/*- * SPDX-License-Identifier: BSD-3-Clause * * Copyright (c) 1992-1998 Søren Schmidt * All rights reserved. * * This code is derived from software contributed to The DragonFly Project * by Sascha Wildner * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer, * without modification, immediately at the beginning of the file. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include __FBSDID("$FreeBSD$"); #include "opt_syscons.h" #include "opt_splash.h" #include "opt_ddb.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if defined(__arm__) || defined(__powerpc__) #include #else #include #endif #if defined(__i386__) || defined(__amd64__) #include #include #endif #include #if defined(__amd64__) || defined(__i386__) #include #include #include #endif #include #include #include #include #define COLD 0 #define WARM 1 #define DEFAULT_BLANKTIME (5 * 60) /* 5 minutes */ #define MAX_BLANKTIME (7 * 24 * 60 * 60) /* 7 days!? */ #define KEYCODE_BS 0x0e /* "<-- Backspace" key, XXX */ /* NULL-safe version of "tty_opened()" */ #define tty_opened_ns(tp) ((tp) != NULL && tty_opened(tp)) static u_char sc_kattrtab[MAXCPU]; static int sc_console_unit = -1; static int sc_saver_keyb_only = 1; static scr_stat *sc_console; static struct consdev *sc_consptr; static void *sc_kts[MAXCPU]; static struct sc_term_sw *sc_ktsw; static scr_stat main_console; static struct tty *main_devs[MAXCONS]; static char init_done = COLD; static int shutdown_in_progress = FALSE; static int suspend_in_progress = FALSE; static char sc_malloc = FALSE; static int saver_mode = CONS_NO_SAVER; /* LKM/user saver */ static int run_scrn_saver = FALSE; /* should run the saver? */ static int enable_bell = TRUE; /* enable beeper */ #ifndef SC_DISABLE_REBOOT static int enable_reboot = TRUE; /* enable keyboard reboot */ #endif #ifndef SC_DISABLE_KDBKEY static int enable_kdbkey = TRUE; /* enable keyboard debug */ #endif static long scrn_blank_time = 0; /* screen saver timeout value */ #ifdef DEV_SPLASH static int scrn_blanked; /* # of blanked screen */ static int sticky_splash = FALSE; static void none_saver(sc_softc_t *sc, int blank) { } static void (*current_saver)(sc_softc_t *, int) = none_saver; #endif #ifdef SC_NO_SUSPEND_VTYSWITCH static int sc_no_suspend_vtswitch = 1; #else static int sc_no_suspend_vtswitch = 0; #endif static int sc_susp_scr; static SYSCTL_NODE(_hw, OID_AUTO, syscons, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "syscons"); static SYSCTL_NODE(_hw_syscons, OID_AUTO, saver, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "saver"); SYSCTL_INT(_hw_syscons_saver, OID_AUTO, keybonly, CTLFLAG_RW, &sc_saver_keyb_only, 0, "screen saver interrupted by input only"); SYSCTL_INT( _hw_syscons, OID_AUTO, bell, CTLFLAG_RW, &enable_bell, 0, "enable bell"); #ifndef SC_DISABLE_REBOOT SYSCTL_INT(_hw_syscons, OID_AUTO, kbd_reboot, CTLFLAG_RW | CTLFLAG_SECURE, &enable_reboot, 0, "enable keyboard reboot"); #endif #ifndef SC_DISABLE_KDBKEY SYSCTL_INT(_hw_syscons, OID_AUTO, kbd_debug, CTLFLAG_RW | CTLFLAG_SECURE, &enable_kdbkey, 0, "enable keyboard debug"); #endif SYSCTL_INT(_hw_syscons, OID_AUTO, sc_no_suspend_vtswitch, CTLFLAG_RWTUN, &sc_no_suspend_vtswitch, 0, "Disable VT switch before suspend."); #if !defined(SC_NO_FONT_LOADING) && defined(SC_DFLT_FONT) #include "font.h" #endif tsw_ioctl_t *sc_user_ioctl; static bios_values_t bios_value; static int enable_panic_key; SYSCTL_INT(_machdep, OID_AUTO, enable_panic_key, CTLFLAG_RW, &enable_panic_key, 0, "Enable panic via keypress specified in kbdmap(5)"); #define SC_CONSOLECTL 255 #define VTY_WCHAN(sc, vty) (&SC_DEV(sc, vty)) /* prototypes */ static int sc_allocate_keyboard(sc_softc_t *sc, int unit); static int scvidprobe(int unit, int flags, int cons); static int sckbdprobe(int unit, int flags, int cons); static void scmeminit(void *arg); static int scdevtounit(struct tty *tp); static kbd_callback_func_t sckbdevent; static void scinit(int unit, int flags); static scr_stat *sc_get_stat(struct tty *tp); static void scterm(int unit, int flags); static void scshutdown(void *, int); static void scsuspend(void *); static void scresume(void *); static u_int scgetc(sc_softc_t *sc, u_int flags, struct sc_cnstate *sp); static void sc_puts(scr_stat *scp, u_char *buf, int len); #define SCGETC_CN 1 #define SCGETC_NONBLOCK 2 static void sccnupdate(scr_stat *scp); static scr_stat *alloc_scp(sc_softc_t *sc, int vty); static void init_scp(sc_softc_t *sc, int vty, scr_stat *scp); static callout_func_t scrn_timer; static int and_region(int *s1, int *e1, int s2, int e2); static void scrn_update(scr_stat *scp, int show_cursor); #ifdef DEV_SPLASH static int scsplash_callback(int event, void *arg); static void scsplash_saver(sc_softc_t *sc, int show); static int add_scrn_saver(void (*this_saver)(sc_softc_t *, int)); static int remove_scrn_saver(void (*this_saver)(sc_softc_t *, int)); static int set_scrn_saver_mode( scr_stat *scp, int mode, u_char *pal, int border); static int restore_scrn_saver_mode(scr_stat *scp, int changemode); static void stop_scrn_saver(sc_softc_t *sc, void (*saver)(sc_softc_t *, int)); static int wait_scrn_saver_stop(sc_softc_t *sc); #define scsplash_stick(stick) (sticky_splash = (stick)) #else /* !DEV_SPLASH */ #define scsplash_stick(stick) #endif /* DEV_SPLASH */ static int do_switch_scr(sc_softc_t *sc, int s); static int vt_proc_alive(scr_stat *scp); static int signal_vt_rel(scr_stat *scp); static int signal_vt_acq(scr_stat *scp); static int finish_vt_rel(scr_stat *scp, int release, int *s); static int finish_vt_acq(scr_stat *scp); static void exchange_scr(sc_softc_t *sc); static void update_cursor_image(scr_stat *scp); static void change_cursor_shape(scr_stat *scp, int flags, int base, int height); static void update_font(scr_stat *); static int save_kbd_state(scr_stat *scp); static int update_kbd_state(scr_stat *scp, int state, int mask); static int update_kbd_leds(scr_stat *scp, int which); static int sc_kattr(void); static callout_func_t blink_screen; static struct tty *sc_alloc_tty(int, int); static cn_probe_t sc_cnprobe; static cn_init_t sc_cninit; static cn_term_t sc_cnterm; static cn_getc_t sc_cngetc; static cn_putc_t sc_cnputc; static cn_grab_t sc_cngrab; static cn_ungrab_t sc_cnungrab; CONSOLE_DRIVER(sc); static tsw_open_t sctty_open; static tsw_close_t sctty_close; static tsw_outwakeup_t sctty_outwakeup; static tsw_ioctl_t sctty_ioctl; static tsw_mmap_t sctty_mmap; static struct ttydevsw sc_ttydevsw = { .tsw_open = sctty_open, .tsw_close = sctty_close, .tsw_outwakeup = sctty_outwakeup, .tsw_ioctl = sctty_ioctl, .tsw_mmap = sctty_mmap, }; static d_ioctl_t consolectl_ioctl; static d_close_t consolectl_close; static struct cdevsw consolectl_devsw = { .d_version = D_VERSION, .d_flags = D_NEEDGIANT | D_TRACKCLOSE, .d_ioctl = consolectl_ioctl, .d_close = consolectl_close, .d_name = "consolectl", }; /* ec -- emergency console. */ static u_int ec_scroffset; static void ec_putc(int c) { uintptr_t fb; u_short *scrptr; u_int ind; int attr, column, mysize, width, xsize, yborder, ysize; if (c < 0 || c > 0xff || c == '\a') return; if (sc_console == NULL) { #if !defined(__amd64__) && !defined(__i386__) return; #else /* * This is enough for ec_putc() to work very early on x86 * if the kernel starts in normal color text mode. */ #ifdef __amd64__ fb = KERNBASE + 0xb8000; #else /* __i386__ */ fb = pmap_get_map_low() + 0xb8000; #endif xsize = 80; ysize = 25; #endif } else { if (!ISTEXTSC(&main_console)) return; fb = main_console.sc->adp->va_window; xsize = main_console.xsize; ysize = main_console.ysize; } yborder = ysize / 5; scrptr = (u_short *)(void *)fb + xsize * yborder; mysize = xsize * (ysize - 2 * yborder); do { ind = ec_scroffset; column = ind % xsize; width = (c == '\b' ? -1 : c == '\t' ? (column + 8) & ~7 : c == '\r' ? -column : c == '\n' ? xsize - column : 1); if (width == 0 || (width < 0 && ind < -width)) return; } while (atomic_cmpset_rel_int(&ec_scroffset, ind, ind + width) == 0); if (c == '\b' || c == '\r') return; if (c == '\n') ind += xsize; /* XXX clearing from new pos is not atomic */ attr = sc_kattr(); if (c == '\t' || c == '\n') c = ' '; do scrptr[ind++ % mysize] = (attr << 8) | c; while (--width != 0); } int sc_probe_unit(int unit, int flags) { if (!vty_enabled(VTY_SC)) return ENXIO; if (!scvidprobe(unit, flags, FALSE)) { if (bootverbose) printf("%s%d: no video adapter found.\n", SC_DRIVER_NAME, unit); return ENXIO; } /* syscons will be attached even when there is no keyboard */ sckbdprobe(unit, flags, FALSE); return 0; } /* probe video adapters, return TRUE if found */ static int scvidprobe(int unit, int flags, int cons) { /* * Access the video adapter driver through the back door! * Video adapter drivers need to be configured before syscons. * However, when syscons is being probed as the low-level console, * they have not been initialized yet. We force them to initialize * themselves here. XXX */ vid_configure(cons ? VIO_PROBE_ONLY : 0); return (vid_find_adapter("*", unit) >= 0); } /* probe the keyboard, return TRUE if found */ static int sckbdprobe(int unit, int flags, int cons) { /* access the keyboard driver through the backdoor! */ kbd_configure(cons ? KB_CONF_PROBE_ONLY : 0); return (kbd_find_keyboard("*", unit) >= 0); } static char * adapter_name(video_adapter_t *adp) { static struct { int type; char *name[2]; } names[] = { { KD_MONO, { "MDA", "MDA" } }, { KD_HERCULES, { "Hercules", "Hercules" } }, { KD_CGA, { "CGA", "CGA" } }, { KD_EGA, { "EGA", "EGA (mono)" } }, { KD_VGA, { "VGA", "VGA (mono)" } }, { KD_TGA, { "TGA", "TGA" } }, { -1, { "Unknown", "Unknown" } }, }; int i; for (i = 0; names[i].type != -1; ++i) if (names[i].type == adp->va_type) break; return names[i].name[(adp->va_flags & V_ADP_COLOR) ? 0 : 1]; } static void sctty_outwakeup(struct tty *tp) { size_t len; u_char buf[PCBURST]; scr_stat *scp = sc_get_stat(tp); if (scp->status & SLKED || (scp == scp->sc->cur_scp && scp->sc->blink_in_progress)) return; for (;;) { len = ttydisc_getc(tp, buf, sizeof buf); if (len == 0) break; SC_VIDEO_LOCK(scp->sc); sc_puts(scp, buf, len); SC_VIDEO_UNLOCK(scp->sc); } } static struct tty * sc_alloc_tty(int index, int devnum) { struct sc_ttysoftc *stc; struct tty *tp; /* Allocate TTY object and softc to store unit number. */ stc = malloc(sizeof(struct sc_ttysoftc), M_DEVBUF, M_WAITOK); stc->st_index = index; stc->st_stat = NULL; tp = tty_alloc_mutex(&sc_ttydevsw, stc, &Giant); /* Create device node. */ tty_makedev(tp, NULL, "v%r", devnum); return (tp); } #ifdef SC_PIXEL_MODE static void sc_set_vesa_mode(scr_stat *scp, sc_softc_t *sc, int unit) { video_info_t info; u_char *font; int depth; int fontsize; int i; int vmode; vmode = 0; (void)resource_int_value("sc", unit, "vesa_mode", &vmode); if (vmode < M_VESA_BASE || vmode > M_VESA_MODE_MAX || vidd_get_info(sc->adp, vmode, &info) != 0 || !sc_support_pixel_mode(&info)) vmode = 0; /* * If the mode is unset or unsupported, search for an available * 800x600 graphics mode with the highest color depth. */ if (vmode == 0) { for (depth = 0, i = M_VESA_BASE; i <= M_VESA_MODE_MAX; i++) if (vidd_get_info(sc->adp, i, &info) == 0 && info.vi_width == 800 && info.vi_height == 600 && sc_support_pixel_mode(&info) && info.vi_depth > depth) { vmode = i; depth = info.vi_depth; } if (vmode == 0) return; vidd_get_info(sc->adp, vmode, &info); } #if !defined(SC_NO_FONT_LOADING) && defined(SC_DFLT_FONT) fontsize = info.vi_cheight; #else fontsize = scp->font_size; #endif if (fontsize < 14) fontsize = 8; else if (fontsize >= 16) fontsize = 16; else fontsize = 14; #ifndef SC_NO_FONT_LOADING switch (fontsize) { case 8: if ((sc->fonts_loaded & FONT_8) == 0) return; font = sc->font_8; break; case 14: if ((sc->fonts_loaded & FONT_14) == 0) return; font = sc->font_14; break; case 16: if ((sc->fonts_loaded & FONT_16) == 0) return; font = sc->font_16; break; } #else font = NULL; #endif #ifdef DEV_SPLASH if ((sc->flags & SC_SPLASH_SCRN) != 0) splash_term(sc->adp); #endif #ifndef SC_NO_HISTORY if (scp->history != NULL) { sc_vtb_append(&scp->vtb, 0, scp->history, scp->ypos * scp->xsize + scp->xpos); scp->history_pos = sc_vtb_tail(scp->history); } #endif vidd_set_mode(sc->adp, vmode); scp->status |= (UNKNOWN_MODE | PIXEL_MODE | MOUSE_HIDDEN); scp->status &= ~(GRAPHICS_MODE | MOUSE_VISIBLE); scp->xpixel = info.vi_width; scp->ypixel = info.vi_height; scp->xsize = scp->xpixel / 8; scp->ysize = scp->ypixel / fontsize; scp->xpos = 0; scp->ypos = scp->ysize - 1; scp->xoff = scp->yoff = 0; scp->font = font; scp->font_size = fontsize; scp->font_width = 8; scp->start = scp->xsize * scp->ysize - 1; scp->end = 0; scp->cursor_pos = scp->cursor_oldpos = scp->xsize * scp->xsize; scp->mode = sc->initial_mode = vmode; sc_vtb_init(&scp->scr, VTB_FRAMEBUFFER, scp->xsize, scp->ysize, (void *)sc->adp->va_window, FALSE); sc_alloc_scr_buffer(scp, FALSE, FALSE); sc_init_emulator(scp, NULL); #ifndef SC_NO_CUTPASTE sc_alloc_cut_buffer(scp, FALSE); #endif #ifndef SC_NO_HISTORY sc_alloc_history_buffer(scp, 0, 0, FALSE); #endif sc_set_border(scp, scp->border); sc_set_cursor_image(scp); scp->status &= ~UNKNOWN_MODE; #ifdef DEV_SPLASH if ((sc->flags & SC_SPLASH_SCRN) != 0) splash_init(sc->adp, scsplash_callback, sc); #endif } #endif int sc_attach_unit(int unit, int flags) { sc_softc_t *sc; scr_stat *scp; struct cdev *dev; void *oldts, *ts; int i, vc; if (!vty_enabled(VTY_SC)) return ENXIO; flags &= ~SC_KERNEL_CONSOLE; if (sc_console_unit == unit) { /* * If this unit is being used as the system console, we need to * adjust some variables and buffers before and after scinit(). */ /* assert(sc_console != NULL) */ flags |= SC_KERNEL_CONSOLE; scmeminit(NULL); scinit(unit, flags); if (sc_console->tsw->te_size > 0) { sc_ktsw = sc_console->tsw; /* assert(sc_console->ts != NULL); */ oldts = sc_console->ts; for (i = 0; i <= mp_maxid; i++) { ts = malloc(sc_console->tsw->te_size, M_DEVBUF, M_WAITOK | M_ZERO); (*sc_console->tsw->te_init)( sc_console, &ts, SC_TE_COLD_INIT); sc_console->ts = ts; (*sc_console->tsw->te_default_attr)(sc_console, sc_kattrtab[i], SC_KERNEL_CONS_REV_ATTR); sc_kts[i] = ts; } sc_console->ts = oldts; (*sc_console->tsw->te_default_attr)( sc_console, SC_NORM_ATTR, SC_NORM_REV_ATTR); } } else { scinit(unit, flags); } sc = sc_get_softc(unit, flags & SC_KERNEL_CONSOLE); sc->config = flags; callout_init(&sc->ctimeout, 0); callout_init(&sc->cblink, 0); scp = sc_get_stat(sc->dev[0]); if (sc_console == NULL) /* sc_console_unit < 0 */ sc_console = scp; #ifdef SC_PIXEL_MODE if ((sc->config & SC_VESAMODE) != 0) sc_set_vesa_mode(scp, sc, unit); #endif /* SC_PIXEL_MODE */ /* initialize cursor */ if (!ISGRAPHSC(scp)) update_cursor_image(scp); /* get screen update going */ scrn_timer(sc); /* set up the keyboard */ (void)kbdd_ioctl(sc->kbd, KDSKBMODE, (caddr_t)&scp->kbd_mode); update_kbd_state(scp, scp->status, LOCK_MASK); printf("%s%d: %s <%d virtual consoles, flags=0x%x>\n", SC_DRIVER_NAME, unit, adapter_name(sc->adp), sc->vtys, sc->config); if (bootverbose) { printf("%s%d:", SC_DRIVER_NAME, unit); if (sc->adapter >= 0) printf(" fb%d", sc->adapter); if (sc->kbd != NULL) printf(", kbd%d", sc->kbd->kb_index); if (scp->tsw) printf(", terminal emulator: %s (%s)", scp->tsw->te_name, scp->tsw->te_desc); printf("\n"); } /* Register suspend/resume/shutdown callbacks for the kernel console. */ if (sc_console_unit == unit) { EVENTHANDLER_REGISTER( power_suspend_early, scsuspend, NULL, EVENTHANDLER_PRI_ANY); EVENTHANDLER_REGISTER( power_resume, scresume, NULL, EVENTHANDLER_PRI_ANY); EVENTHANDLER_REGISTER( shutdown_pre_sync, scshutdown, NULL, SHUTDOWN_PRI_DEFAULT); } for (vc = 0; vc < sc->vtys; vc++) { if (sc->dev[vc] == NULL) { sc->dev[vc] = sc_alloc_tty(vc, vc + unit * MAXCONS); if (vc == 0 && sc->dev == main_devs) SC_STAT(sc->dev[0]) = &main_console; } /* * The first vty already has struct tty and scr_stat initialized * in scinit(). The other vtys will have these structs when * first opened. */ } dev = make_dev( &consolectl_devsw, 0, UID_ROOT, GID_WHEEL, 0600, "consolectl"); dev->si_drv1 = sc->dev[0]; return 0; } static void scmeminit(void *arg) { if (!vty_enabled(VTY_SC)) return; if (sc_malloc) return; sc_malloc = TRUE; /* * As soon as malloc() becomes functional, we had better allocate * various buffers for the kernel console. */ if (sc_console_unit < 0) /* sc_console == NULL */ return; /* copy the temporary buffer to the final buffer */ sc_alloc_scr_buffer(sc_console, FALSE, FALSE); #ifndef SC_NO_CUTPASTE sc_alloc_cut_buffer(sc_console, FALSE); #endif #ifndef SC_NO_HISTORY /* initialize history buffer & pointers */ sc_alloc_history_buffer(sc_console, 0, 0, FALSE); #endif } /* XXX */ SYSINIT(sc_mem, SI_SUB_KMEM, SI_ORDER_ANY, scmeminit, NULL); static int scdevtounit(struct tty *tp) { int vty = SC_VTY(tp); if (vty == SC_CONSOLECTL) return ((sc_console != NULL) ? sc_console->sc->unit : -1); else if ((vty < 0) || (vty >= MAXCONS * sc_max_unit())) return -1; else return vty / MAXCONS; } static int sctty_open(struct tty *tp) { int unit = scdevtounit(tp); sc_softc_t *sc; scr_stat *scp; keyarg_t key; DPRINTF(5, ("scopen: dev:%s, unit:%d, vty:%d\n", devtoname(tp->t_dev), unit, SC_VTY(tp))); sc = sc_get_softc( unit, (sc_console_unit == unit) ? SC_KERNEL_CONSOLE : 0); if (sc == NULL) return ENXIO; if (!tty_opened(tp)) { /* Use the current setting of the <-- key as default VERASE. */ /* If the Delete key is preferable, an stty is necessary */ if (sc->kbd != NULL) { key.keynum = KEYCODE_BS; (void)kbdd_ioctl(sc->kbd, GIO_KEYMAPENT, (caddr_t)&key); tp->t_termios.c_cc[VERASE] = key.key.map[0]; } } scp = sc_get_stat(tp); if (scp == NULL) { scp = SC_STAT(tp) = alloc_scp(sc, SC_VTY(tp)); if (ISGRAPHSC(scp)) sc_set_pixel_mode(scp, NULL, 0, 0, 16, 8); } if (!tp->t_winsize.ws_col && !tp->t_winsize.ws_row) { tp->t_winsize.ws_col = scp->xsize; tp->t_winsize.ws_row = scp->ysize; } return (0); } static void sctty_close(struct tty *tp) { scr_stat *scp; int s; if (SC_VTY(tp) != SC_CONSOLECTL) { scp = sc_get_stat(tp); /* were we in the middle of the VT switching process? */ DPRINTF(5, ("sc%d: scclose(), ", scp->sc->unit)); s = spltty(); if ((scp == scp->sc->cur_scp) && (scp->sc->unit == sc_console_unit)) cnavailable(sc_consptr, TRUE); if (finish_vt_rel(scp, TRUE, &s) == 0) /* force release */ DPRINTF(5, ("reset WAIT_REL, ")); if (finish_vt_acq(scp) == 0) /* force acknowledge */ DPRINTF(5, ("reset WAIT_ACQ, ")); #ifdef not_yet_done if (scp == &main_console) { scp->pid = 0; scp->proc = NULL; scp->smode.mode = VT_AUTO; } else { sc_vtb_destroy(&scp->vtb); sc_vtb_destroy(&scp->scr); sc_free_history_buffer(scp, scp->ysize); SC_STAT(tp) = NULL; free(scp, M_DEVBUF); } #else scp->pid = 0; scp->proc = NULL; scp->smode.mode = VT_AUTO; #endif scp->kbd_mode = K_XLATE; if (scp == scp->sc->cur_scp) (void)kbdd_ioctl( scp->sc->kbd, KDSKBMODE, (caddr_t)&scp->kbd_mode); DPRINTF(5, ("done.\n")); } } #if 0 /* XXX mpsafetty: fix screensaver. What about outwakeup? */ static int scread(struct cdev *dev, struct uio *uio, int flag) { if (!sc_saver_keyb_only) sc_touch_scrn_saver(); return ttyread(dev, uio, flag); } #endif static int sckbdevent(keyboard_t *thiskbd, int event, void *arg) { sc_softc_t *sc; struct tty *cur_tty; int c, error = 0; size_t len; const u_char *cp; sc = (sc_softc_t *)arg; /* assert(thiskbd == sc->kbd) */ mtx_lock(&Giant); switch (event) { case KBDIO_KEYINPUT: break; case KBDIO_UNLOADING: sc->kbd = NULL; kbd_release(thiskbd, (void *)&sc->kbd); goto done; default: error = EINVAL; goto done; } /* * Loop while there is still input to get from the keyboard. * I don't think this is nessesary, and it doesn't fix * the Xaccel-2.1 keyboard hang, but it can't hurt. XXX */ while ((c = scgetc(sc, SCGETC_NONBLOCK, NULL)) != NOKEY) { cur_tty = SC_DEV(sc, sc->cur_scp->index); if (!tty_opened_ns(cur_tty)) continue; if ((*sc->cur_scp->tsw->te_input)(sc->cur_scp, c, cur_tty)) continue; switch (KEYFLAGS(c)) { case 0x0000: /* normal key */ ttydisc_rint(cur_tty, KEYCHAR(c), 0); break; case FKEY: /* function key, return string */ cp = (*sc->cur_scp->tsw->te_fkeystr)(sc->cur_scp, c); if (cp != NULL) { ttydisc_rint_simple(cur_tty, cp, strlen(cp)); break; } cp = kbdd_get_fkeystr(thiskbd, KEYCHAR(c), &len); if (cp != NULL) ttydisc_rint_simple(cur_tty, cp, len); break; case MKEY: /* meta is active, prepend ESC */ ttydisc_rint(cur_tty, 0x1b, 0); ttydisc_rint(cur_tty, KEYCHAR(c), 0); break; case BKEY: /* backtab fixed sequence (esc [ Z) */ ttydisc_rint_simple(cur_tty, "\x1B[Z", 3); break; } ttydisc_rint_done(cur_tty); } sc->cur_scp->status |= MOUSE_HIDDEN; done: mtx_unlock(&Giant); return (error); } static int sctty_ioctl(struct tty *tp, u_long cmd, caddr_t data, struct thread *td) { int error; int i; struct cursor_attr *cap; sc_softc_t *sc; scr_stat *scp; int s; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) int ival; #endif /* If there is a user_ioctl function call that first */ if (sc_user_ioctl) { error = (*sc_user_ioctl)(tp, cmd, data, td); if (error != ENOIOCTL) return error; } error = sc_vid_ioctl(tp, cmd, data, td); if (error != ENOIOCTL) return error; #ifndef SC_NO_HISTORY error = sc_hist_ioctl(tp, cmd, data, td); if (error != ENOIOCTL) return error; #endif #ifndef SC_NO_SYSMOUSE error = sc_mouse_ioctl(tp, cmd, data, td); if (error != ENOIOCTL) return error; #endif scp = sc_get_stat(tp); /* assert(scp != NULL) */ /* scp is sc_console, if SC_VTY(dev) == SC_CONSOLECTL. */ sc = scp->sc; if (scp->tsw) { error = (*scp->tsw->te_ioctl)(scp, tp, cmd, data, td); if (error != ENOIOCTL) return error; } switch (cmd) { /* process console hardware related ioctl's */ case GIO_ATTR: /* get current attributes */ /* this ioctl is not processed here, but in the terminal * emulator */ return ENOTTY; case GIO_COLOR: /* is this a color console ? */ *(int *)data = (sc->adp->va_flags & V_ADP_COLOR) ? 1 : 0; return 0; case CONS_BLANKTIME: /* set screen saver timeout (0 = no saver) */ if (*(int *)data < 0 || *(int *)data > MAX_BLANKTIME) return EINVAL; s = spltty(); scrn_blank_time = *(int *)data; run_scrn_saver = (scrn_blank_time != 0); splx(s); return 0; case CONS_CURSORTYPE: /* set cursor type (old interface + HIDDEN) */ s = spltty(); *(int *)data &= CONS_CURSOR_ATTRS; sc_change_cursor_shape(scp, *(int *)data, -1, -1); splx(s); return 0; case CONS_GETCURSORSHAPE: /* get cursor shape (new interface) */ switch (((int *)data)[0] & (CONS_DEFAULT_CURSOR | CONS_LOCAL_CURSOR)) { case 0: cap = &sc->curs_attr; break; case CONS_LOCAL_CURSOR: cap = &scp->base_curs_attr; break; case CONS_DEFAULT_CURSOR: cap = &sc->dflt_curs_attr; break; case CONS_DEFAULT_CURSOR | CONS_LOCAL_CURSOR: cap = &scp->dflt_curs_attr; break; } if (((int *)data)[0] & CONS_CHARCURSOR_COLORS) { ((int *)data)[1] = cap->bg[0]; ((int *)data)[2] = cap->bg[1]; } else if (((int *)data)[0] & CONS_MOUSECURSOR_COLORS) { ((int *)data)[1] = cap->mouse_ba; ((int *)data)[2] = cap->mouse_ia; } else { ((int *)data)[1] = cap->base; ((int *)data)[2] = cap->height; } ((int *)data)[0] = cap->flags; return 0; case CONS_SETCURSORSHAPE: /* set cursor shape (new interface) */ s = spltty(); sc_change_cursor_shape( scp, ((int *)data)[0], ((int *)data)[1], ((int *)data)[2]); splx(s); return 0; case CONS_BELLTYPE: /* set bell type sound/visual */ if ((*(int *)data) & CONS_VISUAL_BELL) sc->flags |= SC_VISUAL_BELL; else sc->flags &= ~SC_VISUAL_BELL; if ((*(int *)data) & CONS_QUIET_BELL) sc->flags |= SC_QUIET_BELL; else sc->flags &= ~SC_QUIET_BELL; return 0; case CONS_GETINFO: /* get current (virtual) console info */ { vid_info_t *ptr = (vid_info_t *)data; if (ptr->size == sizeof(struct vid_info)) { ptr->m_num = sc->cur_scp->index; ptr->font_size = scp->font_size; ptr->mv_col = scp->xpos; ptr->mv_row = scp->ypos; ptr->mv_csz = scp->xsize; ptr->mv_rsz = scp->ysize; ptr->mv_hsz = (scp->history != NULL) ? scp->history->vtb_rows : 0; /* * The following fields are filled by the terminal * emulator. XXX * * ptr->mv_norm.fore * ptr->mv_norm.back * ptr->mv_rev.fore * ptr->mv_rev.back */ ptr->mv_grfc.fore = 0; /* not supported */ ptr->mv_grfc.back = 0; /* not supported */ ptr->mv_ovscan = scp->border; if (scp == sc->cur_scp) save_kbd_state(scp); ptr->mk_keylock = scp->status & LOCK_MASK; return 0; } return EINVAL; } case CONS_GETVERS: /* get version number */ *(int *)data = 0x200; /* version 2.0 */ return 0; case CONS_IDLE: /* see if the screen has been idle */ /* * When the screen is in the GRAPHICS_MODE or UNKNOWN_MODE, * the user process may have been writing something on the * screen and syscons is not aware of it. Declare the screen * is NOT idle if it is in one of these modes. But there is * an exception to it; if a screen saver is running in the * graphics mode in the current screen, we should say that the * screen has been idle. */ *(int *)data = (sc->flags & SC_SCRN_IDLE) && (!ISGRAPHSC(sc->cur_scp) || (sc->cur_scp->status & SAVER_RUNNING)); return 0; case CONS_SAVERMODE: /* set saver mode */ switch (*(int *)data) { case CONS_NO_SAVER: case CONS_USR_SAVER: /* if a LKM screen saver is running, stop it first. */ scsplash_stick(FALSE); saver_mode = *(int *)data; s = spltty(); #ifdef DEV_SPLASH if ((error = wait_scrn_saver_stop(NULL))) { splx(s); return error; } #endif run_scrn_saver = TRUE; if (saver_mode == CONS_USR_SAVER) scp->status |= SAVER_RUNNING; else scp->status &= ~SAVER_RUNNING; scsplash_stick(TRUE); splx(s); break; case CONS_LKM_SAVER: s = spltty(); if ((saver_mode == CONS_USR_SAVER) && (scp->status & SAVER_RUNNING)) scp->status &= ~SAVER_RUNNING; saver_mode = *(int *)data; splx(s); break; default: return EINVAL; } return 0; case CONS_SAVERSTART: /* immediately start/stop the screen saver */ /* * Note that this ioctl does not guarantee the screen saver * actually starts or stops. It merely attempts to do so... */ s = spltty(); run_scrn_saver = (*(int *)data != 0); if (run_scrn_saver) sc->scrn_time_stamp -= scrn_blank_time; splx(s); return 0; case CONS_SCRSHOT: /* get a screen shot */ { int retval, hist_rsz; size_t lsize, csize; vm_offset_t frbp, hstp; unsigned lnum; scrshot_t *ptr = (scrshot_t *)data; void *outp = ptr->buf; if (ptr->x < 0 || ptr->y < 0 || ptr->xsize < 0 || ptr->ysize < 0) return EINVAL; s = spltty(); if (ISGRAPHSC(scp)) { splx(s); return EOPNOTSUPP; } hist_rsz = (scp->history != NULL) ? scp->history->vtb_rows : 0; if (((u_int)ptr->x + ptr->xsize) > scp->xsize || ((u_int)ptr->y + ptr->ysize) > (scp->ysize + hist_rsz)) { splx(s); return EINVAL; } lsize = scp->xsize * sizeof(u_int16_t); csize = ptr->xsize * sizeof(u_int16_t); /* Pointer to the last line of framebuffer */ frbp = scp->vtb.vtb_buffer + scp->ysize * lsize + ptr->x * sizeof(u_int16_t); /* Pointer to the last line of target buffer */ outp = (char *)outp + ptr->ysize * csize; /* Pointer to the last line of history buffer */ if (scp->history != NULL) hstp = scp->history->vtb_buffer + sc_vtb_tail(scp->history) * sizeof(u_int16_t) + ptr->x * sizeof(u_int16_t); else hstp = 0; retval = 0; for (lnum = 0; lnum < (ptr->y + ptr->ysize); lnum++) { if (lnum < scp->ysize) { frbp -= lsize; } else { hstp -= lsize; if (hstp < scp->history->vtb_buffer) hstp += scp->history->vtb_rows * lsize; frbp = hstp; } if (lnum < ptr->y) continue; outp = (char *)outp - csize; retval = copyout((void *)frbp, outp, csize); if (retval != 0) break; } splx(s); return retval; } case VT_SETMODE: /* set screen switcher mode */ { struct vt_mode *mode; struct proc *p1; mode = (struct vt_mode *)data; DPRINTF(5, ("%s%d: VT_SETMODE ", SC_DRIVER_NAME, sc->unit)); if (scp->smode.mode == VT_PROCESS) { p1 = pfind(scp->pid); if (scp->proc == p1 && scp->proc != td->td_proc) { if (p1) PROC_UNLOCK(p1); DPRINTF(5, ("error EPERM\n")); return EPERM; } if (p1) PROC_UNLOCK(p1); } s = spltty(); if (mode->mode == VT_AUTO) { scp->smode.mode = VT_AUTO; scp->proc = NULL; scp->pid = 0; DPRINTF(5, ("VT_AUTO, ")); if ((scp == sc->cur_scp) && (sc->unit == sc_console_unit)) cnavailable(sc_consptr, TRUE); /* were we in the middle of the vty switching process? */ if (finish_vt_rel(scp, TRUE, &s) == 0) DPRINTF(5, ("reset WAIT_REL, ")); if (finish_vt_acq(scp) == 0) DPRINTF(5, ("reset WAIT_ACQ, ")); } else { if (!ISSIGVALID(mode->relsig) || !ISSIGVALID(mode->acqsig) || !ISSIGVALID(mode->frsig)) { splx(s); DPRINTF(5, ("error EINVAL\n")); return EINVAL; } DPRINTF(5, ("VT_PROCESS %d, ", td->td_proc->p_pid)); bcopy(data, &scp->smode, sizeof(struct vt_mode)); scp->proc = td->td_proc; scp->pid = scp->proc->p_pid; if ((scp == sc->cur_scp) && (sc->unit == sc_console_unit)) cnavailable(sc_consptr, FALSE); } splx(s); DPRINTF(5, ("\n")); return 0; } case VT_GETMODE: /* get screen switcher mode */ bcopy(&scp->smode, data, sizeof(struct vt_mode)); return 0; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('v', 4): ival = IOCPARM_IVAL(data); data = (caddr_t)&ival; /* FALLTHROUGH */ #endif case VT_RELDISP: /* screen switcher ioctl */ s = spltty(); /* * This must be the current vty which is in the VT_PROCESS * switching mode... */ if ((scp != sc->cur_scp) || (scp->smode.mode != VT_PROCESS)) { splx(s); return EINVAL; } /* ...and this process is controlling it. */ if (scp->proc != td->td_proc) { splx(s); return EPERM; } error = EINVAL; switch (*(int *)data) { case VT_FALSE: /* user refuses to release screen, abort */ if ((error = finish_vt_rel(scp, FALSE, &s)) == 0) DPRINTF(5, ("%s%d: VT_FALSE\n", SC_DRIVER_NAME, sc->unit)); break; case VT_TRUE: /* user has released screen, go on */ if ((error = finish_vt_rel(scp, TRUE, &s)) == 0) DPRINTF(5, ("%s%d: VT_TRUE\n", SC_DRIVER_NAME, sc->unit)); break; case VT_ACKACQ: /* acquire acknowledged, switch completed */ if ((error = finish_vt_acq(scp)) == 0) DPRINTF(5, ("%s%d: VT_ACKACQ\n", SC_DRIVER_NAME, sc->unit)); break; default: break; } splx(s); return error; case VT_OPENQRY: /* return free virtual console */ for (i = sc->first_vty; i < sc->first_vty + sc->vtys; i++) { tp = SC_DEV(sc, i); if (!tty_opened_ns(tp)) { *(int *)data = i + 1; return 0; } } return EINVAL; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('v', 5): ival = IOCPARM_IVAL(data); data = (caddr_t)&ival; /* FALLTHROUGH */ #endif case VT_ACTIVATE: /* switch to screen *data */ i = (*(int *)data == 0) ? scp->index : (*(int *)data - 1); s = spltty(); error = sc_clean_up(sc->cur_scp); splx(s); if (error) return error; error = sc_switch_scr(sc, i); return (error); #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('v', 6): ival = IOCPARM_IVAL(data); data = (caddr_t)&ival; /* FALLTHROUGH */ #endif case VT_WAITACTIVE: /* wait for switch to occur */ i = (*(int *)data == 0) ? scp->index : (*(int *)data - 1); if ((i < sc->first_vty) || (i >= sc->first_vty + sc->vtys)) return EINVAL; if (i == sc->cur_scp->index) return 0; error = tsleep(VTY_WCHAN(sc, i), (PZERO + 1) | PCATCH, "waitvt", 0); return error; case VT_GETACTIVE: /* get active vty # */ *(int *)data = sc->cur_scp->index + 1; return 0; case VT_GETINDEX: /* get this vty # */ *(int *)data = scp->index + 1; return 0; case VT_LOCKSWITCH: /* prevent vty switching */ if ((*(int *)data) & 0x01) sc->flags |= SC_SCRN_VTYLOCK; else sc->flags &= ~SC_SCRN_VTYLOCK; return 0; case KDENABIO: /* allow io operations */ error = priv_check(td, PRIV_IO); if (error != 0) return error; error = securelevel_gt(td->td_ucred, 0); if (error != 0) return error; #ifdef __i386__ td->td_frame->tf_eflags |= PSL_IOPL; #elif defined(__amd64__) td->td_frame->tf_rflags |= PSL_IOPL; #endif return 0; case KDDISABIO: /* disallow io operations (default) */ #ifdef __i386__ td->td_frame->tf_eflags &= ~PSL_IOPL; #elif defined(__amd64__) td->td_frame->tf_rflags &= ~PSL_IOPL; #endif return 0; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('K', 20): ival = IOCPARM_IVAL(data); data = (caddr_t)&ival; /* FALLTHROUGH */ #endif case KDSKBSTATE: /* set keyboard state (locks) */ if (*(int *)data & ~LOCK_MASK) return EINVAL; scp->status &= ~LOCK_MASK; scp->status |= *(int *)data; if (scp == sc->cur_scp) update_kbd_state(scp, scp->status, LOCK_MASK); return 0; case KDGKBSTATE: /* get keyboard state (locks) */ if (scp == sc->cur_scp) save_kbd_state(scp); *(int *)data = scp->status & LOCK_MASK; return 0; case KDGETREPEAT: /* get keyboard repeat & delay rates */ case KDSETREPEAT: /* set keyboard repeat & delay rates (new) */ error = kbdd_ioctl(sc->kbd, cmd, data); if (error == ENOIOCTL) error = ENODEV; return error; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('K', 67): ival = IOCPARM_IVAL(data); data = (caddr_t)&ival; /* FALLTHROUGH */ #endif case KDSETRAD: /* set keyboard repeat & delay rates (old) */ if (*(int *)data & ~0x7f) return EINVAL; error = kbdd_ioctl(sc->kbd, KDSETRAD, data); if (error == ENOIOCTL) error = ENODEV; return error; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('K', 7): ival = IOCPARM_IVAL(data); data = (caddr_t)&ival; /* FALLTHROUGH */ #endif case KDSKBMODE: /* set keyboard mode */ switch (*(int *)data) { case K_XLATE: /* switch to XLT ascii mode */ case K_RAW: /* switch to RAW scancode mode */ case K_CODE: /* switch to CODE mode */ scp->kbd_mode = *(int *)data; if (scp == sc->cur_scp) (void)kbdd_ioctl(sc->kbd, KDSKBMODE, data); return 0; default: return EINVAL; } /* NOT REACHED */ case KDGKBMODE: /* get keyboard mode */ *(int *)data = scp->kbd_mode; return 0; case KDGKBINFO: error = kbdd_ioctl(sc->kbd, cmd, data); if (error == ENOIOCTL) error = ENODEV; return error; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('K', 8): ival = IOCPARM_IVAL(data); data = (caddr_t)&ival; /* FALLTHROUGH */ #endif case KDMKTONE: /* sound the bell */ if (*(int *)data) sc_bell(scp, (*(int *)data) & 0xffff, (((*(int *)data) >> 16) & 0xffff) * hz / 1000); else sc_bell(scp, scp->bell_pitch, scp->bell_duration); return 0; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('K', 63): ival = IOCPARM_IVAL(data); data = (caddr_t)&ival; /* FALLTHROUGH */ #endif case KIOCSOUND: /* make tone (*data) hz */ if (scp == sc->cur_scp) { if (*(int *)data) return sc_tone(*(int *)data); else return sc_tone(0); } return 0; case KDGKBTYPE: /* get keyboard type */ error = kbdd_ioctl(sc->kbd, cmd, data); if (error == ENOIOCTL) { /* always return something? XXX */ *(int *)data = 0; } return 0; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('K', 66): ival = IOCPARM_IVAL(data); data = (caddr_t)&ival; /* FALLTHROUGH */ #endif case KDSETLED: /* set keyboard LED status */ if (*(int *)data & ~LED_MASK) /* FIXME: LOCK_MASK? */ return EINVAL; scp->status &= ~LED_MASK; scp->status |= *(int *)data; if (scp == sc->cur_scp) update_kbd_leds(scp, scp->status); return 0; case KDGETLED: /* get keyboard LED status */ if (scp == sc->cur_scp) save_kbd_state(scp); *(int *)data = scp->status & LED_MASK; return 0; case KBADDKBD: /* add/remove keyboard to/from mux */ case KBRELKBD: error = kbdd_ioctl(sc->kbd, cmd, data); if (error == ENOIOCTL) error = ENODEV; return error; #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ defined(COMPAT_FREEBSD4) || defined(COMPAT_43) case _IO('c', 110): ival = IOCPARM_IVAL(data); data = (caddr_t)&ival; /* FALLTHROUGH */ #endif case CONS_SETKBD: /* set the new keyboard */ { keyboard_t *newkbd; s = spltty(); newkbd = kbd_get_keyboard(*(int *)data); if (newkbd == NULL) { splx(s); return EINVAL; } error = 0; if (sc->kbd != newkbd) { i = kbd_allocate(newkbd->kb_name, newkbd->kb_unit, (void *)&sc->kbd, sckbdevent, sc); /* i == newkbd->kb_index */ if (i >= 0) { if (sc->kbd != NULL) { save_kbd_state(sc->cur_scp); kbd_release( sc->kbd, (void *)&sc->kbd); } sc->kbd = kbd_get_keyboard(i); /* sc->kbd == newkbd */ (void)kbdd_ioctl(sc->kbd, KDSKBMODE, (caddr_t)&sc->cur_scp->kbd_mode); update_kbd_state(sc->cur_scp, sc->cur_scp->status, LOCK_MASK); } else { error = EPERM; /* XXX */ } } splx(s); return error; } case CONS_RELKBD: /* release the current keyboard */ s = spltty(); error = 0; if (sc->kbd != NULL) { save_kbd_state(sc->cur_scp); error = kbd_release(sc->kbd, (void *)&sc->kbd); if (error == 0) sc->kbd = NULL; } splx(s); return error; case CONS_GETTERM: /* get the current terminal emulator info */ { sc_term_sw_t *sw; if (((term_info_t *)data)->ti_index == 0) { sw = scp->tsw; } else { sw = sc_term_match_by_number( ((term_info_t *)data)->ti_index); } if (sw != NULL) { strncpy(((term_info_t *)data)->ti_name, sw->te_name, sizeof(((term_info_t *)data)->ti_name)); strncpy(((term_info_t *)data)->ti_desc, sw->te_desc, sizeof(((term_info_t *)data)->ti_desc)); ((term_info_t *)data)->ti_flags = 0; return 0; } else { ((term_info_t *)data)->ti_name[0] = '\0'; ((term_info_t *)data)->ti_desc[0] = '\0'; ((term_info_t *)data)->ti_flags = 0; return EINVAL; } } case CONS_SETTERM: /* set the current terminal emulator */ s = spltty(); error = sc_init_emulator(scp, ((term_info_t *)data)->ti_name); /* FIXME: what if scp == sc_console! XXX */ splx(s); return error; case GIO_SCRNMAP: /* get output translation table */ bcopy(&sc->scr_map, data, sizeof(sc->scr_map)); return 0; case PIO_SCRNMAP: /* set output translation table */ bcopy(data, &sc->scr_map, sizeof(sc->scr_map)); for (i = 0; i < sizeof(sc->scr_map); i++) { sc->scr_rmap[sc->scr_map[i]] = i; } return 0; case GIO_KEYMAP: /* get keyboard translation table */ case PIO_KEYMAP: /* set keyboard translation table */ case GIO_DEADKEYMAP: /* get accent key translation table */ case PIO_DEADKEYMAP: /* set accent key translation table */ #ifdef COMPAT_FREEBSD13 case OGIO_KEYMAP: /* get keyboard translation table (compat) */ case OPIO_KEYMAP: /* set keyboard translation table (compat) */ case OGIO_DEADKEYMAP: /* get accent key translation table (compat) */ case OPIO_DEADKEYMAP: /* set accent key translation table (compat) */ #endif /* COMPAT_FREEBSD13 */ case GETFKEY: /* get function key string */ case SETFKEY: /* set function key string */ error = kbdd_ioctl(sc->kbd, cmd, data); if (error == ENOIOCTL) error = ENODEV; return error; #ifndef SC_NO_FONT_LOADING case PIO_FONT8x8: /* set 8x8 dot font */ if (!ISFONTAVAIL(sc->adp->va_flags)) return ENXIO; bcopy(data, sc->font_8, 8 * 256); sc->fonts_loaded |= FONT_8; /* * FONT KLUDGE * Always use the font page #0. XXX * Don't load if the current font size is not 8x8. */ if (ISTEXTSC(sc->cur_scp) && (sc->cur_scp->font_size < 14)) sc_load_font(sc->cur_scp, 0, 8, 8, sc->font_8, 0, 256); return 0; case GIO_FONT8x8: /* get 8x8 dot font */ if (!ISFONTAVAIL(sc->adp->va_flags)) return ENXIO; if (sc->fonts_loaded & FONT_8) { bcopy(sc->font_8, data, 8 * 256); return 0; } else return ENXIO; case PIO_FONT8x14: /* set 8x14 dot font */ if (!ISFONTAVAIL(sc->adp->va_flags)) return ENXIO; bcopy(data, sc->font_14, 14 * 256); sc->fonts_loaded |= FONT_14; /* * FONT KLUDGE * Always use the font page #0. XXX * Don't load if the current font size is not 8x14. */ if (ISTEXTSC(sc->cur_scp) && (sc->cur_scp->font_size >= 14) && (sc->cur_scp->font_size < 16)) sc_load_font( sc->cur_scp, 0, 14, 8, sc->font_14, 0, 256); return 0; case GIO_FONT8x14: /* get 8x14 dot font */ if (!ISFONTAVAIL(sc->adp->va_flags)) return ENXIO; if (sc->fonts_loaded & FONT_14) { bcopy(sc->font_14, data, 14 * 256); return 0; } else return ENXIO; case PIO_FONT8x16: /* set 8x16 dot font */ if (!ISFONTAVAIL(sc->adp->va_flags)) return ENXIO; bcopy(data, sc->font_16, 16 * 256); sc->fonts_loaded |= FONT_16; /* * FONT KLUDGE * Always use the font page #0. XXX * Don't load if the current font size is not 8x16. */ if (ISTEXTSC(sc->cur_scp) && (sc->cur_scp->font_size >= 16)) sc_load_font( sc->cur_scp, 0, 16, 8, sc->font_16, 0, 256); return 0; case GIO_FONT8x16: /* get 8x16 dot font */ if (!ISFONTAVAIL(sc->adp->va_flags)) return ENXIO; if (sc->fonts_loaded & FONT_16) { bcopy(sc->font_16, data, 16 * 256); return 0; } else return ENXIO; #endif /* SC_NO_FONT_LOADING */ default: break; } return (ENOIOCTL); } static int consolectl_ioctl( struct cdev *dev, u_long cmd, caddr_t data, int fflag, struct thread *td) { return sctty_ioctl(dev->si_drv1, cmd, data, td); } static int consolectl_close(struct cdev *dev, int flags, int mode, struct thread *td) { #ifndef SC_NO_SYSMOUSE mouse_info_t info; memset(&info, 0, sizeof(info)); info.operation = MOUSE_ACTION; /* * Make sure all buttons are released when moused and other * console daemons exit, so that no buttons are left pressed. */ (void)sctty_ioctl(dev->si_drv1, CONS_MOUSECTL, (caddr_t)&info, td); #endif return (0); } static void sc_cnprobe(struct consdev *cp) { int unit; int flags; if (!vty_enabled(VTY_SC)) { cp->cn_pri = CN_DEAD; return; } cp->cn_pri = sc_get_cons_priority(&unit, &flags); /* a video card is always required */ if (!scvidprobe(unit, flags, TRUE)) cp->cn_pri = CN_DEAD; /* syscons will become console even when there is no keyboard */ sckbdprobe(unit, flags, TRUE); if (cp->cn_pri == CN_DEAD) return; /* initialize required fields */ strcpy(cp->cn_name, "ttyv0"); } static void sc_cninit(struct consdev *cp) { int unit; int flags; sc_get_cons_priority(&unit, &flags); scinit(unit, flags | SC_KERNEL_CONSOLE); sc_console_unit = unit; sc_console = sc_get_stat(sc_get_softc(unit, SC_KERNEL_CONSOLE)->dev[0]); sc_consptr = cp; } static void sc_cnterm(struct consdev *cp) { void *ts; int i; /* we are not the kernel console any more, release everything */ if (sc_console_unit < 0) return; /* shouldn't happen */ #if 0 /* XXX */ sc_clear_screen(sc_console); sccnupdate(sc_console); #endif if (sc_ktsw != NULL) { for (i = 0; i <= mp_maxid; i++) { ts = sc_kts[i]; sc_kts[i] = NULL; (*sc_ktsw->te_term)(sc_console, &ts); free(ts, M_DEVBUF); } sc_ktsw = NULL; } scterm(sc_console_unit, SC_KERNEL_CONSOLE); sc_console_unit = -1; sc_console = NULL; } static void sccnclose(sc_softc_t *sc, struct sc_cnstate *sp); static int sc_cngetc_locked(struct sc_cnstate *sp); static void sccnkbdlock(sc_softc_t *sc, struct sc_cnstate *sp); static void sccnkbdunlock(sc_softc_t *sc, struct sc_cnstate *sp); static void sccnopen(sc_softc_t *sc, struct sc_cnstate *sp, int flags); static void sccnscrlock(sc_softc_t *sc, struct sc_cnstate *sp); static void sccnscrunlock(sc_softc_t *sc, struct sc_cnstate *sp); static void sccnkbdlock(sc_softc_t *sc, struct sc_cnstate *sp) { /* * Locking method: hope for the best. * The keyboard is supposed to be Giant locked. We can't handle that * in general. The kdb_active case here is not safe, and we will * proceed without the lock in all cases. */ sp->kbd_locked = !kdb_active && mtx_trylock(&Giant); } static void sccnkbdunlock(sc_softc_t *sc, struct sc_cnstate *sp) { if (sp->kbd_locked) mtx_unlock(&Giant); sp->kbd_locked = FALSE; } static void sccnscrlock(sc_softc_t *sc, struct sc_cnstate *sp) { int retries; /** * Locking method: * - if kdb_active and video_mtx is not owned by anyone, then lock * by kdb remaining active * - if !kdb_active, try to acquire video_mtx without blocking or * recursing; if we get it then it works normally. * Note that video_mtx is especially unusable if we already own it, * since then it is protecting something and syscons is not reentrant * enough to ignore the protection even in the kdb_active case. */ if (kdb_active) { sp->kdb_locked = sc->video_mtx.mtx_lock == MTX_UNOWNED || SCHEDULER_STOPPED(); sp->mtx_locked = FALSE; } else { sp->kdb_locked = FALSE; for (retries = 0; retries < 1000; retries++) { sp->mtx_locked = mtx_trylock_spin_flags( &sc->video_mtx, MTX_QUIET) != 0; if (SCHEDULER_STOPPED()) { sp->kdb_locked = TRUE; sp->mtx_locked = FALSE; break; } if (sp->mtx_locked) break; DELAY(1); } } } static void sccnscrunlock(sc_softc_t *sc, struct sc_cnstate *sp) { if (sp->mtx_locked) mtx_unlock_spin(&sc->video_mtx); sp->mtx_locked = sp->kdb_locked = FALSE; } static void sccnopen(sc_softc_t *sc, struct sc_cnstate *sp, int flags) { int kbd_mode; /* assert(sc_console_unit >= 0) */ sp->kbd_opened = FALSE; sp->scr_opened = FALSE; sp->kbd_locked = FALSE; /* Opening the keyboard is optional. */ if (!(flags & 1) || sc->kbd == NULL) goto over_keyboard; sccnkbdlock(sc, sp); /* * Make sure the keyboard is accessible even when the kbd device * driver is disabled. */ kbdd_enable(sc->kbd); /* Switch the keyboard to console mode (K_XLATE, polled) on all scp's. */ kbd_mode = K_XLATE; (void)kbdd_ioctl(sc->kbd, KDSKBMODE, (caddr_t)&kbd_mode); sc->kbd_open_level++; kbdd_poll(sc->kbd, TRUE); sp->kbd_opened = TRUE; over_keyboard:; /* The screen is opened iff locking it succeeds. */ sccnscrlock(sc, sp); if (!sp->kdb_locked && !sp->mtx_locked) return; sp->scr_opened = TRUE; /* The screen switch is optional. */ if (!(flags & 2)) return; /* try to switch to the kernel console screen */ if (!cold && sc->cur_scp->index != sc_console->index && sc->cur_scp->smode.mode == VT_AUTO && sc_console->smode.mode == VT_AUTO) sc_switch_scr(sc, sc_console->index); } static void sccnclose(sc_softc_t *sc, struct sc_cnstate *sp) { sp->scr_opened = FALSE; sccnscrunlock(sc, sp); if (!sp->kbd_opened) return; /* Restore keyboard mode (for the current, possibly-changed scp). */ kbdd_poll(sc->kbd, FALSE); if (--sc->kbd_open_level == 0) (void)kbdd_ioctl( sc->kbd, KDSKBMODE, (caddr_t)&sc->cur_scp->kbd_mode); kbdd_disable(sc->kbd); sp->kbd_opened = FALSE; sccnkbdunlock(sc, sp); } /* * Grabbing switches the screen and keyboard focus to sc_console and the * keyboard mode to (K_XLATE, polled). Only switching to polled mode is * essential (for preventing the interrupt handler from eating input * between polls). Focus is part of the UI, and the other switches are * work just was well when they are done on every entry and exit. * * Screen switches while grabbed are supported, and to maintain focus for * this ungrabbing and closing only restore the polling state and then * the keyboard mode if on the original screen. */ static void sc_cngrab(struct consdev *cp) { sc_softc_t *sc; int lev; sc = sc_console->sc; lev = atomic_fetchadd_int(&sc->grab_level, 1); if (lev >= 0 && lev < 2) { sccnopen(sc, &sc->grab_state[lev], 1 | 2); sccnscrunlock(sc, &sc->grab_state[lev]); sccnkbdunlock(sc, &sc->grab_state[lev]); } } static void sc_cnungrab(struct consdev *cp) { sc_softc_t *sc; int lev; sc = sc_console->sc; lev = atomic_load_acq_int(&sc->grab_level) - 1; if (lev >= 0 && lev < 2) { sccnkbdlock(sc, &sc->grab_state[lev]); sccnscrlock(sc, &sc->grab_state[lev]); sccnclose(sc, &sc->grab_state[lev]); } atomic_add_int(&sc->grab_level, -1); } static char sc_cnputc_log[0x1000]; static u_int sc_cnputc_loghead; static u_int sc_cnputc_logtail; static void sc_cnputc(struct consdev *cd, int c) { struct sc_cnstate st; u_char buf[1]; scr_stat *scp = sc_console; void *oldts, *ts; struct sc_term_sw *oldtsw; #ifndef SC_NO_HISTORY #if 0 struct tty *tp; #endif #endif /* !SC_NO_HISTORY */ u_int head; int s; /* assert(sc_console != NULL) */ sccnopen(scp->sc, &st, 0); /* * Log the output. * * In the unlocked case, the logging is intentionally only * perfectly atomic for the indexes. */ head = atomic_fetchadd_int(&sc_cnputc_loghead, 1); sc_cnputc_log[head % sizeof(sc_cnputc_log)] = c; /* * If we couldn't open, do special reentrant output and return to defer * normal output. */ if (!st.scr_opened) { ec_putc(c); return; } #ifndef SC_NO_HISTORY if (scp == scp->sc->cur_scp && scp->status & SLKED) { scp->status &= ~SLKED; update_kbd_state(scp, scp->status, SLKED); if (scp->status & BUFFER_SAVED) { if (!sc_hist_restore(scp)) sc_remove_cutmarking(scp); scp->status &= ~BUFFER_SAVED; scp->status |= CURSOR_ENABLED; sc_draw_cursor_image(scp); } #if 0 /* * XXX: Now that TTY's have their own locks, we cannot process * any data after disabling scroll lock. cnputs already holds a * spinlock. */ tp = SC_DEV(scp->sc, scp->index); /* XXX "tp" can be NULL */ tty_lock(tp); if (tty_opened(tp)) sctty_outwakeup(tp); tty_unlock(tp); #endif } #endif /* !SC_NO_HISTORY */ /* Play any output still in the log (our char may already be done). */ while (sc_cnputc_logtail != atomic_load_acq_int(&sc_cnputc_loghead)) { buf[0] = sc_cnputc_log[sc_cnputc_logtail++ % sizeof(sc_cnputc_log)]; if (atomic_load_acq_int(&sc_cnputc_loghead) - sc_cnputc_logtail >= sizeof(sc_cnputc_log)) continue; /* Console output has a per-CPU "input" state. Switch for it. */ ts = sc_kts[curcpu]; if (ts != NULL) { oldtsw = scp->tsw; oldts = scp->ts; scp->tsw = sc_ktsw; scp->ts = ts; (*scp->tsw->te_sync)(scp); } else { /* Only 1 tsw early. Switch only its attr. */ (*scp->tsw->te_default_attr)( scp, sc_kattrtab[curcpu], SC_KERNEL_CONS_REV_ATTR); } sc_puts(scp, buf, 1); if (ts != NULL) { scp->tsw = oldtsw; scp->ts = oldts; (*scp->tsw->te_sync)(scp); } else { (*scp->tsw->te_default_attr)( scp, SC_KERNEL_CONS_ATTR, SC_KERNEL_CONS_REV_ATTR); } } s = spltty(); /* block sckbdevent and scrn_timer */ sccnupdate(scp); splx(s); sccnclose(scp->sc, &st); } static int sc_cngetc(struct consdev *cd) { struct sc_cnstate st; int c, s; /* assert(sc_console != NULL) */ sccnopen(sc_console->sc, &st, 1); s = spltty(); /* block sckbdevent and scrn_timer while we poll */ if (!st.kbd_opened) { splx(s); sccnclose(sc_console->sc, &st); return -1; /* means no keyboard since we fudged the locking */ } c = sc_cngetc_locked(&st); splx(s); sccnclose(sc_console->sc, &st); return c; } static int sc_cngetc_locked(struct sc_cnstate *sp) { static struct fkeytab fkey; static int fkeycp; scr_stat *scp; const u_char *p; int c; /* * Stop the screen saver and update the screen if necessary. * What if we have been running in the screen saver code... XXX */ if (sp->scr_opened) sc_touch_scrn_saver(); scp = sc_console->sc->cur_scp; /* XXX */ if (sp->scr_opened) sccnupdate(scp); if (fkeycp < fkey.len) return fkey.str[fkeycp++]; c = scgetc(scp->sc, SCGETC_CN | SCGETC_NONBLOCK, sp); switch (KEYFLAGS(c)) { case 0: /* normal char */ return KEYCHAR(c); case FKEY: /* function key */ p = (*scp->tsw->te_fkeystr)(scp, c); if (p != NULL) { fkey.len = strlen(p); bcopy(p, fkey.str, fkey.len); fkeycp = 1; return fkey.str[0]; } p = kbdd_get_fkeystr( scp->sc->kbd, KEYCHAR(c), (size_t *)&fkeycp); fkey.len = fkeycp; if ((p != NULL) && (fkey.len > 0)) { bcopy(p, fkey.str, fkey.len); fkeycp = 1; return fkey.str[0]; } return c; /* XXX */ case NOKEY: case ERRKEY: default: return -1; } /* NOT REACHED */ } static void sccnupdate(scr_stat *scp) { /* this is a cut-down version of scrn_timer()... */ if (suspend_in_progress || scp->sc->font_loading_in_progress) return; if (kdb_active || KERNEL_PANICKED() || shutdown_in_progress) { sc_touch_scrn_saver(); } else if (scp != scp->sc->cur_scp) { return; } if (!run_scrn_saver) scp->sc->flags &= ~SC_SCRN_IDLE; #ifdef DEV_SPLASH if ((saver_mode != CONS_LKM_SAVER) || !(scp->sc->flags & SC_SCRN_IDLE)) if (scp->sc->flags & SC_SCRN_BLANKED) stop_scrn_saver(scp->sc, current_saver); #endif if (scp != scp->sc->cur_scp || scp->sc->blink_in_progress || scp->sc->switch_in_progress) return; /* * FIXME: unlike scrn_timer(), we call scrn_update() from here even * when write_in_progress is non-zero. XXX */ if (!ISGRAPHSC(scp) && !(scp->sc->flags & SC_SCRN_BLANKED)) scrn_update(scp, TRUE); } static void scrn_timer(void *arg) { static time_t kbd_time_stamp = 0; sc_softc_t *sc; scr_stat *scp; int again, rate; int kbdidx; again = (arg != NULL); if (arg != NULL) sc = (sc_softc_t *)arg; else if (sc_console != NULL) sc = sc_console->sc; else return; /* find the vty to update */ scp = sc->cur_scp; /* don't do anything when we are performing some I/O operations */ if (suspend_in_progress || sc->font_loading_in_progress) goto done; if ((sc->kbd == NULL) && (sc->config & SC_AUTODETECT_KBD)) { /* try to allocate a keyboard automatically */ if (kbd_time_stamp != time_uptime) { kbd_time_stamp = time_uptime; kbdidx = sc_allocate_keyboard(sc, -1); if (kbdidx >= 0) { sc->kbd = kbd_get_keyboard(kbdidx); (void)kbdd_ioctl(sc->kbd, KDSKBMODE, (caddr_t)&sc->cur_scp->kbd_mode); update_kbd_state(sc->cur_scp, sc->cur_scp->status, LOCK_MASK); } } } /* should we stop the screen saver? */ if (kdb_active || KERNEL_PANICKED() || shutdown_in_progress) sc_touch_scrn_saver(); if (run_scrn_saver) { if (time_uptime > sc->scrn_time_stamp + scrn_blank_time) sc->flags |= SC_SCRN_IDLE; else sc->flags &= ~SC_SCRN_IDLE; } else { sc->scrn_time_stamp = time_uptime; sc->flags &= ~SC_SCRN_IDLE; if (scrn_blank_time > 0) run_scrn_saver = TRUE; } #ifdef DEV_SPLASH if ((saver_mode != CONS_LKM_SAVER) || !(sc->flags & SC_SCRN_IDLE)) if (sc->flags & SC_SCRN_BLANKED) stop_scrn_saver(sc, current_saver); #endif /* should we just return ? */ if (sc->blink_in_progress || sc->switch_in_progress || sc->write_in_progress) goto done; /* Update the screen */ scp = sc->cur_scp; /* cur_scp may have changed... */ if (!ISGRAPHSC(scp) && !(sc->flags & SC_SCRN_BLANKED)) scrn_update(scp, TRUE); #ifdef DEV_SPLASH /* should we activate the screen saver? */ if ((saver_mode == CONS_LKM_SAVER) && (sc->flags & SC_SCRN_IDLE)) if (!ISGRAPHSC(scp) || (sc->flags & SC_SCRN_BLANKED)) (*current_saver)(sc, TRUE); #endif done: if (again) { /* * Use reduced "refresh" rate if we are in graphics and that is * not a graphical screen saver. In such case we just have * nothing to do. */ if (ISGRAPHSC(scp) && !(sc->flags & SC_SCRN_BLANKED)) rate = 2; else rate = 30; callout_reset_sbt( &sc->ctimeout, SBT_1S / rate, 0, scrn_timer, sc, C_PREL(1)); } } static int and_region(int *s1, int *e1, int s2, int e2) { if (*e1 < s2 || e2 < *s1) return FALSE; *s1 = imax(*s1, s2); *e1 = imin(*e1, e2); return TRUE; } static void scrn_update(scr_stat *scp, int show_cursor) { int start; int end; int s; int e; /* assert(scp == scp->sc->cur_scp) */ SC_VIDEO_LOCK(scp->sc); #ifndef SC_NO_CUTPASTE /* remove the previous mouse pointer image if necessary */ if (scp->status & MOUSE_VISIBLE) { s = scp->mouse_pos; e = scp->mouse_pos + scp->xsize + 1; if ((scp->status & (MOUSE_MOVED | MOUSE_HIDDEN)) || and_region(&s, &e, scp->start, scp->end) || ((scp->status & CURSOR_ENABLED) && (scp->cursor_pos != scp->cursor_oldpos) && (and_region(&s, &e, scp->cursor_pos, scp->cursor_pos) || and_region(&s, &e, scp->cursor_oldpos, scp->cursor_oldpos)))) { sc_remove_mouse_image(scp); if (scp->end >= scp->xsize * scp->ysize) scp->end = scp->xsize * scp->ysize - 1; } } #endif /* !SC_NO_CUTPASTE */ #if 1 /* debug: XXX */ if (scp->end >= scp->xsize * scp->ysize) { printf("scrn_update(): scp->end %d > size_of_screen!!\n", scp->end); scp->end = scp->xsize * scp->ysize - 1; } if (scp->start < 0) { printf("scrn_update(): scp->start %d < 0\n", scp->start); scp->start = 0; } #endif /* update screen image */ if (scp->start <= scp->end) { if (scp->mouse_cut_end >= 0) { /* there is a marked region for cut & paste */ if (scp->mouse_cut_start <= scp->mouse_cut_end) { start = scp->mouse_cut_start; end = scp->mouse_cut_end; } else { start = scp->mouse_cut_end; end = scp->mouse_cut_start - 1; } s = start; e = end; /* does the cut-mark region overlap with the update * region? */ if (and_region(&s, &e, scp->start, scp->end)) { (*scp->rndr->draw)(scp, s, e - s + 1, TRUE); s = 0; e = start - 1; if (and_region(&s, &e, scp->start, scp->end)) (*scp->rndr->draw)( scp, s, e - s + 1, FALSE); s = end + 1; e = scp->xsize * scp->ysize - 1; if (and_region(&s, &e, scp->start, scp->end)) (*scp->rndr->draw)( scp, s, e - s + 1, FALSE); } else { (*scp->rndr->draw)(scp, scp->start, scp->end - scp->start + 1, FALSE); } } else { (*scp->rndr->draw)( scp, scp->start, scp->end - scp->start + 1, FALSE); } } /* we are not to show the cursor and the mouse pointer... */ if (!show_cursor) { scp->end = 0; scp->start = scp->xsize * scp->ysize - 1; SC_VIDEO_UNLOCK(scp->sc); return; } /* update cursor image */ if (scp->status & CURSOR_ENABLED) { s = scp->start; e = scp->end; /* did cursor move since last time ? */ if (scp->cursor_pos != scp->cursor_oldpos) { /* do we need to remove old cursor image ? */ if (!and_region( &s, &e, scp->cursor_oldpos, scp->cursor_oldpos)) sc_remove_cursor_image(scp); sc_draw_cursor_image(scp); } else { if (and_region( &s, &e, scp->cursor_pos, scp->cursor_pos)) /* cursor didn't move, but has been overwritten */ sc_draw_cursor_image(scp); else if (scp->curs_attr.flags & CONS_BLINK_CURSOR) /* if it's a blinking cursor, update it */ (*scp->rndr->blink_cursor)(scp, scp->cursor_pos, sc_inside_cutmark(scp, scp->cursor_pos)); } } #ifndef SC_NO_CUTPASTE /* update "pseudo" mouse pointer image */ if (scp->sc->flags & SC_MOUSE_ENABLED) { if (!(scp->status & (MOUSE_VISIBLE | MOUSE_HIDDEN))) { scp->status &= ~MOUSE_MOVED; sc_draw_mouse_image(scp); } } #endif /* SC_NO_CUTPASTE */ scp->end = 0; scp->start = scp->xsize * scp->ysize - 1; SC_VIDEO_UNLOCK(scp->sc); } #ifdef DEV_SPLASH static int scsplash_callback(int event, void *arg) { sc_softc_t *sc; int error; sc = (sc_softc_t *)arg; switch (event) { case SPLASH_INIT: if (add_scrn_saver(scsplash_saver) == 0) { sc->flags &= ~SC_SAVER_FAILED; run_scrn_saver = TRUE; if (cold && !(boothowto & RB_VERBOSE)) { scsplash_stick(TRUE); (*current_saver)(sc, TRUE); } } return 0; case SPLASH_TERM: if (current_saver == scsplash_saver) { scsplash_stick(FALSE); error = remove_scrn_saver(scsplash_saver); if (error) return error; } return 0; default: return EINVAL; } } static void scsplash_saver(sc_softc_t *sc, int show) { static int busy = FALSE; scr_stat *scp; if (busy) return; busy = TRUE; scp = sc->cur_scp; if (show) { if (!(sc->flags & SC_SAVER_FAILED)) { if (!(sc->flags & SC_SCRN_BLANKED)) set_scrn_saver_mode(scp, -1, NULL, 0); switch (splash(sc->adp, TRUE)) { case 0: /* succeeded */ break; case EAGAIN: /* try later */ restore_scrn_saver_mode(scp, FALSE); sc_touch_scrn_saver(); /* XXX */ break; default: sc->flags |= SC_SAVER_FAILED; scsplash_stick(FALSE); restore_scrn_saver_mode(scp, TRUE); printf( "scsplash_saver(): failed to put up the image\n"); break; } } } else if (!sticky_splash) { if ((sc->flags & SC_SCRN_BLANKED) && (splash(sc->adp, FALSE) == 0)) restore_scrn_saver_mode(scp, TRUE); } busy = FALSE; } static int add_scrn_saver(void (*this_saver)(sc_softc_t *, int)) { #if 0 int error; if (current_saver != none_saver) { error = remove_scrn_saver(current_saver); if (error) return error; } #endif if (current_saver != none_saver) return EBUSY; run_scrn_saver = FALSE; saver_mode = CONS_LKM_SAVER; current_saver = this_saver; return 0; } static int remove_scrn_saver(void (*this_saver)(sc_softc_t *, int)) { if (current_saver != this_saver) return EINVAL; #if 0 /* * In order to prevent `current_saver' from being called by * the timeout routine `scrn_timer()' while we manipulate * the saver list, we shall set `current_saver' to `none_saver' * before stopping the current saver, rather than blocking by `splXX()'. */ current_saver = none_saver; if (scrn_blanked) stop_scrn_saver(this_saver); #endif /* unblank all blanked screens */ wait_scrn_saver_stop(NULL); if (scrn_blanked) return EBUSY; current_saver = none_saver; return 0; } static int set_scrn_saver_mode(scr_stat *scp, int mode, u_char *pal, int border) { int s; /* assert(scp == scp->sc->cur_scp) */ s = spltty(); if (!ISGRAPHSC(scp)) sc_remove_cursor_image(scp); scp->splash_save_mode = scp->mode; scp->splash_save_status = scp->status & (GRAPHICS_MODE | PIXEL_MODE); scp->status &= ~(GRAPHICS_MODE | PIXEL_MODE); scp->status |= (UNKNOWN_MODE | SAVER_RUNNING); scp->sc->flags |= SC_SCRN_BLANKED; ++scrn_blanked; splx(s); if (mode < 0) return 0; scp->mode = mode; if (set_mode(scp) == 0) { if (scp->sc->adp->va_info.vi_flags & V_INFO_GRAPHICS) scp->status |= GRAPHICS_MODE; #ifndef SC_NO_PALETTE_LOADING if (pal != NULL) vidd_load_palette(scp->sc->adp, pal); #endif sc_set_border(scp, border); return 0; } else { s = spltty(); scp->mode = scp->splash_save_mode; scp->status &= ~(UNKNOWN_MODE | SAVER_RUNNING); scp->status |= scp->splash_save_status; splx(s); return 1; } } static int restore_scrn_saver_mode(scr_stat *scp, int changemode) { int mode; int status; int s; /* assert(scp == scp->sc->cur_scp) */ s = spltty(); mode = scp->mode; status = scp->status; scp->mode = scp->splash_save_mode; scp->status &= ~(UNKNOWN_MODE | SAVER_RUNNING); scp->status |= scp->splash_save_status; scp->sc->flags &= ~SC_SCRN_BLANKED; if (!changemode) { if (!ISGRAPHSC(scp)) sc_draw_cursor_image(scp); --scrn_blanked; splx(s); return 0; } if (set_mode(scp) == 0) { #ifndef SC_NO_PALETTE_LOADING #ifdef SC_PIXEL_MODE if (scp->sc->adp->va_info.vi_mem_model == V_INFO_MM_DIRECT) vidd_load_palette(scp->sc->adp, scp->sc->palette2); else #endif vidd_load_palette(scp->sc->adp, scp->sc->palette); #endif --scrn_blanked; splx(s); return 0; } else { scp->mode = mode; scp->status = status; splx(s); return 1; } } static void stop_scrn_saver(sc_softc_t *sc, void (*saver)(sc_softc_t *, int)) { (*saver)(sc, FALSE); run_scrn_saver = FALSE; /* the screen saver may have chosen not to stop after all... */ if (sc->flags & SC_SCRN_BLANKED) return; mark_all(sc->cur_scp); if (sc->delayed_next_scr) sc_switch_scr(sc, sc->delayed_next_scr - 1); if (!kdb_active) wakeup(&scrn_blanked); } static int wait_scrn_saver_stop(sc_softc_t *sc) { int error = 0; while (scrn_blanked > 0) { run_scrn_saver = FALSE; if (sc && !(sc->flags & SC_SCRN_BLANKED)) { error = 0; break; } error = tsleep(&scrn_blanked, PZERO | PCATCH, "scrsav", 0); if ((error != 0) && (error != ERESTART)) break; } run_scrn_saver = FALSE; return error; } #endif /* DEV_SPLASH */ void sc_touch_scrn_saver(void) { scsplash_stick(FALSE); run_scrn_saver = FALSE; } int sc_switch_scr(sc_softc_t *sc, u_int next_scr) { scr_stat *cur_scp; struct tty *tp; struct proc *p; int s; DPRINTF(5, ("sc0: sc_switch_scr() %d ", next_scr + 1)); if (sc->cur_scp == NULL) return (0); /* prevent switch if previously requested */ if (sc->flags & SC_SCRN_VTYLOCK) { sc_bell(sc->cur_scp, sc->cur_scp->bell_pitch, sc->cur_scp->bell_duration); return EPERM; } /* delay switch if the screen is blanked or being updated */ if ((sc->flags & SC_SCRN_BLANKED) || sc->write_in_progress || sc->blink_in_progress) { sc->delayed_next_scr = next_scr + 1; sc_touch_scrn_saver(); DPRINTF(5, ("switch delayed\n")); return 0; } sc->delayed_next_scr = 0; s = spltty(); cur_scp = sc->cur_scp; /* we are in the middle of the vty switching process... */ if (sc->switch_in_progress && (cur_scp->smode.mode == VT_PROCESS) && cur_scp->proc) { p = pfind(cur_scp->pid); if (cur_scp->proc != p) { if (p) PROC_UNLOCK(p); /* * The controlling process has died!!. Do some clean * up. NOTE:`cur_scp->proc' and `cur_scp->smode.mode' * are not reset here yet; they will be cleared later. */ DPRINTF(5, ("cur_scp controlling process %d died, ", cur_scp->pid)); if (cur_scp->status & SWITCH_WAIT_REL) { /* * Force the previous switch to finish, but * return now with error. */ DPRINTF(5, ("reset WAIT_REL, ")); finish_vt_rel(cur_scp, TRUE, &s); splx(s); DPRINTF(5, ("finishing previous switch\n")); return EINVAL; } else if (cur_scp->status & SWITCH_WAIT_ACQ) { /* let's assume screen switch has been * completed. */ DPRINTF(5, ("reset WAIT_ACQ, ")); finish_vt_acq(cur_scp); } else { /* * We are in between screen release and * acquisition, and reached here via scgetc() or * scrn_timer() which has interrupted * exchange_scr(). Don't do anything stupid. */ DPRINTF(5, ("waiting nothing, ")); } } else { if (p) PROC_UNLOCK(p); /* * The controlling process is alive, but not * responding... It is either buggy or it may be just * taking time. The following code is a gross kludge to * cope with this problem for which there is no clean * solution. XXX */ if (cur_scp->status & SWITCH_WAIT_REL) { switch (sc->switch_in_progress++) { case 1: break; case 2: DPRINTF(5, ("sending relsig again, ")); signal_vt_rel(cur_scp); break; case 3: break; case 4: default: /* * Act as if the controlling program * returned VT_FALSE. */ DPRINTF(5, ("force reset WAIT_REL, ")); finish_vt_rel(cur_scp, FALSE, &s); splx(s); DPRINTF(5, ("act as if VT_FALSE was seen\n")); return EINVAL; } } else if (cur_scp->status & SWITCH_WAIT_ACQ) { switch (sc->switch_in_progress++) { case 1: break; case 2: DPRINTF(5, ("sending acqsig again, ")); signal_vt_acq(cur_scp); break; case 3: break; case 4: default: /* clear the flag and finish the * previous switch */ DPRINTF(5, ("force reset WAIT_ACQ, ")); finish_vt_acq(cur_scp); break; } } } } /* * Return error if an invalid argument is given, or vty switch * is still in progress. */ if ((next_scr < sc->first_vty) || (next_scr >= sc->first_vty + sc->vtys) || sc->switch_in_progress) { splx(s); sc_bell(cur_scp, bios_value.bell_pitch, BELL_DURATION); DPRINTF(5, ("error 1\n")); return EINVAL; } /* * Don't allow switching away from the graphics mode vty * if the switch mode is VT_AUTO, unless the next vty is the same * as the current or the current vty has been closed (but showing). */ tp = SC_DEV(sc, cur_scp->index); if ((cur_scp->index != next_scr) && tty_opened_ns(tp) && (cur_scp->smode.mode == VT_AUTO) && ISGRAPHSC(cur_scp)) { splx(s); sc_bell(cur_scp, bios_value.bell_pitch, BELL_DURATION); DPRINTF(5, ("error, graphics mode\n")); return EINVAL; } /* * Is the wanted vty open? Don't allow switching to a closed vty. * If we are in DDB, don't switch to a vty in the VT_PROCESS mode. * Note that we always allow the user to switch to the kernel * console even if it is closed. */ if ((sc_console == NULL) || (next_scr != sc_console->index)) { tp = SC_DEV(sc, next_scr); if (!tty_opened_ns(tp)) { splx(s); sc_bell(cur_scp, bios_value.bell_pitch, BELL_DURATION); DPRINTF(5, ("error 2, requested vty isn't open!\n")); return EINVAL; } if (kdb_active && SC_STAT(tp)->smode.mode == VT_PROCESS) { splx(s); DPRINTF(5, ("error 3, requested vty is in the VT_PROCESS mode\n")); return EINVAL; } } /* this is the start of vty switching process... */ ++sc->switch_in_progress; sc->old_scp = cur_scp; sc->new_scp = sc_get_stat(SC_DEV(sc, next_scr)); if (sc->new_scp == sc->old_scp) { sc->switch_in_progress = 0; /* * XXX wakeup() locks the scheduler lock which will hang if * the lock is in an in-between state, e.g., when we stop at * a breakpoint at fork_exit. It has always been wrong to call * wakeup() when the debugger is active. In RELENG_4, wakeup() * is supposed to be locked by splhigh(), but the debugger may * be invoked at splhigh(). */ if (!kdb_active) wakeup(VTY_WCHAN(sc, next_scr)); splx(s); DPRINTF(5, ("switch done (new == old)\n")); return 0; } /* has controlling process died? */ vt_proc_alive(sc->old_scp); vt_proc_alive(sc->new_scp); /* wait for the controlling process to release the screen, if necessary */ if (signal_vt_rel(sc->old_scp)) { splx(s); return 0; } /* go set up the new vty screen */ splx(s); exchange_scr(sc); s = spltty(); /* wake up processes waiting for this vty */ if (!kdb_active) wakeup(VTY_WCHAN(sc, next_scr)); /* wait for the controlling process to acknowledge, if necessary */ if (signal_vt_acq(sc->cur_scp)) { splx(s); return 0; } sc->switch_in_progress = 0; if (sc->unit == sc_console_unit) cnavailable(sc_consptr, TRUE); splx(s); DPRINTF(5, ("switch done\n")); return 0; } static int do_switch_scr(sc_softc_t *sc, int s) { vt_proc_alive(sc->new_scp); splx(s); exchange_scr(sc); s = spltty(); /* sc->cur_scp == sc->new_scp */ wakeup(VTY_WCHAN(sc, sc->cur_scp->index)); /* wait for the controlling process to acknowledge, if necessary */ if (!signal_vt_acq(sc->cur_scp)) { sc->switch_in_progress = 0; if (sc->unit == sc_console_unit) cnavailable(sc_consptr, TRUE); } return s; } static int vt_proc_alive(scr_stat *scp) { struct proc *p; if (scp->proc) { if ((p = pfind(scp->pid)) != NULL) PROC_UNLOCK(p); if (scp->proc == p) return TRUE; scp->proc = NULL; scp->smode.mode = VT_AUTO; DPRINTF(5, ("vt controlling process %d died\n", scp->pid)); } return FALSE; } static int signal_vt_rel(scr_stat *scp) { if (scp->smode.mode != VT_PROCESS) return FALSE; scp->status |= SWITCH_WAIT_REL; PROC_LOCK(scp->proc); kern_psignal(scp->proc, scp->smode.relsig); PROC_UNLOCK(scp->proc); DPRINTF(5, ("sending relsig to %d\n", scp->pid)); return TRUE; } static int signal_vt_acq(scr_stat *scp) { if (scp->smode.mode != VT_PROCESS) return FALSE; if (scp->sc->unit == sc_console_unit) cnavailable(sc_consptr, FALSE); scp->status |= SWITCH_WAIT_ACQ; PROC_LOCK(scp->proc); kern_psignal(scp->proc, scp->smode.acqsig); PROC_UNLOCK(scp->proc); DPRINTF(5, ("sending acqsig to %d\n", scp->pid)); return TRUE; } static int finish_vt_rel(scr_stat *scp, int release, int *s) { if (scp == scp->sc->old_scp && scp->status & SWITCH_WAIT_REL) { scp->status &= ~SWITCH_WAIT_REL; if (release) *s = do_switch_scr(scp->sc, *s); else scp->sc->switch_in_progress = 0; return 0; } return EINVAL; } static int finish_vt_acq(scr_stat *scp) { if (scp == scp->sc->new_scp && scp->status & SWITCH_WAIT_ACQ) { scp->status &= ~SWITCH_WAIT_ACQ; scp->sc->switch_in_progress = 0; return 0; } return EINVAL; } static void exchange_scr(sc_softc_t *sc) { scr_stat *scp; /* save the current state of video and keyboard */ sc_move_cursor(sc->old_scp, sc->old_scp->xpos, sc->old_scp->ypos); if (!ISGRAPHSC(sc->old_scp)) sc_remove_cursor_image(sc->old_scp); if (sc->old_scp->kbd_mode == K_XLATE) save_kbd_state(sc->old_scp); /* set up the video for the new screen */ scp = sc->cur_scp = sc->new_scp; if (sc->old_scp->mode != scp->mode || ISUNKNOWNSC(sc->old_scp)) set_mode(scp); else sc_vtb_init(&scp->scr, VTB_FRAMEBUFFER, scp->xsize, scp->ysize, (void *)sc->adp->va_window, FALSE); scp->status |= MOUSE_HIDDEN; sc_move_cursor(scp, scp->xpos, scp->ypos); if (!ISGRAPHSC(scp)) sc_set_cursor_image(scp); #ifndef SC_NO_PALETTE_LOADING if (ISGRAPHSC(sc->old_scp)) { #ifdef SC_PIXEL_MODE if (sc->adp->va_info.vi_mem_model == V_INFO_MM_DIRECT) vidd_load_palette(sc->adp, sc->palette2); else #endif vidd_load_palette(sc->adp, sc->palette); } #endif sc_set_border(scp, scp->border); /* set up the keyboard for the new screen */ if (sc->kbd_open_level == 0 && sc->old_scp->kbd_mode != scp->kbd_mode) (void)kbdd_ioctl(sc->kbd, KDSKBMODE, (caddr_t)&scp->kbd_mode); update_kbd_state(scp, scp->status, LOCK_MASK); mark_all(scp); } static void sc_puts(scr_stat *scp, u_char *buf, int len) { #ifdef DEV_SPLASH /* make screensaver happy */ if (!sticky_splash && scp == scp->sc->cur_scp && !sc_saver_keyb_only) run_scrn_saver = FALSE; #endif if (scp->tsw) (*scp->tsw->te_puts)(scp, buf, len); if (scp->sc->delayed_next_scr) sc_switch_scr(scp->sc, scp->sc->delayed_next_scr - 1); } void sc_draw_cursor_image(scr_stat *scp) { /* assert(scp == scp->sc->cur_scp); */ SC_VIDEO_LOCK(scp->sc); (*scp->rndr->draw_cursor)(scp, scp->cursor_pos, scp->curs_attr.flags & CONS_BLINK_CURSOR, TRUE, sc_inside_cutmark(scp, scp->cursor_pos)); scp->cursor_oldpos = scp->cursor_pos; SC_VIDEO_UNLOCK(scp->sc); } void sc_remove_cursor_image(scr_stat *scp) { /* assert(scp == scp->sc->cur_scp); */ SC_VIDEO_LOCK(scp->sc); (*scp->rndr->draw_cursor)(scp, scp->cursor_oldpos, scp->curs_attr.flags & CONS_BLINK_CURSOR, FALSE, sc_inside_cutmark(scp, scp->cursor_oldpos)); SC_VIDEO_UNLOCK(scp->sc); } static void update_cursor_image(scr_stat *scp) { /* assert(scp == scp->sc->cur_scp); */ sc_remove_cursor_image(scp); sc_set_cursor_image(scp); sc_draw_cursor_image(scp); } void sc_set_cursor_image(scr_stat *scp) { scp->curs_attr = scp->base_curs_attr; if (scp->curs_attr.flags & CONS_HIDDEN_CURSOR) { /* hidden cursor is internally represented as zero-height * underline */ scp->curs_attr.flags = CONS_CHAR_CURSOR; scp->curs_attr.base = scp->curs_attr.height = 0; } else if (scp->curs_attr.flags & CONS_CHAR_CURSOR) { scp->curs_attr.base = imin(scp->base_curs_attr.base, scp->font_size - 1); scp->curs_attr.height = imin(scp->base_curs_attr.height, scp->font_size - scp->curs_attr.base); } else { /* block cursor */ scp->curs_attr.base = 0; scp->curs_attr.height = scp->font_size; } /* assert(scp == scp->sc->cur_scp); */ SC_VIDEO_LOCK(scp->sc); (*scp->rndr->set_cursor)(scp, scp->curs_attr.base, scp->curs_attr.height, scp->curs_attr.flags & CONS_BLINK_CURSOR); SC_VIDEO_UNLOCK(scp->sc); } static void sc_adjust_ca(struct cursor_attr *cap, int flags, int base, int height) { if (flags & CONS_CHARCURSOR_COLORS) { cap->bg[0] = base & 0xff; cap->bg[1] = height & 0xff; } else if (flags & CONS_MOUSECURSOR_COLORS) { cap->mouse_ba = base & 0xff; cap->mouse_ia = height & 0xff; } else { if (base >= 0) cap->base = base; if (height >= 0) cap->height = height; if (!(flags & CONS_SHAPEONLY_CURSOR)) cap->flags = flags & CONS_CURSOR_ATTRS; } } static void change_cursor_shape(scr_stat *scp, int flags, int base, int height) { if ((scp == scp->sc->cur_scp) && !ISGRAPHSC(scp)) sc_remove_cursor_image(scp); if (flags & CONS_RESET_CURSOR) scp->base_curs_attr = scp->dflt_curs_attr; else if (flags & CONS_DEFAULT_CURSOR) { sc_adjust_ca(&scp->dflt_curs_attr, flags, base, height); scp->base_curs_attr = scp->dflt_curs_attr; } else sc_adjust_ca(&scp->base_curs_attr, flags, base, height); if ((scp == scp->sc->cur_scp) && !ISGRAPHSC(scp)) { sc_set_cursor_image(scp); sc_draw_cursor_image(scp); } } void sc_change_cursor_shape(scr_stat *scp, int flags, int base, int height) { sc_softc_t *sc; struct tty *tp; int s; int i; if (flags == -1) flags = CONS_SHAPEONLY_CURSOR; s = spltty(); if (flags & CONS_LOCAL_CURSOR) { /* local (per vty) change */ change_cursor_shape(scp, flags, base, height); splx(s); return; } /* global change */ sc = scp->sc; if (flags & CONS_RESET_CURSOR) sc->curs_attr = sc->dflt_curs_attr; else if (flags & CONS_DEFAULT_CURSOR) { sc_adjust_ca(&sc->dflt_curs_attr, flags, base, height); sc->curs_attr = sc->dflt_curs_attr; } else sc_adjust_ca(&sc->curs_attr, flags, base, height); for (i = sc->first_vty; i < sc->first_vty + sc->vtys; ++i) { if ((tp = SC_DEV(sc, i)) == NULL) continue; if ((scp = sc_get_stat(tp)) == NULL) continue; scp->dflt_curs_attr = sc->curs_attr; change_cursor_shape(scp, CONS_RESET_CURSOR, -1, -1); } splx(s); } static void scinit(int unit, int flags) { /* * When syscons is being initialized as the kernel console, malloc() * is not yet functional, because various kernel structures has not been * fully initialized yet. Therefore, we need to declare the following * static buffers for the console. This is less than ideal, * but is necessry evil for the time being. XXX */ static u_short sc_buffer[ROW * COL]; /* XXX */ #ifndef SC_NO_FONT_LOADING static u_char font_8[256 * 8]; static u_char font_14[256 * 14]; static u_char font_16[256 * 16]; #endif #ifdef SC_KERNEL_CONS_ATTRS static const u_char dflt_kattrtab[] = SC_KERNEL_CONS_ATTRS; #elif SC_KERNEL_CONS_ATTR == FG_WHITE static const u_char dflt_kattrtab[] = { FG_WHITE, FG_YELLOW, FG_LIGHTMAGENTA, FG_LIGHTRED, FG_LIGHTCYAN, FG_LIGHTGREEN, FG_LIGHTBLUE, FG_GREEN, 0, }; #else static const u_char dflt_kattrtab[] = { FG_WHITE, 0, }; #endif sc_softc_t *sc; scr_stat *scp; video_adapter_t *adp; int col; int kbdidx; int row; int i; /* one time initialization */ if (init_done == COLD) { sc_get_bios_values(&bios_value); for (i = 0; i < nitems(sc_kattrtab); i++) sc_kattrtab[i] = dflt_kattrtab[i % (nitems(dflt_kattrtab) - 1)]; } init_done = WARM; /* * Allocate resources. Even if we are being called for the second * time, we must allocate them again, because they might have * disappeared... */ sc = sc_get_softc(unit, flags & SC_KERNEL_CONSOLE); if ((sc->flags & SC_INIT_DONE) == 0) SC_VIDEO_LOCKINIT(sc); adp = NULL; if (sc->adapter >= 0) { vid_release(sc->adp, (void *)&sc->adapter); adp = sc->adp; sc->adp = NULL; } if (sc->kbd != NULL) { DPRINTF(5, ("sc%d: releasing kbd%d\n", unit, sc->kbd->kb_index)); i = kbd_release(sc->kbd, (void *)&sc->kbd); DPRINTF(5, ("sc%d: kbd_release returned %d\n", unit, i)); if (sc->kbd != NULL) { DPRINTF(5, ("sc%d: kbd != NULL!, index:%d, unit:%d, flags:0x%x\n", unit, sc->kbd->kb_index, sc->kbd->kb_unit, sc->kbd->kb_flags)); } sc->kbd = NULL; } sc->adapter = vid_allocate("*", unit, (void *)&sc->adapter); sc->adp = vid_get_adapter(sc->adapter); /* assert((sc->adapter >= 0) && (sc->adp != NULL)) */ kbdidx = sc_allocate_keyboard(sc, unit); DPRINTF(1, ("sc%d: keyboard %d\n", unit, kbdidx)); sc->kbd = kbd_get_keyboard(kbdidx); if (sc->kbd != NULL) { DPRINTF(1, ("sc%d: kbd index:%d, unit:%d, flags:0x%x\n", unit, sc->kbd->kb_index, sc->kbd->kb_unit, sc->kbd->kb_flags)); } if (!(sc->flags & SC_INIT_DONE) || (adp != sc->adp)) { sc->initial_mode = sc->adp->va_initial_mode; #ifndef SC_NO_FONT_LOADING if (flags & SC_KERNEL_CONSOLE) { sc->font_8 = font_8; sc->font_14 = font_14; sc->font_16 = font_16; } else if (sc->font_8 == NULL) { /* assert(sc_malloc) */ sc->font_8 = malloc(sizeof(font_8), M_DEVBUF, M_WAITOK); sc->font_14 = malloc(sizeof(font_14), M_DEVBUF, M_WAITOK); sc->font_16 = malloc(sizeof(font_16), M_DEVBUF, M_WAITOK); } #endif /* extract the hardware cursor location and hide the cursor for * now */ vidd_read_hw_cursor(sc->adp, &col, &row); vidd_set_hw_cursor(sc->adp, -1, -1); /* set up the first console */ sc->first_vty = unit * MAXCONS; sc->vtys = MAXCONS; /* XXX: should be configurable */ if (flags & SC_KERNEL_CONSOLE) { /* * Set up devs structure but don't use it yet, calling * make_dev() might panic kernel. Wait for * sc_attach_unit() to actually create the devices. */ sc->dev = main_devs; scp = &main_console; init_scp(sc, sc->first_vty, scp); sc_vtb_init(&scp->vtb, VTB_MEMORY, scp->xsize, scp->ysize, (void *)sc_buffer, FALSE); if (sc_init_emulator(scp, SC_DFLT_TERM)) sc_init_emulator(scp, "*"); (*scp->tsw->te_default_attr)( scp, SC_KERNEL_CONS_ATTR, SC_KERNEL_CONS_REV_ATTR); } else { /* assert(sc_malloc) */ sc->dev = malloc(sizeof(struct tty *) * sc->vtys, M_DEVBUF, M_WAITOK | M_ZERO); sc->dev[0] = sc_alloc_tty(0, unit * MAXCONS); scp = alloc_scp(sc, sc->first_vty); SC_STAT(sc->dev[0]) = scp; } sc->cur_scp = scp; /* copy screen to temporary buffer */ sc_vtb_init(&scp->scr, VTB_FRAMEBUFFER, scp->xsize, scp->ysize, (void *)scp->sc->adp->va_window, FALSE); if (ISTEXTSC(scp)) sc_vtb_copy(&scp->scr, 0, &scp->vtb, 0, scp->xsize * scp->ysize); /* Sync h/w cursor position to s/w (sc and teken). */ if (col >= scp->xsize) col = 0; if (row >= scp->ysize) row = scp->ysize - 1; scp->xpos = col; scp->ypos = row; scp->cursor_pos = scp->cursor_oldpos = row * scp->xsize + col; (*scp->tsw->te_sync)(scp); sc->dflt_curs_attr.base = 0; sc->dflt_curs_attr.height = howmany(scp->font_size, 8); sc->dflt_curs_attr.flags = 0; sc->dflt_curs_attr.bg[0] = FG_RED; sc->dflt_curs_attr.bg[1] = FG_LIGHTGREY; sc->dflt_curs_attr.bg[2] = FG_BLUE; sc->dflt_curs_attr.mouse_ba = FG_WHITE; sc->dflt_curs_attr.mouse_ia = FG_RED; sc->curs_attr = sc->dflt_curs_attr; scp->base_curs_attr = scp->dflt_curs_attr = sc->curs_attr; scp->curs_attr = scp->base_curs_attr; #ifndef SC_NO_SYSMOUSE sc_mouse_move(scp, scp->xpixel / 2, scp->ypixel / 2); #endif if (!ISGRAPHSC(scp)) { sc_set_cursor_image(scp); sc_draw_cursor_image(scp); } /* save font and palette */ #ifndef SC_NO_FONT_LOADING sc->fonts_loaded = 0; if (ISFONTAVAIL(sc->adp->va_flags)) { #ifdef SC_DFLT_FONT bcopy(dflt_font_8, sc->font_8, sizeof(dflt_font_8)); bcopy(dflt_font_14, sc->font_14, sizeof(dflt_font_14)); bcopy(dflt_font_16, sc->font_16, sizeof(dflt_font_16)); sc->fonts_loaded = FONT_16 | FONT_14 | FONT_8; if (scp->font_size < 14) { sc_load_font(scp, 0, 8, 8, sc->font_8, 0, 256); } else if (scp->font_size >= 16) { sc_load_font( scp, 0, 16, 8, sc->font_16, 0, 256); } else { sc_load_font( scp, 0, 14, 8, sc->font_14, 0, 256); } #else /* !SC_DFLT_FONT */ if (scp->font_size < 14) { sc_save_font(scp, 0, 8, 8, sc->font_8, 0, 256); sc->fonts_loaded = FONT_8; } else if (scp->font_size >= 16) { sc_save_font( scp, 0, 16, 8, sc->font_16, 0, 256); sc->fonts_loaded = FONT_16; } else { sc_save_font( scp, 0, 14, 8, sc->font_14, 0, 256); sc->fonts_loaded = FONT_14; } #endif /* SC_DFLT_FONT */ /* FONT KLUDGE: always use the font page #0. XXX */ sc_show_font(scp, 0); } #endif /* !SC_NO_FONT_LOADING */ #ifndef SC_NO_PALETTE_LOADING vidd_save_palette(sc->adp, sc->palette); #ifdef SC_PIXEL_MODE for (i = 0; i < sizeof(sc->palette2); i++) sc->palette2[i] = i / 3; #endif #endif #ifdef DEV_SPLASH if (!(sc->flags & SC_SPLASH_SCRN)) { /* we are ready to put up the splash image! */ splash_init(sc->adp, scsplash_callback, sc); sc->flags |= SC_SPLASH_SCRN; } #endif } /* the rest is not necessary, if we have done it once */ if (sc->flags & SC_INIT_DONE) return; /* initialize mapscrn arrays to a one to one map */ for (i = 0; i < sizeof(sc->scr_map); i++) sc->scr_map[i] = sc->scr_rmap[i] = i; sc->flags |= SC_INIT_DONE; } static void scterm(int unit, int flags) { sc_softc_t *sc; scr_stat *scp; sc = sc_get_softc(unit, flags & SC_KERNEL_CONSOLE); if (sc == NULL) return; /* shouldn't happen */ #ifdef DEV_SPLASH /* this console is no longer available for the splash screen */ if (sc->flags & SC_SPLASH_SCRN) { splash_term(sc->adp); sc->flags &= ~SC_SPLASH_SCRN; } #endif #if 0 /* XXX */ /* move the hardware cursor to the upper-left corner */ vidd_set_hw_cursor(sc->adp, 0, 0); #endif /* release the keyboard and the video card */ if (sc->kbd != NULL) kbd_release(sc->kbd, &sc->kbd); if (sc->adapter >= 0) vid_release(sc->adp, &sc->adapter); /* stop the terminal emulator, if any */ scp = sc_get_stat(sc->dev[0]); if (scp->tsw) (*scp->tsw->te_term)(scp, &scp->ts); mtx_destroy(&sc->video_mtx); /* clear the structure */ if (!(flags & SC_KERNEL_CONSOLE)) { free(scp->ts, M_DEVBUF); /* XXX: We need delete_dev() for this */ free(sc->dev, M_DEVBUF); #if 0 /* XXX: We need a ttyunregister for this */ free(sc->tty, M_DEVBUF); #endif #ifndef SC_NO_FONT_LOADING free(sc->font_8, M_DEVBUF); free(sc->font_14, M_DEVBUF); free(sc->font_16, M_DEVBUF); #endif /* XXX vtb, history */ } bzero(sc, sizeof(*sc)); sc->adapter = -1; } static void scshutdown(__unused void *arg, __unused int howto) { KASSERT(sc_console != NULL, ("sc_console != NULL")); KASSERT(sc_console->sc != NULL, ("sc_console->sc != NULL")); KASSERT(sc_console->sc->cur_scp != NULL, ("sc_console->sc->cur_scp != NULL")); sc_touch_scrn_saver(); if (!cold && sc_console->sc->cur_scp->index != sc_console->index && sc_console->sc->cur_scp->smode.mode == VT_AUTO && sc_console->smode.mode == VT_AUTO) sc_switch_scr(sc_console->sc, sc_console->index); shutdown_in_progress = TRUE; } static void scsuspend(__unused void *arg) { int retry; KASSERT(sc_console != NULL, ("sc_console != NULL")); KASSERT(sc_console->sc != NULL, ("sc_console->sc != NULL")); KASSERT(sc_console->sc->cur_scp != NULL, ("sc_console->sc->cur_scp != NULL")); sc_susp_scr = sc_console->sc->cur_scp->index; if (sc_no_suspend_vtswitch || sc_susp_scr == sc_console->index) { sc_touch_scrn_saver(); sc_susp_scr = -1; return; } for (retry = 0; retry < 10; retry++) { sc_switch_scr(sc_console->sc, sc_console->index); if (!sc_console->sc->switch_in_progress) break; pause("scsuspend", hz); } suspend_in_progress = TRUE; } static void scresume(__unused void *arg) { KASSERT(sc_console != NULL, ("sc_console != NULL")); KASSERT(sc_console->sc != NULL, ("sc_console->sc != NULL")); KASSERT(sc_console->sc->cur_scp != NULL, ("sc_console->sc->cur_scp != NULL")); suspend_in_progress = FALSE; if (sc_susp_scr < 0) { update_font(sc_console->sc->cur_scp); return; } sc_switch_scr(sc_console->sc, sc_susp_scr); } int sc_clean_up(scr_stat *scp) { #ifdef DEV_SPLASH int error; #endif if (scp->sc->flags & SC_SCRN_BLANKED) { sc_touch_scrn_saver(); #ifdef DEV_SPLASH if ((error = wait_scrn_saver_stop(scp->sc))) return error; #endif } scp->status |= MOUSE_HIDDEN; sc_remove_mouse_image(scp); sc_remove_cutmarking(scp); return 0; } void sc_alloc_scr_buffer(scr_stat *scp, int wait, int discard) { sc_vtb_t new; sc_vtb_t old; old = scp->vtb; sc_vtb_init(&new, VTB_MEMORY, scp->xsize, scp->ysize, NULL, wait); if (!discard && (old.vtb_flags & VTB_VALID)) { /* retain the current cursor position and buffer contants */ scp->cursor_oldpos = scp->cursor_pos; /* * This works only if the old buffer has the same size as or * larger than the new one. XXX */ sc_vtb_copy(&old, 0, &new, 0, scp->xsize * scp->ysize); scp->vtb = new; } else { scp->vtb = new; sc_vtb_destroy(&old); } #ifndef SC_NO_SYSMOUSE /* move the mouse cursor at the center of the screen */ sc_mouse_move(scp, scp->xpixel / 2, scp->ypixel / 2); #endif } static scr_stat * alloc_scp(sc_softc_t *sc, int vty) { scr_stat *scp; /* assert(sc_malloc) */ scp = (scr_stat *)malloc(sizeof(scr_stat), M_DEVBUF, M_WAITOK); init_scp(sc, vty, scp); sc_alloc_scr_buffer(scp, TRUE, TRUE); if (sc_init_emulator(scp, SC_DFLT_TERM)) sc_init_emulator(scp, "*"); #ifndef SC_NO_CUTPASTE sc_alloc_cut_buffer(scp, TRUE); #endif #ifndef SC_NO_HISTORY sc_alloc_history_buffer(scp, 0, 0, TRUE); #endif return scp; } static void init_scp(sc_softc_t *sc, int vty, scr_stat *scp) { video_info_t info; bzero(scp, sizeof(*scp)); scp->index = vty; scp->sc = sc; scp->status = 0; scp->mode = sc->initial_mode; vidd_get_info(sc->adp, scp->mode, &info); if (info.vi_flags & V_INFO_GRAPHICS) { scp->status |= GRAPHICS_MODE; scp->xpixel = info.vi_width; scp->ypixel = info.vi_height; scp->xsize = info.vi_width / info.vi_cwidth; scp->ysize = info.vi_height / info.vi_cheight; scp->font_size = 0; scp->font = NULL; } else { scp->xsize = info.vi_width; scp->ysize = info.vi_height; scp->xpixel = scp->xsize * info.vi_cwidth; scp->ypixel = scp->ysize * info.vi_cheight; } scp->font_size = info.vi_cheight; scp->font_width = info.vi_cwidth; #ifndef SC_NO_FONT_LOADING if (info.vi_cheight < 14) scp->font = sc->font_8; else if (info.vi_cheight >= 16) scp->font = sc->font_16; else scp->font = sc->font_14; #else scp->font = NULL; #endif sc_vtb_init(&scp->vtb, VTB_MEMORY, 0, 0, NULL, FALSE); sc_vtb_init(&scp->scr, VTB_FRAMEBUFFER, 0, 0, NULL, FALSE); scp->xoff = scp->yoff = 0; scp->xpos = scp->ypos = 0; scp->start = scp->xsize * scp->ysize - 1; scp->end = 0; scp->tsw = NULL; scp->ts = NULL; scp->rndr = NULL; scp->border = (SC_NORM_ATTR >> 4) & 0x0f; scp->base_curs_attr = scp->dflt_curs_attr = sc->curs_attr; scp->mouse_cut_start = scp->xsize * scp->ysize; scp->mouse_cut_end = -1; scp->mouse_signal = 0; scp->mouse_pid = 0; scp->mouse_proc = NULL; scp->kbd_mode = K_XLATE; scp->bell_pitch = bios_value.bell_pitch; scp->bell_duration = BELL_DURATION; scp->status |= (bios_value.shift_state & NLKED); scp->status |= CURSOR_ENABLED | MOUSE_HIDDEN; scp->pid = 0; scp->proc = NULL; scp->smode.mode = VT_AUTO; scp->history = NULL; scp->history_pos = 0; scp->history_size = 0; } int sc_init_emulator(scr_stat *scp, char *name) { sc_term_sw_t *sw; sc_rndr_sw_t *rndr; void *p; int error; if (name == NULL) /* if no name is given, use the current emulator */ sw = scp->tsw; else /* ...otherwise find the named emulator */ sw = sc_term_match(name); if (sw == NULL) return EINVAL; rndr = NULL; if (strcmp(sw->te_renderer, "*") != 0) { rndr = sc_render_match(scp, sw->te_renderer, scp->status & (GRAPHICS_MODE | PIXEL_MODE)); } if (rndr == NULL) { rndr = sc_render_match(scp, scp->sc->adp->va_name, scp->status & (GRAPHICS_MODE | PIXEL_MODE)); if (rndr == NULL) return ENODEV; } if (sw == scp->tsw) { error = (*sw->te_init)(scp, &scp->ts, SC_TE_WARM_INIT); scp->rndr = rndr; scp->rndr->init(scp); sc_clear_screen(scp); /* assert(error == 0); */ return error; } if (sc_malloc && (sw->te_size > 0)) p = malloc(sw->te_size, M_DEVBUF, M_NOWAIT); else p = NULL; error = (*sw->te_init)(scp, &p, SC_TE_COLD_INIT); if (error) return error; if (scp->tsw) (*scp->tsw->te_term)(scp, &scp->ts); if (scp->ts != NULL) free(scp->ts, M_DEVBUF); scp->tsw = sw; scp->ts = p; scp->rndr = rndr; scp->rndr->init(scp); (*sw->te_default_attr)(scp, SC_NORM_ATTR, SC_NORM_REV_ATTR); sc_clear_screen(scp); return 0; } /* * scgetc(flags) - get character from keyboard. * If flags & SCGETC_CN, then avoid harmful side effects. * If flags & SCGETC_NONBLOCK, then wait until a key is pressed, else * return NOKEY if there is nothing there. */ static u_int scgetc(sc_softc_t *sc, u_int flags, struct sc_cnstate *sp) { scr_stat *scp; #ifndef SC_NO_HISTORY struct tty *tp; #endif u_int c; int this_scr; int f; int i; if (sc->kbd == NULL) return NOKEY; next_code: #if 1 /* I don't like this, but... XXX */ if (flags & SCGETC_CN) sccnupdate(sc->cur_scp); #endif scp = sc->cur_scp; /* first see if there is something in the keyboard port */ for (;;) { if (flags & SCGETC_CN) sccnscrunlock(sc, sp); c = kbdd_read_char(sc->kbd, !(flags & SCGETC_NONBLOCK)); if (flags & SCGETC_CN) sccnscrlock(sc, sp); if (c == ERRKEY) { if (!(flags & SCGETC_CN)) sc_bell( scp, bios_value.bell_pitch, BELL_DURATION); } else if (c == NOKEY) return c; else break; } /* make screensaver happy */ if (!(c & RELKEY)) sc_touch_scrn_saver(); if (!(flags & SCGETC_CN)) random_harvest_queue(&c, sizeof(c), RANDOM_KEYBOARD); if (sc->kbd_open_level == 0 && scp->kbd_mode != K_XLATE) return KEYCHAR(c); /* if scroll-lock pressed allow history browsing */ if (!ISGRAPHSC(scp) && scp->history && scp->status & SLKED) { scp->status &= ~CURSOR_ENABLED; sc_remove_cursor_image(scp); #ifndef SC_NO_HISTORY if (!(scp->status & BUFFER_SAVED)) { scp->status |= BUFFER_SAVED; sc_hist_save(scp); } switch (c) { /* FIXME: key codes */ case SPCLKEY | FKEY | F(49): /* home key */ sc_remove_cutmarking(scp); sc_hist_home(scp); goto next_code; case SPCLKEY | FKEY | F(57): /* end key */ sc_remove_cutmarking(scp); sc_hist_end(scp); goto next_code; case SPCLKEY | FKEY | F(50): /* up arrow key */ sc_remove_cutmarking(scp); if (sc_hist_up_line(scp)) if (!(flags & SCGETC_CN)) sc_bell(scp, bios_value.bell_pitch, BELL_DURATION); goto next_code; case SPCLKEY | FKEY | F(58): /* down arrow key */ sc_remove_cutmarking(scp); if (sc_hist_down_line(scp)) if (!(flags & SCGETC_CN)) sc_bell(scp, bios_value.bell_pitch, BELL_DURATION); goto next_code; case SPCLKEY | FKEY | F(51): /* page up key */ sc_remove_cutmarking(scp); for (i = 0; i < scp->ysize; i++) if (sc_hist_up_line(scp)) { if (!(flags & SCGETC_CN)) sc_bell(scp, bios_value.bell_pitch, BELL_DURATION); break; } goto next_code; case SPCLKEY | FKEY | F(59): /* page down key */ sc_remove_cutmarking(scp); for (i = 0; i < scp->ysize; i++) if (sc_hist_down_line(scp)) { if (!(flags & SCGETC_CN)) sc_bell(scp, bios_value.bell_pitch, BELL_DURATION); break; } goto next_code; } #endif /* SC_NO_HISTORY */ } /* * Process and consume special keys here. Return a plain char code * or a char code with the META flag or a function key code. */ if (c & RELKEY) { /* key released */ /* goto next_code */ } else { /* key pressed */ if (c & SPCLKEY) { c &= ~SPCLKEY; switch (KEYCHAR(c)) { /* LOCKING KEYS */ case NLK: case CLK: case ALK: break; case SLK: (void)kbdd_ioctl( sc->kbd, KDGKBSTATE, (caddr_t)&f); if (f & SLKED) { scp->status |= SLKED; } else { if (scp->status & SLKED) { scp->status &= ~SLKED; #ifndef SC_NO_HISTORY if (scp->status & BUFFER_SAVED) { if (!sc_hist_restore( scp)) sc_remove_cutmarking( scp); scp->status &= ~BUFFER_SAVED; scp->status |= CURSOR_ENABLED; sc_draw_cursor_image( scp); } /* Only safe in Giant-locked * context. */ tp = SC_DEV(sc, scp->index); if (!(flags & SCGETC_CN) && tty_opened_ns(tp)) sctty_outwakeup(tp); #endif } } break; case PASTE: #ifndef SC_NO_CUTPASTE sc_mouse_paste(scp); #endif break; /* NON-LOCKING KEYS */ case NOP: case LSH: case RSH: case LCTR: case RCTR: case LALT: case RALT: case ASH: case META: break; case BTAB: if (!(sc->flags & SC_SCRN_BLANKED)) return c; break; case SPSC: #ifdef DEV_SPLASH /* force activatation/deactivation of the screen * saver */ if (!(sc->flags & SC_SCRN_BLANKED)) { run_scrn_saver = TRUE; sc->scrn_time_stamp -= scrn_blank_time; } if (cold) { /* * While devices are being probed, the * screen saver need to be invoked * explicitly. XXX */ if (sc->flags & SC_SCRN_BLANKED) { scsplash_stick(FALSE); stop_scrn_saver( sc, current_saver); } else { if (!ISGRAPHSC(scp)) { scsplash_stick(TRUE); (*current_saver)( sc, TRUE); } } } #endif /* DEV_SPLASH */ break; case RBT: #ifndef SC_DISABLE_REBOOT if (enable_reboot && !(flags & SCGETC_CN)) shutdown_nice(0); #endif break; case HALT: #ifndef SC_DISABLE_REBOOT if (enable_reboot && !(flags & SCGETC_CN)) shutdown_nice(RB_HALT); #endif break; case PDWN: #ifndef SC_DISABLE_REBOOT if (enable_reboot && !(flags & SCGETC_CN)) shutdown_nice(RB_HALT | RB_POWEROFF); #endif break; case SUSP: power_pm_suspend(POWER_SLEEP_STATE_SUSPEND); break; case STBY: power_pm_suspend(POWER_SLEEP_STATE_STANDBY); break; case DBG: #ifndef SC_DISABLE_KDBKEY if (enable_kdbkey) kdb_break(); #endif break; case PNC: if (enable_panic_key) panic("Forced by the panic key"); break; case NEXT: this_scr = scp->index; for (i = (this_scr - sc->first_vty + 1) % sc->vtys; sc->first_vty + i != this_scr; i = (i + 1) % sc->vtys) { struct tty *tp = SC_DEV(sc, sc->first_vty + i); if (tty_opened_ns(tp)) { sc_switch_scr( scp->sc, sc->first_vty + i); break; } } break; case PREV: this_scr = scp->index; for (i = (this_scr - sc->first_vty + sc->vtys - 1) % sc->vtys; sc->first_vty + i != this_scr; i = (i + sc->vtys - 1) % sc->vtys) { struct tty *tp = SC_DEV(sc, sc->first_vty + i); if (tty_opened_ns(tp)) { sc_switch_scr( scp->sc, sc->first_vty + i); break; } } break; default: if (KEYCHAR(c) >= F_SCR && KEYCHAR(c) <= L_SCR) { sc_switch_scr(scp->sc, sc->first_vty + KEYCHAR(c) - F_SCR); break; } /* assert(c & FKEY) */ if (!(sc->flags & SC_SCRN_BLANKED)) return c; break; } /* goto next_code */ } else { /* regular keys (maybe MKEY is set) */ #if !defined(SC_DISABLE_KDBKEY) && defined(KDB) if (enable_kdbkey) kdb_alt_break(c, &sc->sc_altbrk); #endif if (!(sc->flags & SC_SCRN_BLANKED)) return c; } } goto next_code; } static int sctty_mmap(struct tty *tp, vm_ooffset_t offset, vm_paddr_t *paddr, int nprot, vm_memattr_t *memattr) { scr_stat *scp; scp = sc_get_stat(tp); if (scp != scp->sc->cur_scp) return -1; return vidd_mmap(scp->sc->adp, offset, paddr, nprot, memattr); } static void update_font(scr_stat *scp) { #ifndef SC_NO_FONT_LOADING /* load appropriate font */ if (!(scp->status & GRAPHICS_MODE)) { if (!(scp->status & PIXEL_MODE) && ISFONTAVAIL(scp->sc->adp->va_flags)) { if (scp->font_size < 14) { if (scp->sc->fonts_loaded & FONT_8) sc_load_font(scp, 0, 8, 8, scp->sc->font_8, 0, 256); } else if (scp->font_size >= 16) { if (scp->sc->fonts_loaded & FONT_16) sc_load_font(scp, 0, 16, 8, scp->sc->font_16, 0, 256); } else { if (scp->sc->fonts_loaded & FONT_14) sc_load_font(scp, 0, 14, 8, scp->sc->font_14, 0, 256); } /* * FONT KLUDGE: * This is an interim kludge to display correct font. * Always use the font page #0 on the video plane 2. * Somehow we cannot show the font in other font pages * on some video cards... XXX */ sc_show_font(scp, 0); } mark_all(scp); } #endif /* !SC_NO_FONT_LOADING */ } static int save_kbd_state(scr_stat *scp) { int state; int error; error = kbdd_ioctl(scp->sc->kbd, KDGKBSTATE, (caddr_t)&state); if (error == ENOIOCTL) error = ENODEV; if (error == 0) { scp->status &= ~LOCK_MASK; scp->status |= state; } return error; } static int update_kbd_state(scr_stat *scp, int new_bits, int mask) { int state; int error; if (mask != LOCK_MASK) { error = kbdd_ioctl(scp->sc->kbd, KDGKBSTATE, (caddr_t)&state); if (error == ENOIOCTL) error = ENODEV; if (error) return error; state &= ~mask; state |= new_bits & mask; } else { state = new_bits & LOCK_MASK; } error = kbdd_ioctl(scp->sc->kbd, KDSKBSTATE, (caddr_t)&state); if (error == ENOIOCTL) error = ENODEV; return error; } static int update_kbd_leds(scr_stat *scp, int which) { int error; which &= LOCK_MASK; error = kbdd_ioctl(scp->sc->kbd, KDSETLED, (caddr_t)&which); if (error == ENOIOCTL) error = ENODEV; return error; } int set_mode(scr_stat *scp) { video_info_t info; /* reject unsupported mode */ if (vidd_get_info(scp->sc->adp, scp->mode, &info)) return 1; /* if this vty is not currently showing, do nothing */ if (scp != scp->sc->cur_scp) return 0; /* setup video hardware for the given mode */ vidd_set_mode(scp->sc->adp, scp->mode); scp->rndr->init(scp); sc_vtb_init(&scp->scr, VTB_FRAMEBUFFER, scp->xsize, scp->ysize, (void *)scp->sc->adp->va_window, FALSE); update_font(scp); sc_set_border(scp, scp->border); sc_set_cursor_image(scp); return 0; } void sc_set_border(scr_stat *scp, int color) { SC_VIDEO_LOCK(scp->sc); (*scp->rndr->draw_border)(scp, color); SC_VIDEO_UNLOCK(scp->sc); } #ifndef SC_NO_FONT_LOADING void sc_load_font(scr_stat *scp, int page, int size, int width, u_char *buf, int base, int count) { sc_softc_t *sc; sc = scp->sc; sc->font_loading_in_progress = TRUE; vidd_load_font(sc->adp, page, size, width, buf, base, count); sc->font_loading_in_progress = FALSE; } void sc_save_font(scr_stat *scp, int page, int size, int width, u_char *buf, int base, int count) { sc_softc_t *sc; sc = scp->sc; sc->font_loading_in_progress = TRUE; vidd_save_font(sc->adp, page, size, width, buf, base, count); sc->font_loading_in_progress = FALSE; } void sc_show_font(scr_stat *scp, int page) { vidd_show_font(scp->sc->adp, page); } #endif /* !SC_NO_FONT_LOADING */ void sc_paste(scr_stat *scp, const u_char *p, int count) { struct tty *tp; u_char *rmap; tp = SC_DEV(scp->sc, scp->sc->cur_scp->index); if (!tty_opened_ns(tp)) return; rmap = scp->sc->scr_rmap; for (; count > 0; --count) ttydisc_rint(tp, rmap[*p++], 0); ttydisc_rint_done(tp); } void sc_respond(scr_stat *scp, const u_char *p, int count, int wakeup) { struct tty *tp; tp = SC_DEV(scp->sc, scp->sc->cur_scp->index); if (!tty_opened_ns(tp)) return; ttydisc_rint_simple(tp, p, count); if (wakeup) { /* XXX: we can't always call ttydisc_rint_done() here! */ ttydisc_rint_done(tp); } } /* * pitch is the divisor for 1.193182MHz PIT clock. By dividing 1193172 / pitch, * we convert it back to Hz. * duration is in ticks of 1/hz. */ void sc_bell(scr_stat *scp, int pitch, int duration) { if (cold || kdb_active || shutdown_in_progress || !enable_bell) return; if (scp != scp->sc->cur_scp && (scp->sc->flags & SC_QUIET_BELL)) return; if (scp->sc->flags & SC_VISUAL_BELL) { if (scp->sc->blink_in_progress) return; scp->sc->blink_in_progress = 3; if (scp != scp->sc->cur_scp) scp->sc->blink_in_progress += 2; blink_screen(scp->sc->cur_scp); } else if (duration != 0 && pitch != 0) { if (scp != scp->sc->cur_scp) pitch *= 2; sysbeep(1193182 / pitch, SBT_1S * duration / hz); } } static int sc_kattr(void) { if (sc_console == NULL) return (SC_KERNEL_CONS_ATTR); /* for very early, before pcpu */ return (sc_kattrtab[curcpu % nitems(sc_kattrtab)]); } static void blink_screen(void *arg) { scr_stat *scp = arg; struct tty *tp; if (ISGRAPHSC(scp) || (scp->sc->blink_in_progress <= 1)) { scp->sc->blink_in_progress = 0; mark_all(scp); tp = SC_DEV(scp->sc, scp->index); if (tty_opened_ns(tp)) sctty_outwakeup(tp); if (scp->sc->delayed_next_scr) sc_switch_scr(scp->sc, scp->sc->delayed_next_scr - 1); } else { (*scp->rndr->draw)(scp, 0, scp->xsize * scp->ysize, scp->sc->blink_in_progress & 1); scp->sc->blink_in_progress--; callout_reset_sbt(&scp->sc->cblink, SBT_1S / 15, 0, blink_screen, scp, C_PREL(0)); } } /* * Until sc_attach_unit() gets called no dev structures will be available * to store the per-screen current status. This is the case when the * kernel is initially booting and needs access to its console. During * this early phase of booting the console's current status is kept in * one statically defined scr_stat structure, and any pointers to the * dev structures will be NULL. */ static scr_stat * sc_get_stat(struct tty *tp) { if (tp == NULL) return (&main_console); return (SC_STAT(tp)); } /* * Allocate active keyboard. Try to allocate "kbdmux" keyboard first, and, * if found, add all non-busy keyboards to "kbdmux". Otherwise look for * any keyboard. */ static int sc_allocate_keyboard(sc_softc_t *sc, int unit) { int idx0, idx; keyboard_t *k0, *k; keyboard_info_t ki; idx0 = kbd_allocate("kbdmux", -1, (void *)&sc->kbd, sckbdevent, sc); if (idx0 != -1) { k0 = kbd_get_keyboard(idx0); for (idx = kbd_find_keyboard2("*", -1, 0); idx != -1; idx = kbd_find_keyboard2("*", -1, idx + 1)) { k = kbd_get_keyboard(idx); if (idx == idx0 || KBD_IS_BUSY(k)) continue; bzero(&ki, sizeof(ki)); strcpy(ki.kb_name, k->kb_name); ki.kb_unit = k->kb_unit; (void)kbdd_ioctl(k0, KBADDKBD, (caddr_t)&ki); } } else idx0 = kbd_allocate( "*", unit, (void *)&sc->kbd, sckbdevent, sc); return (idx0); }