/* $OpenBSD$ */ /* * Copyright (c) 2011 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 #include #include #include "tmux.h" /* * Build a list of key-value pairs and use them to expand #{key} entries in a * string. */ struct format_entry; typedef void (*format_cb)(struct format_tree *, struct format_entry *); void format_job_callback(struct job *); char *format_job_get(struct format_tree *, const char *); void format_job_timer(int, short, void *); void format_cb_host(struct format_tree *, struct format_entry *); void format_cb_host_short(struct format_tree *, struct format_entry *); void format_cb_pid(struct format_tree *, struct format_entry *); void format_cb_session_alerts(struct format_tree *, struct format_entry *); void format_cb_window_layout(struct format_tree *, struct format_entry *); void format_cb_start_command(struct format_tree *, struct format_entry *); void format_cb_current_command(struct format_tree *, struct format_entry *); void format_cb_current_path(struct format_tree *, struct format_entry *); void format_cb_history_bytes(struct format_tree *, struct format_entry *); void format_cb_pane_tabs(struct format_tree *, struct format_entry *); char *format_find(struct format_tree *, const char *, int); void format_add_cb(struct format_tree *, const char *, format_cb); void format_add_tv(struct format_tree *, const char *, struct timeval *); int format_replace(struct format_tree *, const char *, size_t, char **, size_t *, size_t *); char *format_time_string(time_t); void format_defaults_pane_tabs(struct format_tree *, struct window_pane *); void format_defaults_session(struct format_tree *, struct session *); void format_defaults_client(struct format_tree *, struct client *); void format_defaults_winlink(struct format_tree *, struct session *, struct winlink *); /* Entry in format job tree. */ struct format_job { const char *cmd; time_t last; char *out; struct job *job; int status; RB_ENTRY(format_job) entry; }; /* Format job tree. */ struct event format_job_event; int format_job_cmp(struct format_job *, struct format_job *); RB_HEAD(format_job_tree, format_job) format_jobs = RB_INITIALIZER(); RB_PROTOTYPE(format_job_tree, format_job, entry, format_job_cmp); RB_GENERATE(format_job_tree, format_job, entry, format_job_cmp); /* Format job tree comparison function. */ int format_job_cmp(struct format_job *fj1, struct format_job *fj2) { return (strcmp(fj1->cmd, fj2->cmd)); } /* Format modifiers. */ #define FORMAT_TIMESTRING 0x1 #define FORMAT_BASENAME 0x2 #define FORMAT_DIRNAME 0x4 /* Entry in format tree. */ struct format_entry { char *key; char *value; time_t t; format_cb cb; RB_ENTRY(format_entry) entry; }; /* Format entry tree. */ struct format_tree { struct window *w; struct session *s; struct window_pane *wp; int flags; RB_HEAD(format_entry_tree, format_entry) tree; }; int format_entry_cmp(struct format_entry *, struct format_entry *); RB_PROTOTYPE(format_entry_tree, format_entry, entry, format_entry_cmp); RB_GENERATE(format_entry_tree, format_entry, entry, format_entry_cmp); /* Format entry tree comparison function. */ int format_entry_cmp(struct format_entry *fe1, struct format_entry *fe2) { return (strcmp(fe1->key, fe2->key)); } /* Single-character uppercase aliases. */ const char *format_upper[] = { NULL, /* A */ NULL, /* B */ NULL, /* C */ "pane_id", /* D */ NULL, /* E */ "window_flags", /* F */ NULL, /* G */ "host", /* H */ "window_index", /* I */ NULL, /* J */ NULL, /* K */ NULL, /* L */ NULL, /* M */ NULL, /* N */ NULL, /* O */ "pane_index", /* P */ NULL, /* Q */ NULL, /* R */ "session_name", /* S */ "pane_title", /* T */ NULL, /* U */ NULL, /* V */ "window_name", /* W */ NULL, /* X */ NULL, /* Y */ NULL /* Z */ }; /* Single-character lowercase aliases. */ const char *format_lower[] = { NULL, /* a */ NULL, /* b */ NULL, /* c */ NULL, /* d */ NULL, /* e */ NULL, /* f */ NULL, /* g */ "host_short", /* h */ NULL, /* i */ NULL, /* j */ NULL, /* k */ NULL, /* l */ NULL, /* m */ NULL, /* n */ NULL, /* o */ NULL, /* p */ NULL, /* q */ NULL, /* r */ NULL, /* s */ NULL, /* t */ NULL, /* u */ NULL, /* v */ NULL, /* w */ NULL, /* x */ NULL, /* y */ NULL /* z */ }; /* Format job callback. */ void format_job_callback(struct job *job) { struct format_job *fj = job->data; char *line, *buf; size_t len; struct client *c; fj->job = NULL; free(fj->out); 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 = line; fj->out = buf; if (fj->status) { TAILQ_FOREACH(c, &clients, entry) server_status_client(c); fj->status = 0; } log_debug("%s: %s: %s", __func__, fj->cmd, fj->out); } /* Find a job. */ char * format_job_get(struct format_tree *ft, const char *cmd) { struct format_job fj0, *fj; time_t t; fj0.cmd = cmd; if ((fj = RB_FIND(format_job_tree, &format_jobs, &fj0)) == NULL) { fj = xcalloc(1, sizeof *fj); fj->cmd = xstrdup(cmd); xasprintf(&fj->out, "<'%s' not ready>", fj->cmd); RB_INSERT(format_job_tree, &format_jobs, fj); } t = time(NULL); if (fj->job == NULL && ((ft->flags & FORMAT_FORCE) || fj->last != t)) { fj->job = job_run(fj->cmd, NULL, -1, format_job_callback, NULL, fj); if (fj->job == NULL) { free(fj->out); xasprintf(&fj->out, "<'%s' didn't start>", fj->cmd); } fj->last = t; } if (ft->flags & FORMAT_STATUS) fj->status = 1; return (format_expand(ft, fj->out)); } /* Remove old jobs. */ void format_job_timer(unused int fd, unused short events, unused void *arg) { struct format_job *fj, *fj1; time_t now; struct timeval tv = { .tv_sec = 60 }; now = time(NULL); RB_FOREACH_SAFE(fj, format_job_tree, &format_jobs, fj1) { if (fj->last > now || now - fj->last < 3600) continue; RB_REMOVE(format_job_tree, &format_jobs, fj); log_debug("%s: %s", __func__, fj->cmd); if (fj->job != NULL) job_free(fj->job); free((void *)fj->cmd); free(fj->out); free(fj); } evtimer_del(&format_job_event); evtimer_add(&format_job_event, &tv); } /* Callback for host. */ void format_cb_host(unused struct format_tree *ft, struct format_entry *fe) { char host[HOST_NAME_MAX + 1]; if (gethostname(host, sizeof host) != 0) fe->value = xstrdup(""); else fe->value = xstrdup(host); } /* Callback for host_short. */ void format_cb_host_short(unused struct format_tree *ft, struct format_entry *fe) { char host[HOST_NAME_MAX + 1], *cp; if (gethostname(host, sizeof host) != 0) fe->value = xstrdup(""); else { if ((cp = strchr(host, '.')) != NULL) *cp = '\0'; fe->value = xstrdup(host); } } /* Callback for pid. */ void format_cb_pid(unused struct format_tree *ft, struct format_entry *fe) { xasprintf(&fe->value, "%ld", (long)getpid()); } /* Callback for session_alerts. */ void format_cb_session_alerts(struct format_tree *ft, struct format_entry *fe) { struct session *s = ft->s; struct winlink *wl; char alerts[256], tmp[16]; if (s == NULL) return; *alerts = '\0'; RB_FOREACH(wl, winlinks, &s->windows) { if ((wl->flags & WINLINK_ALERTFLAGS) == 0) continue; xsnprintf(tmp, sizeof tmp, "%u", wl->idx); if (*alerts != '\0') strlcat(alerts, ",", sizeof alerts); strlcat(alerts, tmp, sizeof alerts); if (wl->flags & WINLINK_ACTIVITY) strlcat(alerts, "#", sizeof alerts); if (wl->flags & WINLINK_BELL) strlcat(alerts, "!", sizeof alerts); if (wl->flags & WINLINK_SILENCE) strlcat(alerts, "~", sizeof alerts); } fe->value = xstrdup(alerts); } /* Callback for window_layout. */ void format_cb_window_layout(struct format_tree *ft, struct format_entry *fe) { struct window *w = ft->w; if (w == NULL) return; if (w->saved_layout_root != NULL) fe->value = layout_dump(w->saved_layout_root); else fe->value = layout_dump(w->layout_root); } /* Callback for pane_start_command. */ void format_cb_start_command(struct format_tree *ft, struct format_entry *fe) { struct window_pane *wp = ft->wp; if (wp == NULL) return; fe->value = cmd_stringify_argv(wp->argc, wp->argv); } /* Callback for pane_current_command. */ void format_cb_current_command(struct format_tree *ft, struct format_entry *fe) { struct window_pane *wp = ft->wp; char *cmd; if (wp == NULL) return; cmd = osdep_get_name(wp->fd, wp->tty); if (cmd == NULL || *cmd == '\0') { free(cmd); cmd = cmd_stringify_argv(wp->argc, wp->argv); if (cmd == NULL || *cmd == '\0') { free(cmd); cmd = xstrdup(wp->shell); } } fe->value = parse_window_name(cmd); free(cmd); } /* Callback for pane_current_path. */ void format_cb_current_path(struct format_tree *ft, struct format_entry *fe) { struct window_pane *wp = ft->wp; char *cwd; if (wp == NULL) return; cwd = osdep_get_cwd(wp->fd); if (cwd != NULL) fe->value = xstrdup(cwd); } /* Callback for history_bytes. */ void format_cb_history_bytes(struct format_tree *ft, struct format_entry *fe) { struct window_pane *wp = ft->wp; struct grid *gd; struct grid_line *gl; unsigned long long size; u_int i; if (wp == NULL) return; gd = wp->base.grid; size = 0; for (i = 0; i < gd->hsize; i++) { gl = &gd->linedata[i]; size += gl->cellsize * sizeof *gl->celldata; } size += gd->hsize * sizeof *gd->linedata; xasprintf(&fe->value, "%llu", size); } /* Callback for pane_tabs. */ void format_cb_pane_tabs(struct format_tree *ft, struct format_entry *fe) { struct window_pane *wp = ft->wp; struct evbuffer *buffer; u_int i; int size; if (wp == NULL) return; buffer = evbuffer_new(); for (i = 0; i < wp->base.grid->sx; i++) { if (!bit_test(wp->base.tabs, i)) continue; if (EVBUFFER_LENGTH(buffer) > 0) evbuffer_add(buffer, ",", 1); evbuffer_add_printf(buffer, "%u", i); } size = EVBUFFER_LENGTH(buffer); xasprintf(&fe->value, "%.*s", size, EVBUFFER_DATA(buffer)); evbuffer_free(buffer); } /* Create a new tree. */ struct format_tree * format_create(void) { return (format_create_flags(0)); } /* Create a new tree for the status line. */ struct format_tree * format_create_flags(int flags) { struct format_tree *ft; if (!event_initialized(&format_job_event)) { evtimer_set(&format_job_event, format_job_timer, NULL); format_job_timer(-1, 0, NULL); } ft = xcalloc(1, sizeof *ft); RB_INIT(&ft->tree); ft->flags = flags; format_add_cb(ft, "host", format_cb_host); format_add_cb(ft, "host_short", format_cb_host_short); format_add_cb(ft, "pid", format_cb_pid); return (ft); } /* Free a tree. */ void format_free(struct format_tree *ft) { struct format_entry *fe, *fe1; RB_FOREACH_SAFE(fe, format_entry_tree, &ft->tree, fe1) { RB_REMOVE(format_entry_tree, &ft->tree, fe); free(fe->value); free(fe->key); free(fe); } free(ft); } /* Add a key-value pair. */ void format_add(struct format_tree *ft, const char *key, const char *fmt, ...) { struct format_entry *fe; struct format_entry *fe_now; va_list ap; fe = xmalloc(sizeof *fe); fe->key = xstrdup(key); fe_now = RB_INSERT(format_entry_tree, &ft->tree, fe); if (fe_now != NULL) { free(fe->key); free(fe); free(fe_now->value); fe = fe_now; } fe->cb = NULL; fe->t = 0; va_start(ap, fmt); xvasprintf(&fe->value, fmt, ap); va_end(ap); } /* Add a key and time. */ void format_add_tv(struct format_tree *ft, const char *key, struct timeval *tv) { struct format_entry *fe; struct format_entry *fe_now; fe = xmalloc(sizeof *fe); fe->key = xstrdup(key); fe_now = RB_INSERT(format_entry_tree, &ft->tree, fe); if (fe_now != NULL) { free(fe->key); free(fe); free(fe_now->value); fe = fe_now; } fe->cb = NULL; fe->t = tv->tv_sec; fe->value = NULL; } /* Add a key and function. */ void format_add_cb(struct format_tree *ft, const char *key, format_cb cb) { struct format_entry *fe; struct format_entry *fe_now; fe = xmalloc(sizeof *fe); fe->key = xstrdup(key); fe_now = RB_INSERT(format_entry_tree, &ft->tree, fe); if (fe_now != NULL) { free(fe->key); free(fe); free(fe_now->value); fe = fe_now; } fe->cb = cb; fe->t = 0; fe->value = NULL; } /* Find a format entry. */ char * format_find(struct format_tree *ft, const char *key, int modifiers) { struct format_entry *fe, fe_find; struct options_entry *o; struct environ_entry *envent; static char s[64]; const char *found; char *copy, *saved; found = NULL; if (~modifiers & FORMAT_TIMESTRING) { o = options_find(&global_options, key); if (o == NULL && ft->w != NULL) o = options_find(&ft->w->options, key); if (o == NULL) o = options_find(&global_w_options, key); if (o == NULL && ft->s != NULL) o = options_find(&ft->s->options, key); if (o == NULL) o = options_find(&global_s_options, key); if (o != NULL) { switch (o->type) { case OPTIONS_STRING: found = o->str; goto found; case OPTIONS_NUMBER: xsnprintf(s, sizeof s, "%lld", o->num); found = s; goto found; case OPTIONS_STYLE: found = style_tostring(&o->style); goto found; } } } fe_find.key = (char *) key; fe = RB_FIND(format_entry_tree, &ft->tree, &fe_find); if (fe != NULL) { if (modifiers & FORMAT_TIMESTRING) { if (fe->t == 0) return (NULL); ctime_r(&fe->t, s); s[strcspn(s, "\n")] = '\0'; found = s; goto found; } if (fe->t != 0) { xsnprintf(s, sizeof s, "%lld", (long long)fe->t); found = s; goto found; } if (fe->value == NULL && fe->cb != NULL) fe->cb(ft, fe); found = fe->value; goto found; } if (~modifiers & FORMAT_TIMESTRING) { envent = NULL; if (ft->s != NULL) envent = environ_find(&ft->s->environ, key); if (envent == NULL) envent = environ_find(&global_environ, key); if (envent != NULL) { found = envent->value; goto found; } } return (NULL); found: if (found == NULL) return (NULL); copy = xstrdup(found); if (modifiers & FORMAT_BASENAME) { saved = copy; copy = xstrdup(basename(saved)); free(saved); } if (modifiers & FORMAT_DIRNAME) { saved = copy; copy = xstrdup(dirname(saved)); free(saved); } return (copy); } /* * Replace a key/value pair in buffer. #{blah} is expanded directly, * #{?blah,a,b} is replace with a if blah exists and is nonzero else b. */ int format_replace(struct format_tree *ft, const char *key, size_t keylen, char **buf, size_t *len, size_t *off) { char *copy, *copy0, *endptr, *ptr, *saved, *trimmed, *value; size_t valuelen; u_long limit = 0; int modifiers = 0, brackets; /* Make a copy of the key. */ copy0 = copy = xmalloc(keylen + 1); memcpy(copy, key, keylen); copy[keylen] = '\0'; /* Is there a length limit or whatnot? */ switch (copy[0]) { case '=': errno = 0; limit = strtoul(copy + 1, &endptr, 10); if (errno == ERANGE && limit == ULONG_MAX) break; if (*endptr != ':') break; copy = endptr + 1; break; case 'b': if (copy[1] != ':') break; modifiers |= FORMAT_BASENAME; copy += 2; break; case 'd': if (copy[1] != ':') break; modifiers |= FORMAT_DIRNAME; copy += 2; break; case 't': if (copy[1] != ':') break; modifiers |= FORMAT_TIMESTRING; copy += 2; break; } /* * Is this a conditional? If so, check it exists and extract either the * first or second element. If not, look up the key directly. */ if (*copy == '?') { ptr = strchr(copy, ','); if (ptr == NULL) goto fail; *ptr = '\0'; value = ptr + 1; saved = format_find(ft, copy + 1, modifiers); brackets = 0; for (ptr = ptr + 1; *ptr != '\0'; ptr++) { if (*ptr == '{') brackets++; if (*ptr == '}') brackets--; if (*ptr == ',' && brackets == 0) break; } if (*ptr == '\0') goto fail; if (saved != NULL && *saved != '\0' && (saved[0] != '0' || saved[1] != '\0')) { *ptr = '\0'; } else value = ptr + 1; value = format_expand(ft, value); free(saved); saved = value; } else { saved = value = format_find(ft, copy, modifiers); if (value == NULL) saved = value = xstrdup(""); } /* Truncate the value if needed. */ if (limit != 0) { value = trimmed = utf8_trimcstr(value, limit); free(saved); saved = trimmed; } valuelen = strlen(value); /* Expand the buffer and copy in the value. */ while (*len - *off < valuelen + 1) { *buf = xreallocarray(*buf, 2, *len); *len *= 2; } memcpy(*buf + *off, value, valuelen); *off += valuelen; free(saved); free(copy0); return (0); fail: free(copy0); return (-1); } /* Expand keys in a template, passing through strftime first. */ char * format_expand_time(struct format_tree *ft, const char *fmt, time_t t) { char *tmp, *expanded; size_t tmplen; struct tm *tm; if (fmt == NULL || *fmt == '\0') return (xstrdup("")); tm = localtime(&t); tmp = NULL; tmplen = strlen(fmt); do { tmp = xreallocarray(tmp, 2, tmplen); tmplen *= 2; } while (strftime(tmp, tmplen, fmt, tm) == 0); expanded = format_expand(ft, tmp); free(tmp); return (expanded); } /* Expand keys in a template. */ char * format_expand(struct format_tree *ft, const char *fmt) { char *buf, *tmp, *cmd, *out; const char *ptr, *s, *saved = fmt; size_t off, len, n, outlen; int ch, brackets; if (fmt == NULL) return (xstrdup("")); len = 64; buf = xmalloc(len); off = 0; while (*fmt != '\0') { if (*fmt != '#') { while (len - off < 2) { buf = xreallocarray(buf, 2, len); len *= 2; } buf[off++] = *fmt++; continue; } fmt++; ch = (u_char) *fmt++; switch (ch) { case '(': brackets = 1; for (ptr = fmt; *ptr != '\0'; ptr++) { if (*ptr == '(') brackets++; if (*ptr == ')' && --brackets == 0) break; } if (*ptr != ')' || brackets != 0) break; n = ptr - fmt; tmp = xmalloc(n + 1); memcpy(tmp, fmt, n); tmp[n] = '\0'; cmd = format_expand(ft, tmp); out = format_job_get(ft, cmd); outlen = strlen(out); free(cmd); free(tmp); while (len - off < outlen + 1) { buf = xreallocarray(buf, 2, len); len *= 2; } memcpy(buf + off, out, outlen); off += outlen; free(out); fmt += n + 1; continue; case '{': brackets = 1; for (ptr = fmt; *ptr != '\0'; ptr++) { if (*ptr == '{') brackets++; if (*ptr == '}' && --brackets == 0) break; } if (*ptr != '}' || brackets != 0) break; n = ptr - fmt; if (format_replace(ft, fmt, n, &buf, &len, &off) != 0) break; fmt += n + 1; continue; case '#': while (len - off < 2) { buf = xreallocarray(buf, 2, len); len *= 2; } buf[off++] = '#'; continue; default: s = NULL; if (ch >= 'A' && ch <= 'Z') s = format_upper[ch - 'A']; else if (ch >= 'a' && ch <= 'z') s = format_lower[ch - 'a']; if (s == NULL) { while (len - off < 3) { buf = xreallocarray(buf, 2, len); len *= 2; } buf[off++] = '#'; buf[off++] = ch; continue; } n = strlen(s); if (format_replace(ft, s, n, &buf, &len, &off) != 0) break; continue; } break; } buf[off] = '\0'; log_debug("format '%s' -> '%s'", saved, buf); return (buf); } /* Set defaults for any of arguments that are not NULL. */ void format_defaults(struct format_tree *ft, struct client *c, struct session *s, struct winlink *wl, struct window_pane *wp) { if (s == NULL && c != NULL) s = c->session; if (wl == NULL && s != NULL) wl = s->curw; if (wp == NULL && wl != NULL) wp = wl->window->active; if (c != NULL) format_defaults_client(ft, c); if (s != NULL) format_defaults_session(ft, s); if (s != NULL && wl != NULL) format_defaults_winlink(ft, s, wl); if (wp != NULL) format_defaults_pane(ft, wp); } /* Set default format keys for a session. */ void format_defaults_session(struct format_tree *ft, struct session *s) { struct session_group *sg; ft->s = s; format_add(ft, "session_name", "%s", s->name); format_add(ft, "session_windows", "%u", winlink_count(&s->windows)); format_add(ft, "session_width", "%u", s->sx); format_add(ft, "session_height", "%u", s->sy); format_add(ft, "session_id", "$%u", s->id); sg = session_group_find(s); format_add(ft, "session_grouped", "%d", sg != NULL); if (sg != NULL) format_add(ft, "session_group", "%u", session_group_index(sg)); format_add_tv(ft, "session_created", &s->creation_time); format_add_tv(ft, "session_last_attached", &s->last_attached_time); format_add_tv(ft, "session_activity", &s->activity_time); format_add(ft, "session_attached", "%u", s->attached); format_add(ft, "session_many_attached", "%d", s->attached > 1); format_add_cb(ft, "session_alerts", format_cb_session_alerts); } /* Set default format keys for a client. */ void format_defaults_client(struct format_tree *ft, struct client *c) { struct session *s; if (ft->s == NULL) ft->s = c->session; format_add(ft, "client_pid", "%ld", (long) c->pid); format_add(ft, "client_height", "%u", c->tty.sy); format_add(ft, "client_width", "%u", c->tty.sx); if (c->tty.path != NULL) format_add(ft, "client_tty", "%s", c->tty.path); if (c->tty.termname != NULL) format_add(ft, "client_termname", "%s", c->tty.termname); format_add(ft, "client_control_mode", "%d", !!(c->flags & CLIENT_CONTROL)); format_add_tv(ft, "client_created", &c->creation_time); format_add_tv(ft, "client_activity", &c->activity_time); if (strcmp(c->keytable->name, "root") == 0) format_add(ft, "client_prefix", "%d", 0); else format_add(ft, "client_prefix", "%d", 1); format_add(ft, "client_key_table", "%s", c->keytable->name); if (c->tty.flags & TTY_UTF8) format_add(ft, "client_utf8", "%d", 1); else format_add(ft, "client_utf8", "%d", 0); if (c->flags & CLIENT_READONLY) format_add(ft, "client_readonly", "%d", 1); else format_add(ft, "client_readonly", "%d", 0); s = c->session; if (s != NULL) format_add(ft, "client_session", "%s", s->name); s = c->last_session; if (s != NULL && session_alive(s)) format_add(ft, "client_last_session", "%s", s->name); } /* Set default format keys for a window. */ void format_defaults_window(struct format_tree *ft, struct window *w) { ft->w = w; format_add_tv(ft, "window_activity", &w->activity_time); format_add(ft, "window_id", "@%u", w->id); format_add(ft, "window_name", "%s", w->name); format_add(ft, "window_width", "%u", w->sx); format_add(ft, "window_height", "%u", w->sy); format_add_cb(ft, "window_layout", format_cb_window_layout); format_add(ft, "window_panes", "%u", window_count_panes(w)); format_add(ft, "window_zoomed_flag", "%d", !!(w->flags & WINDOW_ZOOMED)); } /* Set default format keys for a winlink. */ void format_defaults_winlink(struct format_tree *ft, struct session *s, struct winlink *wl) { struct window *w = wl->window; char *flags; if (ft->w == NULL) ft->w = wl->window; flags = window_printable_flags(s, wl); format_defaults_window(ft, w); format_add(ft, "window_index", "%d", wl->idx); format_add(ft, "window_flags", "%s", flags); format_add(ft, "window_active", "%d", wl == s->curw); format_add(ft, "window_bell_flag", "%d", !!(wl->flags & WINLINK_BELL)); format_add(ft, "window_activity_flag", "%d", !!(wl->flags & WINLINK_ACTIVITY)); format_add(ft, "window_silence_flag", "%d", !!(wl->flags & WINLINK_SILENCE)); format_add(ft, "window_last_flag", "%d", !!(wl == TAILQ_FIRST(&s->lastw))); format_add(ft, "window_linked", "%d", session_is_linked(s, wl->window)); free(flags); } /* Set default format keys for a window pane. */ void format_defaults_pane(struct format_tree *ft, struct window_pane *wp) { struct grid *gd = wp->base.grid; u_int idx; int status, scroll_position; if (ft->w == NULL) ft->w = wp->window; ft->wp = wp; format_add(ft, "history_size", "%u", gd->hsize); format_add(ft, "history_limit", "%u", gd->hlimit); format_add_cb(ft, "history_bytes", format_cb_history_bytes); if (window_pane_index(wp, &idx) != 0) fatalx("index not found"); format_add(ft, "pane_index", "%u", idx); format_add(ft, "pane_width", "%u", wp->sx); format_add(ft, "pane_height", "%u", wp->sy); format_add(ft, "pane_title", "%s", wp->base.title); format_add(ft, "pane_id", "%%%u", wp->id); format_add(ft, "pane_active", "%d", wp == wp->window->active); format_add(ft, "pane_input_off", "%d", !!(wp->flags & PANE_INPUTOFF)); status = wp->status; if (wp->fd == -1 && WIFEXITED(status)) format_add(ft, "pane_dead_status", "%d", WEXITSTATUS(status)); format_add(ft, "pane_dead", "%d", wp->fd == -1); if (window_pane_visible(wp)) { format_add(ft, "pane_left", "%u", wp->xoff); format_add(ft, "pane_top", "%u", wp->yoff); format_add(ft, "pane_right", "%u", wp->xoff + wp->sx - 1); format_add(ft, "pane_bottom", "%u", wp->yoff + wp->sy - 1); } format_add(ft, "pane_in_mode", "%d", wp->screen != &wp->base); format_add(ft, "pane_synchronized", "%d", !!options_get_number(&wp->window->options, "synchronize-panes")); format_add(ft, "pane_tty", "%s", wp->tty); format_add(ft, "pane_pid", "%ld", (long) wp->pid); format_add_cb(ft, "pane_start_command", format_cb_start_command); format_add_cb(ft, "pane_current_command", format_cb_current_command); format_add_cb(ft, "pane_current_path", format_cb_current_path); format_add(ft, "cursor_x", "%u", wp->base.cx); format_add(ft, "cursor_y", "%u", wp->base.cy); format_add(ft, "scroll_region_upper", "%u", wp->base.rupper); format_add(ft, "scroll_region_lower", "%u", wp->base.rlower); scroll_position = window_copy_scroll_position(wp); if (scroll_position != -1) format_add(ft, "scroll_position", "%d", scroll_position); format_add(ft, "alternate_on", "%d", wp->saved_grid ? 1 : 0); format_add(ft, "alternate_saved_x", "%u", wp->saved_cx); format_add(ft, "alternate_saved_y", "%u", wp->saved_cy); format_add(ft, "cursor_flag", "%d", !!(wp->base.mode & MODE_CURSOR)); format_add(ft, "insert_flag", "%d", !!(wp->base.mode & MODE_INSERT)); format_add(ft, "keypad_cursor_flag", "%d", !!(wp->base.mode & MODE_KCURSOR)); format_add(ft, "keypad_flag", "%d", !!(wp->base.mode & MODE_KKEYPAD)); format_add(ft, "wrap_flag", "%d", !!(wp->base.mode & MODE_WRAP)); format_add(ft, "mouse_any_flag", "%d", !!(wp->base.mode & (MODE_MOUSE_STANDARD|MODE_MOUSE_BUTTON))); format_add(ft, "mouse_standard_flag", "%d", !!(wp->base.mode & MODE_MOUSE_STANDARD)); format_add(ft, "mouse_button_flag", "%d", !!(wp->base.mode & MODE_MOUSE_BUTTON)); format_add(ft, "mouse_utf8_flag", "%d", !!(wp->base.mode & MODE_MOUSE_UTF8)); format_add_cb(ft, "pane_tabs", format_cb_pane_tabs); } /* Set default format keys for paste buffer. */ void format_defaults_paste_buffer(struct format_tree *ft, struct paste_buffer *pb, int utf8flag) { size_t bufsize; char *s; paste_buffer_data(pb, &bufsize); format_add(ft, "buffer_size", "%zu", bufsize); format_add(ft, "buffer_name", "%s", paste_buffer_name(pb)); s = paste_make_sample(pb, utf8flag); format_add(ft, "buffer_sample", "%s", s); free(s); }