eficons.c revision 1.16
1 1.16 manu /* $NetBSD: eficons.c,v 1.16 2025/10/09 16:10:03 manu Exp $ */ 2 1.1 nonaka 3 1.1 nonaka /*- 4 1.1 nonaka * Copyright (c) 2016 Kimihiro Nonaka <nonaka (at) netbsd.org> 5 1.1 nonaka * All rights reserved. 6 1.1 nonaka * 7 1.1 nonaka * Redistribution and use in source and binary forms, with or without 8 1.1 nonaka * modification, are permitted provided that the following conditions 9 1.1 nonaka * are met: 10 1.1 nonaka * 1. Redistributions of source code must retain the above copyright 11 1.1 nonaka * notice, this list of conditions and the following disclaimer. 12 1.1 nonaka * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 nonaka * notice, this list of conditions and the following disclaimer in the 14 1.1 nonaka * documentation and/or other materials provided with the distribution. 15 1.1 nonaka * 16 1.1 nonaka * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 17 1.1 nonaka * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 18 1.1 nonaka * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 19 1.1 nonaka * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 20 1.1 nonaka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 21 1.1 nonaka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 22 1.1 nonaka * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 23 1.1 nonaka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 24 1.1 nonaka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 25 1.1 nonaka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 26 1.1 nonaka * SUCH DAMAGE. 27 1.1 nonaka */ 28 1.1 nonaka 29 1.14 rin #include <sys/param.h> 30 1.1 nonaka #include <sys/bitops.h> 31 1.1 nonaka #include <sys/stdint.h> 32 1.1 nonaka 33 1.13 rin #include <comio_direct.h> 34 1.13 rin 35 1.1 nonaka #include "efiboot.h" 36 1.1 nonaka 37 1.1 nonaka #include "bootinfo.h" 38 1.1 nonaka #include "vbe.h" 39 1.1 nonaka 40 1.8 jmcneill #ifndef DEFAULT_GOP_MODE 41 1.9 jmcneill #define DEFAULT_GOP_MODE "1024x768" 42 1.8 jmcneill #endif 43 1.10 jmcneill #define FALLBACK_GOP_MODE 0 44 1.8 jmcneill 45 1.4 nonaka extern struct x86_boot_params boot_params; 46 1.4 nonaka 47 1.1 nonaka struct btinfo_console btinfo_console; 48 1.1 nonaka 49 1.1 nonaka static EFI_GRAPHICS_OUTPUT_PROTOCOL *efi_gop; 50 1.1 nonaka static int efi_gop_mode = -1; 51 1.1 nonaka static CHAR16 keybuf[16]; 52 1.1 nonaka static int keybuf_read = 0; 53 1.1 nonaka static int keybuf_write = 0; 54 1.1 nonaka 55 1.16 manu #define EISA_COM_COUNT 4 56 1.16 manu static SERIAL_IO_INTERFACE *serios[12]; /* 4 EISA com slots, 8 others */ 57 1.5 nonaka static int default_comspeed = 58 1.5 nonaka #if defined(CONSPEED) 59 1.5 nonaka CONSPEED; 60 1.5 nonaka #else 61 1.5 nonaka 9600; 62 1.5 nonaka #endif 63 1.5 nonaka static u_char serbuf[16]; 64 1.5 nonaka static int serbuf_read = 0; 65 1.5 nonaka static int serbuf_write = 0; 66 1.5 nonaka 67 1.13 rin static int raw_com_addr = 0; 68 1.13 rin 69 1.1 nonaka static void eficons_init_video(void); 70 1.1 nonaka static void efi_switch_video_to_text_mode(void); 71 1.1 nonaka 72 1.5 nonaka static int efi_cons_getc(void); 73 1.5 nonaka static int efi_cons_putc(int); 74 1.5 nonaka static int efi_cons_iskey(int); 75 1.5 nonaka static int efi_cons_waitforinputevent(uint64_t); 76 1.5 nonaka 77 1.16 manu static int efi_com_consdev2unit(int); 78 1.5 nonaka static void efi_com_probe(void); 79 1.5 nonaka static bool efi_valid_com(int); 80 1.5 nonaka static int efi_com_init(int, int); 81 1.5 nonaka static int efi_com_getc(void); 82 1.5 nonaka static int efi_com_putc(int); 83 1.5 nonaka static int efi_com_status(int); 84 1.5 nonaka static int efi_com_waitforinputevent(uint64_t); 85 1.5 nonaka 86 1.13 rin static int raw_com_init(int, int); 87 1.13 rin static int raw_com_getc(void); 88 1.13 rin static int raw_com_putc(int); 89 1.13 rin static int raw_com_status(int); 90 1.13 rin static int raw_com_waitforinputevent(uint64_t); 91 1.13 rin 92 1.8 jmcneill static int efi_find_gop_mode(char *); 93 1.8 jmcneill 94 1.16 manu static int com_unit = -1; 95 1.5 nonaka static int (*internal_getchar)(void) = efi_cons_getc; 96 1.5 nonaka static int (*internal_putchar)(int) = efi_cons_putc; 97 1.5 nonaka static int (*internal_iskey)(int) = efi_cons_iskey; 98 1.5 nonaka static int (*internal_waitforinputevent)(uint64_t) = efi_cons_waitforinputevent; 99 1.5 nonaka 100 1.4 nonaka static int 101 1.4 nonaka getcomaddr(int idx) 102 1.4 nonaka { 103 1.4 nonaka static const short comioport[4] = { 0x3f8, 0x2f8, 0x3e8, 0x2e8 }; 104 1.4 nonaka 105 1.4 nonaka if (idx < __arraycount(comioport)) 106 1.4 nonaka return comioport[idx]; 107 1.4 nonaka return 0; 108 1.4 nonaka } 109 1.4 nonaka 110 1.4 nonaka /* 111 1.4 nonaka * XXX only pass console parameters to kernel. 112 1.4 nonaka */ 113 1.4 nonaka void 114 1.16 manu efi_consinit(int dev, int ioport, int unit, int speed, bool switchcons) 115 1.4 nonaka { 116 1.5 nonaka int i; 117 1.16 manu char *consname = NULL; 118 1.4 nonaka 119 1.5 nonaka btinfo_console.speed = default_comspeed; 120 1.4 nonaka 121 1.4 nonaka switch (dev) { 122 1.4 nonaka case CONSDEV_AUTO: 123 1.5 nonaka for (i = 0; i < __arraycount(serios); i++) { 124 1.16 manu if (!efi_valid_com(i)) 125 1.5 nonaka continue; 126 1.16 manu consname = "com"; 127 1.5 nonaka btinfo_console.addr = getcomaddr(i); 128 1.5 nonaka 129 1.16 manu /* switch to com for the test, regardless switchcons */ 130 1.16 manu com_unit = i; 131 1.16 manu 132 1.5 nonaka efi_cons_putc('0' + i); 133 1.5 nonaka efi_com_init(btinfo_console.addr, btinfo_console.speed); 134 1.5 nonaka /* check for: 135 1.5 nonaka * 1. successful output 136 1.5 nonaka * 2. optionally, keypress within 7s 137 1.5 nonaka */ 138 1.5 nonaka if (efi_com_putc(':') && 139 1.5 nonaka efi_com_putc('-') && 140 1.5 nonaka efi_com_putc('(') && 141 1.5 nonaka awaitkey(7, 0)) 142 1.5 nonaka goto ok; 143 1.5 nonaka } 144 1.5 nonaka ok: 145 1.5 nonaka break; 146 1.4 nonaka 147 1.4 nonaka case CONSDEV_COM0: 148 1.4 nonaka case CONSDEV_COM1: 149 1.4 nonaka case CONSDEV_COM2: 150 1.4 nonaka case CONSDEV_COM3: 151 1.16 manu case CONSDEV_COM: 152 1.16 manu consname = "com"; 153 1.4 nonaka btinfo_console.addr = ioport; 154 1.13 rin if (btinfo_console.addr == 0) 155 1.16 manu btinfo_console.addr = getcomaddr(unit); 156 1.4 nonaka if (speed != 0) 157 1.4 nonaka btinfo_console.speed = speed; 158 1.16 manu 159 1.16 manu if (switchcons) { 160 1.16 manu com_unit = unit; 161 1.16 manu efi_com_init(btinfo_console.addr, btinfo_console.speed); 162 1.16 manu } 163 1.4 nonaka break; 164 1.4 nonaka 165 1.4 nonaka case CONSDEV_COM0KBD: 166 1.4 nonaka case CONSDEV_COM1KBD: 167 1.4 nonaka case CONSDEV_COM2KBD: 168 1.16 manu case CONSDEV_COM3KBD: /* XXXmanu */ 169 1.16 manu consname = "com"; 170 1.16 manu btinfo_console.addr = getcomaddr(unit); 171 1.5 nonaka 172 1.16 manu if (!switchcons) 173 1.16 manu goto kbd; 174 1.16 manu 175 1.16 manu com_unit = unit; 176 1.16 manu 177 1.16 manu efi_cons_putc('0' + unit); /* XXX if unit>=10 ? */ 178 1.5 nonaka efi_com_init(btinfo_console.addr, btinfo_console.speed); 179 1.5 nonaka /* check for: 180 1.5 nonaka * 1. successful output 181 1.5 nonaka * 2. optionally, keypress within 7s 182 1.5 nonaka */ 183 1.5 nonaka if (efi_com_putc(':') && 184 1.5 nonaka efi_com_putc('-') && 185 1.5 nonaka efi_com_putc('(') && 186 1.5 nonaka awaitkey(7, 0)) 187 1.5 nonaka goto kbd; 188 1.5 nonaka /*FALLTHROUGH*/ 189 1.4 nonaka case CONSDEV_PC: 190 1.16 manu goto nocom; 191 1.16 manu case CONSDEV_UCOM: 192 1.16 manu consname = "ucom"; 193 1.16 manu btinfo_console.addr = unit; /* Used for unit number */ 194 1.16 manu if (speed != 0) 195 1.16 manu btinfo_console.speed = speed; 196 1.16 manu break; 197 1.4 nonaka default: 198 1.4 nonaka nocom: 199 1.16 manu consname = "pc"; 200 1.16 manu if (!switchcons) 201 1.16 manu break; 202 1.5 nonaka internal_putchar = efi_cons_putc; 203 1.5 nonaka kbd: 204 1.16 manu consname = "com"; 205 1.16 manu if (!switchcons) 206 1.16 manu break; 207 1.16 manu com_unit = unit; 208 1.5 nonaka internal_getchar = efi_cons_getc; 209 1.5 nonaka internal_iskey = efi_cons_iskey; 210 1.5 nonaka internal_waitforinputevent = efi_cons_waitforinputevent; 211 1.5 nonaka memset(keybuf, 0, sizeof(keybuf)); 212 1.5 nonaka keybuf_read = keybuf_write = 0; 213 1.4 nonaka break; 214 1.4 nonaka } 215 1.4 nonaka 216 1.16 manu if (consname != NULL) 217 1.16 manu strlcpy(btinfo_console.devname, consname, 16); 218 1.4 nonaka } 219 1.4 nonaka 220 1.1 nonaka int 221 1.1 nonaka cninit(void) 222 1.1 nonaka { 223 1.16 manu int unit; 224 1.1 nonaka efi_switch_video_to_text_mode(); 225 1.1 nonaka eficons_init_video(); 226 1.16 manu 227 1.16 manu /* console output is now possible */ 228 1.16 manu 229 1.5 nonaka efi_com_probe(); 230 1.1 nonaka 231 1.16 manu unit = efi_com_consdev2unit(boot_params.bp_consdev); 232 1.16 manu efi_consinit(boot_params.bp_consdev, boot_params.bp_consaddr, unit, 233 1.16 manu boot_params.bp_conspeed, true); 234 1.1 nonaka 235 1.1 nonaka return 0; 236 1.1 nonaka } 237 1.1 nonaka 238 1.5 nonaka void 239 1.5 nonaka efi_cons_show(void) 240 1.5 nonaka { 241 1.5 nonaka const bool pc_is_console = strcmp(btinfo_console.devname, "pc") == 0; 242 1.5 nonaka const bool com_is_console = strcmp(btinfo_console.devname, "com") == 0; 243 1.5 nonaka bool first = true; 244 1.5 nonaka bool found = false; 245 1.5 nonaka int i; 246 1.5 nonaka 247 1.5 nonaka if (efi_gop != NULL) { 248 1.5 nonaka printf("pc"); 249 1.5 nonaka if (pc_is_console) 250 1.5 nonaka printf("*"); 251 1.5 nonaka first = false; 252 1.5 nonaka } 253 1.5 nonaka 254 1.5 nonaka for (i = 0; i < __arraycount(serios); i++) { 255 1.5 nonaka if (serios[i] != NULL) { 256 1.5 nonaka if (!first) 257 1.5 nonaka printf(" "); 258 1.5 nonaka first = false; 259 1.5 nonaka 260 1.5 nonaka printf("com%d", i); 261 1.5 nonaka if (com_is_console && 262 1.5 nonaka btinfo_console.addr == getcomaddr(i)) { 263 1.5 nonaka printf(",%d*", btinfo_console.speed); 264 1.5 nonaka found = true; 265 1.5 nonaka } 266 1.5 nonaka } 267 1.5 nonaka } 268 1.5 nonaka if (!found && com_is_console) { 269 1.5 nonaka if (!first) 270 1.5 nonaka printf(" "); 271 1.5 nonaka first = false; 272 1.5 nonaka 273 1.5 nonaka printf("com,0x%x,%d*", btinfo_console.addr, 274 1.5 nonaka btinfo_console.speed); 275 1.5 nonaka } 276 1.5 nonaka 277 1.5 nonaka printf("\n"); 278 1.5 nonaka } 279 1.5 nonaka 280 1.5 nonaka static int 281 1.5 nonaka efi_cons_getc(void) 282 1.1 nonaka { 283 1.1 nonaka EFI_STATUS status; 284 1.1 nonaka EFI_INPUT_KEY key; 285 1.1 nonaka int c; 286 1.1 nonaka 287 1.1 nonaka if (keybuf_read != keybuf_write) { 288 1.1 nonaka c = keybuf[keybuf_read]; 289 1.1 nonaka keybuf_read = (keybuf_read + 1) % __arraycount(keybuf); 290 1.1 nonaka return c; 291 1.1 nonaka } 292 1.1 nonaka 293 1.1 nonaka status = uefi_call_wrapper(ST->ConIn->ReadKeyStroke, 2, ST->ConIn, 294 1.1 nonaka &key); 295 1.1 nonaka while (status == EFI_NOT_READY) { 296 1.1 nonaka WaitForSingleEvent(ST->ConIn->WaitForKey, 0); 297 1.1 nonaka status = uefi_call_wrapper(ST->ConIn->ReadKeyStroke, 2, 298 1.1 nonaka ST->ConIn, &key); 299 1.1 nonaka } 300 1.1 nonaka return key.UnicodeChar; 301 1.1 nonaka } 302 1.1 nonaka 303 1.5 nonaka static int 304 1.5 nonaka efi_cons_putc(int c) 305 1.1 nonaka { 306 1.1 nonaka CHAR16 buf[2]; 307 1.1 nonaka 308 1.5 nonaka buf[0] = c; 309 1.1 nonaka buf[1] = 0; 310 1.1 nonaka Output(buf); 311 1.5 nonaka 312 1.5 nonaka return 1; 313 1.1 nonaka } 314 1.1 nonaka 315 1.1 nonaka /*ARGSUSED*/ 316 1.5 nonaka static int 317 1.5 nonaka efi_cons_iskey(int intr) 318 1.1 nonaka { 319 1.1 nonaka EFI_STATUS status; 320 1.1 nonaka EFI_INPUT_KEY key; 321 1.1 nonaka 322 1.1 nonaka if (keybuf_read != keybuf_write) 323 1.1 nonaka return 1; 324 1.1 nonaka 325 1.1 nonaka status = uefi_call_wrapper(ST->ConIn->ReadKeyStroke, 2, ST->ConIn, 326 1.1 nonaka &key); 327 1.1 nonaka if (EFI_ERROR(status)) 328 1.1 nonaka return 0; 329 1.1 nonaka 330 1.1 nonaka keybuf[keybuf_write] = key.UnicodeChar; 331 1.1 nonaka keybuf_write = (keybuf_write + 1) % __arraycount(keybuf); 332 1.1 nonaka return 1; 333 1.1 nonaka } 334 1.1 nonaka 335 1.5 nonaka static int 336 1.5 nonaka efi_cons_waitforinputevent(uint64_t timeout) 337 1.5 nonaka { 338 1.5 nonaka EFI_STATUS status; 339 1.5 nonaka 340 1.5 nonaka status = WaitForSingleEvent(ST->ConIn->WaitForKey, timeout); 341 1.5 nonaka if (!EFI_ERROR(status)) 342 1.5 nonaka return 0; 343 1.5 nonaka if (status == EFI_TIMEOUT) 344 1.5 nonaka return ETIMEDOUT; 345 1.5 nonaka return EINVAL; 346 1.5 nonaka } 347 1.5 nonaka 348 1.5 nonaka int 349 1.5 nonaka getchar(void) 350 1.5 nonaka { 351 1.5 nonaka 352 1.5 nonaka return internal_getchar(); 353 1.5 nonaka } 354 1.5 nonaka 355 1.5 nonaka void 356 1.5 nonaka putchar(int c) 357 1.5 nonaka { 358 1.5 nonaka 359 1.5 nonaka if (c == '\n') 360 1.5 nonaka internal_putchar('\r'); 361 1.5 nonaka internal_putchar(c); 362 1.5 nonaka } 363 1.5 nonaka 364 1.5 nonaka int 365 1.5 nonaka iskey(int intr) 366 1.5 nonaka { 367 1.5 nonaka 368 1.5 nonaka return internal_iskey(intr); 369 1.5 nonaka } 370 1.5 nonaka 371 1.1 nonaka char 372 1.1 nonaka awaitkey(int timeout, int tell) 373 1.1 nonaka { 374 1.1 nonaka char c = 0; 375 1.1 nonaka 376 1.1 nonaka for (;;) { 377 1.6 jakllsch char numbuf[32]; 378 1.6 jakllsch int len; 379 1.6 jakllsch 380 1.5 nonaka if (tell && timeout) { 381 1.1 nonaka len = snprintf(numbuf, sizeof(numbuf), "%d seconds. ", 382 1.1 nonaka timeout); 383 1.1 nonaka if (len > 0 && len < sizeof(numbuf)) { 384 1.1 nonaka char *p = numbuf; 385 1.1 nonaka 386 1.1 nonaka printf("%s", numbuf); 387 1.1 nonaka while (*p) 388 1.1 nonaka *p++ = '\b'; 389 1.1 nonaka } 390 1.1 nonaka } 391 1.1 nonaka if (iskey(1)) { 392 1.1 nonaka /* flush input buffer */ 393 1.1 nonaka while (iskey(0)) 394 1.1 nonaka c = getchar(); 395 1.1 nonaka if (c == 0) 396 1.1 nonaka c = -1; 397 1.12 kim if (tell && timeout) 398 1.12 kim printf("%s", numbuf); 399 1.12 kim break; 400 1.1 nonaka } 401 1.15 manu if (timeout--) { 402 1.15 manu /* 403 1.15 manu * UEFI spec 2.10 section 7.1.7 404 1.15 manu * EFI_BOOT_SERVICES.SetTimer() timeout in 100ns units 405 1.15 manu * but the implementation may be broken and faster: 406 1.15 manu * check date to make sure we are slow enough. 407 1.15 manu */ 408 1.15 manu EFI_TIME t1, t2; 409 1.15 manu 410 1.15 manu uefi_call_wrapper(RT->GetTime, 2, &t1, NULL); 411 1.15 manu do { 412 1.15 manu internal_waitforinputevent(10000000); /* 1s */ 413 1.15 manu uefi_call_wrapper(RT->GetTime, 2, &t2, NULL); 414 1.15 manu } while (t1.Year == t2.Year && 415 1.15 manu t1.Month == t2.Month && 416 1.15 manu t1.Day == t2.Day && 417 1.15 manu t1.Hour == t2.Hour && 418 1.15 manu t1.Minute == t2.Minute && 419 1.15 manu t1.Second == t2.Second); 420 1.15 manu } 421 1.1 nonaka else 422 1.1 nonaka break; 423 1.6 jakllsch if (tell) 424 1.6 jakllsch printf("%s", numbuf); 425 1.1 nonaka } 426 1.1 nonaka 427 1.1 nonaka if (tell) 428 1.1 nonaka printf("0 seconds. \n"); 429 1.1 nonaka 430 1.1 nonaka return c; 431 1.1 nonaka } 432 1.1 nonaka 433 1.1 nonaka void 434 1.1 nonaka clear_pc_screen(void) 435 1.1 nonaka { 436 1.1 nonaka 437 1.1 nonaka uefi_call_wrapper(ST->ConOut->ClearScreen, 1, ST->ConOut); 438 1.1 nonaka } 439 1.1 nonaka 440 1.1 nonaka static uint8_t 441 1.1 nonaka getdepth(const EFI_GRAPHICS_OUTPUT_MODE_INFORMATION *info) 442 1.1 nonaka { 443 1.1 nonaka 444 1.1 nonaka switch (info->PixelFormat) { 445 1.1 nonaka case PixelBlueGreenRedReserved8BitPerColor: 446 1.1 nonaka case PixelRedGreenBlueReserved8BitPerColor: 447 1.1 nonaka return 32; 448 1.1 nonaka 449 1.1 nonaka case PixelBitMask: 450 1.1 nonaka return fls32(info->PixelInformation.RedMask 451 1.1 nonaka | info->PixelInformation.GreenMask 452 1.1 nonaka | info->PixelInformation.BlueMask 453 1.1 nonaka | info->PixelInformation.ReservedMask); 454 1.1 nonaka 455 1.1 nonaka case PixelBltOnly: 456 1.1 nonaka case PixelFormatMax: 457 1.1 nonaka return 0; 458 1.1 nonaka } 459 1.1 nonaka return 0; 460 1.1 nonaka } 461 1.1 nonaka 462 1.1 nonaka static void 463 1.1 nonaka setpixelformat(UINT32 mask, uint8_t *num, uint8_t *pos) 464 1.1 nonaka { 465 1.1 nonaka uint8_t n, p; 466 1.1 nonaka 467 1.1 nonaka n = popcount32(mask); 468 1.1 nonaka p = ffs32(mask); 469 1.1 nonaka if (p > 0) 470 1.1 nonaka p--; 471 1.1 nonaka 472 1.1 nonaka *num = n; 473 1.1 nonaka *pos = p; 474 1.1 nonaka } 475 1.1 nonaka 476 1.1 nonaka static void 477 1.1 nonaka bi_framebuffer(void) 478 1.1 nonaka { 479 1.1 nonaka EFI_STATUS status; 480 1.1 nonaka EFI_GRAPHICS_OUTPUT_MODE_INFORMATION *info; 481 1.1 nonaka struct btinfo_framebuffer fb; 482 1.11 jmcneill INT32 bestmode; 483 1.8 jmcneill UINTN sz; 484 1.1 nonaka 485 1.8 jmcneill if (efi_gop == NULL) 486 1.8 jmcneill goto nofb; 487 1.1 nonaka 488 1.1 nonaka if (efi_gop_mode >= 0) { 489 1.1 nonaka bestmode = efi_gop_mode; 490 1.1 nonaka } else { 491 1.8 jmcneill /* If a mode has not been selected, choose a default */ 492 1.8 jmcneill bestmode = efi_find_gop_mode(DEFAULT_GOP_MODE); 493 1.10 jmcneill if (bestmode == -1) 494 1.10 jmcneill bestmode = FALLBACK_GOP_MODE; 495 1.8 jmcneill } 496 1.2 nonaka 497 1.8 jmcneill status = uefi_call_wrapper(efi_gop->SetMode, 2, efi_gop, 498 1.8 jmcneill bestmode); 499 1.8 jmcneill if (EFI_ERROR(status) || efi_gop->Mode->Mode != bestmode) { 500 1.8 jmcneill printf("GOP setmode failed: %" PRIxMAX "\n", 501 1.8 jmcneill (uintmax_t)status); 502 1.8 jmcneill goto nofb; 503 1.8 jmcneill } 504 1.1 nonaka 505 1.8 jmcneill status = uefi_call_wrapper(efi_gop->QueryMode, 4, 506 1.8 jmcneill efi_gop, bestmode, &sz, &info); 507 1.8 jmcneill if (EFI_ERROR(status)) { 508 1.8 jmcneill printf("GOP querymode failed: %" PRIxMAX "\n", 509 1.8 jmcneill (uintmax_t)status); 510 1.8 jmcneill goto nofb; 511 1.1 nonaka } 512 1.1 nonaka 513 1.1 nonaka memset(&fb, 0, sizeof(fb)); 514 1.1 nonaka fb.physaddr = efi_gop->Mode->FrameBufferBase; 515 1.1 nonaka fb.flags = 0; 516 1.1 nonaka fb.width = info->HorizontalResolution; 517 1.1 nonaka fb.height = info->VerticalResolution; 518 1.1 nonaka fb.depth = getdepth(info); 519 1.1 nonaka fb.stride = info->PixelsPerScanLine * ((fb.depth + 7) / 8); 520 1.1 nonaka fb.vbemode = 0; /* XXX */ 521 1.1 nonaka 522 1.1 nonaka switch (info->PixelFormat) { 523 1.1 nonaka case PixelBlueGreenRedReserved8BitPerColor: 524 1.1 nonaka fb.rnum = 8; 525 1.1 nonaka fb.gnum = 8; 526 1.1 nonaka fb.bnum = 8; 527 1.1 nonaka fb.rpos = 16; 528 1.1 nonaka fb.gpos = 8; 529 1.1 nonaka fb.bpos = 0; 530 1.1 nonaka break; 531 1.1 nonaka 532 1.1 nonaka case PixelRedGreenBlueReserved8BitPerColor: 533 1.1 nonaka fb.rnum = 8; 534 1.1 nonaka fb.gnum = 8; 535 1.1 nonaka fb.bnum = 8; 536 1.1 nonaka fb.rpos = 0; 537 1.1 nonaka fb.gpos = 8; 538 1.1 nonaka fb.bpos = 16; 539 1.1 nonaka break; 540 1.1 nonaka 541 1.1 nonaka case PixelBitMask: 542 1.1 nonaka setpixelformat(info->PixelInformation.RedMask, 543 1.1 nonaka &fb.rnum, &fb.rpos); 544 1.1 nonaka setpixelformat(info->PixelInformation.GreenMask, 545 1.1 nonaka &fb.gnum, &fb.gpos); 546 1.1 nonaka setpixelformat(info->PixelInformation.BlueMask, 547 1.1 nonaka &fb.bnum, &fb.bpos); 548 1.1 nonaka break; 549 1.1 nonaka 550 1.1 nonaka case PixelBltOnly: 551 1.1 nonaka case PixelFormatMax: 552 1.5 nonaka panic("Error: invalid pixel format (%d)", info->PixelFormat); 553 1.1 nonaka break; 554 1.1 nonaka } 555 1.1 nonaka 556 1.1 nonaka framebuffer_configure(&fb); 557 1.8 jmcneill return; 558 1.8 jmcneill 559 1.8 jmcneill nofb: 560 1.8 jmcneill framebuffer_configure(NULL); 561 1.1 nonaka } 562 1.1 nonaka 563 1.1 nonaka int 564 1.1 nonaka vbe_commit(void) 565 1.1 nonaka { 566 1.1 nonaka 567 1.1 nonaka bi_framebuffer(); 568 1.1 nonaka return 0; 569 1.1 nonaka } 570 1.1 nonaka 571 1.1 nonaka static void 572 1.1 nonaka print_text_modes(void) 573 1.1 nonaka { 574 1.1 nonaka EFI_STATUS status; 575 1.1 nonaka UINTN cols, rows; 576 1.1 nonaka INT32 i, curmode; 577 1.1 nonaka 578 1.1 nonaka curmode = ST->ConOut->Mode->Mode; 579 1.1 nonaka for (i = 0; i < ST->ConOut->Mode->MaxMode; i++) { 580 1.1 nonaka status = uefi_call_wrapper(ST->ConOut->QueryMode, 4, 581 1.1 nonaka ST->ConOut, i, &cols, &rows); 582 1.1 nonaka if (EFI_ERROR(status)) 583 1.1 nonaka continue; 584 1.5 nonaka printf("%c%d: %" PRIxMAX "x%" PRIxMAX "\n", 585 1.5 nonaka i == curmode ? '*' : ' ', i, (uintmax_t)cols, (uintmax_t)rows); 586 1.1 nonaka } 587 1.1 nonaka } 588 1.1 nonaka 589 1.1 nonaka static int 590 1.1 nonaka efi_find_text_mode(char *arg) 591 1.1 nonaka { 592 1.1 nonaka EFI_STATUS status; 593 1.1 nonaka UINTN cols, rows; 594 1.1 nonaka INT32 i; 595 1.1 nonaka char mode[32]; 596 1.1 nonaka 597 1.1 nonaka for (i = 0; i < ST->ConOut->Mode->MaxMode; i++) { 598 1.1 nonaka status = uefi_call_wrapper(ST->ConOut->QueryMode, 4, 599 1.1 nonaka ST->ConOut, i, &cols, &rows); 600 1.1 nonaka if (EFI_ERROR(status)) 601 1.1 nonaka continue; 602 1.5 nonaka snprintf(mode, sizeof(mode), "%" PRIuMAX "x%" PRIuMAX, 603 1.5 nonaka (uintmax_t)cols, (uintmax_t)rows); 604 1.1 nonaka if (strcmp(arg, mode) == 0) 605 1.1 nonaka return i; 606 1.1 nonaka } 607 1.1 nonaka return -1; 608 1.1 nonaka } 609 1.1 nonaka 610 1.1 nonaka void 611 1.1 nonaka command_text(char *arg) 612 1.1 nonaka { 613 1.1 nonaka EFI_STATUS status; 614 1.1 nonaka INT32 modenum; 615 1.1 nonaka 616 1.1 nonaka if (*arg == '\0' || strcmp(arg, "list") == 0) { 617 1.1 nonaka print_text_modes(); 618 1.1 nonaka return; 619 1.1 nonaka } 620 1.1 nonaka 621 1.1 nonaka if (strchr(arg, 'x') != NULL) { 622 1.1 nonaka modenum = efi_find_text_mode(arg); 623 1.1 nonaka if (modenum == -1) { 624 1.1 nonaka printf("mode %s not supported by firmware\n", arg); 625 1.1 nonaka return; 626 1.1 nonaka } 627 1.1 nonaka } else { 628 1.1 nonaka modenum = strtoul(arg, NULL, 0); 629 1.1 nonaka } 630 1.1 nonaka 631 1.1 nonaka status = uefi_call_wrapper(ST->ConOut->SetMode, 2, ST->ConOut, modenum); 632 1.1 nonaka if (!EFI_ERROR(status)) 633 1.1 nonaka return; 634 1.1 nonaka 635 1.1 nonaka printf("invalid flag, must be 'list', a display mode, " 636 1.1 nonaka "or a mode number\n"); 637 1.1 nonaka } 638 1.1 nonaka 639 1.1 nonaka static int 640 1.1 nonaka print_gop_modes(void) 641 1.1 nonaka { 642 1.1 nonaka EFI_STATUS status; 643 1.1 nonaka EFI_GRAPHICS_OUTPUT_MODE_INFORMATION *info; 644 1.1 nonaka UINTN sz; 645 1.1 nonaka UINT32 i; 646 1.1 nonaka uint8_t depth; 647 1.1 nonaka 648 1.1 nonaka if (efi_gop == NULL) 649 1.1 nonaka return 1; 650 1.1 nonaka 651 1.1 nonaka for (i = 0; i < efi_gop->Mode->MaxMode; i++) { 652 1.1 nonaka status = uefi_call_wrapper(efi_gop->QueryMode, 4, efi_gop, i, 653 1.1 nonaka &sz, &info); 654 1.1 nonaka if (EFI_ERROR(status) && status == EFI_NOT_STARTED) { 655 1.1 nonaka status = uefi_call_wrapper(efi_gop->SetMode, 2, 656 1.1 nonaka efi_gop, efi_gop->Mode->Mode); 657 1.1 nonaka status = uefi_call_wrapper(efi_gop->QueryMode, 4, 658 1.1 nonaka efi_gop, i, &sz, &info); 659 1.1 nonaka } 660 1.1 nonaka if (EFI_ERROR(status)) 661 1.1 nonaka continue; 662 1.1 nonaka 663 1.5 nonaka printf("%c%d: %dx%d ", 664 1.1 nonaka memcmp(info, efi_gop->Mode->Info, sizeof(*info)) == 0 ? 665 1.1 nonaka '*' : ' ', 666 1.1 nonaka i, info->HorizontalResolution, info->VerticalResolution); 667 1.1 nonaka switch (info->PixelFormat) { 668 1.1 nonaka case PixelRedGreenBlueReserved8BitPerColor: 669 1.5 nonaka printf("RGBR"); 670 1.1 nonaka break; 671 1.1 nonaka case PixelBlueGreenRedReserved8BitPerColor: 672 1.5 nonaka printf("BGRR"); 673 1.1 nonaka break; 674 1.1 nonaka case PixelBitMask: 675 1.5 nonaka printf("R:%08x G:%08x B:%08x X:%08x", 676 1.1 nonaka info->PixelInformation.RedMask, 677 1.1 nonaka info->PixelInformation.GreenMask, 678 1.1 nonaka info->PixelInformation.BlueMask, 679 1.1 nonaka info->PixelInformation.ReservedMask); 680 1.1 nonaka break; 681 1.1 nonaka case PixelBltOnly: 682 1.5 nonaka printf("(blt only)"); 683 1.1 nonaka break; 684 1.1 nonaka default: 685 1.5 nonaka printf("(Invalid pixel format)"); 686 1.1 nonaka break; 687 1.1 nonaka } 688 1.5 nonaka printf(" pitch %d", info->PixelsPerScanLine); 689 1.1 nonaka depth = getdepth(info); 690 1.1 nonaka if (depth > 0) 691 1.5 nonaka printf(" bpp %d", depth); 692 1.5 nonaka printf("\n"); 693 1.1 nonaka } 694 1.1 nonaka 695 1.1 nonaka return 0; 696 1.1 nonaka } 697 1.1 nonaka 698 1.1 nonaka static int 699 1.1 nonaka efi_find_gop_mode(char *arg) 700 1.1 nonaka { 701 1.1 nonaka EFI_STATUS status; 702 1.1 nonaka EFI_GRAPHICS_OUTPUT_MODE_INFORMATION *info; 703 1.1 nonaka UINTN sz; 704 1.1 nonaka UINT32 i; 705 1.1 nonaka char mode[32]; 706 1.1 nonaka uint8_t depth; 707 1.1 nonaka 708 1.1 nonaka for (i = 0; i < efi_gop->Mode->MaxMode; i++) { 709 1.1 nonaka status = uefi_call_wrapper(efi_gop->QueryMode, 4, efi_gop, i, 710 1.1 nonaka &sz, &info); 711 1.1 nonaka if (EFI_ERROR(status)) 712 1.1 nonaka continue; 713 1.1 nonaka 714 1.1 nonaka depth = getdepth(info); 715 1.1 nonaka if (depth == 0) 716 1.1 nonaka continue; 717 1.1 nonaka 718 1.1 nonaka snprintf(mode, sizeof(mode), "%lux%lux%u", 719 1.1 nonaka (long)info->HorizontalResolution, 720 1.8 jmcneill (long)info->VerticalResolution, 721 1.8 jmcneill depth); 722 1.8 jmcneill if (strcmp(arg, mode) == 0) 723 1.8 jmcneill return i; 724 1.8 jmcneill 725 1.8 jmcneill snprintf(mode, sizeof(mode), "%lux%lu", 726 1.1 nonaka (long)info->HorizontalResolution, 727 1.8 jmcneill (long)info->VerticalResolution); 728 1.1 nonaka if (strcmp(arg, mode) == 0) 729 1.1 nonaka return i; 730 1.1 nonaka } 731 1.1 nonaka return -1; 732 1.1 nonaka } 733 1.1 nonaka 734 1.1 nonaka void 735 1.1 nonaka command_gop(char *arg) 736 1.1 nonaka { 737 1.1 nonaka EFI_STATUS status; 738 1.1 nonaka INT32 modenum; 739 1.1 nonaka 740 1.1 nonaka if (efi_gop == NULL) { 741 1.1 nonaka printf("GOP not supported by firmware\n"); 742 1.1 nonaka return; 743 1.1 nonaka } 744 1.1 nonaka 745 1.1 nonaka if (*arg == '\0' || strcmp(arg, "list") == 0) { 746 1.1 nonaka print_gop_modes(); 747 1.1 nonaka return; 748 1.1 nonaka } 749 1.1 nonaka 750 1.1 nonaka if (strchr(arg, 'x') != NULL) { 751 1.1 nonaka modenum = efi_find_gop_mode(arg); 752 1.1 nonaka if (modenum == -1) { 753 1.1 nonaka printf("mode %s not supported by firmware\n", arg); 754 1.1 nonaka return; 755 1.1 nonaka } 756 1.1 nonaka } else { 757 1.1 nonaka modenum = strtoul(arg, NULL, 0); 758 1.1 nonaka } 759 1.1 nonaka 760 1.1 nonaka status = uefi_call_wrapper(efi_gop->SetMode, 2, efi_gop, modenum); 761 1.1 nonaka if (!EFI_ERROR(status) && efi_gop->Mode->Mode == modenum) { 762 1.1 nonaka efi_gop_mode = modenum; 763 1.1 nonaka return; 764 1.1 nonaka } 765 1.1 nonaka 766 1.1 nonaka printf("invalid flag, must be 'list', a display mode, " 767 1.1 nonaka "or a mode number\n"); 768 1.1 nonaka } 769 1.1 nonaka 770 1.1 nonaka static void 771 1.1 nonaka eficons_init_video(void) 772 1.1 nonaka { 773 1.1 nonaka EFI_STATUS status; 774 1.3 nonaka UINTN cols, rows; 775 1.3 nonaka INT32 i, best, mode80x25, mode100x31; 776 1.1 nonaka 777 1.1 nonaka /* 778 1.1 nonaka * Setup text mode 779 1.1 nonaka */ 780 1.1 nonaka uefi_call_wrapper(ST->ConOut->Reset, 2, ST->ConOut, TRUE); 781 1.1 nonaka 782 1.3 nonaka mode80x25 = mode100x31 = -1; 783 1.1 nonaka for (i = 0; i < ST->ConOut->Mode->MaxMode; i++) { 784 1.1 nonaka status = uefi_call_wrapper(ST->ConOut->QueryMode, 4, 785 1.1 nonaka ST->ConOut, i, &cols, &rows); 786 1.1 nonaka if (EFI_ERROR(status)) 787 1.1 nonaka continue; 788 1.3 nonaka 789 1.3 nonaka if (mode80x25 < 0 && cols == 80 && rows == 25) 790 1.3 nonaka mode80x25 = i; 791 1.3 nonaka else if (mode100x31 < 0 && cols == 100 && rows == 31) 792 1.3 nonaka mode100x31 = i; 793 1.1 nonaka } 794 1.3 nonaka best = mode100x31 >= 0 ? mode100x31 : mode80x25 >= 0 ? mode80x25 : -1; 795 1.1 nonaka if (best >= 0) 796 1.1 nonaka uefi_call_wrapper(ST->ConOut->SetMode, 2, ST->ConOut, best); 797 1.1 nonaka uefi_call_wrapper(ST->ConOut->EnableCursor, 2, ST->ConOut, TRUE); 798 1.1 nonaka uefi_call_wrapper(ST->ConOut->ClearScreen, 1, ST->ConOut); 799 1.1 nonaka 800 1.1 nonaka LibLocateProtocol(&GraphicsOutputProtocol, (void **)&efi_gop); 801 1.1 nonaka } 802 1.1 nonaka 803 1.1 nonaka /* 804 1.1 nonaka * for Apple EFI 805 1.1 nonaka */ 806 1.1 nonaka #define CONSOLE_CONTROL_PROTOCOL \ 807 1.1 nonaka {0xf42f7782, 0x12e, 0x4c12, {0x99, 0x56, 0x49, 0xf9, 0x43, 0x4, 0xf7, 0x21}} 808 1.1 nonaka static EFI_GUID ConsoleControlProtocol = CONSOLE_CONTROL_PROTOCOL; 809 1.1 nonaka 810 1.1 nonaka struct _EFI_CONSOLE_CONTROL_INTERFACE; 811 1.1 nonaka typedef struct _EFI_CONSOLE_CONTROL_INTERFACE EFI_CONSOLE_CONTROL_INTERFACE; 812 1.1 nonaka typedef enum { EfiConsoleControlScreenText } EFI_CONSOLE_CONTROL_SCREEN_MODE; 813 1.1 nonaka typedef EFI_STATUS (EFIAPI *EFI_CONSOLE_CONTROL_PROTOCOL_SET_MODE) ( 814 1.1 nonaka IN EFI_CONSOLE_CONTROL_INTERFACE *This, 815 1.1 nonaka IN EFI_CONSOLE_CONTROL_SCREEN_MODE Mode 816 1.1 nonaka ); 817 1.1 nonaka struct _EFI_CONSOLE_CONTROL_INTERFACE { 818 1.1 nonaka VOID *GetMode; 819 1.1 nonaka EFI_CONSOLE_CONTROL_PROTOCOL_SET_MODE SetMode; 820 1.1 nonaka VOID *LockStdIn; 821 1.1 nonaka }; 822 1.1 nonaka 823 1.1 nonaka static void 824 1.1 nonaka efi_switch_video_to_text_mode(void) 825 1.1 nonaka { 826 1.1 nonaka EFI_STATUS status; 827 1.1 nonaka EFI_CONSOLE_CONTROL_INTERFACE *cci; 828 1.1 nonaka 829 1.1 nonaka /* Set up the console, so printf works. */ 830 1.1 nonaka status = LibLocateProtocol(&ConsoleControlProtocol, (void **)&cci); 831 1.1 nonaka if (!EFI_ERROR(status)) { 832 1.1 nonaka uefi_call_wrapper(cci->SetMode, 2, cci, 833 1.1 nonaka EfiConsoleControlScreenText); 834 1.1 nonaka } 835 1.1 nonaka } 836 1.5 nonaka 837 1.16 manu static int 838 1.16 manu efi_com_consdev2unit(int dev) 839 1.16 manu { 840 1.16 manu int unit = -1; 841 1.16 manu 842 1.16 manu if (dev >= CONSDEV_COM0 && unit <= CONSDEV_COM3) 843 1.16 manu unit = dev - CONSDEV_COM0; 844 1.16 manu 845 1.16 manu if (dev >= CONSDEV_COM0KBD && unit <= CONSDEV_COM3KBD) 846 1.16 manu unit = dev - CONSDEV_COM0KBD; 847 1.16 manu 848 1.16 manu if (dev == CONSDEV_COM) 849 1.16 manu unit = 0; 850 1.16 manu 851 1.16 manu if (dev == CONSDEV_UCOM) 852 1.16 manu unit = 0; 853 1.16 manu 854 1.16 manu return unit; 855 1.16 manu } 856 1.16 manu 857 1.16 manu 858 1.5 nonaka /* 859 1.5 nonaka * serial port 860 1.5 nonaka */ 861 1.5 nonaka static void 862 1.5 nonaka efi_com_probe(void) 863 1.5 nonaka { 864 1.5 nonaka EFI_STATUS status; 865 1.5 nonaka UINTN i, nhandles; 866 1.5 nonaka EFI_HANDLE *handles; 867 1.5 nonaka EFI_DEVICE_PATH *dp, *dp0; 868 1.5 nonaka EFI_DEV_PATH_PTR dpp; 869 1.5 nonaka SERIAL_IO_INTERFACE *serio; 870 1.16 manu int unit = -1; 871 1.16 manu int high_unit = EISA_COM_COUNT; 872 1.16 manu 873 1.16 manu /* 874 1.16 manu * We could want to dynamically allocate serios[] to cope 875 1.16 manu * with an aritrary count of serial ports, but we cannot yet 876 1.16 manu * call alloc(), because efi_heap_init() was not yet called. 877 1.16 manu * We could swap cninit() and efi_heap_init() order in 878 1.16 manu * efi_main(), but then efi_heap_init() could not display 879 1.16 manu * a failure message. Let us keep static it for now for the 880 1.16 manu * sake of reliability. 881 1.16 manu */ 882 1.16 manu for (i = 0; i < __arraycount(serios); i++) 883 1.16 manu serios[i] = NULL; 884 1.5 nonaka 885 1.5 nonaka status = LibLocateHandle(ByProtocol, &SerialIoProtocol, NULL, 886 1.5 nonaka &nhandles, &handles); 887 1.5 nonaka if (EFI_ERROR(status)) 888 1.5 nonaka return; 889 1.5 nonaka 890 1.5 nonaka for (i = 0; i < nhandles; i++) { 891 1.5 nonaka /* 892 1.5 nonaka * Identify port number of the handle. This assumes ACPI 893 1.5 nonaka * UID 0-3 map to legacy COM[1-4] and they use the legacy 894 1.5 nonaka * port address. 895 1.5 nonaka */ 896 1.5 nonaka status = uefi_call_wrapper(BS->HandleProtocol, 3, handles[i], 897 1.5 nonaka &DevicePathProtocol, (void **)&dp0); 898 1.5 nonaka if (EFI_ERROR(status)) 899 1.5 nonaka continue; 900 1.5 nonaka 901 1.16 manu unit = -1; 902 1.16 manu for (dp = dp0; !IsDevicePathEnd(dp); 903 1.5 nonaka dp = NextDevicePathNode(dp)) { 904 1.5 nonaka 905 1.5 nonaka if (DevicePathType(dp) == ACPI_DEVICE_PATH && 906 1.5 nonaka DevicePathSubType(dp) == ACPI_DP) { 907 1.5 nonaka dpp = (EFI_DEV_PATH_PTR)dp; 908 1.5 nonaka if (dpp.Acpi->HID == EISA_PNP_ID(0x0501)) { 909 1.16 manu unit = dpp.Acpi->UID; 910 1.5 nonaka break; 911 1.5 nonaka } 912 1.5 nonaka } 913 1.5 nonaka } 914 1.16 manu 915 1.16 manu if (unit == -1) 916 1.16 manu unit = high_unit++; 917 1.16 manu 918 1.16 manu if (unit < 0 || __arraycount(serios) <= unit) 919 1.5 nonaka continue; 920 1.5 nonaka 921 1.5 nonaka /* Prepare SERIAL_IO_INTERFACE */ 922 1.5 nonaka status = uefi_call_wrapper(BS->HandleProtocol, 3, handles[i], 923 1.5 nonaka &SerialIoProtocol, (void **)&serio); 924 1.5 nonaka if (EFI_ERROR(status)) 925 1.5 nonaka continue; 926 1.5 nonaka 927 1.16 manu serios[unit] = serio; 928 1.5 nonaka } 929 1.5 nonaka 930 1.5 nonaka FreePool(handles); 931 1.5 nonaka 932 1.5 nonaka } 933 1.5 nonaka 934 1.5 nonaka static bool 935 1.16 manu efi_valid_com(int unit) 936 1.5 nonaka { 937 1.16 manu return (unit >= 0 &&unit < __arraycount(serios) && 938 1.16 manu serios[unit] != NULL); 939 1.5 nonaka } 940 1.5 nonaka 941 1.5 nonaka static int 942 1.5 nonaka efi_com_init(int addr, int speed) 943 1.5 nonaka { 944 1.5 nonaka EFI_STATUS status; 945 1.5 nonaka SERIAL_IO_INTERFACE *serio; 946 1.5 nonaka 947 1.5 nonaka if (speed <= 0) 948 1.5 nonaka return 0; 949 1.5 nonaka 950 1.16 manu if (!efi_valid_com(com_unit)) 951 1.13 rin return raw_com_init(addr, speed); 952 1.5 nonaka 953 1.16 manu serio = serios[com_unit]; 954 1.5 nonaka 955 1.5 nonaka if (serio->Mode->BaudRate != btinfo_console.speed) { 956 1.5 nonaka status = uefi_call_wrapper(serio->SetAttributes, 7, serio, 957 1.5 nonaka speed, serio->Mode->ReceiveFifoDepth, 958 1.5 nonaka serio->Mode->Timeout, serio->Mode->Parity, 959 1.5 nonaka serio->Mode->DataBits, serio->Mode->StopBits); 960 1.5 nonaka if (EFI_ERROR(status)) { 961 1.5 nonaka printf("com%d: SetAttribute() failed with status=%" PRIxMAX 962 1.16 manu "\n", com_unit, (uintmax_t)status); 963 1.5 nonaka return 0; 964 1.5 nonaka } 965 1.5 nonaka } 966 1.5 nonaka 967 1.13 rin raw_com_addr = 0; 968 1.5 nonaka default_comspeed = speed; 969 1.5 nonaka internal_getchar = efi_com_getc; 970 1.5 nonaka internal_putchar = efi_com_putc; 971 1.5 nonaka internal_iskey = efi_com_status; 972 1.5 nonaka internal_waitforinputevent = efi_com_waitforinputevent; 973 1.5 nonaka memset(serbuf, 0, sizeof(serbuf)); 974 1.5 nonaka serbuf_read = serbuf_write = 0; 975 1.5 nonaka 976 1.5 nonaka return speed; 977 1.5 nonaka } 978 1.5 nonaka 979 1.5 nonaka static int 980 1.5 nonaka efi_com_getc(void) 981 1.5 nonaka { 982 1.5 nonaka EFI_STATUS status; 983 1.5 nonaka SERIAL_IO_INTERFACE *serio; 984 1.5 nonaka UINTN sz; 985 1.5 nonaka u_char c; 986 1.5 nonaka 987 1.16 manu if (!efi_valid_com(com_unit)) 988 1.16 manu panic("Invalid serial port: unit=%d", com_unit); 989 1.5 nonaka 990 1.5 nonaka if (serbuf_read != serbuf_write) { 991 1.5 nonaka c = serbuf[serbuf_read]; 992 1.5 nonaka serbuf_read = (serbuf_read + 1) % __arraycount(serbuf); 993 1.5 nonaka return c; 994 1.5 nonaka } 995 1.5 nonaka 996 1.16 manu serio = serios[com_unit]; 997 1.5 nonaka 998 1.5 nonaka for (;;) { 999 1.5 nonaka sz = 1; 1000 1.5 nonaka status = uefi_call_wrapper(serio->Read, 3, serio, &sz, &c); 1001 1.5 nonaka if (!EFI_ERROR(status) && sz > 0) 1002 1.5 nonaka break; 1003 1.5 nonaka if (status != EFI_TIMEOUT && EFI_ERROR(status)) 1004 1.5 nonaka panic("Error reading from serial status=%"PRIxMAX, 1005 1.5 nonaka (uintmax_t)status); 1006 1.5 nonaka } 1007 1.5 nonaka return c; 1008 1.5 nonaka } 1009 1.5 nonaka 1010 1.5 nonaka static int 1011 1.5 nonaka efi_com_putc(int c) 1012 1.5 nonaka { 1013 1.5 nonaka EFI_STATUS status; 1014 1.5 nonaka SERIAL_IO_INTERFACE *serio; 1015 1.5 nonaka UINTN sz = 1; 1016 1.5 nonaka u_char buf; 1017 1.5 nonaka 1018 1.16 manu if (!efi_valid_com(com_unit)) 1019 1.5 nonaka return 0; 1020 1.5 nonaka 1021 1.16 manu serio = serios[com_unit]; 1022 1.5 nonaka buf = c; 1023 1.5 nonaka status = uefi_call_wrapper(serio->Write, 3, serio, &sz, &buf); 1024 1.5 nonaka if (EFI_ERROR(status) || sz < 1) 1025 1.5 nonaka return 0; 1026 1.5 nonaka return 1; 1027 1.5 nonaka } 1028 1.5 nonaka 1029 1.5 nonaka /*ARGSUSED*/ 1030 1.5 nonaka static int 1031 1.5 nonaka efi_com_status(int intr) 1032 1.5 nonaka { 1033 1.5 nonaka EFI_STATUS status; 1034 1.5 nonaka SERIAL_IO_INTERFACE *serio; 1035 1.5 nonaka UINTN sz; 1036 1.5 nonaka u_char c; 1037 1.5 nonaka 1038 1.16 manu if (!efi_valid_com(com_unit)) 1039 1.16 manu panic("Invalid serial port: unit = %d", com_unit); 1040 1.5 nonaka 1041 1.5 nonaka if (serbuf_read != serbuf_write) 1042 1.5 nonaka return 1; 1043 1.5 nonaka 1044 1.16 manu serio = serios[com_unit]; 1045 1.5 nonaka sz = 1; 1046 1.5 nonaka status = uefi_call_wrapper(serio->Read, 3, serio, &sz, &c); 1047 1.5 nonaka if (EFI_ERROR(status) || sz < 1) 1048 1.5 nonaka return 0; 1049 1.5 nonaka 1050 1.5 nonaka serbuf[serbuf_write] = c; 1051 1.5 nonaka serbuf_write = (serbuf_write + 1) % __arraycount(serbuf); 1052 1.5 nonaka return 1; 1053 1.5 nonaka } 1054 1.5 nonaka 1055 1.5 nonaka static void 1056 1.5 nonaka efi_com_periodic_event(EFI_EVENT event, void *ctx) 1057 1.5 nonaka { 1058 1.5 nonaka EFI_EVENT timer = ctx; 1059 1.5 nonaka 1060 1.5 nonaka if (efi_com_status(0)) { 1061 1.5 nonaka uefi_call_wrapper(BS->SetTimer, 3, event, TimerCancel, 0); 1062 1.5 nonaka uefi_call_wrapper(BS->SignalEvent, 1, timer); 1063 1.5 nonaka } 1064 1.5 nonaka } 1065 1.5 nonaka 1066 1.5 nonaka static int 1067 1.5 nonaka efi_com_waitforinputevent(uint64_t timeout) 1068 1.5 nonaka { 1069 1.5 nonaka EFI_STATUS status; 1070 1.5 nonaka EFI_EVENT timer, periodic; 1071 1.5 nonaka 1072 1.5 nonaka status = uefi_call_wrapper(BS->CreateEvent, 5, EVT_TIMER, 0, NULL, NULL, 1073 1.5 nonaka &timer); 1074 1.5 nonaka if (EFI_ERROR(status)) 1075 1.5 nonaka return EINVAL; 1076 1.5 nonaka 1077 1.5 nonaka status = uefi_call_wrapper(BS->CreateEvent, 5, 1078 1.5 nonaka EVT_TIMER | EVT_NOTIFY_SIGNAL, TPL_CALLBACK, efi_com_periodic_event, 1079 1.5 nonaka timer, &periodic); 1080 1.5 nonaka if (EFI_ERROR(status)) { 1081 1.5 nonaka uefi_call_wrapper(BS->CloseEvent, 1, timer); 1082 1.5 nonaka return EINVAL; 1083 1.5 nonaka } 1084 1.5 nonaka 1085 1.5 nonaka status = uefi_call_wrapper(BS->SetTimer, 3, periodic, TimerPeriodic, 1086 1.5 nonaka 1000000); /* 100ms */ 1087 1.5 nonaka if (EFI_ERROR(status)) { 1088 1.5 nonaka uefi_call_wrapper(BS->CloseEvent, 1, periodic); 1089 1.5 nonaka uefi_call_wrapper(BS->CloseEvent, 1, timer); 1090 1.5 nonaka return EINVAL; 1091 1.5 nonaka } 1092 1.5 nonaka status = WaitForSingleEvent(&timer, timeout); 1093 1.5 nonaka uefi_call_wrapper(BS->SetTimer, 3, periodic, TimerCancel, 0); 1094 1.5 nonaka uefi_call_wrapper(BS->CloseEvent, 1, periodic); 1095 1.5 nonaka uefi_call_wrapper(BS->CloseEvent, 1, timer); 1096 1.5 nonaka if (!EFI_ERROR(status)) 1097 1.5 nonaka return 0; 1098 1.5 nonaka if (status == EFI_TIMEOUT) 1099 1.5 nonaka return ETIMEDOUT; 1100 1.5 nonaka return EINVAL; 1101 1.5 nonaka } 1102 1.13 rin 1103 1.13 rin static int 1104 1.13 rin raw_com_init(int addr, int speed) 1105 1.13 rin { 1106 1.13 rin 1107 1.13 rin if (addr == 0 || speed <= 0) 1108 1.13 rin return 0; 1109 1.13 rin 1110 1.13 rin speed = cominit_d(addr, speed); 1111 1.13 rin 1112 1.13 rin raw_com_addr = addr; 1113 1.13 rin default_comspeed = speed; 1114 1.13 rin internal_getchar = raw_com_getc; 1115 1.13 rin internal_putchar = raw_com_putc; 1116 1.13 rin internal_iskey = raw_com_status; 1117 1.13 rin internal_waitforinputevent = raw_com_waitforinputevent; 1118 1.13 rin 1119 1.13 rin return speed; 1120 1.13 rin } 1121 1.13 rin 1122 1.13 rin static int 1123 1.13 rin raw_com_getc(void) 1124 1.13 rin { 1125 1.13 rin 1126 1.13 rin if (raw_com_addr == 0) 1127 1.13 rin panic("%s: Invalid serial port", __func__); 1128 1.13 rin return comgetc_d(raw_com_addr); 1129 1.13 rin } 1130 1.13 rin 1131 1.13 rin static int 1132 1.13 rin raw_com_putc(int c) 1133 1.13 rin { 1134 1.13 rin 1135 1.13 rin if (raw_com_addr == 0) 1136 1.13 rin panic("%s: Invalid serial port", __func__); 1137 1.13 rin return computc_d(c, raw_com_addr); 1138 1.13 rin } 1139 1.13 rin 1140 1.13 rin static int 1141 1.13 rin raw_com_status(int intr) 1142 1.13 rin { 1143 1.13 rin 1144 1.13 rin if (raw_com_addr == 0) 1145 1.13 rin panic("%s: Invalid serial port", __func__); 1146 1.13 rin return comstatus_d(raw_com_addr); 1147 1.13 rin } 1148 1.13 rin 1149 1.13 rin static int 1150 1.13 rin raw_com_waitforinputevent(uint64_t timeout /* in 0.1 usec */) 1151 1.13 rin { 1152 1.13 rin uint64_t ms; 1153 1.13 rin 1154 1.13 rin if (raw_com_addr == 0) 1155 1.13 rin panic("%s: Invalid serial port", __func__); 1156 1.13 rin 1157 1.13 rin for (ms = howmany(timeout, 10 * 1000); ms != 0; ms--) { 1158 1.13 rin if (raw_com_status(0)) 1159 1.13 rin return 0; 1160 1.13 rin uefi_call_wrapper(BS->Stall, 1, 1000); 1161 1.13 rin } 1162 1.13 rin return ETIMEDOUT; 1163 1.13 rin } 1164
Indexes created Thu Oct 30 03:10:01 GMT 2025