/* $OpenBSD$ */ /* * 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" char *status_redraw_get_left( struct client *, time_t, int, struct grid_cell *, size_t *); char *status_redraw_get_right( struct client *, time_t, int, struct grid_cell *, size_t *); char *status_find_job(struct client *, char **); void status_job_free(void *); void status_job_callback(struct job *); char *status_print( struct client *, struct winlink *, time_t, struct grid_cell *); void status_replace1(struct client *, struct session *, struct winlink *, struct window_pane *, char **, char **, char *, size_t, int); void status_message_callback(int, short, void *); const char *status_prompt_up_history(u_int *); const char *status_prompt_down_history(u_int *); void status_prompt_add_history(const char *); char *status_prompt_complete(const char *); /* Status prompt history. */ ARRAY_DECL(, char *) status_prompt_history = ARRAY_INITIALIZER; /* Status output tree. */ RB_GENERATE(status_out_tree, status_out, entry, status_out_cmp); /* Output tree comparison function. */ int status_out_cmp(struct status_out *so1, struct status_out *so2) { return (strcmp(so1->cmd, so2->cmd)); } /* Retrieve options for left string. */ char * status_redraw_get_left(struct client *c, time_t t, int utf8flag, struct grid_cell *gc, size_t *size) { struct session *s = c->session; char *left; u_char fg, bg, attr; size_t leftlen; fg = options_get_number(&s->options, "status-left-fg"); if (fg != 8) colour_set_fg(gc, fg); bg = options_get_number(&s->options, "status-left-bg"); if (bg != 8) colour_set_bg(gc, bg); attr = options_get_number(&s->options, "status-left-attr"); if (attr != 0) gc->attr = attr; left = status_replace(c, NULL, NULL, NULL, options_get_string(&s->options, "status-left"), t, 1); *size = options_get_number(&s->options, "status-left-length"); leftlen = screen_write_cstrlen(utf8flag, "%s", left); if (leftlen < *size) *size = leftlen; return (left); } /* Retrieve options for right string. */ char * status_redraw_get_right(struct client *c, time_t t, int utf8flag, struct grid_cell *gc, size_t *size) { struct session *s = c->session; char *right; u_char fg, bg, attr; size_t rightlen; fg = options_get_number(&s->options, "status-right-fg"); if (fg != 8) colour_set_fg(gc, fg); bg = options_get_number(&s->options, "status-right-bg"); if (bg != 8) colour_set_bg(gc, bg); attr = options_get_number(&s->options, "status-right-attr"); if (attr != 0) gc->attr = attr; right = status_replace(c, NULL, NULL, NULL, options_get_string(&s->options, "status-right"), t, 1); *size = options_get_number(&s->options, "status-right-length"); rightlen = screen_write_cstrlen(utf8flag, "%s", right); if (rightlen < *size) *size = rightlen; return (right); } /* Set window at window list position. */ void status_set_window_at(struct client *c, u_int x) { struct session *s = c->session; struct winlink *wl; x += s->wlmouse; RB_FOREACH(wl, winlinks, &s->windows) { if (x < wl->status_width && session_select(s, wl->idx) == 0) { server_redraw_session(s); } x -= wl->status_width + 1; } } /* 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; time_t t; char *left, *right; u_int offset, needed; u_int wlstart, wlwidth, wlavailable, wloffset, wlsize; size_t llen, rlen; int larrow, rarrow, utf8flag; /* No status line? */ if (c->tty.sy == 0 || !options_get_number(&s->options, "status")) return (1); left = right = NULL; larrow = rarrow = 0; /* Update status timer. */ if (gettimeofday(&c->status_timer, NULL) != 0) fatal("gettimeofday failed"); t = c->status_timer.tv_sec; /* Set up default colour. */ memcpy(&stdgc, &grid_default_cell, sizeof gc); colour_set_fg(&stdgc, options_get_number(&s->options, "status-fg")); colour_set_bg(&stdgc, options_get_number(&s->options, "status-bg")); stdgc.attr |= options_get_number(&s->options, "status-attr"); /* 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; /* Get UTF-8 flag. */ utf8flag = options_get_number(&s->options, "status-utf8"); /* Work out left and right strings. */ memcpy(&lgc, &stdgc, sizeof lgc); left = status_redraw_get_left(c, t, utf8flag, &lgc, &llen); memcpy(&rgc, &stdgc, sizeof rgc); right = status_redraw_get_right(c, t, utf8flag, &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 + 1; if (rlen != 0) needed += rlen + 1; 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) { if (wl->status_text != NULL) xfree(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(utf8flag, "%s", wl->status_text); if (wl == s->curw) wloffset = wlwidth; wlwidth += wl->status_width + 1; } /* 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, utf8flag, "%s", wl->status_text); screen_write_putc(&ctx, &stdgc, ' '); } 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, utf8flag, "%s", left); screen_write_putc(&ctx, &stdgc, ' '); } 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 - 2, 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 - 1, 0); if (rlen != 0) { screen_write_putc(&ctx, &stdgc, ' '); screen_write_cnputs(&ctx, rlen, &rgc, utf8flag, "%s", right); } /* Figure out the offset for the window list. */ if (llen != 0) wloffset = llen + 1; else wloffset = 0; if (wlwidth < wlavailable) { switch (options_get_number(&s->options, "status-justify")) { case 1: /* centered */ wloffset += (wlavailable - wlwidth) / 2; break; case 2: /* right */ wloffset += (wlavailable - wlwidth); break; } } if (larrow != 0) wloffset++; /* Copy the window list. */ s->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: if (left != NULL) xfree(left); if (right != NULL) xfree(right); if (grid_compare(c->status.grid, old_status.grid) == 0) { screen_free(&old_status); return (0); } screen_free(&old_status); return (1); } /* Replace a single special sequence (prefixed by #). */ void status_replace1(struct client *c, struct session *s, struct winlink *wl, struct window_pane *wp, char **iptr, char **optr, char *out, size_t outsize, int jobsflag) { char ch, tmp[256], *ptr, *endptr, *freeptr; size_t ptrlen; long limit; if (s == NULL) s = c->session; if (wl == NULL) wl = s->curw; if (wp == NULL) wp = wl->window->active; errno = 0; limit = strtol(*iptr, &endptr, 10); if ((limit == 0 && errno != EINVAL) || (limit == LONG_MIN && errno != ERANGE) || (limit == LONG_MAX && errno != ERANGE) || limit != 0) *iptr = endptr; if (limit <= 0) limit = LONG_MAX; freeptr = NULL; switch (*(*iptr)++) { case '(': if (!jobsflag) { ch = ')'; goto skip_to; } if ((ptr = status_find_job(c, iptr)) == NULL) return; goto do_replace; case 'D': xsnprintf(tmp, sizeof tmp, "%%%u", wp->id); ptr = tmp; goto do_replace; case 'H': if (gethostname(tmp, sizeof tmp) != 0) fatal("gethostname failed"); ptr = tmp; goto do_replace; case 'h': if (gethostname(tmp, sizeof tmp) != 0) fatal("gethostname failed"); if ((ptr = strchr(tmp, '.')) != NULL) *ptr = '\0'; ptr = tmp; goto do_replace; case 'I': xsnprintf(tmp, sizeof tmp, "%d", wl->idx); ptr = tmp; goto do_replace; case 'P': xsnprintf( tmp, sizeof tmp, "%u", window_pane_index(wl->window, wp)); ptr = tmp; goto do_replace; case 'S': ptr = s->name; goto do_replace; case 'T': ptr = wp->base.title; goto do_replace; case 'W': ptr = wl->window->name; goto do_replace; case 'F': ptr = window_printable_flags(s, wl); freeptr = ptr; goto do_replace; case '[': /* * Embedded style, handled at display time. Leave present and * skip input until ]. */ ch = ']'; goto skip_to; case '#': *(*optr)++ = '#'; break; } return; do_replace: ptrlen = strlen(ptr); if ((size_t) limit < ptrlen) ptrlen = limit; if (*optr + ptrlen >= out + outsize - 1) return; while (ptrlen > 0 && *ptr != '\0') { *(*optr)++ = *ptr++; ptrlen--; } if (freeptr != NULL) xfree(freeptr); return; skip_to: *(*optr)++ = '#'; (*iptr)--; /* include ch */ while (**iptr != ch && **iptr != '\0') { if (*optr >= out + outsize - 1) break; *(*optr)++ = *(*iptr)++; } } /* Replace special sequences in fmt. */ char * status_replace(struct client *c, struct session *s, struct winlink *wl, struct window_pane *wp, const char *fmt, time_t t, int jobsflag) { static char out[BUFSIZ]; char in[BUFSIZ], ch, *iptr, *optr; strftime(in, sizeof in, fmt, localtime(&t)); in[(sizeof in) - 1] = '\0'; iptr = in; optr = out; while (*iptr != '\0') { if (optr >= out + (sizeof out) - 1) break; ch = *iptr++; if (ch != '#' || *iptr == '\0') { *optr++ = ch; continue; } status_replace1( c, s, wl, wp, &iptr, &optr, out, sizeof out, jobsflag); } *optr = '\0'; return (xstrdup(out)); } /* Figure out job name and get its result, starting it off if necessary. */ char * status_find_job(struct client *c, char **iptr) { struct status_out *so, so_find; char *cmd; int lastesc; size_t len; if (**iptr == '\0') return (NULL); if (**iptr == ')') { /* no command given */ (*iptr)++; return (NULL); } cmd = xmalloc(strlen(*iptr) + 1); len = 0; lastesc = 0; for (; **iptr != '\0'; (*iptr)++) { if (!lastesc && **iptr == ')') break; /* unescaped ) is the end */ if (!lastesc && **iptr == '\\') { lastesc = 1; continue; /* skip \ if not escaped */ } lastesc = 0; cmd[len++] = **iptr; } if (**iptr == '\0') /* no terminating ) */ { xfree(cmd); return (NULL); } (*iptr)++; /* skip final ) */ cmd[len] = '\0'; /* First try in the new tree. */ so_find.cmd = cmd; so = RB_FIND(status_out_tree, &c->status_new, &so_find); if (so != NULL && so->out != NULL) return (so->out); /* If not found at all, start the job and add to the tree. */ if (so == NULL) { job_run(cmd, status_job_callback, status_job_free, c); c->references++; so = xmalloc(sizeof *so); so->cmd = xstrdup(cmd); so->out = NULL; RB_INSERT(status_out_tree, &c->status_new, so); } /* Lookup in the old tree. */ so_find.cmd = cmd; so = RB_FIND(status_out_tree, &c->status_old, &so_find); xfree(cmd); if (so != NULL) return (so->out); return (NULL); } /* Free job tree. */ void status_free_jobs(struct status_out_tree *sotree) { struct status_out *so, *so_next; so_next = RB_MIN(status_out_tree, sotree); while (so_next != NULL) { so = so_next; so_next = RB_NEXT(status_out_tree, sotree, so); RB_REMOVE(status_out_tree, sotree, so); if (so->out != NULL) xfree(so->out); xfree(so->cmd); xfree(so); } } /* Update jobs on status interval. */ void status_update_jobs(struct client *c) { /* Free the old tree. */ status_free_jobs(&c->status_old); /* Move the new to old. */ memcpy(&c->status_old, &c->status_new, sizeof c->status_old); RB_INIT(&c->status_new); } /* Free status job. */ void status_job_free(void *data) { struct client *c = data; c->references--; } /* Job has finished: save its result. */ void status_job_callback(struct job *job) { struct client *c = job->data; struct status_out *so, so_find; char *line, *buf; size_t len; if (c->flags & CLIENT_DEAD) return; so_find.cmd = job->cmd; so = RB_FIND(status_out_tree, &c->status_new, &so_find); if (so == NULL || so->out != NULL) return; buf = NULL; if ((line = evbuffer_readline(job->event->input)) == NULL) { len = EVBUFFER_LENGTH(job->event->input); buf = xmalloc(len + 1); if (len != 0) memcpy(buf, EVBUFFER_DATA(job->event->input), len); buf[len] = '\0'; } else buf = xstrdup(line); so->out = buf; server_redraw_client(c); } /* Return winlink status line entry and adjust gc as necessary. */ 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; u_char fg, bg, attr; fg = options_get_number(oo, "window-status-fg"); if (fg != 8) colour_set_fg(gc, fg); bg = options_get_number(oo, "window-status-bg"); if (bg != 8) colour_set_bg(gc, bg); attr = options_get_number(oo, "window-status-attr"); if (attr != 0) gc->attr = attr; fmt = options_get_string(oo, "window-status-format"); if (wl == s->curw) { fg = options_get_number(oo, "window-status-current-fg"); if (fg != 8) colour_set_fg(gc, fg); bg = options_get_number(oo, "window-status-current-bg"); if (bg != 8) colour_set_bg(gc, bg); attr = options_get_number(oo, "window-status-current-attr"); if (attr != 0) gc->attr = attr; fmt = options_get_string(oo, "window-status-current-format"); } if (wl->flags & WINLINK_ALERTFLAGS) { fg = options_get_number(oo, "window-status-alert-fg"); if (fg != 8) colour_set_fg(gc, fg); bg = options_get_number(oo, "window-status-alert-bg"); if (bg != 8) colour_set_bg(gc, bg); attr = options_get_number(oo, "window-status-alert-attr"); if (attr != 0) gc->attr = attr; } text = status_replace(c, NULL, wl, NULL, fmt, t, 1); return (text); } /* Set a status line message. */ void printflike2 status_message_set(struct client *c, const char *fmt, ...) { struct timeval tv; struct session *s = c->session; struct message_entry *msg; va_list ap; int delay; u_int i, limit; status_prompt_clear(c); status_message_clear(c); va_start(ap, fmt); xvasprintf(&c->message_string, fmt, ap); va_end(ap); ARRAY_EXPAND(&c->message_log, 1); msg = &ARRAY_LAST(&c->message_log); msg->msg_time = time(NULL); msg->msg = xstrdup(c->message_string); if (s == NULL) limit = 0; else limit = options_get_number(&s->options, "message-limit"); if (ARRAY_LENGTH(&c->message_log) > limit) { limit = ARRAY_LENGTH(&c->message_log) - limit; for (i = 0; i < limit; i++) { msg = &ARRAY_FIRST(&c->message_log); xfree(msg->msg); ARRAY_REMOVE(&c->message_log, 0); } } delay = options_get_number(&c->session->options, "display-time"); tv.tv_sec = delay / 1000; tv.tv_usec = (delay % 1000) * 1000L; 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; xfree(c->message_string); c->message_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. */ /* ARGSUSED */ 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; int utf8flag; 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); utf8flag = options_get_number(&s->options, "status-utf8"); len = screen_write_strlen(utf8flag, "%s", c->message_string); if (len > c->tty.sx) len = c->tty.sx; memcpy(&gc, &grid_default_cell, sizeof gc); colour_set_fg(&gc, options_get_number(&s->options, "message-fg")); colour_set_bg(&gc, options_get_number(&s->options, "message-bg")); gc.attr |= options_get_number(&s->options, "message-attr"); screen_write_start(&ctx, NULL, &c->status); screen_write_cursormove(&ctx, 0, 0); screen_write_nputs(&ctx, len, &gc, utf8flag, "%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, int (*callbackfn)(void *, const char *), void (*freefn)(void *), void *data, int flags) { int keys; status_message_clear(c); status_prompt_clear(c); c->prompt_string = xstrdup(msg); c->prompt_buffer = xstrdup(""); c->prompt_index = 0; c->prompt_callbackfn = callbackfn; c->prompt_freefn = freefn; c->prompt_data = data; c->prompt_hindex = 0; c->prompt_flags = flags; keys = options_get_number(&c->session->options, "status-keys"); if (keys == MODEKEY_EMACS) mode_key_init(&c->prompt_mdata, &mode_key_tree_emacs_edit); else mode_key_init(&c->prompt_mdata, &mode_key_tree_vi_edit); c->tty.flags |= (TTY_NOCURSOR|TTY_FREEZE); c->flags |= CLIENT_STATUS; } /* 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); xfree(c->prompt_string); c->prompt_string = NULL; xfree(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) { xfree(c->prompt_string); c->prompt_string = xstrdup(msg); *c->prompt_buffer = '\0'; c->prompt_index = 0; c->prompt_hindex = 0; c->flags |= CLIENT_STATUS; } /* 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; size_t i, size, left, len, off; struct grid_cell gc, *gcp; int utf8flag; 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); utf8flag = options_get_number(&s->options, "status-utf8"); len = screen_write_strlen(utf8flag, "%s", c->prompt_string); if (len > c->tty.sx) len = c->tty.sx; off = 0; memcpy(&gc, &grid_default_cell, sizeof gc); colour_set_fg(&gc, options_get_number(&s->options, "message-fg")); colour_set_bg(&gc, options_get_number(&s->options, "message-bg")); gc.attr |= options_get_number(&s->options, "message-attr"); screen_write_start(&ctx, NULL, &c->status); screen_write_cursormove(&ctx, 0, 0); screen_write_nputs(&ctx, len, &gc, utf8flag, "%s", c->prompt_string); left = c->tty.sx - len; if (left != 0) { size = screen_write_strlen(utf8flag, "%s", c->prompt_buffer); if (c->prompt_index >= left) { off = c->prompt_index - left + 1; if (c->prompt_index == size) left--; size = left; } screen_write_nputs( &ctx, left, &gc, utf8flag, "%s", c->prompt_buffer + off); for (i = len + size; i < c->tty.sx; i++) screen_write_putc(&ctx, &gc, ' '); } screen_write_stop(&ctx); /* Apply fake cursor. */ off = len + c->prompt_index - off; gcp = grid_view_get_cell(c->status.grid, off, 0); gcp->attr ^= GRID_ATTR_REVERSE; if (grid_compare(c->status.grid, old_status.grid) == 0) { screen_free(&old_status); return (0); } screen_free(&old_status); return (1); } /* Handle keys in prompt. */ void status_prompt_key(struct client *c, int key) { struct paste_buffer *pb; char *s, *first, *last, word[64], swapc; const char *histstr; u_char ch; size_t size, n, off, idx; size = strlen(c->prompt_buffer); switch (mode_key_lookup(&c->prompt_mdata, key)) { case MODEKEYEDIT_CURSORLEFT: if (c->prompt_index > 0) { c->prompt_index--; c->flags |= CLIENT_STATUS; } break; case MODEKEYEDIT_SWITCHMODEAPPEND: case MODEKEYEDIT_CURSORRIGHT: if (c->prompt_index < size) { c->prompt_index++; c->flags |= CLIENT_STATUS; } break; case MODEKEYEDIT_STARTOFLINE: if (c->prompt_index != 0) { c->prompt_index = 0; c->flags |= CLIENT_STATUS; } break; case MODEKEYEDIT_ENDOFLINE: if (c->prompt_index != size) { c->prompt_index = size; c->flags |= CLIENT_STATUS; } break; case MODEKEYEDIT_COMPLETE: if (*c->prompt_buffer == '\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 && *first != ' ') first--; while (*first == ' ') first++; last = c->prompt_buffer + idx; while (*last != '\0' && *last != ' ') last++; while (*last == ' ') last--; if (*last != '\0') last++; if (last <= first || ((size_t) (last - first)) > (sizeof word) - 1) break; memcpy(word, first, last - first); word[last - first] = '\0'; /* And try to complete it. */ if ((s = status_prompt_complete(word)) == NULL) break; /* Trim out word. */ n = size - (last - c->prompt_buffer) + 1; /* with \0 */ memmove(first, last, n); size -= last - first; /* Insert the new word. */ size += strlen(s); off = first - c->prompt_buffer; c->prompt_buffer = xrealloc(c->prompt_buffer, 1, size + 1); first = c->prompt_buffer + off; memmove(first + strlen(s), first, n); memcpy(first, s, strlen(s)); c->prompt_index = (first - c->prompt_buffer) + strlen(s); xfree(s); c->flags |= CLIENT_STATUS; break; case MODEKEYEDIT_BACKSPACE: if (c->prompt_index != 0) { if (c->prompt_index == size) c->prompt_buffer[--c->prompt_index] = '\0'; else { memmove(c->prompt_buffer + c->prompt_index - 1, c->prompt_buffer + c->prompt_index, size + 1 - c->prompt_index); c->prompt_index--; } c->flags |= CLIENT_STATUS; } break; case MODEKEYEDIT_DELETE: if (c->prompt_index != size) { memmove(c->prompt_buffer + c->prompt_index, c->prompt_buffer + c->prompt_index + 1, size + 1 - c->prompt_index); c->flags |= CLIENT_STATUS; } break; case MODEKEYEDIT_DELETELINE: *c->prompt_buffer = '\0'; c->prompt_index = 0; c->flags |= CLIENT_STATUS; break; case MODEKEYEDIT_DELETETOENDOFLINE: if (c->prompt_index < size) { c->prompt_buffer[c->prompt_index] = '\0'; c->flags |= CLIENT_STATUS; } break; case MODEKEYEDIT_HISTORYUP: histstr = status_prompt_up_history(&c->prompt_hindex); if (histstr == NULL) break; xfree(c->prompt_buffer); c->prompt_buffer = xstrdup(histstr); c->prompt_index = strlen(c->prompt_buffer); c->flags |= CLIENT_STATUS; break; case MODEKEYEDIT_HISTORYDOWN: histstr = status_prompt_down_history(&c->prompt_hindex); if (histstr == NULL) break; xfree(c->prompt_buffer); c->prompt_buffer = xstrdup(histstr); c->prompt_index = strlen(c->prompt_buffer); c->flags |= CLIENT_STATUS; break; case MODEKEYEDIT_PASTE: if ((pb = paste_get_top(&global_buffers)) == NULL) break; for (n = 0; n < pb->size; n++) { ch = (u_char) pb->data[n]; if (ch < 32 || ch == 127) break; } c->prompt_buffer = xrealloc(c->prompt_buffer, 1, size + n + 1); if (c->prompt_index == size) { memcpy(c->prompt_buffer + c->prompt_index, pb->data, n); c->prompt_index += n; c->prompt_buffer[c->prompt_index] = '\0'; } else { memmove(c->prompt_buffer + c->prompt_index + n, c->prompt_buffer + c->prompt_index, size + 1 - c->prompt_index); memcpy(c->prompt_buffer + c->prompt_index, pb->data, n); c->prompt_index += n; } c->flags |= CLIENT_STATUS; break; case MODEKEYEDIT_TRANSPOSECHARS: idx = c->prompt_index; if (idx < size) idx++; if (idx >= 2) { swapc = c->prompt_buffer[idx - 2]; c->prompt_buffer[idx - 2] = c->prompt_buffer[idx - 1]; c->prompt_buffer[idx - 1] = swapc; c->prompt_index = idx; c->flags |= CLIENT_STATUS; } break; case MODEKEYEDIT_ENTER: if (*c->prompt_buffer != '\0') status_prompt_add_history(c->prompt_buffer); if (c->prompt_callbackfn(c->prompt_data, c->prompt_buffer) == 0) status_prompt_clear(c); break; case MODEKEYEDIT_CANCEL: if (c->prompt_callbackfn(c->prompt_data, NULL) == 0) status_prompt_clear(c); break; case MODEKEY_OTHER: if ((key & 0xff00) != 0 || key < 32 || key == 127) break; c->prompt_buffer = xrealloc(c->prompt_buffer, 1, size + 2); if (c->prompt_index == size) { c->prompt_buffer[c->prompt_index++] = key; c->prompt_buffer[c->prompt_index] = '\0'; } else { memmove(c->prompt_buffer + c->prompt_index + 1, c->prompt_buffer + c->prompt_index, size + 1 - c->prompt_index); c->prompt_buffer[c->prompt_index++] = key; } if (c->prompt_flags & PROMPT_SINGLE) { if (c->prompt_callbackfn( c->prompt_data, c->prompt_buffer) == 0) status_prompt_clear(c); } c->flags |= CLIENT_STATUS; break; default: break; } } /* Get previous line from the history. */ const char * status_prompt_up_history(u_int *idx) { u_int size; /* * History runs from 0 to size - 1. * * Index is from 0 to size. Zero is empty. */ size = ARRAY_LENGTH(&status_prompt_history); if (size == 0 || *idx == size) return (NULL); (*idx)++; return (ARRAY_ITEM(&status_prompt_history, size - *idx)); } /* Get next line from the history. */ const char * status_prompt_down_history(u_int *idx) { u_int size; size = ARRAY_LENGTH(&status_prompt_history); if (size == 0 || *idx == 0) return (""); (*idx)--; if (*idx == 0) return (""); return (ARRAY_ITEM(&status_prompt_history, size - *idx)); } /* Add line to the history. */ void status_prompt_add_history(const char *line) { u_int size; size = ARRAY_LENGTH(&status_prompt_history); if (size > 0 && strcmp(ARRAY_LAST(&status_prompt_history), line) == 0) return; if (size == PROMPT_HISTORY) { xfree(ARRAY_FIRST(&status_prompt_history)); ARRAY_REMOVE(&status_prompt_history, 0); } ARRAY_ADD(&status_prompt_history, xstrdup(line)); } /* Complete word. */ char * status_prompt_complete(const char *s) { const struct cmd_entry **cmdent; const struct options_table_entry *oe; ARRAY_DECL(, const char *) list; char *prefix, *s2; u_int i; size_t j; if (*s == '\0') return (NULL); /* First, build a list of all the possible matches. */ ARRAY_INIT(&list); for (cmdent = cmd_table; *cmdent != NULL; cmdent++) { if (strncmp((*cmdent)->name, s, strlen(s)) == 0) ARRAY_ADD(&list, (*cmdent)->name); } for (oe = server_options_table; oe->name != NULL; oe++) { if (strncmp(oe->name, s, strlen(s)) == 0) ARRAY_ADD(&list, oe->name); } for (oe = session_options_table; oe->name != NULL; oe++) { if (strncmp(oe->name, s, strlen(s)) == 0) ARRAY_ADD(&list, oe->name); } for (oe = window_options_table; oe->name != NULL; oe++) { if (strncmp(oe->name, s, strlen(s)) == 0) ARRAY_ADD(&list, oe->name); } /* If none, bail now. */ if (ARRAY_LENGTH(&list) == 0) { ARRAY_FREE(&list); return (NULL); } /* If an exact match, return it, with a trailing space. */ if (ARRAY_LENGTH(&list) == 1) { xasprintf(&s2, "%s ", ARRAY_FIRST(&list)); ARRAY_FREE(&list); return (s2); } /* Now loop through the list and find the longest common prefix. */ prefix = xstrdup(ARRAY_FIRST(&list)); for (i = 1; i < ARRAY_LENGTH(&list); i++) { s = ARRAY_ITEM(&list, i); j = strlen(s); if (j > strlen(prefix)) j = strlen(prefix); for (; j > 0; j--) { if (prefix[j - 1] != s[j - 1]) prefix[j - 1] = '\0'; } } ARRAY_FREE(&list); return (prefix); }