j': *new_key = KEYC_DOWN; return (1); case KEYC_LEFT: case 'h': *new_key = KEYC_LEFT; return (1); case 'a': case KEYC_RIGHT: case 'l': *new_key = KEYC_RIGHT; return (1); case KEYC_UP: case 'k': *new_key = KEYC_UP; return (1); case '\010' /* C-h */: case '\003' /* C-c */: case '\n': case '\r': return (1); } return (0); } /* Handle keys in prompt. */ int status_prompt_key(struct client *c, key_code key) { struct options *oo = c->session->options; struct paste_buffer *pb; char *s, word[64]; const char *histstr, *bufdata, *ws = NULL; u_char ch; size_t size, n, off, idx, bufsize, used; struct utf8_data tmp, *first, *last, *ud; int keys; size = utf8_strlen(c->prompt_buffer); if (c->prompt_flags & PROMPT_NUMERIC) { if (key >= '0' && key <= '9') goto append_key; s = utf8_tocstr(c->prompt_buffer); c->prompt_callbackfn(c->prompt_data, s); status_prompt_clear(c); free(s); return (1); } keys = options_get_number(c->session->options, "status-keys"); if (keys == MODEKEY_VI) { switch (status_prompt_translate_key(c, key, &key)) { case 1: goto process_key; case 2: goto append_key; default: return (0); } } process_key: switch (key) { case KEYC_LEFT: case '\002': /* C-b */ if (c->prompt_index > 0) { c->prompt_index--; c->flags |= CLIENT_STATUS; } break; case KEYC_RIGHT: case '\006': /* C-f */ if (c->prompt_index < size) { c->prompt_index++; c->flags |= CLIENT_STATUS; } break; case KEYC_HOME: case '\001': /* C-a */ if (c->prompt_index != 0) { c->prompt_index = 0; c->flags |= CLIENT_STATUS; } break; case KEYC_END: case '\005': /* C-e */ if (c->prompt_index != size) { c->prompt_index = size; c->flags |= CLIENT_STATUS; } break; case '\011': /* Tab */ if (c->prompt_buffer[0].size == 0) break; idx = c->prompt_index; if (idx != 0) idx--; /* Find the word we are in. */ first = &c->prompt_buffer[idx]; while (first > c->prompt_buffer && !status_prompt_space(first)) first--; while (first->size != 0 && status_prompt_space(first)) first++; last = &c->prompt_buffer[idx]; while (last->size != 0 && !status_prompt_space(last)) last++; while (last > c->prompt_buffer && status_prompt_space(last)) last--; if (last->size != 0) last++; if (last <= first) break; used = 0; for (ud = first; ud < last; ud++) { if (used + ud->size >= sizeof word) break; memcpy(word + used, ud->data, ud->size); used += ud->size; } if (ud != last) break; word[used] = '\0'; /* And try to complete it. */ if ((s = status_prompt_complete(c->session, word)) == NULL) break; /* Trim out word. */ n = size - (last - c->prompt_buffer) + 1; /* with \0 */ memmove(first, last, n * sizeof *c->prompt_buffer); size -= last - first; /* Insert the new word. */ size += strlen(s); off = first - c->prompt_buffer; c->prompt_buffer = xreallocarray(c->prompt_buffer, size + 1, sizeof *c->prompt_buffer); first = c->prompt_buffer + off; memmove(first + strlen(s), first, n * sizeof *c->prompt_buffer); for (idx = 0; idx < strlen(s); idx++) utf8_set(&first[idx], s[idx]); c->prompt_index = (first - c->prompt_buffer) + strlen(s); free(s); c->flags |= CLIENT_STATUS; break; case KEYC_BSPACE: case '\010': /* C-h */ if (c->prompt_index != 0) { if (c->prompt_index == size) c->prompt_buffer[--c->prompt_index].size = 0; else { memmove(c->prompt_buffer + c->prompt_index - 1, c->prompt_buffer + c->prompt_index, (size + 1 - c->prompt_index) * sizeof *c->prompt_buffer); c->prompt_index--; } c->flags |= CLIENT_STATUS; } break; case KEYC_DC: case '\004': /* C-d */ if (c->prompt_index != size) { memmove(c->prompt_buffer + c->prompt_index, c->prompt_buffer + c->prompt_index + 1, (size + 1 - c->prompt_index) * sizeof *c->prompt_buffer); c->flags |= CLIENT_STATUS; } break; case '\025': /* C-u */ c->prompt_buffer[0].size = 0; c->prompt_index = 0; c->flags |= CLIENT_STATUS; break; case '\013': /* C-k */ if (c->prompt_index < size) { c->prompt_buffer[c->prompt_index].size = 0; c->flags |= CLIENT_STATUS; } break; case '\027': /* C-w */ ws = options_get_string(oo, "word-separators"); idx = c->prompt_index; /* Find a non-separator. */ while (idx != 0) { idx--; if (!status_prompt_in_list(ws, &c->prompt_buffer[idx])) break; } /* Find the separator at the beginning of the word. */ while (idx != 0) { idx--; if (status_prompt_in_list(ws, &c->prompt_buffer[idx])) { /* Go back to the word. */ idx++; break; } } memmove(c->prompt_buffer + idx, c->prompt_buffer + c->prompt_index, (size + 1 - c->prompt_index) * sizeof *c->prompt_buffer); memset(c->prompt_buffer + size - (c->prompt_index - idx), '\0', (c->prompt_index - idx) * sizeof *c->prompt_buffer); c->prompt_index = idx; c->flags |= CLIENT_STATUS; break; case 'f'|KEYC_ESCAPE: ws = options_get_string(oo, "word-separators"); /* Find a word. */ while (c->prompt_index != size) { idx = ++c->prompt_index; if (!status_prompt_in_list(ws, &c->prompt_buffer[idx])) break; } /* Find the separator at the end of the word. */ while (c->prompt_index != size) { idx = ++c->prompt_index; if (status_prompt_in_list(ws, &c->prompt_buffer[idx])) break; } /* Back up to the end-of-word like vi. */ if (options_get_number(oo, "status-keys") == MODEKEY_VI && c->prompt_index != 0) c->prompt_index--; c->flags |= CLIENT_STATUS; break; case 'b'|KEYC_ESCAPE: ws = options_get_string(oo, "word-separators"); /* Find a non-separator. */ while (c->prompt_index != 0) { idx = --c->prompt_index; if (!status_prompt_in_list(ws, &c->prompt_buffer[idx])) break; } /* Find the separator at the beginning of the word. */ while (c->prompt_index != 0) { idx = --c->prompt_index; if (status_prompt_in_list(ws, &c->prompt_buffer[idx])) { /* Go back to the word. */ c->prompt_index++; break; } } c->flags |= CLIENT_STATUS; break; case KEYC_UP: case '\020': /* C-p */ histstr = status_prompt_up_history(&c->prompt_hindex); if (histstr == NULL) break; free(c->prompt_buffer); c->prompt_buffer = utf8_fromcstr(histstr); c->prompt_index = utf8_strlen(c->prompt_buffer); c->flags |= CLIENT_STATUS; break; case KEYC_DOWN: case '\016': /* C-n */ histstr = status_prompt_down_history(&c->prompt_hindex); if (histstr == NULL) break; free(c->prompt_buffer); c->prompt_buffer = utf8_fromcstr(histstr); c->prompt_index = utf8_strlen(c->prompt_buffer); c->flags |= CLIENT_STATUS; break; case '\031': /* C-y */ if ((pb = paste_get_top(NULL)) == NULL) break; bufdata = paste_buffer_data(pb, &bufsize); for (n = 0; n < bufsize; n++) { ch = (u_char)bufdata[n]; if (ch < 32 || ch >= 127) break; } c->prompt_buffer = xreallocarray(c->prompt_buffer, size + n + 1, sizeof *c->prompt_buffer); if (c->prompt_index == size) { for (idx = 0; idx < n; idx++) { ud = &c->prompt_buffer[c->prompt_index + idx]; utf8_set(ud, bufdata[idx]); } c->prompt_index += n; c->prompt_buffer[c->prompt_index].size = 0; } else { memmove(c->prompt_buffer + c->prompt_index + n, c->prompt_buffer + c->prompt_index, (size + 1 - c->prompt_index) * sizeof *c->prompt_buffer); for (idx = 0; idx < n; idx++) { ud = &c->prompt_buffer[c->prompt_index + idx]; utf8_set(ud, bufdata[idx]); } c->prompt_index += n; } c->flags |= CLIENT_STATUS; break; case '\024': /* C-t */ idx = c->prompt_index; if (idx < size) idx++; if (idx >= 2) { utf8_copy(&tmp, &c->prompt_buffer[idx - 2]); utf8_copy(&c->prompt_buffer[idx - 2], &c->prompt_buffer[idx - 1]); utf8_copy(&c->prompt_buffer[idx - 1], &tmp); c->prompt_index = idx; c->flags |= CLIENT_STATUS; } break; case '\r': case '\n': s = utf8_tocstr(c->prompt_buffer); if (*s != '\0') status_prompt_add_history(s); if (c->prompt_callbackfn(c->prompt_data, s) == 0) status_prompt_clear(c); free(s); break; case '\033': /* Escape */ case '\003': /* C-c */ if (c->prompt_callbackfn(c->prompt_data, NULL) == 0) status_prompt_clear(c); break; } append_key: if (key <= 0x1f || key >= KEYC_BASE) return (0); if (utf8_split(key, &tmp) != UTF8_DONE) return (0); c->prompt_buffer = xreallocarray(c->prompt_buffer, size + 2, sizeof *c->prompt_buffer); if (c->prompt_index == size) { utf8_copy(&c->prompt_buffer[c->prompt_index], &tmp); c->prompt_index++; c->prompt_buffer[c->prompt_index].size = 0; } else { memmove(c->prompt_buffer + c->prompt_index + 1, c->prompt_buffer + c->prompt_index, (size + 1 - c->prompt_index) * sizeof *c->prompt_buffer); utf8_copy(&c->prompt_buffer[c->prompt_index], &tmp); c->prompt_index++; } if (c->prompt_flags & PROMPT_SINGLE) { s = utf8_tocstr(c->prompt_buffer); if (strlen(s) != 1) status_prompt_clear(c); else if (c->prompt_callbackfn(c->prompt_data, s) == 0) status_prompt_clear(c); free(s); } c->flags |= CLIENT_STATUS; return (0); } /* Get previous line from the history. */ static const char * status_prompt_up_history(u_int *idx) { /* * History runs from 0 to size - 1. Index is from 0 to size. Zero is * empty. */ if (status_prompt_hsize == 0 || *idx == status_prompt_hsize) return (NULL); (*idx)++; return (status_prompt_hlist[status_prompt_hsize - *idx]); } /* Get next line from the history. */ static const char * status_prompt_down_history(u_int *idx) { if (status_prompt_hsize == 0 || *idx == 0) return (""); (*idx)--; if (*idx == 0) return (""); return (status_prompt_hlist[status_prompt_hsize - *idx]); } /* Add line to the history. */ static void status_prompt_add_history(const char *line) { size_t size; if (status_prompt_hsize > 0 && strcmp(status_prompt_hlist[status_prompt_hsize - 1], line) == 0) return; if (status_prompt_hsize == PROMPT_HISTORY) { free(status_prompt_hlist[0]); size = (PROMPT_HISTORY - 1) * sizeof *status_prompt_hlist; memmove(&status_prompt_hlist[0], &status_prompt_hlist[1], size); status_prompt_hlist[status_prompt_hsize - 1] = xstrdup(line); return; } status_prompt_hlist = xreallocarray(status_prompt_hlist, status_prompt_hsize + 1, sizeof *status_prompt_hlist); status_prompt_hlist[status_prompt_hsize++] = xstrdup(line); } /* Build completion list. */ static const char ** status_prompt_complete_list(u_int *size, const char *s) { const char **list = NULL, **layout; const struct cmd_entry **cmdent; const struct options_table_entry *oe; const char *layouts[] = { "even-horizontal", "even-vertical", "main-horizontal", "main-vertical", "tiled", NULL }; *size = 0; for (cmdent = cmd_table; *cmdent != NULL; cmdent++) { if (strncmp((*cmdent)->name, s, strlen(s)) == 0) { list = xreallocarray(list, (*size) + 1, sizeof *list); list[(*size)++] = (*cmdent)->name; } } for (oe = options_table; oe->name != NULL; oe++) { if (strncmp(oe->name, s, strlen(s)) == 0) { list = xreallocarray(list, (*size) + 1, sizeof *list); list[(*size)++] = oe->name; } } for (layout = layouts; *layout != NULL; layout++) { if (strncmp(*layout, s, strlen(s)) == 0) { list = xreallocarray(list, (*size) + 1, sizeof *list); list[(*size)++] = *layout; } } return (list); } /* Find longest prefix. */ static char * status_prompt_complete_prefix(const char **list, u_int size) { char *out; u_int i; size_t j; out = xstrdup(list[0]); for (i = 1; i < size; i++) { j = strlen(list[i]); if (j > strlen(out)) j = strlen(out); for (; j > 0; j--) { if (out[j - 1] != list[i][j - 1]) out[j - 1] = '\0'; } } return (out); } /* Complete word. */ static char * status_prompt_complete(struct session *session, const char *s) { const char **list = NULL, *colon; u_int size = 0, i; struct session *s_loop; struct winlink *wl; struct window *w; char *copy, *out, *tmp; if (*s == '\0') return (NULL); out = NULL; if (strncmp(s, "-t", 2) != 0 && strncmp(s, "-s", 2) != 0) { list = status_prompt_complete_list(&size, s); if (size == 0) out = NULL; else if (size == 1) xasprintf(&out, "%s ", list[0]); else out = status_prompt_complete_prefix(list, size); free(list); return (out); } copy = xstrdup(s); colon = ":"; if (copy[strlen(copy) - 1] == ':') copy[strlen(copy) - 1] = '\0'; else colon = ""; s = copy + 2; RB_FOREACH(s_loop, sessions, &sessions) { if (strncmp(s_loop->name, s, strlen(s)) == 0) { list = xreallocarray(list, size + 2, sizeof *list); list[size++] = s_loop->name; } } if (size == 1) { out = xstrdup(list[0]); if (session_find(list[0]) != NULL) colon = ":"; } else if (size != 0) out = status_prompt_complete_prefix(list, size); if (out != NULL) { xasprintf(&tmp, "-%c%s%s", copy[1], out, colon); out = tmp; goto found; } colon = ""; if (*s == ':') { RB_FOREACH(wl, winlinks, &session->windows) { xasprintf(&tmp, ":%s", wl->window->name); if (strncmp(tmp, s, strlen(s)) == 0){ list = xreallocarray(list, size + 1, sizeof *list); list[size++] = tmp; continue; } free(tmp); xasprintf(&tmp, ":%d", wl->idx); if (strncmp(tmp, s, strlen(s)) == 0) { list = xreallocarray(list, size + 1, sizeof *list); list[size++] = tmp; continue; } free(tmp); } } else { RB_FOREACH(s_loop, sessions, &sessions) { RB_FOREACH(wl, winlinks, &s_loop->windows) { w = wl->window; xasprintf(&tmp, "%s:%s", s_loop->name, w->name); if (strncmp(tmp, s, strlen(s)) == 0) { list = xreallocarray(list, size + 1, sizeof *list); list[size++] = tmp; continue; } free(tmp); xasprintf(&tmp, "%s:%d", s_loop->name, wl->idx); if (strncmp(tmp, s, strlen(s)) == 0) { list = xreallocarray(list, size + 1, sizeof *list); list[size++] = tmp; continue; } free(tmp); } } } if (size == 1) { out = xstrdup(list[0]); colon = " "; } else if (size != 0) out = status_prompt_complete_prefix(list, size); if (out != NULL) { xasprintf(&tmp, "-%c%s%s", copy[1], out, colon); out = tmp; } for (i = 0; i < size; i++) free((void *)list[i]); found: free(copy); free(list); return (out); }