1 /*- 2 * SPDX-License-Identifier: BSD-2-Clause 3 * 4 * Copyright (c) 2009, 2013 The FreeBSD Foundation 5 * 6 * This software was developed by Ed Schouten under sponsorship from the 7 * FreeBSD Foundation. 8 * 9 * Portions of this software were developed by Oleksandr Rybalko 10 * under sponsorship from the FreeBSD Foundation. 11 * 12 * Redistribution and use in source and binary forms, with or without 13 * modification, are permitted provided that the following conditions 14 * are met: 15 * 1. Redistributions of source code must retain the above copyright 16 * notice, this list of conditions and the following disclaimer. 17 * 2. Redistributions in binary form must reproduce the above copyright 18 * notice, this list of conditions and the following disclaimer in the 19 * documentation and/or other materials provided with the distribution. 20 * 21 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 22 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 23 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 24 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 25 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 26 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 27 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 28 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 29 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 30 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 * SUCH DAMAGE. 32 */ 33 34 #include <sys/param.h> 35 #include <sys/consio.h> 36 #include <sys/devctl.h> 37 #include <sys/eventhandler.h> 38 #include <sys/fbio.h> 39 #include <sys/font.h> 40 #include <sys/kbio.h> 41 #include <sys/kdb.h> 42 #include <sys/kernel.h> 43 #include <sys/linker.h> 44 #include <sys/lock.h> 45 #include <sys/malloc.h> 46 #include <sys/mutex.h> 47 #include <sys/splash.h> 48 #include <sys/power.h> 49 #include <sys/priv.h> 50 #include <sys/proc.h> 51 #include <sys/random.h> 52 #include <sys/reboot.h> 53 #include <sys/sbuf.h> 54 #include <sys/systm.h> 55 #include <sys/terminal.h> 56 57 #include <dev/kbd/kbdreg.h> 58 #include <dev/vt/vt.h> 59 60 #if defined(__i386__) || defined(__amd64__) 61 #include <machine/psl.h> 62 #include <machine/frame.h> 63 #endif 64 65 static int vtterm_cngrab_noswitch(struct vt_device *, struct vt_window *); 66 static int vtterm_cnungrab_noswitch(struct vt_device *, struct vt_window *); 67 68 static tc_bell_t vtterm_bell; 69 static tc_cursor_t vtterm_cursor; 70 static tc_putchar_t vtterm_putchar; 71 static tc_fill_t vtterm_fill; 72 static tc_copy_t vtterm_copy; 73 static tc_pre_input_t vtterm_pre_input; 74 static tc_post_input_t vtterm_post_input; 75 static tc_param_t vtterm_param; 76 static tc_done_t vtterm_done; 77 78 static tc_cnprobe_t vtterm_cnprobe; 79 static tc_cngetc_t vtterm_cngetc; 80 81 static tc_cngrab_t vtterm_cngrab; 82 static tc_cnungrab_t vtterm_cnungrab; 83 84 static tc_opened_t vtterm_opened; 85 static tc_ioctl_t vtterm_ioctl; 86 static tc_mmap_t vtterm_mmap; 87 88 static const struct terminal_class vt_termclass = { 89 .tc_bell = vtterm_bell, 90 .tc_cursor = vtterm_cursor, 91 .tc_putchar = vtterm_putchar, 92 .tc_fill = vtterm_fill, 93 .tc_copy = vtterm_copy, 94 .tc_pre_input = vtterm_pre_input, 95 .tc_post_input = vtterm_post_input, 96 .tc_param = vtterm_param, 97 .tc_done = vtterm_done, 98 99 .tc_cnprobe = vtterm_cnprobe, 100 .tc_cngetc = vtterm_cngetc, 101 102 .tc_cngrab = vtterm_cngrab, 103 .tc_cnungrab = vtterm_cnungrab, 104 105 .tc_opened = vtterm_opened, 106 .tc_ioctl = vtterm_ioctl, 107 .tc_mmap = vtterm_mmap, 108 }; 109 110 /* 111 * Use a constant timer of 25 Hz to redraw the screen. 112 * 113 * XXX: In theory we should only fire up the timer when there is really 114 * activity. Unfortunately we cannot always start timers. We really 115 * don't want to process kernel messages synchronously, because it 116 * really slows down the system. 117 */ 118 #define VT_TIMERFREQ 25 119 120 /* Bell pitch/duration. */ 121 #define VT_BELLDURATION (SBT_1S / 20) 122 #define VT_BELLPITCH 800 123 124 #define VT_UNIT(vw) ((vw)->vw_device->vd_unit * VT_MAXWINDOWS + \ 125 (vw)->vw_number) 126 127 static SYSCTL_NODE(_kern, OID_AUTO, vt, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, 128 "vt(4) parameters"); 129 static VT_SYSCTL_INT(enable_altgr, 1, "Enable AltGr key (Do not assume R.Alt as Alt)"); 130 static VT_SYSCTL_INT(enable_bell, 0, "Enable bell"); 131 static VT_SYSCTL_INT(debug, 0, "vt(4) debug level"); 132 static VT_SYSCTL_INT(deadtimer, 15, "Time to wait busy process in VT_PROCESS mode"); 133 static VT_SYSCTL_INT(suspendswitch, 1, "Switch to VT0 before suspend"); 134 135 /* Slow down and dont rely on timers and interrupts */ 136 static VT_SYSCTL_INT(slow_down, 0, "Non-zero make console slower and synchronous."); 137 138 /* Allow to disable some keyboard combinations. */ 139 static VT_SYSCTL_INT(kbd_halt, 1, "Enable halt keyboard combination. " 140 "See kbdmap(5) to configure."); 141 static VT_SYSCTL_INT(kbd_poweroff, 1, "Enable Power Off keyboard combination. " 142 "See kbdmap(5) to configure."); 143 static VT_SYSCTL_INT(kbd_reboot, 1, "Enable reboot keyboard combination. " 144 "See kbdmap(5) to configure (typically Ctrl-Alt-Delete)."); 145 static VT_SYSCTL_INT(kbd_debug, 1, "Enable key combination to enter debugger. " 146 "See kbdmap(5) to configure (typically Ctrl-Alt-Esc)."); 147 static VT_SYSCTL_INT(kbd_panic, 0, "Enable request to panic. " 148 "See kbdmap(5) to configure."); 149 150 /* Used internally, not a tunable. */ 151 int vt_draw_logo_cpus; 152 VT_SYSCTL_INT(splash_cpu, 0, "Show logo CPUs during boot"); 153 VT_SYSCTL_INT(splash_ncpu, 0, "Override number of logos displayed " 154 "(0 = do not override)"); 155 VT_SYSCTL_INT(splash_cpu_style, 2, "Draw logo style " 156 "(0 = Alternate beastie, 1 = Beastie, 2 = Orb)"); 157 VT_SYSCTL_INT(splash_cpu_duration, 10, "Hide logos after (seconds)"); 158 159 static unsigned int vt_unit = 0; 160 static MALLOC_DEFINE(M_VT, "vt", "vt device"); 161 struct vt_device *main_vd = &vt_consdev; 162 163 /* Boot logo. */ 164 extern unsigned int vt_logo_width; 165 extern unsigned int vt_logo_height; 166 extern unsigned int vt_logo_depth; 167 extern unsigned char vt_logo_image[]; 168 #ifndef DEV_SPLASH 169 #define vtterm_draw_cpu_logos(...) do {} while (0) 170 const unsigned int vt_logo_sprite_height; 171 #endif 172 173 /* 174 * Console font. vt_font_loader will be filled with font data passed 175 * by loader. If there is no font passed by boot loader, we use built in 176 * default. 177 */ 178 extern struct vt_font vt_font_default; 179 static struct vt_font vt_font_loader; 180 static struct vt_font *vt_font_assigned = &vt_font_default; 181 182 #ifndef SC_NO_CUTPASTE 183 extern struct vt_mouse_cursor vt_default_mouse_pointer; 184 #endif 185 186 static int signal_vt_rel(struct vt_window *); 187 static int signal_vt_acq(struct vt_window *); 188 static int finish_vt_rel(struct vt_window *, int, int *); 189 static int finish_vt_acq(struct vt_window *); 190 static int vt_window_switch(struct vt_window *); 191 static int vt_late_window_switch(struct vt_window *); 192 static int vt_proc_alive(struct vt_window *); 193 static void vt_resize(struct vt_device *); 194 static void vt_update_static(void *); 195 #ifndef SC_NO_CUTPASTE 196 static void vt_mouse_paste(void); 197 #endif 198 static void vt_suspend_handler(void *priv, enum power_stype stype); 199 static void vt_resume_handler(void *priv, enum power_stype stype); 200 201 SET_DECLARE(vt_drv_set, struct vt_driver); 202 203 #define _VTDEFH MAX(100, PIXEL_HEIGHT(VT_FB_MAX_HEIGHT)) 204 #define _VTDEFW MAX(200, PIXEL_WIDTH(VT_FB_MAX_WIDTH)) 205 206 static struct terminal vt_consterm; 207 static struct vt_window vt_conswindow; 208 static term_char_t vt_consdrawn[PIXEL_HEIGHT(VT_FB_MAX_HEIGHT) * PIXEL_WIDTH(VT_FB_MAX_WIDTH)]; 209 static term_color_t vt_consdrawnfg[PIXEL_HEIGHT(VT_FB_MAX_HEIGHT) * PIXEL_WIDTH(VT_FB_MAX_WIDTH)]; 210 static term_color_t vt_consdrawnbg[PIXEL_HEIGHT(VT_FB_MAX_HEIGHT) * PIXEL_WIDTH(VT_FB_MAX_WIDTH)]; 211 static bool vt_cons_pos_to_flush[PIXEL_HEIGHT(VT_FB_MAX_HEIGHT) * PIXEL_WIDTH(VT_FB_MAX_WIDTH)]; 212 struct vt_device vt_consdev = { 213 .vd_driver = NULL, 214 .vd_softc = NULL, 215 .vd_prev_driver = NULL, 216 .vd_prev_softc = NULL, 217 .vd_flags = VDF_INVALID, 218 .vd_windows = { [VT_CONSWINDOW] = &vt_conswindow, }, 219 .vd_curwindow = &vt_conswindow, 220 .vd_kbstate = 0, 221 222 #ifndef SC_NO_CUTPASTE 223 .vd_pastebuf = { 224 .vpb_buf = NULL, 225 .vpb_bufsz = 0, 226 .vpb_len = 0 227 }, 228 .vd_mcursor = &vt_default_mouse_pointer, 229 .vd_mcursor_fg = TC_WHITE, 230 .vd_mcursor_bg = TC_BLACK, 231 #endif 232 233 .vd_drawn = vt_consdrawn, 234 .vd_drawnfg = vt_consdrawnfg, 235 .vd_drawnbg = vt_consdrawnbg, 236 237 .vd_pos_to_flush = vt_cons_pos_to_flush, 238 }; 239 static term_char_t vt_constextbuf[(_VTDEFW) * (VBF_DEFAULT_HISTORY_SIZE)]; 240 static term_char_t *vt_constextbufrows[VBF_DEFAULT_HISTORY_SIZE]; 241 static struct vt_window vt_conswindow = { 242 .vw_number = VT_CONSWINDOW, 243 .vw_flags = VWF_CONSOLE, 244 .vw_buf = { 245 .vb_buffer = &vt_constextbuf[0], 246 .vb_rows = &vt_constextbufrows[0], 247 .vb_history_size = VBF_DEFAULT_HISTORY_SIZE, 248 .vb_curroffset = 0, 249 .vb_roffset = 0, 250 .vb_flags = VBF_STATIC, 251 .vb_mark_start = {.tp_row = 0, .tp_col = 0,}, 252 .vb_mark_end = {.tp_row = 0, .tp_col = 0,}, 253 .vb_scr_size = { 254 .tp_row = _VTDEFH, 255 .tp_col = _VTDEFW, 256 }, 257 }, 258 .vw_device = &vt_consdev, 259 .vw_terminal = &vt_consterm, 260 .vw_kbdmode = K_XLATE, 261 .vw_grabbed = 0, 262 .vw_bell_pitch = VT_BELLPITCH, 263 .vw_bell_duration = VT_BELLDURATION, 264 }; 265 266 /* Add to set of consoles. */ 267 TERMINAL_DECLARE_EARLY(vt_consterm, vt_termclass, &vt_conswindow); 268 269 /* 270 * Right after kmem is done to allow early drivers to use locking and allocate 271 * memory. 272 */ 273 SYSINIT(vt_update_static, SI_SUB_KMEM, SI_ORDER_ANY, vt_update_static, 274 &vt_consdev); 275 /* Delay until all devices attached, to not waste time. */ 276 SYSINIT(vt_early_cons, SI_SUB_INT_CONFIG_HOOKS, SI_ORDER_ANY, vt_upgrade, 277 &vt_consdev); 278 279 static bool inside_vt_flush = false; 280 static bool inside_vt_window_switch = false; 281 282 /* Initialize locks/mem depended members. */ 283 static void 284 vt_update_static(void *dummy) 285 { 286 287 if (!vty_enabled(VTY_VT)) 288 return; 289 if (main_vd->vd_driver != NULL) 290 printf("VT(%s): %s %ux%u\n", main_vd->vd_driver->vd_name, 291 (main_vd->vd_flags & VDF_TEXTMODE) ? "text" : "resolution", 292 main_vd->vd_width, main_vd->vd_height); 293 else 294 printf("VT: init without driver.\n"); 295 296 mtx_init(&main_vd->vd_lock, "vtdev", NULL, MTX_DEF); 297 mtx_init(&main_vd->vd_flush_lock, "vtdev flush", NULL, MTX_DEF); 298 cv_init(&main_vd->vd_winswitch, "vtwswt"); 299 } 300 301 static void 302 vt_schedule_flush(struct vt_device *vd, int ms) 303 { 304 305 if (ms <= 0) 306 /* Default to initial value. */ 307 ms = 1000 / VT_TIMERFREQ; 308 309 callout_schedule(&vd->vd_timer, hz / (1000 / ms)); 310 } 311 312 void 313 vt_resume_flush_timer(struct vt_window *vw, int ms) 314 { 315 struct vt_device *vd = vw->vw_device; 316 317 if (vd->vd_curwindow != vw) 318 return; 319 320 if (!(vd->vd_flags & VDF_ASYNC) || 321 !atomic_cmpset_int(&vd->vd_timer_armed, 0, 1)) 322 return; 323 324 vt_schedule_flush(vd, ms); 325 } 326 327 static void 328 vt_suspend_flush_timer(struct vt_device *vd) 329 { 330 /* 331 * As long as this function is called locked, callout_stop() 332 * has the same effect like callout_drain() with regard to 333 * preventing the callback function from executing. 334 */ 335 VT_LOCK_ASSERT(vd, MA_OWNED); 336 337 if (!(vd->vd_flags & VDF_ASYNC) || 338 !atomic_cmpset_int(&vd->vd_timer_armed, 1, 0)) 339 return; 340 341 callout_stop(&vd->vd_timer); 342 } 343 344 static void 345 vt_switch_timer(void *arg, int pending) 346 { 347 348 (void)vt_late_window_switch((struct vt_window *)arg); 349 } 350 351 static int 352 vt_save_kbd_mode(struct vt_window *vw, keyboard_t *kbd) 353 { 354 int mode, ret; 355 356 mode = 0; 357 ret = kbdd_ioctl(kbd, KDGKBMODE, (caddr_t)&mode); 358 if (ret == ENOIOCTL) 359 ret = ENODEV; 360 if (ret != 0) 361 return (ret); 362 363 vw->vw_kbdmode = mode; 364 365 return (0); 366 } 367 368 static int 369 vt_update_kbd_mode(struct vt_window *vw, keyboard_t *kbd) 370 { 371 int ret; 372 373 ret = kbdd_ioctl(kbd, KDSKBMODE, (caddr_t)&vw->vw_kbdmode); 374 if (ret == ENOIOCTL) 375 ret = ENODEV; 376 377 return (ret); 378 } 379 380 static int 381 vt_save_kbd_state(struct vt_window *vw, keyboard_t *kbd) 382 { 383 int state, ret; 384 385 state = 0; 386 ret = kbdd_ioctl(kbd, KDGKBSTATE, (caddr_t)&state); 387 if (ret == ENOIOCTL) 388 ret = ENODEV; 389 if (ret != 0) 390 return (ret); 391 392 vw->vw_kbdstate &= ~LOCK_MASK; 393 vw->vw_kbdstate |= state & LOCK_MASK; 394 395 return (0); 396 } 397 398 static int 399 vt_update_kbd_state(struct vt_window *vw, keyboard_t *kbd) 400 { 401 int state, ret; 402 403 state = vw->vw_kbdstate & LOCK_MASK; 404 ret = kbdd_ioctl(kbd, KDSKBSTATE, (caddr_t)&state); 405 if (ret == ENOIOCTL) 406 ret = ENODEV; 407 408 return (ret); 409 } 410 411 static int 412 vt_save_kbd_leds(struct vt_window *vw, keyboard_t *kbd) 413 { 414 int leds, ret; 415 416 leds = 0; 417 ret = kbdd_ioctl(kbd, KDGETLED, (caddr_t)&leds); 418 if (ret == ENOIOCTL) 419 ret = ENODEV; 420 if (ret != 0) 421 return (ret); 422 423 vw->vw_kbdstate &= ~LED_MASK; 424 vw->vw_kbdstate |= leds & LED_MASK; 425 426 return (0); 427 } 428 429 static int 430 vt_update_kbd_leds(struct vt_window *vw, keyboard_t *kbd) 431 { 432 int leds, ret; 433 434 leds = vw->vw_kbdstate & LED_MASK; 435 ret = kbdd_ioctl(kbd, KDSETLED, (caddr_t)&leds); 436 if (ret == ENOIOCTL) 437 ret = ENODEV; 438 439 return (ret); 440 } 441 442 static int 443 vt_window_preswitch(struct vt_window *vw, struct vt_window *curvw) 444 { 445 446 DPRINTF(40, "%s\n", __func__); 447 curvw->vw_switch_to = vw; 448 /* Set timer to allow switch in case when process hang. */ 449 taskqueue_enqueue_timeout(taskqueue_thread, &vw->vw_timeout_task_dead, hz * vt_deadtimer); 450 /* Notify process about vt switch attempt. */ 451 DPRINTF(30, "%s: Notify process.\n", __func__); 452 signal_vt_rel(curvw); 453 454 return (0); 455 } 456 457 static int 458 vt_window_postswitch(struct vt_window *vw) 459 { 460 461 signal_vt_acq(vw); 462 return (0); 463 } 464 465 /* vt_late_window_switch will do VT switching for regular case. */ 466 static int 467 vt_late_window_switch(struct vt_window *vw) 468 { 469 struct vt_window *curvw; 470 int ret; 471 472 taskqueue_cancel_timeout(taskqueue_thread, &vw->vw_timeout_task_dead, NULL); 473 474 ret = vt_window_switch(vw); 475 if (ret != 0) { 476 /* 477 * If the switch hasn't happened, then return the VT 478 * to the current owner, if any. 479 */ 480 curvw = vw->vw_device->vd_curwindow; 481 if (curvw->vw_smode.mode == VT_PROCESS) 482 (void)vt_window_postswitch(curvw); 483 return (ret); 484 } 485 486 /* Notify owner process about terminal availability. */ 487 if (vw->vw_smode.mode == VT_PROCESS) { 488 ret = vt_window_postswitch(vw); 489 } 490 return (ret); 491 } 492 493 /* Switch window. */ 494 static int 495 vt_proc_window_switch(struct vt_window *vw) 496 { 497 struct vt_window *curvw; 498 struct vt_device *vd; 499 int ret; 500 501 /* Prevent switching to NULL */ 502 if (vw == NULL) { 503 DPRINTF(30, "%s: Cannot switch: vw is NULL.", __func__); 504 return (EINVAL); 505 } 506 vd = vw->vw_device; 507 curvw = vd->vd_curwindow; 508 509 /* Check if virtual terminal is locked */ 510 if (curvw->vw_flags & VWF_VTYLOCK) 511 return (EBUSY); 512 513 /* Check if switch already in progress */ 514 if (curvw->vw_flags & VWF_SWWAIT_REL) { 515 /* Check if switching to same window */ 516 if (curvw->vw_switch_to == vw) { 517 DPRINTF(30, "%s: Switch in progress to same vw.", __func__); 518 return (0); /* success */ 519 } 520 DPRINTF(30, "%s: Switch in progress to different vw.", __func__); 521 return (EBUSY); 522 } 523 524 /* Avoid switching to already selected window */ 525 if (vw == curvw) { 526 DPRINTF(30, "%s: Cannot switch: vw == curvw.", __func__); 527 return (0); /* success */ 528 } 529 530 /* 531 * Early check for an attempt to switch to a non-functional VT. 532 * The same check is done in vt_window_switch(), but it's better 533 * to fail as early as possible to avoid needless pre-switch 534 * actions. 535 */ 536 VT_LOCK(vd); 537 if ((vw->vw_flags & (VWF_OPENED|VWF_CONSOLE)) == 0) { 538 VT_UNLOCK(vd); 539 return (EINVAL); 540 } 541 VT_UNLOCK(vd); 542 543 /* Ask current process permission to switch away. */ 544 if (curvw->vw_smode.mode == VT_PROCESS) { 545 DPRINTF(30, "%s: VT_PROCESS ", __func__); 546 if (vt_proc_alive(curvw) == FALSE) { 547 DPRINTF(30, "Dead. Cleaning."); 548 /* Dead */ 549 } else { 550 DPRINTF(30, "%s: Signaling process.\n", __func__); 551 /* Alive, try to ask him. */ 552 ret = vt_window_preswitch(vw, curvw); 553 /* Wait for process answer or timeout. */ 554 return (ret); 555 } 556 DPRINTF(30, "\n"); 557 } 558 559 ret = vt_late_window_switch(vw); 560 return (ret); 561 } 562 563 /* Switch window ignoring process locking. */ 564 static int 565 vt_window_switch(struct vt_window *vw) 566 { 567 struct vt_device *vd = vw->vw_device; 568 struct vt_window *curvw = vd->vd_curwindow; 569 keyboard_t *kbd; 570 571 if (inside_vt_window_switch && KERNEL_PANICKED()) 572 return (0); 573 574 inside_vt_window_switch = true; 575 576 if (kdb_active) { 577 /* 578 * When grabbing the console for the debugger, avoid 579 * locks as that can result in deadlock. While this 580 * could use try locks, that wouldn't really make a 581 * difference as there are sufficient barriers in 582 * debugger entry/exit to be equivalent to 583 * successfully try-locking here. 584 */ 585 if (!(vw->vw_flags & (VWF_OPENED|VWF_CONSOLE))) { 586 inside_vt_window_switch = false; 587 return (EINVAL); 588 } 589 590 vd->vd_curwindow = vw; 591 vd->vd_flags |= VDF_INVALID; 592 if (vd->vd_driver->vd_postswitch) 593 vd->vd_driver->vd_postswitch(vd); 594 inside_vt_window_switch = false; 595 return (0); 596 } 597 598 VT_LOCK(vd); 599 if (curvw == vw) { 600 /* 601 * Nothing to do, except ensure the driver has the opportunity to 602 * switch to console mode when panicking, making sure the panic 603 * is readable (even when a GUI was using ttyv0). 604 */ 605 if ((kdb_active || KERNEL_PANICKED()) && 606 vd->vd_driver->vd_postswitch) 607 vd->vd_driver->vd_postswitch(vd); 608 inside_vt_window_switch = false; 609 VT_UNLOCK(vd); 610 return (0); 611 } 612 if (!(vw->vw_flags & (VWF_OPENED|VWF_CONSOLE))) { 613 inside_vt_window_switch = false; 614 VT_UNLOCK(vd); 615 return (EINVAL); 616 } 617 618 vt_suspend_flush_timer(vd); 619 620 vd->vd_curwindow = vw; 621 vd->vd_flags |= VDF_INVALID; 622 cv_broadcast(&vd->vd_winswitch); 623 VT_UNLOCK(vd); 624 625 if (vd->vd_driver->vd_postswitch) 626 vd->vd_driver->vd_postswitch(vd); 627 628 vt_resume_flush_timer(vw, 0); 629 630 /* Restore per-window keyboard mode. */ 631 mtx_lock(&Giant); 632 if ((kbd = vd->vd_keyboard) != NULL) { 633 if (curvw->vw_kbdmode == K_XLATE) 634 vt_save_kbd_state(curvw, kbd); 635 636 vt_update_kbd_mode(vw, kbd); 637 vt_update_kbd_state(vw, kbd); 638 } 639 mtx_unlock(&Giant); 640 DPRINTF(10, "%s(ttyv%d) done\n", __func__, vw->vw_number); 641 642 inside_vt_window_switch = false; 643 return (0); 644 } 645 646 void 647 vt_termsize(struct vt_device *vd, struct vt_font *vf, term_pos_t *size) 648 { 649 650 size->tp_row = vd->vd_height; 651 if (vt_draw_logo_cpus) 652 size->tp_row -= vt_logo_sprite_height; 653 size->tp_col = vd->vd_width; 654 if (vf != NULL) { 655 size->tp_row = MIN(size->tp_row / vf->vf_height, 656 PIXEL_HEIGHT(VT_FB_MAX_HEIGHT)); 657 size->tp_col = MIN(size->tp_col / vf->vf_width, 658 PIXEL_WIDTH(VT_FB_MAX_WIDTH)); 659 } 660 } 661 662 static inline void 663 vt_termrect(struct vt_device *vd, struct vt_font *vf, term_rect_t *rect) 664 { 665 666 rect->tr_begin.tp_row = rect->tr_begin.tp_col = 0; 667 if (vt_draw_logo_cpus) 668 rect->tr_begin.tp_row = vt_logo_sprite_height; 669 670 rect->tr_end.tp_row = vd->vd_height; 671 rect->tr_end.tp_col = vd->vd_width; 672 673 if (vf != NULL) { 674 rect->tr_begin.tp_row = 675 howmany(rect->tr_begin.tp_row, vf->vf_height); 676 677 rect->tr_end.tp_row = MIN(rect->tr_end.tp_row / vf->vf_height, 678 PIXEL_HEIGHT(VT_FB_MAX_HEIGHT)); 679 rect->tr_end.tp_col = MIN(rect->tr_end.tp_col / vf->vf_width, 680 PIXEL_WIDTH(VT_FB_MAX_WIDTH)); 681 } 682 } 683 684 void 685 vt_winsize(struct vt_device *vd, struct vt_font *vf, struct winsize *size) 686 { 687 688 size->ws_ypixel = vd->vd_height; 689 if (vt_draw_logo_cpus) 690 size->ws_ypixel -= vt_logo_sprite_height; 691 size->ws_row = size->ws_ypixel; 692 size->ws_col = size->ws_xpixel = vd->vd_width; 693 if (vf != NULL) { 694 size->ws_row = MIN(size->ws_row / vf->vf_height, 695 PIXEL_HEIGHT(VT_FB_MAX_HEIGHT)); 696 size->ws_col = MIN(size->ws_col / vf->vf_width, 697 PIXEL_WIDTH(VT_FB_MAX_WIDTH)); 698 } 699 } 700 701 void 702 vt_compute_drawable_area(struct vt_window *vw) 703 { 704 struct vt_device *vd; 705 struct vt_font *vf; 706 vt_axis_t height; 707 708 vd = vw->vw_device; 709 710 if (vw->vw_font == NULL) { 711 vw->vw_draw_area.tr_begin.tp_col = 0; 712 vw->vw_draw_area.tr_begin.tp_row = 0; 713 if (vt_draw_logo_cpus) 714 vw->vw_draw_area.tr_begin.tp_row = vt_logo_sprite_height; 715 vw->vw_draw_area.tr_end.tp_col = vd->vd_width; 716 vw->vw_draw_area.tr_end.tp_row = vd->vd_height; 717 return; 718 } 719 720 vf = vw->vw_font; 721 722 /* 723 * Compute the drawable area, so that the text is centered on 724 * the screen. 725 */ 726 727 height = vd->vd_height; 728 if (vt_draw_logo_cpus) 729 height -= vt_logo_sprite_height; 730 vw->vw_draw_area.tr_begin.tp_col = (vd->vd_width % vf->vf_width) / 2; 731 vw->vw_draw_area.tr_begin.tp_row = (height % vf->vf_height) / 2; 732 if (vt_draw_logo_cpus) 733 vw->vw_draw_area.tr_begin.tp_row += vt_logo_sprite_height; 734 vw->vw_draw_area.tr_end.tp_col = vw->vw_draw_area.tr_begin.tp_col + 735 rounddown(vd->vd_width, vf->vf_width); 736 vw->vw_draw_area.tr_end.tp_row = vw->vw_draw_area.tr_begin.tp_row + 737 rounddown(height, vf->vf_height); 738 } 739 740 static void 741 vt_scroll(struct vt_window *vw, int offset, int whence) 742 { 743 int diff; 744 term_pos_t size; 745 746 if ((vw->vw_flags & VWF_SCROLL) == 0) 747 return; 748 749 vt_termsize(vw->vw_device, vw->vw_font, &size); 750 751 diff = vthistory_seek(&vw->vw_buf, offset, whence); 752 if (diff) 753 vw->vw_device->vd_flags |= VDF_INVALID; 754 vt_resume_flush_timer(vw, 0); 755 } 756 757 static int 758 vt_machine_kbdevent(struct vt_device *vd, int c) 759 { 760 761 switch (c) { 762 case SPCLKEY | DBG: /* kbdmap(5) keyword `debug`. */ 763 if (vt_kbd_debug) { 764 kdb_enter(KDB_WHY_BREAK, "manual escape to debugger"); 765 #if VT_ALT_TO_ESC_HACK 766 /* 767 * There's an unfortunate conflict between SPCLKEY|DBG 768 * and VT_ALT_TO_ESC_HACK. Just assume they didn't mean 769 * it if we got to here. 770 */ 771 vd->vd_kbstate &= ~ALKED; 772 #endif 773 } 774 return (1); 775 case SPCLKEY | HALT: /* kbdmap(5) keyword `halt`. */ 776 if (vt_kbd_halt) 777 shutdown_nice(RB_HALT); 778 return (1); 779 case SPCLKEY | PASTE: /* kbdmap(5) keyword `paste`. */ 780 #ifndef SC_NO_CUTPASTE 781 /* Insert text from cut-paste buffer. */ 782 vt_mouse_paste(); 783 #endif 784 break; 785 case SPCLKEY | PDWN: /* kbdmap(5) keyword `pdwn`. */ 786 if (vt_kbd_poweroff) 787 shutdown_nice(RB_HALT|RB_POWEROFF); 788 return (1); 789 case SPCLKEY | PNC: /* kbdmap(5) keyword `panic`. */ 790 /* 791 * Request to immediate panic if sysctl 792 * kern.vt.enable_panic_key allow it. 793 */ 794 if (vt_kbd_panic) 795 panic("Forced by the panic key"); 796 return (1); 797 case SPCLKEY | RBT: /* kbdmap(5) keyword `boot`. */ 798 if (vt_kbd_reboot) 799 shutdown_nice(RB_AUTOBOOT); 800 return (1); 801 case SPCLKEY | SPSC: /* kbdmap(5) keyword `spsc`. */ 802 /* Force activatation/deactivation of the screen saver. */ 803 /* TODO */ 804 return (1); 805 case SPCLKEY | STBY: /* XXX Not present in kbdcontrol parser. */ 806 /* Put machine into Stand-By mode. */ 807 power_pm_suspend(POWER_SSTATE_TRANSITION_STANDBY); 808 return (1); 809 case SPCLKEY | SUSP: /* kbdmap(5) keyword `susp`. */ 810 /* Suspend machine. */ 811 power_pm_suspend(POWER_SSTATE_TRANSITION_SUSPEND); 812 return (1); 813 } 814 815 return (0); 816 } 817 818 static void 819 vt_scrollmode_kbdevent(struct vt_window *vw, int c, int console) 820 { 821 struct vt_device *vd; 822 term_pos_t size; 823 824 vd = vw->vw_device; 825 /* Only special keys handled in ScrollLock mode */ 826 if ((c & SPCLKEY) == 0) 827 return; 828 829 c &= ~SPCLKEY; 830 831 if (console == 0) { 832 if (c >= F_SCR && c <= MIN(L_SCR, F_SCR + VT_MAXWINDOWS - 1)) { 833 vw = vd->vd_windows[c - F_SCR]; 834 vt_proc_window_switch(vw); 835 return; 836 } 837 VT_LOCK(vd); 838 } 839 840 switch (c) { 841 case SLK: { 842 /* Turn scrolling off. */ 843 vt_scroll(vw, 0, VHS_END); 844 VTBUF_SLCK_DISABLE(&vw->vw_buf); 845 vw->vw_flags &= ~VWF_SCROLL; 846 break; 847 } 848 case FKEY | F(49): /* Home key. */ 849 vt_scroll(vw, 0, VHS_SET); 850 break; 851 case FKEY | F(50): /* Arrow up. */ 852 vt_scroll(vw, -1, VHS_CUR); 853 break; 854 case FKEY | F(51): /* Page up. */ 855 vt_termsize(vd, vw->vw_font, &size); 856 vt_scroll(vw, -size.tp_row, VHS_CUR); 857 break; 858 case FKEY | F(57): /* End key. */ 859 vt_scroll(vw, 0, VHS_END); 860 break; 861 case FKEY | F(58): /* Arrow down. */ 862 vt_scroll(vw, 1, VHS_CUR); 863 break; 864 case FKEY | F(59): /* Page down. */ 865 vt_termsize(vd, vw->vw_font, &size); 866 vt_scroll(vw, size.tp_row, VHS_CUR); 867 break; 868 } 869 870 if (console == 0) 871 VT_UNLOCK(vd); 872 } 873 874 static int 875 vt_processkey(keyboard_t *kbd, struct vt_device *vd, int c) 876 { 877 struct vt_window *vw = vd->vd_curwindow; 878 879 #ifdef RANDOM_ENABLE_KBD 880 random_harvest_queue(&c, sizeof(c), RANDOM_KEYBOARD); 881 #endif 882 #if VT_ALT_TO_ESC_HACK 883 if (c & RELKEY) { 884 switch (c & ~RELKEY) { 885 case (SPCLKEY | RALT): 886 if (vt_enable_altgr != 0) 887 break; 888 case (SPCLKEY | LALT): 889 vd->vd_kbstate &= ~ALKED; 890 } 891 /* Other keys ignored for RELKEY event. */ 892 return (0); 893 } else { 894 switch (c & ~RELKEY) { 895 case (SPCLKEY | RALT): 896 if (vt_enable_altgr != 0) 897 break; 898 case (SPCLKEY | LALT): 899 vd->vd_kbstate |= ALKED; 900 } 901 } 902 #else 903 if (c & RELKEY) 904 /* Other keys ignored for RELKEY event. */ 905 return (0); 906 #endif 907 908 if (vt_machine_kbdevent(vd, c)) 909 return (0); 910 911 if (vw->vw_flags & VWF_SCROLL) { 912 vt_scrollmode_kbdevent(vw, c, 0/* Not a console */); 913 /* Scroll mode keys handled, nothing to do more. */ 914 return (0); 915 } 916 917 if (c & SPCLKEY) { 918 c &= ~SPCLKEY; 919 920 if (c >= F_SCR && c <= MIN(L_SCR, F_SCR + VT_MAXWINDOWS - 1)) { 921 vw = vd->vd_windows[c - F_SCR]; 922 vt_proc_window_switch(vw); 923 return (0); 924 } 925 926 switch (c) { 927 case NEXT: 928 /* Switch to next VT. */ 929 c = (vw->vw_number + 1) % VT_MAXWINDOWS; 930 vw = vd->vd_windows[c]; 931 vt_proc_window_switch(vw); 932 return (0); 933 case PREV: 934 /* Switch to previous VT. */ 935 c = (vw->vw_number + VT_MAXWINDOWS - 1) % VT_MAXWINDOWS; 936 vw = vd->vd_windows[c]; 937 vt_proc_window_switch(vw); 938 return (0); 939 case SLK: { 940 vt_save_kbd_state(vw, kbd); 941 VT_LOCK(vd); 942 if (vw->vw_kbdstate & SLKED) { 943 /* Turn scrolling on. */ 944 vw->vw_flags |= VWF_SCROLL; 945 VTBUF_SLCK_ENABLE(&vw->vw_buf); 946 } else { 947 /* Turn scrolling off. */ 948 vw->vw_flags &= ~VWF_SCROLL; 949 VTBUF_SLCK_DISABLE(&vw->vw_buf); 950 vt_scroll(vw, 0, VHS_END); 951 } 952 VT_UNLOCK(vd); 953 break; 954 } 955 case BKEY | BTAB: /* Back tab (usually, shift+tab). */ 956 terminal_input_special(vw->vw_terminal, TKEY_BTAB); 957 break; 958 case FKEY | F(1): case FKEY | F(2): case FKEY | F(3): 959 case FKEY | F(4): case FKEY | F(5): case FKEY | F(6): 960 case FKEY | F(7): case FKEY | F(8): case FKEY | F(9): 961 case FKEY | F(10): case FKEY | F(11): case FKEY | F(12): 962 /* F1 through F12 keys. */ 963 terminal_input_special(vw->vw_terminal, 964 TKEY_F1 + c - (FKEY | F(1))); 965 break; 966 case FKEY | F(49): /* Home key. */ 967 terminal_input_special(vw->vw_terminal, TKEY_HOME); 968 break; 969 case FKEY | F(50): /* Arrow up. */ 970 terminal_input_special(vw->vw_terminal, TKEY_UP); 971 break; 972 case FKEY | F(51): /* Page up. */ 973 terminal_input_special(vw->vw_terminal, TKEY_PAGE_UP); 974 break; 975 case FKEY | F(53): /* Arrow left. */ 976 terminal_input_special(vw->vw_terminal, TKEY_LEFT); 977 break; 978 case FKEY | F(55): /* Arrow right. */ 979 terminal_input_special(vw->vw_terminal, TKEY_RIGHT); 980 break; 981 case FKEY | F(57): /* End key. */ 982 terminal_input_special(vw->vw_terminal, TKEY_END); 983 break; 984 case FKEY | F(58): /* Arrow down. */ 985 terminal_input_special(vw->vw_terminal, TKEY_DOWN); 986 break; 987 case FKEY | F(59): /* Page down. */ 988 terminal_input_special(vw->vw_terminal, TKEY_PAGE_DOWN); 989 break; 990 case FKEY | F(60): /* Insert key. */ 991 terminal_input_special(vw->vw_terminal, TKEY_INSERT); 992 break; 993 case FKEY | F(61): /* Delete key. */ 994 terminal_input_special(vw->vw_terminal, TKEY_DELETE); 995 break; 996 } 997 } else if (KEYFLAGS(c) == 0) { 998 /* Don't do UTF-8 conversion when doing raw mode. */ 999 if (vw->vw_kbdmode == K_XLATE) { 1000 #if VT_ALT_TO_ESC_HACK 1001 if (vd->vd_kbstate & ALKED) { 1002 /* 1003 * Prepend ESC sequence if one of ALT keys down. 1004 */ 1005 terminal_input_char(vw->vw_terminal, 0x1b); 1006 } 1007 #endif 1008 #if defined(KDB) 1009 kdb_alt_break(c, &vd->vd_altbrk); 1010 #endif 1011 terminal_input_char(vw->vw_terminal, KEYCHAR(c)); 1012 } else 1013 terminal_input_raw(vw->vw_terminal, c); 1014 } 1015 return (0); 1016 } 1017 1018 static int 1019 vt_kbdevent(keyboard_t *kbd, int event, void *arg) 1020 { 1021 struct vt_device *vd = arg; 1022 int c; 1023 1024 switch (event) { 1025 case KBDIO_KEYINPUT: 1026 break; 1027 case KBDIO_UNLOADING: 1028 mtx_lock(&Giant); 1029 vd->vd_keyboard = NULL; 1030 kbd_release(kbd, (void *)vd); 1031 mtx_unlock(&Giant); 1032 return (0); 1033 default: 1034 return (EINVAL); 1035 } 1036 1037 while ((c = kbdd_read_char(kbd, 0)) != NOKEY) 1038 vt_processkey(kbd, vd, c); 1039 1040 return (0); 1041 } 1042 1043 static int 1044 vt_allocate_keyboard(struct vt_device *vd) 1045 { 1046 int grabbed, i, idx0, idx; 1047 keyboard_t *k0, *k; 1048 keyboard_info_t ki; 1049 1050 /* 1051 * If vt_upgrade() happens while the console is grabbed, we are 1052 * potentially going to switch keyboard devices while the keyboard is in 1053 * use. Unwind the grabbing of the current keyboard first, then we will 1054 * re-grab the new keyboard below, before we return. 1055 */ 1056 if (vd->vd_curwindow == &vt_conswindow) { 1057 grabbed = vd->vd_curwindow->vw_grabbed; 1058 for (i = 0; i < grabbed; ++i) 1059 vtterm_cnungrab_noswitch(vd, vd->vd_curwindow); 1060 } 1061 1062 idx0 = kbd_allocate("kbdmux", -1, vd, vt_kbdevent, vd); 1063 if (idx0 >= 0) { 1064 DPRINTF(20, "%s: kbdmux allocated, idx = %d\n", __func__, idx0); 1065 k0 = kbd_get_keyboard(idx0); 1066 1067 for (idx = kbd_find_keyboard2("*", -1, 0); 1068 idx != -1; 1069 idx = kbd_find_keyboard2("*", -1, idx + 1)) { 1070 k = kbd_get_keyboard(idx); 1071 1072 if (idx == idx0 || KBD_IS_BUSY(k)) 1073 continue; 1074 1075 bzero(&ki, sizeof(ki)); 1076 strncpy(ki.kb_name, k->kb_name, sizeof(ki.kb_name)); 1077 ki.kb_name[sizeof(ki.kb_name) - 1] = '\0'; 1078 ki.kb_unit = k->kb_unit; 1079 1080 kbdd_ioctl(k0, KBADDKBD, (caddr_t) &ki); 1081 } 1082 } else { 1083 DPRINTF(20, "%s: no kbdmux allocated\n", __func__); 1084 idx0 = kbd_allocate("*", -1, vd, vt_kbdevent, vd); 1085 if (idx0 < 0) { 1086 DPRINTF(10, "%s: No keyboard found.\n", __func__); 1087 return (-1); 1088 } 1089 k0 = kbd_get_keyboard(idx0); 1090 } 1091 vd->vd_keyboard = k0; 1092 DPRINTF(20, "%s: vd_keyboard = %d\n", __func__, 1093 vd->vd_keyboard->kb_index); 1094 1095 if (vd->vd_curwindow == &vt_conswindow) { 1096 for (i = 0; i < grabbed; ++i) 1097 vtterm_cngrab_noswitch(vd, vd->vd_curwindow); 1098 } 1099 1100 return (idx0); 1101 } 1102 1103 #define DEVCTL_LEN 64 1104 static void 1105 vtterm_devctl(bool enabled, bool hushed, int hz, sbintime_t duration) 1106 { 1107 struct sbuf sb; 1108 char *buf; 1109 1110 buf = malloc(DEVCTL_LEN, M_VT, M_NOWAIT); 1111 if (buf == NULL) 1112 return; 1113 sbuf_new(&sb, buf, DEVCTL_LEN, SBUF_FIXEDLEN); 1114 sbuf_printf(&sb, "enabled=%s hushed=%s hz=%d duration_ms=%d", 1115 enabled ? "true" : "false", hushed ? "true" : "false", 1116 hz, (int)(duration / SBT_1MS)); 1117 sbuf_finish(&sb); 1118 if (sbuf_error(&sb) == 0) 1119 devctl_notify("VT", "BELL", "RING", sbuf_data(&sb)); 1120 sbuf_delete(&sb); 1121 free(buf, M_VT); 1122 } 1123 1124 static void 1125 vtterm_bell(struct terminal *tm) 1126 { 1127 struct vt_window *vw = tm->tm_softc; 1128 struct vt_device *vd = vw->vw_device; 1129 1130 vtterm_devctl(vt_enable_bell, vd->vd_flags & VDF_QUIET_BELL, 1131 vw->vw_bell_pitch, vw->vw_bell_duration); 1132 1133 if (!vt_enable_bell) 1134 return; 1135 1136 if (vd->vd_flags & VDF_QUIET_BELL) 1137 return; 1138 1139 if (vw->vw_bell_pitch == 0 || 1140 vw->vw_bell_duration == 0) 1141 return; 1142 1143 sysbeep(vw->vw_bell_pitch, vw->vw_bell_duration); 1144 } 1145 1146 /* 1147 * Beep with user-provided frequency and duration as specified by a KDMKTONE 1148 * ioctl (compatible with Linux). The frequency is specified as a 8254 PIT 1149 * divisor for a 1.19MHz clock. 1150 * 1151 * See https://tldp.org/LDP/lpg/node83.html. 1152 */ 1153 static void 1154 vtterm_beep(struct terminal *tm, u_int param) 1155 { 1156 u_int freq; 1157 sbintime_t period; 1158 struct vt_window *vw = tm->tm_softc; 1159 struct vt_device *vd = vw->vw_device; 1160 1161 if ((param == 0) || ((param & 0xffff) == 0)) { 1162 vtterm_bell(tm); 1163 return; 1164 } 1165 1166 /* XXX period unit is supposed to be "timer ticks." */ 1167 period = ((param >> 16) & 0xffff) * SBT_1MS; 1168 freq = 1193182 / (param & 0xffff); 1169 1170 vtterm_devctl(vt_enable_bell, vd->vd_flags & VDF_QUIET_BELL, 1171 freq, period); 1172 1173 if (!vt_enable_bell) 1174 return; 1175 1176 sysbeep(freq, period); 1177 } 1178 1179 static void 1180 vtterm_cursor(struct terminal *tm, const term_pos_t *p) 1181 { 1182 struct vt_window *vw = tm->tm_softc; 1183 1184 vtbuf_cursor_position(&vw->vw_buf, p); 1185 } 1186 1187 static void 1188 vtterm_putchar(struct terminal *tm, const term_pos_t *p, term_char_t c) 1189 { 1190 struct vt_window *vw = tm->tm_softc; 1191 1192 vtbuf_putchar(&vw->vw_buf, p, c); 1193 } 1194 1195 static void 1196 vtterm_fill(struct terminal *tm, const term_rect_t *r, term_char_t c) 1197 { 1198 struct vt_window *vw = tm->tm_softc; 1199 1200 vtbuf_fill(&vw->vw_buf, r, c); 1201 } 1202 1203 static void 1204 vtterm_copy(struct terminal *tm, const term_rect_t *r, 1205 const term_pos_t *p) 1206 { 1207 struct vt_window *vw = tm->tm_softc; 1208 1209 vtbuf_copy(&vw->vw_buf, r, p); 1210 } 1211 1212 static void 1213 vtterm_param(struct terminal *tm, int cmd, unsigned int arg) 1214 { 1215 struct vt_window *vw = tm->tm_softc; 1216 1217 switch (cmd) { 1218 case TP_SETLOCALCURSOR: 1219 /* 1220 * 0 means normal (usually block), 1 means hidden, and 1221 * 2 means blinking (always block) for compatibility with 1222 * syscons. We don't support any changes except hiding, 1223 * so must map 2 to 0. 1224 */ 1225 arg = (arg == 1) ? 0 : 1; 1226 /* FALLTHROUGH */ 1227 case TP_SHOWCURSOR: 1228 vtbuf_cursor_visibility(&vw->vw_buf, arg); 1229 vt_resume_flush_timer(vw, 0); 1230 break; 1231 case TP_MOUSE: 1232 vw->vw_mouse_level = arg; 1233 break; 1234 case TP_SETBELLPD: 1235 vw->vw_bell_pitch = TP_SETBELLPD_PITCH(arg); 1236 vw->vw_bell_duration = 1237 TICKS_2_MSEC(TP_SETBELLPD_DURATION(arg)) * SBT_1MS; 1238 break; 1239 } 1240 } 1241 1242 void 1243 vt_determine_colors(term_char_t c, int cursor, 1244 term_color_t *fg, term_color_t *bg) 1245 { 1246 term_color_t tmp; 1247 int invert; 1248 1249 invert = 0; 1250 1251 *fg = TCHAR_FGCOLOR(c); 1252 if (TCHAR_FORMAT(c) & TF_BOLD) 1253 *fg = TCOLOR_LIGHT(*fg); 1254 *bg = TCHAR_BGCOLOR(c); 1255 if (TCHAR_FORMAT(c) & TF_BLINK) 1256 *bg = TCOLOR_LIGHT(*bg); 1257 1258 if (TCHAR_FORMAT(c) & TF_REVERSE) 1259 invert ^= 1; 1260 if (cursor) 1261 invert ^= 1; 1262 1263 if (invert) { 1264 tmp = *fg; 1265 *fg = *bg; 1266 *bg = tmp; 1267 } 1268 } 1269 1270 #ifndef SC_NO_CUTPASTE 1271 int 1272 vt_is_cursor_in_area(const struct vt_device *vd, const term_rect_t *area) 1273 { 1274 unsigned int mx, my; 1275 1276 /* 1277 * We use the cursor position saved during the current refresh, 1278 * in case the cursor moved since. 1279 */ 1280 mx = vd->vd_mx_drawn + vd->vd_curwindow->vw_draw_area.tr_begin.tp_col; 1281 my = vd->vd_my_drawn + vd->vd_curwindow->vw_draw_area.tr_begin.tp_row; 1282 1283 if (mx >= area->tr_end.tp_col || 1284 mx + vd->vd_mcursor->width <= area->tr_begin.tp_col || 1285 my >= area->tr_end.tp_row || 1286 my + vd->vd_mcursor->height <= area->tr_begin.tp_row) 1287 return (0); 1288 return (1); 1289 } 1290 1291 static void 1292 vt_mark_mouse_position_as_dirty(struct vt_device *vd, int locked) 1293 { 1294 term_rect_t area; 1295 struct vt_window *vw; 1296 struct vt_font *vf; 1297 int x, y; 1298 1299 vw = vd->vd_curwindow; 1300 vf = vw->vw_font; 1301 1302 x = vd->vd_mx_drawn; 1303 y = vd->vd_my_drawn; 1304 1305 if (vf != NULL) { 1306 area.tr_begin.tp_col = x / vf->vf_width; 1307 area.tr_begin.tp_row = y / vf->vf_height; 1308 area.tr_end.tp_col = 1309 ((x + vd->vd_mcursor->width) / vf->vf_width) + 1; 1310 area.tr_end.tp_row = 1311 ((y + vd->vd_mcursor->height) / vf->vf_height) + 1; 1312 } else { 1313 /* 1314 * No font loaded (ie. vt_vga operating in textmode). 1315 * 1316 * FIXME: This fake area needs to be revisited once the 1317 * mouse cursor is supported in vt_vga's textmode. 1318 */ 1319 area.tr_begin.tp_col = x; 1320 area.tr_begin.tp_row = y; 1321 area.tr_end.tp_col = x + 2; 1322 area.tr_end.tp_row = y + 2; 1323 } 1324 1325 if (!locked) 1326 vtbuf_lock(&vw->vw_buf); 1327 if (vd->vd_driver->vd_invalidate_text) 1328 vd->vd_driver->vd_invalidate_text(vd, &area); 1329 vtbuf_dirty(&vw->vw_buf, &area); 1330 if (!locked) 1331 vtbuf_unlock(&vw->vw_buf); 1332 } 1333 #endif 1334 1335 static void 1336 vt_set_border(struct vt_device *vd, const term_rect_t *area, 1337 term_color_t c) 1338 { 1339 vd_drawrect_t *drawrect = vd->vd_driver->vd_drawrect; 1340 1341 if (drawrect == NULL) 1342 return; 1343 1344 /* Top bar */ 1345 if (area->tr_begin.tp_row > 0) 1346 drawrect(vd, 0, 0, vd->vd_width - 1, 1347 area->tr_begin.tp_row - 1, 1, c); 1348 1349 /* Left bar */ 1350 if (area->tr_begin.tp_col > 0) 1351 drawrect(vd, 0, area->tr_begin.tp_row, 1352 area->tr_begin.tp_col - 1, area->tr_end.tp_row - 1, 1, c); 1353 1354 /* Right bar */ 1355 if (area->tr_end.tp_col < vd->vd_width) 1356 drawrect(vd, area->tr_end.tp_col, area->tr_begin.tp_row, 1357 vd->vd_width - 1, area->tr_end.tp_row - 1, 1, c); 1358 1359 /* Bottom bar */ 1360 if (area->tr_end.tp_row < vd->vd_height) 1361 drawrect(vd, 0, area->tr_end.tp_row, vd->vd_width - 1, 1362 vd->vd_height - 1, 1, c); 1363 } 1364 1365 static void 1366 vt_flush_to_buffer(struct vt_device *vd, 1367 const struct vt_window *vw, const term_rect_t *area) 1368 { 1369 unsigned int col, row; 1370 term_char_t c; 1371 term_color_t fg, bg; 1372 size_t z; 1373 1374 for (row = area->tr_begin.tp_row; row < area->tr_end.tp_row; ++row) { 1375 for (col = area->tr_begin.tp_col; col < area->tr_end.tp_col; 1376 ++col) { 1377 z = row * PIXEL_WIDTH(VT_FB_MAX_WIDTH) + col; 1378 if (z >= PIXEL_HEIGHT(VT_FB_MAX_HEIGHT) * 1379 PIXEL_WIDTH(VT_FB_MAX_WIDTH)) 1380 continue; 1381 1382 c = VTBUF_GET_FIELD(&vw->vw_buf, row, col); 1383 vt_determine_colors(c, 1384 VTBUF_ISCURSOR(&vw->vw_buf, row, col), &fg, &bg); 1385 1386 if (vd->vd_drawn && (vd->vd_drawn[z] == c) && 1387 vd->vd_drawnfg && (vd->vd_drawnfg[z] == fg) && 1388 vd->vd_drawnbg && (vd->vd_drawnbg[z] == bg)) { 1389 vd->vd_pos_to_flush[z] = false; 1390 continue; 1391 } 1392 1393 vd->vd_pos_to_flush[z] = true; 1394 1395 if (vd->vd_drawn) 1396 vd->vd_drawn[z] = c; 1397 if (vd->vd_drawnfg) 1398 vd->vd_drawnfg[z] = fg; 1399 if (vd->vd_drawnbg) 1400 vd->vd_drawnbg[z] = bg; 1401 } 1402 } 1403 } 1404 1405 static void 1406 vt_bitblt_buffer(struct vt_device *vd, const struct vt_window *vw, 1407 const term_rect_t *area) 1408 { 1409 unsigned int col, row, x, y; 1410 struct vt_font *vf; 1411 term_char_t c; 1412 term_color_t fg, bg; 1413 const uint8_t *pattern; 1414 size_t z; 1415 1416 vf = vw->vw_font; 1417 1418 for (row = area->tr_begin.tp_row; row < area->tr_end.tp_row; ++row) { 1419 for (col = area->tr_begin.tp_col; col < area->tr_end.tp_col; 1420 ++col) { 1421 x = col * vf->vf_width + 1422 vw->vw_draw_area.tr_begin.tp_col; 1423 y = row * vf->vf_height + 1424 vw->vw_draw_area.tr_begin.tp_row; 1425 1426 z = row * PIXEL_WIDTH(VT_FB_MAX_WIDTH) + col; 1427 if (z >= PIXEL_HEIGHT(VT_FB_MAX_HEIGHT) * 1428 PIXEL_WIDTH(VT_FB_MAX_WIDTH)) 1429 continue; 1430 if (!vd->vd_pos_to_flush[z]) 1431 continue; 1432 1433 c = vd->vd_drawn[z]; 1434 fg = vd->vd_drawnfg[z]; 1435 bg = vd->vd_drawnbg[z]; 1436 1437 pattern = vtfont_lookup(vf, c); 1438 vd->vd_driver->vd_bitblt_bmp(vd, vw, 1439 pattern, NULL, vf->vf_width, vf->vf_height, 1440 x, y, fg, bg); 1441 } 1442 } 1443 1444 #ifndef SC_NO_CUTPASTE 1445 if (!vd->vd_mshown) 1446 return; 1447 1448 term_rect_t drawn_area; 1449 1450 drawn_area.tr_begin.tp_col = area->tr_begin.tp_col * vf->vf_width; 1451 drawn_area.tr_begin.tp_row = area->tr_begin.tp_row * vf->vf_height; 1452 drawn_area.tr_end.tp_col = area->tr_end.tp_col * vf->vf_width; 1453 drawn_area.tr_end.tp_row = area->tr_end.tp_row * vf->vf_height; 1454 1455 if (vt_is_cursor_in_area(vd, &drawn_area)) { 1456 vd->vd_driver->vd_bitblt_bmp(vd, vw, 1457 vd->vd_mcursor->map, vd->vd_mcursor->mask, 1458 vd->vd_mcursor->width, vd->vd_mcursor->height, 1459 vd->vd_mx_drawn + vw->vw_draw_area.tr_begin.tp_col, 1460 vd->vd_my_drawn + vw->vw_draw_area.tr_begin.tp_row, 1461 vd->vd_mcursor_fg, vd->vd_mcursor_bg); 1462 } 1463 #endif 1464 } 1465 1466 static void 1467 vt_draw_decorations(struct vt_device *vd) 1468 { 1469 struct vt_window *vw; 1470 const teken_attr_t *a; 1471 1472 vw = vd->vd_curwindow; 1473 1474 a = teken_get_curattr(&vw->vw_terminal->tm_emulator); 1475 vt_set_border(vd, &vw->vw_draw_area, a->ta_bgcolor); 1476 1477 if (vt_draw_logo_cpus) 1478 vtterm_draw_cpu_logos(vd); 1479 } 1480 1481 static int 1482 vt_flush(struct vt_device *vd) 1483 { 1484 struct vt_window *vw; 1485 struct vt_font *vf; 1486 term_rect_t tarea; 1487 #ifndef SC_NO_CUTPASTE 1488 int cursor_was_shown, cursor_moved; 1489 #endif 1490 bool needs_refresh; 1491 1492 if (inside_vt_flush && KERNEL_PANICKED()) 1493 return (0); 1494 1495 vw = vd->vd_curwindow; 1496 if (vw == NULL) 1497 return (0); 1498 1499 if (vd->vd_flags & VDF_SPLASH || vw->vw_flags & VWF_BUSY) 1500 return (0); 1501 1502 vf = vw->vw_font; 1503 if (((vd->vd_flags & VDF_TEXTMODE) == 0) && (vf == NULL)) 1504 return (0); 1505 1506 VT_FLUSH_LOCK(vd); 1507 1508 vtbuf_lock(&vw->vw_buf); 1509 inside_vt_flush = true; 1510 1511 #ifndef SC_NO_CUTPASTE 1512 cursor_was_shown = vd->vd_mshown; 1513 cursor_moved = (vd->vd_mx != vd->vd_mx_drawn || 1514 vd->vd_my != vd->vd_my_drawn); 1515 1516 /* Check if the cursor should be displayed or not. */ 1517 if ((vd->vd_flags & VDF_MOUSECURSOR) && /* Mouse support enabled. */ 1518 !(vw->vw_flags & VWF_MOUSE_HIDE) && /* Cursor displayed. */ 1519 !kdb_active && !KERNEL_PANICKED()) { /* DDB inactive. */ 1520 vd->vd_mshown = 1; 1521 } else { 1522 vd->vd_mshown = 0; 1523 } 1524 1525 /* 1526 * If the cursor changed display state or moved, we must mark 1527 * the old position as dirty, so that it's erased. 1528 */ 1529 if (cursor_was_shown != vd->vd_mshown || 1530 (vd->vd_mshown && cursor_moved)) 1531 vt_mark_mouse_position_as_dirty(vd, true); 1532 1533 /* 1534 * Save position of the mouse cursor. It's used by backends to 1535 * know where to draw the cursor and during the next refresh to 1536 * erase the previous position. 1537 */ 1538 vd->vd_mx_drawn = vd->vd_mx; 1539 vd->vd_my_drawn = vd->vd_my; 1540 1541 /* 1542 * If the cursor is displayed and has moved since last refresh, 1543 * mark the new position as dirty. 1544 */ 1545 if (vd->vd_mshown && cursor_moved) 1546 vt_mark_mouse_position_as_dirty(vd, true); 1547 #endif 1548 1549 vtbuf_undirty(&vw->vw_buf, &tarea); 1550 1551 /* Force a full redraw when the screen contents might be invalid. */ 1552 needs_refresh = false; 1553 if (vd->vd_flags & (VDF_INVALID | VDF_SUSPENDED)) { 1554 needs_refresh = true; 1555 vd->vd_flags &= ~VDF_INVALID; 1556 1557 vt_termrect(vd, vf, &tarea); 1558 if (vd->vd_driver->vd_invalidate_text) 1559 vd->vd_driver->vd_invalidate_text(vd, &tarea); 1560 } 1561 1562 if (tarea.tr_begin.tp_col < tarea.tr_end.tp_col) { 1563 if (vd->vd_driver->vd_bitblt_after_vtbuf_unlock) { 1564 /* 1565 * When `vd_bitblt_after_vtbuf_unlock` is set to true, 1566 * we first remember the characters to redraw. They are 1567 * already copied to the `vd_drawn` arrays. 1568 * 1569 * We then unlock vt_buf and proceed with the actual 1570 * drawing using the backend driver. 1571 */ 1572 vt_flush_to_buffer(vd, vw, &tarea); 1573 vtbuf_unlock(&vw->vw_buf); 1574 vt_bitblt_buffer(vd, vw, &tarea); 1575 1576 if (needs_refresh) 1577 vt_draw_decorations(vd); 1578 1579 /* 1580 * We can reset `inside_vt_flush` after unlocking vtbuf 1581 * here because we also hold vt_flush_lock in this code 1582 * path. 1583 */ 1584 inside_vt_flush = false; 1585 } else { 1586 /* 1587 * When `vd_bitblt_after_vtbuf_unlock` is false, we use 1588 * the backend's `vd_bitblt_text` callback directly. 1589 */ 1590 vd->vd_driver->vd_bitblt_text(vd, vw, &tarea); 1591 1592 if (needs_refresh) 1593 vt_draw_decorations(vd); 1594 1595 inside_vt_flush = false; 1596 vtbuf_unlock(&vw->vw_buf); 1597 } 1598 1599 VT_FLUSH_UNLOCK(vd); 1600 1601 return (1); 1602 } 1603 1604 inside_vt_flush = false; 1605 vtbuf_unlock(&vw->vw_buf); 1606 1607 VT_FLUSH_UNLOCK(vd); 1608 1609 return (0); 1610 } 1611 1612 static void 1613 vt_timer(void *arg) 1614 { 1615 struct vt_device *vd; 1616 int changed; 1617 1618 vd = arg; 1619 /* Update screen if required. */ 1620 changed = vt_flush(vd); 1621 1622 /* Schedule for next update. */ 1623 if (changed) 1624 vt_schedule_flush(vd, 0); 1625 else 1626 vd->vd_timer_armed = 0; 1627 } 1628 1629 static void 1630 vtterm_pre_input(struct terminal *tm) 1631 { 1632 struct vt_window *vw = tm->tm_softc; 1633 1634 if (inside_vt_flush && KERNEL_PANICKED()) 1635 return; 1636 1637 vtbuf_lock(&vw->vw_buf); 1638 } 1639 1640 static void 1641 vtterm_post_input(struct terminal *tm) 1642 { 1643 struct vt_window *vw = tm->tm_softc; 1644 1645 if (inside_vt_flush && KERNEL_PANICKED()) 1646 return; 1647 1648 vtbuf_unlock(&vw->vw_buf); 1649 vt_resume_flush_timer(vw, 0); 1650 } 1651 1652 static void 1653 vtterm_done(struct terminal *tm) 1654 { 1655 struct vt_window *vw = tm->tm_softc; 1656 struct vt_device *vd = vw->vw_device; 1657 1658 if (kdb_active || KERNEL_PANICKED()) { 1659 /* Switch to the debugger. */ 1660 if (vd->vd_curwindow != vw) { 1661 vd->vd_curwindow = vw; 1662 vd->vd_flags |= VDF_INVALID; 1663 if (vd->vd_driver->vd_postswitch) 1664 vd->vd_driver->vd_postswitch(vd); 1665 } 1666 vd->vd_flags &= ~VDF_SPLASH; 1667 vt_flush(vd); 1668 } else if (vt_slow_down > 0) { 1669 int i, j; 1670 for (i = 0; i < vt_slow_down; i++) { 1671 for (j = 0; j < 1000; j++) 1672 vt_flush(vd); 1673 } 1674 } else if (!(vd->vd_flags & VDF_ASYNC)) { 1675 vt_flush(vd); 1676 } 1677 } 1678 1679 #ifdef DEV_SPLASH 1680 static void 1681 vtterm_splash(struct vt_device *vd) 1682 { 1683 struct splash_info *si; 1684 uintptr_t image; 1685 vt_axis_t top, left; 1686 1687 if (KERNEL_PANICKED()) 1688 return; 1689 1690 if ((vd->vd_flags & VDF_TEXTMODE) != 0 || (boothowto & RB_MUTE) == 0) 1691 return; 1692 1693 si = MD_FETCH(preload_kmdp, rebooting == 1 ? MODINFOMD_SHTDWNSPLASH : 1694 MODINFOMD_SPLASH, struct splash_info *); 1695 if (si == NULL) { 1696 if (vd->vd_driver->vd_bitblt_bmp == NULL) 1697 return; 1698 } else if (vd->vd_driver->vd_bitblt_argb == NULL) 1699 return; 1700 1701 if (rebooting == 1) { 1702 if (vd->vd_driver->vd_blank == NULL) 1703 return; 1704 vd->vd_driver->vd_blank(vd, TC_BLACK); 1705 } 1706 1707 if (si == NULL) { 1708 top = (vd->vd_height - vt_logo_height) / 2; 1709 left = (vd->vd_width - vt_logo_width) / 2; 1710 vd->vd_driver->vd_bitblt_bmp(vd, 1711 vd->vd_curwindow, vt_logo_image, NULL, vt_logo_width, 1712 vt_logo_height, left, top, TC_WHITE, TC_BLACK); 1713 } else { 1714 if (si->si_depth != 4) 1715 return; 1716 image = (uintptr_t)si + sizeof(struct splash_info); 1717 image = roundup2(image, 8); 1718 top = (vd->vd_height - si->si_height) / 2; 1719 left = (vd->vd_width - si->si_width) / 2; 1720 vd->vd_driver->vd_bitblt_argb(vd, vd->vd_curwindow, 1721 (unsigned char *)image, si->si_width, si->si_height, 1722 left, top); 1723 } 1724 vd->vd_flags |= VDF_SPLASH; 1725 } 1726 #endif 1727 1728 static struct vt_font * 1729 parse_font_info_static(struct font_info *fi) 1730 { 1731 struct vt_font *vfp; 1732 uintptr_t ptr; 1733 uint32_t checksum; 1734 1735 if (fi == NULL) 1736 return (NULL); 1737 1738 ptr = (uintptr_t)fi; 1739 /* 1740 * Compute and verify checksum. The total sum of all the fields 1741 * must be 0. 1742 */ 1743 checksum = fi->fi_width; 1744 checksum += fi->fi_height; 1745 checksum += fi->fi_bitmap_size; 1746 for (unsigned i = 0; i < VFNT_MAPS; i++) 1747 checksum += fi->fi_map_count[i]; 1748 1749 if (checksum + fi->fi_checksum != 0) 1750 return (NULL); 1751 1752 ptr += sizeof(struct font_info); 1753 ptr = roundup2(ptr, 8); 1754 1755 vfp = &vt_font_loader; 1756 vfp->vf_height = fi->fi_height; 1757 vfp->vf_width = fi->fi_width; 1758 /* This is default font, set refcount 1 to disable removal. */ 1759 vfp->vf_refcount = 1; 1760 for (unsigned i = 0; i < VFNT_MAPS; i++) { 1761 if (fi->fi_map_count[i] == 0) 1762 continue; 1763 vfp->vf_map_count[i] = fi->fi_map_count[i]; 1764 vfp->vf_map[i] = (vfnt_map_t *)ptr; 1765 ptr += (fi->fi_map_count[i] * sizeof(vfnt_map_t)); 1766 ptr = roundup2(ptr, 8); 1767 } 1768 vfp->vf_bytes = (uint8_t *)ptr; 1769 return (vfp); 1770 } 1771 1772 /* 1773 * Set up default font with allocated data structures. 1774 * However, we can not set refcount here, because it is already set and 1775 * incremented in vtterm_cnprobe() to avoid being released by font load from 1776 * userland. 1777 */ 1778 static struct vt_font * 1779 parse_font_info(struct font_info *fi) 1780 { 1781 struct vt_font *vfp; 1782 uintptr_t ptr; 1783 uint32_t checksum; 1784 size_t size; 1785 1786 if (fi == NULL) 1787 return (NULL); 1788 1789 ptr = (uintptr_t)fi; 1790 /* 1791 * Compute and verify checksum. The total sum of all the fields 1792 * must be 0. 1793 */ 1794 checksum = fi->fi_width; 1795 checksum += fi->fi_height; 1796 checksum += fi->fi_bitmap_size; 1797 for (unsigned i = 0; i < VFNT_MAPS; i++) 1798 checksum += fi->fi_map_count[i]; 1799 1800 if (checksum + fi->fi_checksum != 0) 1801 return (NULL); 1802 1803 ptr += sizeof(struct font_info); 1804 ptr = roundup2(ptr, 8); 1805 1806 vfp = &vt_font_loader; 1807 vfp->vf_height = fi->fi_height; 1808 vfp->vf_width = fi->fi_width; 1809 for (unsigned i = 0; i < VFNT_MAPS; i++) { 1810 if (fi->fi_map_count[i] == 0) 1811 continue; 1812 vfp->vf_map_count[i] = fi->fi_map_count[i]; 1813 size = fi->fi_map_count[i] * sizeof(vfnt_map_t); 1814 vfp->vf_map[i] = malloc(size, M_VT, M_WAITOK | M_ZERO); 1815 bcopy((vfnt_map_t *)ptr, vfp->vf_map[i], size); 1816 ptr += size; 1817 ptr = roundup2(ptr, 8); 1818 } 1819 vfp->vf_bytes = malloc(fi->fi_bitmap_size, M_VT, M_WAITOK | M_ZERO); 1820 bcopy((uint8_t *)ptr, vfp->vf_bytes, fi->fi_bitmap_size); 1821 return (vfp); 1822 } 1823 1824 static void 1825 vt_init_font(void *arg) 1826 { 1827 struct font_info *fi; 1828 struct vt_font *font; 1829 1830 fi = MD_FETCH(preload_kmdp, MODINFOMD_FONT, struct font_info *); 1831 1832 font = parse_font_info(fi); 1833 if (font != NULL) 1834 vt_font_assigned = font; 1835 } 1836 1837 SYSINIT(vt_init_font, SI_SUB_KMEM, SI_ORDER_ANY, vt_init_font, &vt_consdev); 1838 1839 static void 1840 vt_init_font_static(void) 1841 { 1842 struct font_info *fi; 1843 struct vt_font *font; 1844 1845 fi = MD_FETCH(preload_kmdp, MODINFOMD_FONT, struct font_info *); 1846 1847 font = parse_font_info_static(fi); 1848 if (font != NULL) 1849 vt_font_assigned = font; 1850 } 1851 1852 #ifdef DEV_SPLASH 1853 static int 1854 vt_shutdown_splash(struct vt_window *vw) 1855 { 1856 vtterm_splash(vw->vw_device); 1857 return (0); 1858 } 1859 #endif 1860 1861 static void 1862 vtterm_cnprobe(struct terminal *tm, struct consdev *cp) 1863 { 1864 struct vt_driver *vtd, **vtdlist, *vtdbest = NULL; 1865 struct vt_window *vw = tm->tm_softc; 1866 struct vt_device *vd = vw->vw_device; 1867 struct winsize wsz; 1868 const term_attr_t *a; 1869 1870 if (!vty_enabled(VTY_VT)) 1871 return; 1872 1873 if (vd->vd_flags & VDF_INITIALIZED) 1874 /* Initialization already done. */ 1875 return; 1876 1877 SET_FOREACH(vtdlist, vt_drv_set) { 1878 vtd = *vtdlist; 1879 if (vtd->vd_probe == NULL) 1880 continue; 1881 if (vtd->vd_probe(vd) == CN_DEAD) 1882 continue; 1883 if ((vtdbest == NULL) || 1884 (vtd->vd_priority > vtdbest->vd_priority)) 1885 vtdbest = vtd; 1886 } 1887 if (vtdbest == NULL) { 1888 cp->cn_pri = CN_DEAD; 1889 vd->vd_flags |= VDF_DEAD; 1890 } else { 1891 vd->vd_driver = vtdbest; 1892 cp->cn_pri = vd->vd_driver->vd_init(vd); 1893 } 1894 1895 /* Check if driver's vt_init return CN_DEAD. */ 1896 if (cp->cn_pri == CN_DEAD) { 1897 vd->vd_flags |= VDF_DEAD; 1898 } 1899 1900 /* Initialize any early-boot keyboard drivers */ 1901 kbd_configure(KB_CONF_PROBE_ONLY); 1902 1903 vd->vd_unit = atomic_fetchadd_int(&vt_unit, 1); 1904 vd->vd_windows[VT_CONSWINDOW] = vw; 1905 sprintf(cp->cn_name, "ttyv%r", VT_UNIT(vw)); 1906 1907 vt_init_font_static(); 1908 1909 /* Attach default font if not in TEXTMODE. */ 1910 if ((vd->vd_flags & VDF_TEXTMODE) == 0) { 1911 vw->vw_font = vtfont_ref(vt_font_assigned); 1912 vt_compute_drawable_area(vw); 1913 } 1914 1915 /* 1916 * The original screen size was faked (_VTDEFW x _VTDEFH). Now 1917 * that we have the real viewable size, fix it in the static 1918 * buffer. 1919 */ 1920 if (vd->vd_width != 0 && vd->vd_height != 0) 1921 vt_termsize(vd, vw->vw_font, &vw->vw_buf.vb_scr_size); 1922 1923 /* We need to access terminal attributes from vtbuf */ 1924 vw->vw_buf.vb_terminal = tm; 1925 vtbuf_init_early(&vw->vw_buf); 1926 vt_winsize(vd, vw->vw_font, &wsz); 1927 a = teken_get_curattr(&tm->tm_emulator); 1928 terminal_set_winsize_blank(tm, &wsz, 1, a); 1929 1930 if (vtdbest != NULL) { 1931 #ifdef DEV_SPLASH 1932 if (!vt_splash_cpu) 1933 vtterm_splash(vd); 1934 #endif 1935 vd->vd_flags |= VDF_INITIALIZED; 1936 } 1937 } 1938 1939 static int 1940 vtterm_cngetc(struct terminal *tm) 1941 { 1942 struct vt_window *vw = tm->tm_softc; 1943 struct vt_device *vd = vw->vw_device; 1944 keyboard_t *kbd; 1945 u_int c; 1946 1947 if (vw->vw_kbdsq && *vw->vw_kbdsq) 1948 return (*vw->vw_kbdsq++); 1949 1950 /* Make sure the splash screen is not there. */ 1951 if (vd->vd_flags & VDF_SPLASH) { 1952 /* Remove splash */ 1953 vd->vd_flags &= ~VDF_SPLASH; 1954 /* Mark screen as invalid to force update */ 1955 vd->vd_flags |= VDF_INVALID; 1956 vt_flush(vd); 1957 } 1958 1959 /* Stripped down keyboard handler. */ 1960 if ((kbd = vd->vd_keyboard) == NULL) 1961 return (-1); 1962 1963 /* Force keyboard input mode to K_XLATE */ 1964 vw->vw_kbdmode = K_XLATE; 1965 vt_update_kbd_mode(vw, kbd); 1966 1967 /* Switch the keyboard to polling to make it work here. */ 1968 kbdd_poll(kbd, TRUE); 1969 c = kbdd_read_char(kbd, 0); 1970 kbdd_poll(kbd, FALSE); 1971 if (c & RELKEY) 1972 return (-1); 1973 1974 if (vw->vw_flags & VWF_SCROLL) { 1975 vt_scrollmode_kbdevent(vw, c, 1/* Console mode */); 1976 vt_flush(vd); 1977 return (-1); 1978 } 1979 1980 /* Stripped down handling of vt_kbdevent(), without locking, etc. */ 1981 if (c & SPCLKEY) { 1982 switch (c) { 1983 case SPCLKEY | SLK: 1984 vt_save_kbd_state(vw, kbd); 1985 if (vw->vw_kbdstate & SLKED) { 1986 /* Turn scrolling on. */ 1987 vw->vw_flags |= VWF_SCROLL; 1988 VTBUF_SLCK_ENABLE(&vw->vw_buf); 1989 } else { 1990 /* Turn scrolling off. */ 1991 vt_scroll(vw, 0, VHS_END); 1992 vw->vw_flags &= ~VWF_SCROLL; 1993 VTBUF_SLCK_DISABLE(&vw->vw_buf); 1994 } 1995 break; 1996 case SPCLKEY | BTAB: /* Back tab (usually, shift+tab). */ 1997 vw->vw_kbdsq = "\x1b[Z"; 1998 break; 1999 /* XXX: KDB can handle history. */ 2000 case SPCLKEY | FKEY | F(50): /* Arrow up. */ 2001 vw->vw_kbdsq = "\x1b[A"; 2002 break; 2003 case SPCLKEY | FKEY | F(58): /* Arrow down. */ 2004 vw->vw_kbdsq = "\x1b[B"; 2005 break; 2006 case SPCLKEY | FKEY | F(55): /* Arrow right. */ 2007 vw->vw_kbdsq = "\x1b[C"; 2008 break; 2009 case SPCLKEY | FKEY | F(53): /* Arrow left. */ 2010 vw->vw_kbdsq = "\x1b[D"; 2011 break; 2012 } 2013 2014 /* Force refresh to make scrollback work. */ 2015 vt_flush(vd); 2016 } else if (KEYFLAGS(c) == 0) { 2017 return (KEYCHAR(c)); 2018 } 2019 2020 if (vw->vw_kbdsq && *vw->vw_kbdsq) 2021 return (*vw->vw_kbdsq++); 2022 2023 return (-1); 2024 } 2025 2026 /* 2027 * These two do most of what we want to do in vtterm_cnungrab, but without 2028 * actually switching windows. This is necessary for, e.g., 2029 * vt_allocate_keyboard() to get the current keyboard into the state it needs to 2030 * be in without damaging the device's window state. 2031 * 2032 * Both return the current grab count, though it's only used in vtterm_cnungrab. 2033 */ 2034 static int 2035 vtterm_cngrab_noswitch(struct vt_device *vd, struct vt_window *vw) 2036 { 2037 keyboard_t *kbd; 2038 2039 if (vw->vw_grabbed++ > 0) 2040 return (vw->vw_grabbed); 2041 2042 if ((kbd = vd->vd_keyboard) == NULL) 2043 return (1); 2044 2045 /* 2046 * Make sure the keyboard is accessible even when the kbd device 2047 * driver is disabled. 2048 */ 2049 kbdd_enable(kbd); 2050 2051 /* We shall always use the keyboard in the XLATE mode here. */ 2052 vw->vw_prev_kbdmode = vw->vw_kbdmode; 2053 vw->vw_kbdmode = K_XLATE; 2054 vt_update_kbd_mode(vw, kbd); 2055 2056 kbdd_poll(kbd, TRUE); 2057 return (1); 2058 } 2059 2060 static int 2061 vtterm_cnungrab_noswitch(struct vt_device *vd, struct vt_window *vw) 2062 { 2063 keyboard_t *kbd; 2064 2065 if (--vw->vw_grabbed > 0) 2066 return (vw->vw_grabbed); 2067 2068 if ((kbd = vd->vd_keyboard) == NULL) 2069 return (0); 2070 2071 kbdd_poll(kbd, FALSE); 2072 2073 vw->vw_kbdmode = vw->vw_prev_kbdmode; 2074 vt_update_kbd_mode(vw, kbd); 2075 kbdd_disable(kbd); 2076 return (0); 2077 } 2078 2079 static void 2080 vtterm_cngrab(struct terminal *tm) 2081 { 2082 struct vt_device *vd; 2083 struct vt_window *vw; 2084 2085 vw = tm->tm_softc; 2086 vd = vw->vw_device; 2087 2088 /* To be restored after we ungrab. */ 2089 if (vd->vd_grabwindow == NULL) 2090 vd->vd_grabwindow = vd->vd_curwindow; 2091 2092 if (!cold) 2093 vt_window_switch(vw); 2094 2095 vtterm_cngrab_noswitch(vd, vw); 2096 } 2097 2098 static void 2099 vtterm_cnungrab(struct terminal *tm) 2100 { 2101 struct vt_device *vd; 2102 struct vt_window *vw, *grabwindow; 2103 2104 vw = tm->tm_softc; 2105 vd = vw->vw_device; 2106 2107 MPASS(vd->vd_grabwindow != NULL); 2108 if (vtterm_cnungrab_noswitch(vd, vw) != 0) 2109 return; 2110 2111 /* 2112 * We set `vd_grabwindow` to NULL before calling vt_window_switch() 2113 * because it allows the underlying vt(4) backend to distinguish a 2114 * "grab" from an "ungrab" of the console. 2115 * 2116 * This is used by `vt_drmfb` in drm-kmod to call either 2117 * fb_debug_enter() or fb_debug_leave() appropriately. 2118 */ 2119 grabwindow = vd->vd_grabwindow; 2120 vd->vd_grabwindow = NULL; 2121 2122 if (!cold) 2123 vt_window_switch(grabwindow); 2124 } 2125 2126 static void 2127 vtterm_opened(struct terminal *tm, int opened) 2128 { 2129 struct vt_window *vw = tm->tm_softc; 2130 struct vt_device *vd = vw->vw_device; 2131 2132 VT_LOCK(vd); 2133 vd->vd_flags &= ~VDF_SPLASH; 2134 if (opened) 2135 vw->vw_flags |= VWF_OPENED; 2136 else { 2137 vw->vw_flags &= ~VWF_OPENED; 2138 /* TODO: finish ACQ/REL */ 2139 } 2140 VT_UNLOCK(vd); 2141 } 2142 2143 static int 2144 vt_change_font(struct vt_window *vw, struct vt_font *vf) 2145 { 2146 struct vt_device *vd = vw->vw_device; 2147 struct terminal *tm = vw->vw_terminal; 2148 term_pos_t size; 2149 struct winsize wsz; 2150 2151 /* 2152 * Changing fonts. 2153 * 2154 * Changing fonts is a little tricky. We must prevent 2155 * simultaneous access to the device, so we must stop 2156 * the display timer and the terminal from accessing. 2157 * We need to switch fonts and grow our screen buffer. 2158 * 2159 * XXX: Right now the code uses terminal_mute() to 2160 * prevent data from reaching the console driver while 2161 * resizing the screen buffer. This isn't elegant... 2162 */ 2163 2164 VT_LOCK(vd); 2165 if (vw->vw_flags & VWF_BUSY) { 2166 /* Another process is changing the font. */ 2167 VT_UNLOCK(vd); 2168 return (EBUSY); 2169 } 2170 vw->vw_flags |= VWF_BUSY; 2171 VT_UNLOCK(vd); 2172 2173 vt_termsize(vd, vf, &size); 2174 vt_winsize(vd, vf, &wsz); 2175 2176 /* Grow the screen buffer and terminal. */ 2177 terminal_mute(tm, 1); 2178 vtbuf_grow(&vw->vw_buf, &size, vw->vw_buf.vb_history_size); 2179 terminal_set_winsize_blank(tm, &wsz, 0, NULL); 2180 terminal_set_cursor(tm, &vw->vw_buf.vb_cursor); 2181 terminal_mute(tm, 0); 2182 2183 /* Actually apply the font to the current window. */ 2184 VT_LOCK(vd); 2185 if (vw->vw_font != vf && vw->vw_font != NULL && vf != NULL) { 2186 /* 2187 * In case vt_change_font called to update size we don't need 2188 * to update font link. 2189 */ 2190 vtfont_unref(vw->vw_font); 2191 vw->vw_font = vtfont_ref(vf); 2192 } 2193 2194 /* 2195 * Compute the drawable area and move the mouse cursor inside 2196 * it, in case the new area is smaller than the previous one. 2197 */ 2198 vt_compute_drawable_area(vw); 2199 vd->vd_mx = min(vd->vd_mx, 2200 vw->vw_draw_area.tr_end.tp_col - 2201 vw->vw_draw_area.tr_begin.tp_col - 1); 2202 vd->vd_my = min(vd->vd_my, 2203 vw->vw_draw_area.tr_end.tp_row - 2204 vw->vw_draw_area.tr_begin.tp_row - 1); 2205 2206 /* Force a full redraw the next timer tick. */ 2207 if (vd->vd_curwindow == vw) { 2208 vd->vd_flags |= VDF_INVALID; 2209 vt_resume_flush_timer(vw, 0); 2210 } 2211 vw->vw_flags &= ~VWF_BUSY; 2212 VT_UNLOCK(vd); 2213 return (0); 2214 } 2215 2216 static int 2217 vt_proc_alive(struct vt_window *vw) 2218 { 2219 struct proc *p; 2220 2221 if (vw->vw_smode.mode != VT_PROCESS) 2222 return (FALSE); 2223 2224 if (vw->vw_proc) { 2225 if ((p = pfind(vw->vw_pid)) != NULL) 2226 PROC_UNLOCK(p); 2227 if (vw->vw_proc == p) 2228 return (TRUE); 2229 vw->vw_proc = NULL; 2230 vw->vw_smode.mode = VT_AUTO; 2231 DPRINTF(1, "vt controlling process %d died\n", vw->vw_pid); 2232 vw->vw_pid = 0; 2233 } 2234 return (FALSE); 2235 } 2236 2237 static int 2238 signal_vt_rel(struct vt_window *vw) 2239 { 2240 2241 if (vw->vw_smode.mode != VT_PROCESS) 2242 return (FALSE); 2243 if (vw->vw_proc == NULL || vt_proc_alive(vw) == FALSE) { 2244 vw->vw_proc = NULL; 2245 vw->vw_pid = 0; 2246 return (TRUE); 2247 } 2248 vw->vw_flags |= VWF_SWWAIT_REL; 2249 PROC_LOCK(vw->vw_proc); 2250 kern_psignal(vw->vw_proc, vw->vw_smode.relsig); 2251 PROC_UNLOCK(vw->vw_proc); 2252 DPRINTF(1, "sending relsig to %d\n", vw->vw_pid); 2253 return (TRUE); 2254 } 2255 2256 static int 2257 signal_vt_acq(struct vt_window *vw) 2258 { 2259 2260 if (vw->vw_smode.mode != VT_PROCESS) 2261 return (FALSE); 2262 if (vw == vw->vw_device->vd_windows[VT_CONSWINDOW]) 2263 cnavailable(vw->vw_terminal->consdev, FALSE); 2264 if (vw->vw_proc == NULL || vt_proc_alive(vw) == FALSE) { 2265 vw->vw_proc = NULL; 2266 vw->vw_pid = 0; 2267 return (TRUE); 2268 } 2269 vw->vw_flags |= VWF_SWWAIT_ACQ; 2270 PROC_LOCK(vw->vw_proc); 2271 kern_psignal(vw->vw_proc, vw->vw_smode.acqsig); 2272 PROC_UNLOCK(vw->vw_proc); 2273 DPRINTF(1, "sending acqsig to %d\n", vw->vw_pid); 2274 return (TRUE); 2275 } 2276 2277 static int 2278 finish_vt_rel(struct vt_window *vw, int release, int *s) 2279 { 2280 2281 if (vw->vw_flags & VWF_SWWAIT_REL) { 2282 vw->vw_flags &= ~VWF_SWWAIT_REL; 2283 if (release) { 2284 taskqueue_drain_timeout(taskqueue_thread, &vw->vw_timeout_task_dead); 2285 (void)vt_late_window_switch(vw->vw_switch_to); 2286 } 2287 return (0); 2288 } 2289 return (EINVAL); 2290 } 2291 2292 static int 2293 finish_vt_acq(struct vt_window *vw) 2294 { 2295 2296 if (vw->vw_flags & VWF_SWWAIT_ACQ) { 2297 vw->vw_flags &= ~VWF_SWWAIT_ACQ; 2298 return (0); 2299 } 2300 return (EINVAL); 2301 } 2302 2303 #ifndef SC_NO_CUTPASTE 2304 static void 2305 vt_mouse_terminput_button(struct vt_device *vd, int button) 2306 { 2307 struct vt_window *vw; 2308 struct vt_font *vf; 2309 char mouseb[6] = "\x1B[M"; 2310 int i, x, y; 2311 2312 vw = vd->vd_curwindow; 2313 vf = vw->vw_font; 2314 2315 /* Translate to char position. */ 2316 x = vd->vd_mx / vf->vf_width; 2317 y = vd->vd_my / vf->vf_height; 2318 /* Avoid overflow. */ 2319 x = MIN(x, 255 - '!'); 2320 y = MIN(y, 255 - '!'); 2321 2322 mouseb[3] = ' ' + button; 2323 mouseb[4] = '!' + x; 2324 mouseb[5] = '!' + y; 2325 2326 for (i = 0; i < sizeof(mouseb); i++) 2327 terminal_input_char(vw->vw_terminal, mouseb[i]); 2328 } 2329 2330 static void 2331 vt_mouse_terminput(struct vt_device *vd, int type, int x, int y, int event, 2332 int cnt) 2333 { 2334 2335 switch (type) { 2336 case MOUSE_BUTTON_EVENT: 2337 if (cnt > 0) { 2338 /* Mouse button pressed. */ 2339 if (event & MOUSE_BUTTON1DOWN) 2340 vt_mouse_terminput_button(vd, 0); 2341 if (event & MOUSE_BUTTON2DOWN) 2342 vt_mouse_terminput_button(vd, 1); 2343 if (event & MOUSE_BUTTON3DOWN) 2344 vt_mouse_terminput_button(vd, 2); 2345 } else { 2346 /* Mouse button released. */ 2347 vt_mouse_terminput_button(vd, 3); 2348 } 2349 break; 2350 #ifdef notyet 2351 case MOUSE_MOTION_EVENT: 2352 if (mouse->u.data.z < 0) { 2353 /* Scroll up. */ 2354 sc_mouse_input_button(vd, 64); 2355 } else if (mouse->u.data.z > 0) { 2356 /* Scroll down. */ 2357 sc_mouse_input_button(vd, 65); 2358 } 2359 break; 2360 #endif 2361 } 2362 } 2363 2364 static void 2365 vt_mouse_paste(void) 2366 { 2367 term_char_t *buf; 2368 int i, len; 2369 2370 len = VD_PASTEBUFLEN(main_vd); 2371 buf = VD_PASTEBUF(main_vd); 2372 len /= sizeof(term_char_t); 2373 for (i = 0; i < len; i++) { 2374 if (TCHAR_CHARACTER(buf[i]) == '\0') 2375 continue; 2376 terminal_input_char(main_vd->vd_curwindow->vw_terminal, 2377 buf[i]); 2378 } 2379 } 2380 2381 void 2382 vt_mouse_event(int type, int x, int y, int event, int cnt, int mlevel) 2383 { 2384 struct vt_device *vd; 2385 struct vt_window *vw; 2386 struct vt_font *vf; 2387 term_pos_t size; 2388 int len, mark; 2389 2390 vd = main_vd; 2391 vw = vd->vd_curwindow; 2392 vf = vw->vw_font; 2393 2394 if (vw->vw_flags & (VWF_MOUSE_HIDE | VWF_GRAPHICS)) 2395 /* 2396 * Either the mouse is disabled, or the window is in 2397 * "graphics mode". The graphics mode is usually set by 2398 * an X server, using the KDSETMODE ioctl. 2399 */ 2400 return; 2401 2402 if (vf == NULL) /* Text mode. */ 2403 return; 2404 2405 /* 2406 * TODO: add flag about pointer position changed, to not redraw chars 2407 * under mouse pointer when nothing changed. 2408 */ 2409 2410 if (vw->vw_mouse_level > 0) 2411 vt_mouse_terminput(vd, type, x, y, event, cnt); 2412 2413 switch (type) { 2414 case MOUSE_ACTION: 2415 case MOUSE_MOTION_EVENT: 2416 /* Movement */ 2417 x += vd->vd_mx; 2418 y += vd->vd_my; 2419 2420 vt_termsize(vd, vf, &size); 2421 2422 /* Apply limits. */ 2423 x = MAX(x, 0); 2424 y = MAX(y, 0); 2425 x = MIN(x, (size.tp_col * vf->vf_width) - 1); 2426 y = MIN(y, (size.tp_row * vf->vf_height) - 1); 2427 2428 vd->vd_mx = x; 2429 vd->vd_my = y; 2430 if (vd->vd_mstate & (MOUSE_BUTTON1DOWN | VT_MOUSE_EXTENDBUTTON)) 2431 vtbuf_set_mark(&vw->vw_buf, VTB_MARK_MOVE, 2432 vd->vd_mx / vf->vf_width, 2433 vd->vd_my / vf->vf_height); 2434 2435 vt_resume_flush_timer(vw, 0); 2436 return; /* Done */ 2437 case MOUSE_BUTTON_EVENT: 2438 /* Buttons */ 2439 break; 2440 default: 2441 return; /* Done */ 2442 } 2443 2444 switch (event) { 2445 case MOUSE_BUTTON1DOWN: 2446 switch (cnt % 4) { 2447 case 0: /* up */ 2448 mark = VTB_MARK_END; 2449 break; 2450 case 1: /* single click: start cut operation */ 2451 mark = VTB_MARK_START; 2452 break; 2453 case 2: /* double click: cut a word */ 2454 mark = VTB_MARK_WORD; 2455 break; 2456 default: /* triple click: cut a line */ 2457 mark = VTB_MARK_ROW; 2458 break; 2459 } 2460 break; 2461 case VT_MOUSE_PASTEBUTTON: 2462 switch (cnt) { 2463 case 0: /* up */ 2464 break; 2465 default: 2466 vt_mouse_paste(); 2467 /* clear paste buffer selection after paste */ 2468 vtbuf_set_mark(&vw->vw_buf, VTB_MARK_START, 2469 vd->vd_mx / vf->vf_width, 2470 vd->vd_my / vf->vf_height); 2471 break; 2472 } 2473 return; /* Done */ 2474 case VT_MOUSE_EXTENDBUTTON: 2475 switch (cnt) { 2476 case 0: /* up */ 2477 if (!(vd->vd_mstate & MOUSE_BUTTON1DOWN)) 2478 mark = VTB_MARK_EXTEND; 2479 else 2480 mark = VTB_MARK_NONE; 2481 break; 2482 default: 2483 mark = VTB_MARK_EXTEND; 2484 break; 2485 } 2486 break; 2487 default: 2488 return; /* Done */ 2489 } 2490 2491 /* Save buttons state. */ 2492 if (cnt > 0) 2493 vd->vd_mstate |= event; 2494 else 2495 vd->vd_mstate &= ~event; 2496 2497 if (vtbuf_set_mark(&vw->vw_buf, mark, vd->vd_mx / vf->vf_width, 2498 vd->vd_my / vf->vf_height) == 1) { 2499 /* 2500 * We have something marked to copy, so update pointer to 2501 * window with selection. 2502 */ 2503 vt_resume_flush_timer(vw, 0); 2504 2505 switch (mark) { 2506 case VTB_MARK_END: 2507 case VTB_MARK_WORD: 2508 case VTB_MARK_ROW: 2509 case VTB_MARK_EXTEND: 2510 break; 2511 default: 2512 /* Other types of mark do not require to copy data. */ 2513 return; 2514 } 2515 2516 /* Get current selection size in bytes. */ 2517 len = vtbuf_get_marked_len(&vw->vw_buf); 2518 if (len <= 0) 2519 return; 2520 2521 /* Reallocate buffer only if old one is too small. */ 2522 if (len > VD_PASTEBUFSZ(vd)) { 2523 VD_PASTEBUF(vd) = realloc(VD_PASTEBUF(vd), len, M_VT, 2524 M_WAITOK | M_ZERO); 2525 /* Update buffer size. */ 2526 VD_PASTEBUFSZ(vd) = len; 2527 } 2528 /* Request copy/paste buffer data, no more than `len' */ 2529 vtbuf_extract_marked(&vw->vw_buf, VD_PASTEBUF(vd), len, mark); 2530 2531 VD_PASTEBUFLEN(vd) = len; 2532 2533 /* XXX VD_PASTEBUF(vd) have to be freed on shutdown/unload. */ 2534 } 2535 } 2536 2537 void 2538 vt_mouse_state(int show) 2539 { 2540 struct vt_device *vd; 2541 struct vt_window *vw; 2542 2543 vd = main_vd; 2544 vw = vd->vd_curwindow; 2545 2546 switch (show) { 2547 case VT_MOUSE_HIDE: 2548 vw->vw_flags |= VWF_MOUSE_HIDE; 2549 break; 2550 case VT_MOUSE_SHOW: 2551 vw->vw_flags &= ~VWF_MOUSE_HIDE; 2552 break; 2553 } 2554 2555 /* Mark mouse position as dirty. */ 2556 vt_mark_mouse_position_as_dirty(vd, false); 2557 vt_resume_flush_timer(vw, 0); 2558 } 2559 #endif 2560 2561 static int 2562 vtterm_mmap(struct terminal *tm, vm_ooffset_t offset, vm_paddr_t * paddr, 2563 int nprot, vm_memattr_t *memattr) 2564 { 2565 struct vt_window *vw = tm->tm_softc; 2566 struct vt_device *vd = vw->vw_device; 2567 2568 if (vd->vd_driver->vd_fb_mmap) 2569 return (vd->vd_driver->vd_fb_mmap(vd, offset, paddr, nprot, 2570 memattr)); 2571 2572 return (ENXIO); 2573 } 2574 2575 static int 2576 vtterm_ioctl(struct terminal *tm, u_long cmd, caddr_t data, 2577 struct thread *td) 2578 { 2579 struct vt_window *vw = tm->tm_softc; 2580 struct vt_device *vd = vw->vw_device; 2581 keyboard_t *kbd; 2582 int error, i, s; 2583 #if defined(COMPAT_FREEBSD6) || defined(COMPAT_FREEBSD5) || \ 2584 defined(COMPAT_FREEBSD4) || defined(COMPAT_43) 2585 int ival; 2586 2587 switch (cmd) { 2588 case _IO('v', 4): 2589 cmd = VT_RELDISP; 2590 break; 2591 case _IO('v', 5): 2592 cmd = VT_ACTIVATE; 2593 break; 2594 case _IO('v', 6): 2595 cmd = VT_WAITACTIVE; 2596 break; 2597 case _IO('K', 20): 2598 cmd = KDSKBSTATE; 2599 break; 2600 case _IO('K', 67): 2601 cmd = KDSETRAD; 2602 break; 2603 case _IO('K', 7): 2604 cmd = KDSKBMODE; 2605 break; 2606 case _IO('K', 8): 2607 cmd = KDMKTONE; 2608 break; 2609 case _IO('K', 10): 2610 cmd = KDSETMODE; 2611 break; 2612 case _IO('K', 13): 2613 cmd = KDSBORDER; 2614 break; 2615 case _IO('K', 63): 2616 cmd = KIOCSOUND; 2617 break; 2618 case _IO('K', 66): 2619 cmd = KDSETLED; 2620 break; 2621 case _IO('c', 104): 2622 cmd = CONS_SETWINORG; 2623 break; 2624 case _IO('c', 110): 2625 cmd = CONS_SETKBD; 2626 break; 2627 default: 2628 goto skip_thunk; 2629 } 2630 ival = IOCPARM_IVAL(data); 2631 data = (caddr_t)&ival; 2632 skip_thunk: 2633 #endif 2634 2635 switch (cmd) { 2636 case KDSETRAD: /* set keyboard repeat & delay rates (old) */ 2637 if (*(int *)data & ~0x7f) 2638 return (EINVAL); 2639 /* FALLTHROUGH */ 2640 case GIO_KEYMAP: 2641 case PIO_KEYMAP: 2642 case GIO_DEADKEYMAP: 2643 case PIO_DEADKEYMAP: 2644 #ifdef COMPAT_FREEBSD13 2645 case OGIO_DEADKEYMAP: 2646 case OPIO_DEADKEYMAP: 2647 #endif /* COMPAT_FREEBSD13 */ 2648 case GETFKEY: 2649 case SETFKEY: 2650 case KDGKBINFO: 2651 case KDGKBTYPE: 2652 case KDGETREPEAT: /* get keyboard repeat & delay rates */ 2653 case KDSETREPEAT: /* set keyboard repeat & delay rates (new) */ 2654 case KBADDKBD: /* add keyboard to mux */ 2655 case KBRELKBD: { /* release keyboard from mux */ 2656 error = 0; 2657 2658 mtx_lock(&Giant); 2659 if ((kbd = vd->vd_keyboard) != NULL) 2660 error = kbdd_ioctl(kbd, cmd, data); 2661 mtx_unlock(&Giant); 2662 if (error == ENOIOCTL) { 2663 if (cmd == KDGKBTYPE) { 2664 /* always return something? XXX */ 2665 *(int *)data = 0; 2666 } else { 2667 return (ENODEV); 2668 } 2669 } 2670 return (error); 2671 } 2672 case KDGKBSTATE: { /* get keyboard state (locks) */ 2673 error = 0; 2674 2675 if (vw == vd->vd_curwindow) { 2676 mtx_lock(&Giant); 2677 if ((kbd = vd->vd_keyboard) != NULL) 2678 error = vt_save_kbd_state(vw, kbd); 2679 mtx_unlock(&Giant); 2680 2681 if (error != 0) 2682 return (error); 2683 } 2684 2685 *(int *)data = vw->vw_kbdstate & LOCK_MASK; 2686 2687 return (error); 2688 } 2689 case KDSKBSTATE: { /* set keyboard state (locks) */ 2690 int state; 2691 2692 state = *(int *)data; 2693 if (state & ~LOCK_MASK) 2694 return (EINVAL); 2695 2696 vw->vw_kbdstate &= ~LOCK_MASK; 2697 vw->vw_kbdstate |= state; 2698 2699 error = 0; 2700 if (vw == vd->vd_curwindow) { 2701 mtx_lock(&Giant); 2702 if ((kbd = vd->vd_keyboard) != NULL) 2703 error = vt_update_kbd_state(vw, kbd); 2704 mtx_unlock(&Giant); 2705 } 2706 2707 return (error); 2708 } 2709 case KDGETLED: { /* get keyboard LED status */ 2710 error = 0; 2711 2712 if (vw == vd->vd_curwindow) { 2713 mtx_lock(&Giant); 2714 if ((kbd = vd->vd_keyboard) != NULL) 2715 error = vt_save_kbd_leds(vw, kbd); 2716 mtx_unlock(&Giant); 2717 2718 if (error != 0) 2719 return (error); 2720 } 2721 2722 *(int *)data = vw->vw_kbdstate & LED_MASK; 2723 2724 return (error); 2725 } 2726 case KDSETLED: { /* set keyboard LED status */ 2727 int leds; 2728 2729 leds = *(int *)data; 2730 if (leds & ~LED_MASK) 2731 return (EINVAL); 2732 2733 vw->vw_kbdstate &= ~LED_MASK; 2734 vw->vw_kbdstate |= leds; 2735 2736 error = 0; 2737 if (vw == vd->vd_curwindow) { 2738 mtx_lock(&Giant); 2739 if ((kbd = vd->vd_keyboard) != NULL) 2740 error = vt_update_kbd_leds(vw, kbd); 2741 mtx_unlock(&Giant); 2742 } 2743 2744 return (error); 2745 } 2746 case KDGETMODE: 2747 *(int *)data = (vw->vw_flags & VWF_GRAPHICS) ? 2748 KD_GRAPHICS : KD_TEXT; 2749 return (0); 2750 case KDGKBMODE: { 2751 error = 0; 2752 2753 if (vw == vd->vd_curwindow) { 2754 mtx_lock(&Giant); 2755 if ((kbd = vd->vd_keyboard) != NULL) 2756 error = vt_save_kbd_mode(vw, kbd); 2757 mtx_unlock(&Giant); 2758 2759 if (error != 0) 2760 return (error); 2761 } 2762 2763 *(int *)data = vw->vw_kbdmode; 2764 2765 return (error); 2766 } 2767 case KDSKBMODE: { 2768 int mode; 2769 2770 mode = *(int *)data; 2771 switch (mode) { 2772 case K_XLATE: 2773 case K_RAW: 2774 case K_CODE: 2775 vw->vw_kbdmode = mode; 2776 2777 error = 0; 2778 if (vw == vd->vd_curwindow) { 2779 mtx_lock(&Giant); 2780 if ((kbd = vd->vd_keyboard) != NULL) 2781 error = vt_update_kbd_mode(vw, kbd); 2782 mtx_unlock(&Giant); 2783 } 2784 2785 return (error); 2786 default: 2787 return (EINVAL); 2788 } 2789 } 2790 case FBIOGTYPE: 2791 case FBIO_GETWINORG: /* get frame buffer window origin */ 2792 case FBIO_GETDISPSTART: /* get display start address */ 2793 case FBIO_GETLINEWIDTH: /* get scan line width in bytes */ 2794 case FBIO_BLANK: /* blank display */ 2795 case FBIO_GETRGBOFFS: /* get RGB offsets */ 2796 if (vd->vd_driver->vd_fb_ioctl) 2797 return (vd->vd_driver->vd_fb_ioctl(vd, cmd, data, td)); 2798 break; 2799 case CONS_BLANKTIME: 2800 /* XXX */ 2801 return (0); 2802 case CONS_HISTORY: 2803 if (*(int *)data < 0) 2804 return EINVAL; 2805 if (*(int *)data != vw->vw_buf.vb_history_size) 2806 vtbuf_sethistory_size(&vw->vw_buf, *(int *)data); 2807 return (0); 2808 case CONS_CLRHIST: 2809 vtbuf_clearhistory(&vw->vw_buf); 2810 /* 2811 * Invalidate the entire visible window; it is not guaranteed 2812 * that this operation will be immediately followed by a scroll 2813 * event, so it would otherwise be possible for prior artifacts 2814 * to remain visible. 2815 */ 2816 VT_LOCK(vd); 2817 if (vw == vd->vd_curwindow) { 2818 vd->vd_flags |= VDF_INVALID; 2819 vt_resume_flush_timer(vw, 0); 2820 } 2821 VT_UNLOCK(vd); 2822 return (0); 2823 case CONS_GET: 2824 /* XXX */ 2825 *(int *)data = M_CG640x480; 2826 return (0); 2827 case CONS_BELLTYPE: /* set bell type sound */ 2828 if ((*(int *)data) & CONS_QUIET_BELL) 2829 vd->vd_flags |= VDF_QUIET_BELL; 2830 else 2831 vd->vd_flags &= ~VDF_QUIET_BELL; 2832 return (0); 2833 case CONS_GETINFO: { 2834 vid_info_t *vi = (vid_info_t *)data; 2835 if (vi->size != sizeof(struct vid_info)) 2836 return (EINVAL); 2837 2838 if (vw == vd->vd_curwindow) { 2839 mtx_lock(&Giant); 2840 if ((kbd = vd->vd_keyboard) != NULL) 2841 vt_save_kbd_state(vw, kbd); 2842 mtx_unlock(&Giant); 2843 } 2844 2845 vi->m_num = vd->vd_curwindow->vw_number + 1; 2846 vi->mk_keylock = vw->vw_kbdstate & LOCK_MASK; 2847 /* XXX: other fields! */ 2848 return (0); 2849 } 2850 case CONS_GETVERS: 2851 *(int *)data = 0x200; 2852 return (0); 2853 case CONS_MODEINFO: 2854 /* XXX */ 2855 return (0); 2856 case CONS_MOUSECTL: { 2857 mouse_info_t *mouse = (mouse_info_t*)data; 2858 2859 /* 2860 * All the commands except MOUSE_SHOW nd MOUSE_HIDE 2861 * should not be applied to individual TTYs, but only to 2862 * consolectl. 2863 */ 2864 switch (mouse->operation) { 2865 case MOUSE_HIDE: 2866 if (vd->vd_flags & VDF_MOUSECURSOR) { 2867 vd->vd_flags &= ~VDF_MOUSECURSOR; 2868 #ifndef SC_NO_CUTPASTE 2869 vt_mouse_state(VT_MOUSE_HIDE); 2870 #endif 2871 } 2872 return (0); 2873 case MOUSE_SHOW: 2874 if (!(vd->vd_flags & VDF_MOUSECURSOR)) { 2875 vd->vd_flags |= VDF_MOUSECURSOR; 2876 vd->vd_mx = vd->vd_width / 2; 2877 vd->vd_my = vd->vd_height / 2; 2878 #ifndef SC_NO_CUTPASTE 2879 vt_mouse_state(VT_MOUSE_SHOW); 2880 #endif 2881 } 2882 return (0); 2883 default: 2884 return (EINVAL); 2885 } 2886 } 2887 case PIO_VFONT: { 2888 struct vt_font *vf; 2889 2890 if (vd->vd_flags & VDF_TEXTMODE) 2891 return (ENOTSUP); 2892 2893 error = vtfont_load((void *)data, &vf); 2894 if (error != 0) 2895 return (error); 2896 2897 error = vt_change_font(vw, vf); 2898 vtfont_unref(vf); 2899 return (error); 2900 } 2901 case PIO_VFONT_DEFAULT: { 2902 /* Reset to default font. */ 2903 error = vt_change_font(vw, vt_font_assigned); 2904 return (error); 2905 } 2906 case GIO_SCRNMAP: { 2907 scrmap_t *sm = (scrmap_t *)data; 2908 2909 /* We don't have screen maps, so return a handcrafted one. */ 2910 for (i = 0; i < 256; i++) 2911 sm->scrmap[i] = i; 2912 return (0); 2913 } 2914 case KDSETMODE: 2915 /* 2916 * FIXME: This implementation is incomplete compared to 2917 * syscons. 2918 */ 2919 switch (*(int *)data) { 2920 case KD_TEXT: 2921 case KD_TEXT1: 2922 case KD_PIXEL: 2923 vw->vw_flags &= ~VWF_GRAPHICS; 2924 break; 2925 case KD_GRAPHICS: 2926 vw->vw_flags |= VWF_GRAPHICS; 2927 break; 2928 } 2929 return (0); 2930 case KDENABIO: /* allow io operations */ 2931 error = priv_check(td, PRIV_IO); 2932 if (error != 0) 2933 return (error); 2934 error = securelevel_gt(td->td_ucred, 0); 2935 if (error != 0) 2936 return (error); 2937 #if defined(__i386__) 2938 td->td_frame->tf_eflags |= PSL_IOPL; 2939 #elif defined(__amd64__) 2940 td->td_frame->tf_rflags |= PSL_IOPL; 2941 #endif 2942 return (0); 2943 case KDDISABIO: /* disallow io operations (default) */ 2944 #if defined(__i386__) 2945 td->td_frame->tf_eflags &= ~PSL_IOPL; 2946 #elif defined(__amd64__) 2947 td->td_frame->tf_rflags &= ~PSL_IOPL; 2948 #endif 2949 return (0); 2950 case KDMKTONE: /* sound the bell */ 2951 vtterm_beep(tm, *(u_int *)data); 2952 return (0); 2953 case KIOCSOUND: /* make tone (*data) hz */ 2954 /* TODO */ 2955 return (0); 2956 case CONS_SETKBD: /* set the new keyboard */ 2957 mtx_lock(&Giant); 2958 error = 0; 2959 if (vd->vd_keyboard == NULL || 2960 vd->vd_keyboard->kb_index != *(int *)data) { 2961 kbd = kbd_get_keyboard(*(int *)data); 2962 if (kbd == NULL) { 2963 mtx_unlock(&Giant); 2964 return (EINVAL); 2965 } 2966 i = kbd_allocate(kbd->kb_name, kbd->kb_unit, 2967 (void *)vd, vt_kbdevent, vd); 2968 if (i >= 0) { 2969 if ((kbd = vd->vd_keyboard) != NULL) { 2970 vt_save_kbd_state(vd->vd_curwindow, kbd); 2971 kbd_release(kbd, (void *)vd); 2972 } 2973 kbd = vd->vd_keyboard = kbd_get_keyboard(i); 2974 2975 vt_update_kbd_mode(vd->vd_curwindow, kbd); 2976 vt_update_kbd_state(vd->vd_curwindow, kbd); 2977 } else { 2978 error = EPERM; /* XXX */ 2979 } 2980 } 2981 mtx_unlock(&Giant); 2982 return (error); 2983 case CONS_RELKBD: /* release the current keyboard */ 2984 mtx_lock(&Giant); 2985 error = 0; 2986 if ((kbd = vd->vd_keyboard) != NULL) { 2987 vt_save_kbd_state(vd->vd_curwindow, kbd); 2988 error = kbd_release(kbd, (void *)vd); 2989 if (error == 0) { 2990 vd->vd_keyboard = NULL; 2991 } 2992 } 2993 mtx_unlock(&Giant); 2994 return (error); 2995 case VT_ACTIVATE: { 2996 int win; 2997 win = *(int *)data - 1; 2998 DPRINTF(5, "%s%d: VT_ACTIVATE ttyv%d ", SC_DRIVER_NAME, 2999 VT_UNIT(vw), win); 3000 if ((win >= VT_MAXWINDOWS) || (win < 0)) 3001 return (EINVAL); 3002 return (vt_proc_window_switch(vd->vd_windows[win])); 3003 } 3004 case VT_GETACTIVE: 3005 *(int *)data = vd->vd_curwindow->vw_number + 1; 3006 return (0); 3007 case VT_GETINDEX: 3008 *(int *)data = vw->vw_number + 1; 3009 return (0); 3010 case VT_LOCKSWITCH: 3011 /* TODO: Check current state, switching can be in progress. */ 3012 if ((*(int *)data) == 0x01) 3013 vw->vw_flags |= VWF_VTYLOCK; 3014 else if ((*(int *)data) == 0x02) 3015 vw->vw_flags &= ~VWF_VTYLOCK; 3016 else 3017 return (EINVAL); 3018 return (0); 3019 case VT_OPENQRY: 3020 VT_LOCK(vd); 3021 for (i = 0; i < VT_MAXWINDOWS; i++) { 3022 vw = vd->vd_windows[i]; 3023 if (vw == NULL) 3024 continue; 3025 if (!(vw->vw_flags & VWF_OPENED)) { 3026 *(int *)data = vw->vw_number + 1; 3027 VT_UNLOCK(vd); 3028 return (0); 3029 } 3030 } 3031 VT_UNLOCK(vd); 3032 return (EINVAL); 3033 case VT_WAITACTIVE: { 3034 unsigned int idx; 3035 3036 error = 0; 3037 3038 idx = *(unsigned int *)data; 3039 if (idx > VT_MAXWINDOWS) 3040 return (EINVAL); 3041 if (idx > 0) 3042 vw = vd->vd_windows[idx - 1]; 3043 3044 VT_LOCK(vd); 3045 while (vd->vd_curwindow != vw && error == 0) 3046 error = cv_wait_sig(&vd->vd_winswitch, &vd->vd_lock); 3047 VT_UNLOCK(vd); 3048 return (error); 3049 } 3050 case VT_SETMODE: { /* set screen switcher mode */ 3051 struct vt_mode *mode; 3052 struct proc *p1; 3053 3054 mode = (struct vt_mode *)data; 3055 DPRINTF(5, "%s%d: VT_SETMODE ", SC_DRIVER_NAME, VT_UNIT(vw)); 3056 if (vw->vw_smode.mode == VT_PROCESS) { 3057 p1 = pfind(vw->vw_pid); 3058 if (vw->vw_proc == p1 && vw->vw_proc != td->td_proc) { 3059 if (p1) 3060 PROC_UNLOCK(p1); 3061 DPRINTF(5, "error EPERM\n"); 3062 return (EPERM); 3063 } 3064 if (p1) 3065 PROC_UNLOCK(p1); 3066 } 3067 if (mode->mode == VT_AUTO) { 3068 vw->vw_smode.mode = VT_AUTO; 3069 vw->vw_proc = NULL; 3070 vw->vw_pid = 0; 3071 DPRINTF(5, "VT_AUTO, "); 3072 if (vw == vw->vw_device->vd_windows[VT_CONSWINDOW]) 3073 cnavailable(vw->vw_terminal->consdev, TRUE); 3074 /* were we in the middle of the vty switching process? */ 3075 if (finish_vt_rel(vw, TRUE, &s) == 0) 3076 DPRINTF(5, "reset WAIT_REL, "); 3077 if (finish_vt_acq(vw) == 0) 3078 DPRINTF(5, "reset WAIT_ACQ, "); 3079 return (0); 3080 } else if (mode->mode == VT_PROCESS) { 3081 if (!(_SIG_VALID(mode->relsig) && 3082 _SIG_VALID(mode->acqsig) && 3083 (mode->frsig == 0 || _SIG_VALID(mode->frsig)))) { 3084 DPRINTF(5, "error EINVAL\n"); 3085 return (EINVAL); 3086 } 3087 DPRINTF(5, "VT_PROCESS %d, ", td->td_proc->p_pid); 3088 bcopy(data, &vw->vw_smode, sizeof(struct vt_mode)); 3089 vw->vw_proc = td->td_proc; 3090 vw->vw_pid = vw->vw_proc->p_pid; 3091 if (vw == vw->vw_device->vd_windows[VT_CONSWINDOW]) 3092 cnavailable(vw->vw_terminal->consdev, FALSE); 3093 } else { 3094 DPRINTF(5, "VT_SETMODE failed, unknown mode %d\n", 3095 mode->mode); 3096 return (EINVAL); 3097 } 3098 DPRINTF(5, "\n"); 3099 return (0); 3100 } 3101 case VT_GETMODE: /* get screen switcher mode */ 3102 bcopy(&vw->vw_smode, data, sizeof(struct vt_mode)); 3103 return (0); 3104 3105 case VT_RELDISP: /* screen switcher ioctl */ 3106 /* 3107 * This must be the current vty which is in the VT_PROCESS 3108 * switching mode... 3109 */ 3110 if ((vw != vd->vd_curwindow) || (vw->vw_smode.mode != 3111 VT_PROCESS)) { 3112 return (EINVAL); 3113 } 3114 /* ...and this process is controlling it. */ 3115 if (vw->vw_proc != td->td_proc) { 3116 return (EPERM); 3117 } 3118 error = EINVAL; 3119 switch(*(int *)data) { 3120 case VT_FALSE: /* user refuses to release screen, abort */ 3121 if ((error = finish_vt_rel(vw, FALSE, &s)) == 0) 3122 DPRINTF(5, "%s%d: VT_RELDISP: VT_FALSE\n", 3123 SC_DRIVER_NAME, VT_UNIT(vw)); 3124 break; 3125 case VT_TRUE: /* user has released screen, go on */ 3126 /* finish_vt_rel(..., TRUE, ...) should not be locked */ 3127 if (vw->vw_flags & VWF_SWWAIT_REL) { 3128 if ((error = finish_vt_rel(vw, TRUE, &s)) == 0) 3129 DPRINTF(5, "%s%d: VT_RELDISP: VT_TRUE\n", 3130 SC_DRIVER_NAME, VT_UNIT(vw)); 3131 } else { 3132 error = EINVAL; 3133 } 3134 return (error); 3135 case VT_ACKACQ: /* acquire acknowledged, switch completed */ 3136 if ((error = finish_vt_acq(vw)) == 0) 3137 DPRINTF(5, "%s%d: VT_RELDISP: VT_ACKACQ\n", 3138 SC_DRIVER_NAME, VT_UNIT(vw)); 3139 break; 3140 default: 3141 break; 3142 } 3143 return (error); 3144 } 3145 3146 return (ENOIOCTL); 3147 } 3148 3149 static struct vt_window * 3150 vt_allocate_window(struct vt_device *vd, unsigned int window) 3151 { 3152 struct vt_window *vw; 3153 struct terminal *tm; 3154 term_pos_t size; 3155 struct winsize wsz; 3156 3157 vw = malloc(sizeof *vw, M_VT, M_WAITOK|M_ZERO); 3158 vw->vw_device = vd; 3159 vw->vw_number = window; 3160 vw->vw_kbdmode = K_XLATE; 3161 3162 if ((vd->vd_flags & VDF_TEXTMODE) == 0) { 3163 vw->vw_font = vtfont_ref(vt_font_assigned); 3164 vt_compute_drawable_area(vw); 3165 } 3166 3167 vt_termsize(vd, vw->vw_font, &size); 3168 vt_winsize(vd, vw->vw_font, &wsz); 3169 tm = vw->vw_terminal = terminal_alloc(&vt_termclass, vw); 3170 vw->vw_buf.vb_terminal = tm; /* must be set before vtbuf_init() */ 3171 vtbuf_init(&vw->vw_buf, &size); 3172 3173 terminal_set_winsize(tm, &wsz); 3174 vd->vd_windows[window] = vw; 3175 TIMEOUT_TASK_INIT(taskqueue_thread, &vw->vw_timeout_task_dead, 0, &vt_switch_timer, vw); 3176 3177 return (vw); 3178 } 3179 3180 void 3181 vt_upgrade(struct vt_device *vd) 3182 { 3183 struct vt_window *vw; 3184 unsigned int i; 3185 int register_handlers; 3186 3187 if (!vty_enabled(VTY_VT)) 3188 return; 3189 if (main_vd->vd_driver == NULL) 3190 return; 3191 3192 for (i = 0; i < VT_MAXWINDOWS; i++) { 3193 vw = vd->vd_windows[i]; 3194 if (vw == NULL) { 3195 /* New window. */ 3196 vw = vt_allocate_window(vd, i); 3197 } 3198 if (!(vw->vw_flags & VWF_READY)) { 3199 TIMEOUT_TASK_INIT(taskqueue_thread, &vw->vw_timeout_task_dead, 0, &vt_switch_timer, vw); 3200 terminal_maketty(vw->vw_terminal, "v%r", VT_UNIT(vw)); 3201 vw->vw_flags |= VWF_READY; 3202 if (vw->vw_flags & VWF_CONSOLE) { 3203 /* For existing console window. */ 3204 EVENTHANDLER_REGISTER(shutdown_pre_sync, 3205 vt_window_switch, vw, SHUTDOWN_PRI_DEFAULT); 3206 #ifdef DEV_SPLASH 3207 EVENTHANDLER_REGISTER(shutdown_pre_sync, 3208 vt_shutdown_splash, vw, SHUTDOWN_PRI_DEFAULT + 1); 3209 #endif 3210 } 3211 } 3212 } 3213 VT_LOCK(vd); 3214 if (vd->vd_curwindow == NULL) 3215 vd->vd_curwindow = vd->vd_windows[VT_CONSWINDOW]; 3216 3217 register_handlers = 0; 3218 if (!(vd->vd_flags & VDF_ASYNC)) { 3219 /* Attach keyboard. */ 3220 vt_allocate_keyboard(vd); 3221 3222 /* Init 25 Hz timer. */ 3223 callout_init_mtx(&vd->vd_timer, &vd->vd_lock, 0); 3224 3225 /* 3226 * Start timer when everything ready. 3227 * Note that the operations here are purposefully ordered. 3228 * We need to ensure vd_timer_armed is non-zero before we set 3229 * the VDF_ASYNC flag. That prevents this function from 3230 * racing with vt_resume_flush_timer() to update the 3231 * callout structure. 3232 */ 3233 atomic_add_acq_int(&vd->vd_timer_armed, 1); 3234 vd->vd_flags |= VDF_ASYNC; 3235 callout_reset(&vd->vd_timer, hz / VT_TIMERFREQ, vt_timer, vd); 3236 register_handlers = 1; 3237 } 3238 3239 VT_UNLOCK(vd); 3240 3241 /* Refill settings with new sizes. */ 3242 vt_resize(vd); 3243 3244 if (register_handlers) { 3245 /* Register suspend/resume handlers. */ 3246 EVENTHANDLER_REGISTER(power_suspend_early, vt_suspend_handler, 3247 vd, EVENTHANDLER_PRI_ANY); 3248 EVENTHANDLER_REGISTER(power_resume, vt_resume_handler, vd, 3249 EVENTHANDLER_PRI_ANY); 3250 } 3251 } 3252 3253 static void 3254 vt_resize(struct vt_device *vd) 3255 { 3256 struct vt_window *vw; 3257 int i; 3258 3259 for (i = 0; i < VT_MAXWINDOWS; i++) { 3260 vw = vd->vd_windows[i]; 3261 VT_LOCK(vd); 3262 /* Assign default font to window, if not textmode. */ 3263 if (!(vd->vd_flags & VDF_TEXTMODE) && vw->vw_font == NULL) 3264 vw->vw_font = vtfont_ref(vt_font_assigned); 3265 VT_UNLOCK(vd); 3266 3267 /* Resize terminal windows */ 3268 while (vt_change_font(vw, vw->vw_font) == EBUSY) { 3269 DPRINTF(100, "%s: vt_change_font() is busy, " 3270 "window %d\n", __func__, i); 3271 } 3272 } 3273 } 3274 3275 static void 3276 vt_replace_backend(const struct vt_driver *drv, void *softc) 3277 { 3278 struct vt_device *vd; 3279 3280 vd = main_vd; 3281 3282 if (vd->vd_flags & VDF_ASYNC) { 3283 /* Stop vt_flush periodic task. */ 3284 VT_LOCK(vd); 3285 vt_suspend_flush_timer(vd); 3286 VT_UNLOCK(vd); 3287 /* 3288 * Mute current terminal until we done. vt_change_font (called 3289 * from vt_resize) will unmute it. 3290 */ 3291 terminal_mute(vd->vd_curwindow->vw_terminal, 1); 3292 } 3293 3294 /* 3295 * Reset VDF_TEXTMODE flag, driver who require that flag (vt_vga) will 3296 * set it. 3297 */ 3298 VT_LOCK(vd); 3299 vd->vd_flags &= ~VDF_TEXTMODE; 3300 3301 if (drv != NULL) { 3302 /* 3303 * We want to upgrade from the current driver to the 3304 * given driver. 3305 */ 3306 3307 vd->vd_prev_driver = vd->vd_driver; 3308 vd->vd_prev_softc = vd->vd_softc; 3309 vd->vd_driver = drv; 3310 vd->vd_softc = softc; 3311 3312 vd->vd_driver->vd_init(vd); 3313 } else if (vd->vd_prev_driver != NULL && vd->vd_prev_softc != NULL) { 3314 /* 3315 * No driver given: we want to downgrade to the previous 3316 * driver. 3317 */ 3318 const struct vt_driver *old_drv; 3319 void *old_softc; 3320 3321 old_drv = vd->vd_driver; 3322 old_softc = vd->vd_softc; 3323 3324 vd->vd_driver = vd->vd_prev_driver; 3325 vd->vd_softc = vd->vd_prev_softc; 3326 vd->vd_prev_driver = NULL; 3327 vd->vd_prev_softc = NULL; 3328 3329 vd->vd_flags |= VDF_DOWNGRADE; 3330 3331 vd->vd_driver->vd_init(vd); 3332 3333 if (old_drv->vd_fini) 3334 old_drv->vd_fini(vd, old_softc); 3335 3336 vd->vd_flags &= ~VDF_DOWNGRADE; 3337 } 3338 3339 VT_UNLOCK(vd); 3340 3341 /* Update windows sizes and initialize last items. */ 3342 vt_upgrade(vd); 3343 3344 /* 3345 * Give a chance to the new backend to run the post-switch code, for 3346 * instance to refresh the screen. 3347 */ 3348 if (vd->vd_driver->vd_postswitch) 3349 vd->vd_driver->vd_postswitch(vd); 3350 3351 #ifdef DEV_SPLASH 3352 if (vd->vd_flags & VDF_SPLASH) 3353 vtterm_splash(vd); 3354 #endif 3355 3356 if (vd->vd_flags & VDF_ASYNC) { 3357 /* Allow to put chars now. */ 3358 terminal_mute(vd->vd_curwindow->vw_terminal, 0); 3359 /* Rerun timer for screen updates. */ 3360 vt_resume_flush_timer(vd->vd_curwindow, 0); 3361 } 3362 3363 /* 3364 * Register as console. If it already registered, cnadd() will ignore 3365 * it. 3366 */ 3367 termcn_cnregister(vd->vd_windows[VT_CONSWINDOW]->vw_terminal); 3368 } 3369 3370 static void 3371 vt_suspend_handler(void *priv, enum power_stype stype) 3372 { 3373 struct vt_device *vd; 3374 3375 vd = priv; 3376 vd->vd_flags |= VDF_SUSPENDED; 3377 if (vd->vd_driver != NULL && vd->vd_driver->vd_suspend != NULL) 3378 vd->vd_driver->vd_suspend(vd); 3379 } 3380 3381 static void 3382 vt_resume_handler(void *priv, enum power_stype stype) 3383 { 3384 struct vt_device *vd; 3385 3386 vd = priv; 3387 if (vd->vd_driver != NULL && vd->vd_driver->vd_resume != NULL) 3388 vd->vd_driver->vd_resume(vd); 3389 vd->vd_flags &= ~VDF_SUSPENDED; 3390 } 3391 3392 int 3393 vt_allocate(const struct vt_driver *drv, void *softc) 3394 { 3395 3396 if (!vty_enabled(VTY_VT)) 3397 return (EINVAL); 3398 3399 if (main_vd->vd_driver == NULL) { 3400 main_vd->vd_driver = drv; 3401 printf("VT: initialize with new VT driver \"%s\".\n", 3402 drv->vd_name); 3403 } else { 3404 /* 3405 * Check if have rights to replace current driver. For example: 3406 * it is bad idea to replace KMS driver with generic VGA one. 3407 */ 3408 if (drv->vd_priority <= main_vd->vd_driver->vd_priority) { 3409 printf("VT: Driver priority %d too low. Current %d\n ", 3410 drv->vd_priority, main_vd->vd_driver->vd_priority); 3411 return (EEXIST); 3412 } 3413 printf("VT: Replacing driver \"%s\" with new \"%s\".\n", 3414 main_vd->vd_driver->vd_name, drv->vd_name); 3415 } 3416 3417 vt_replace_backend(drv, softc); 3418 3419 return (0); 3420 } 3421 3422 int 3423 vt_deallocate(const struct vt_driver *drv, void *softc) 3424 { 3425 3426 if (!vty_enabled(VTY_VT)) 3427 return (EINVAL); 3428 3429 if (main_vd->vd_prev_driver == NULL || 3430 main_vd->vd_driver != drv || 3431 main_vd->vd_softc != softc) 3432 return (EPERM); 3433 3434 printf("VT: Switching back from \"%s\" to \"%s\".\n", 3435 main_vd->vd_driver->vd_name, main_vd->vd_prev_driver->vd_name); 3436 3437 vt_replace_backend(NULL, NULL); 3438 3439 return (0); 3440 } 3441 3442 void 3443 vt_suspend(struct vt_device *vd) 3444 { 3445 int error; 3446 3447 if (vt_suspendswitch == 0) 3448 return; 3449 /* Save current window. */ 3450 vd->vd_savedwindow = vd->vd_curwindow; 3451 /* Ask holding process to free window and switch to console window */ 3452 vt_proc_window_switch(vd->vd_windows[VT_CONSWINDOW]); 3453 3454 /* Wait for the window switch to complete. */ 3455 error = 0; 3456 VT_LOCK(vd); 3457 while (vd->vd_curwindow != vd->vd_windows[VT_CONSWINDOW] && error == 0) 3458 error = cv_wait_sig(&vd->vd_winswitch, &vd->vd_lock); 3459 VT_UNLOCK(vd); 3460 } 3461 3462 void 3463 vt_resume(struct vt_device *vd) 3464 { 3465 3466 if (vt_suspendswitch == 0) 3467 return; 3468 /* Switch back to saved window, if any */ 3469 vt_proc_window_switch(vd->vd_savedwindow); 3470 vd->vd_savedwindow = NULL; 3471 } 3472