bootxx.c revision 1.16.10.2
1 1.16.10.1 skrll /* $NetBSD: bootxx.c,v 1.16.10.2 2004/09/18 14:41:58 skrll Exp $ */ 2 1.1 ragge /*- 3 1.1 ragge * Copyright (c) 1982, 1986 The Regents of the University of California. 4 1.1 ragge * All rights reserved. 5 1.1 ragge * 6 1.1 ragge * Redistribution and use in source and binary forms, with or without 7 1.1 ragge * modification, are permitted provided that the following conditions 8 1.1 ragge * are met: 9 1.1 ragge * 1. Redistributions of source code must retain the above copyright 10 1.1 ragge * notice, this list of conditions and the following disclaimer. 11 1.1 ragge * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 ragge * notice, this list of conditions and the following disclaimer in the 13 1.1 ragge * documentation and/or other materials provided with the distribution. 14 1.16.10.1 skrll * 3. Neither the name of the University nor the names of its contributors 15 1.1 ragge * may be used to endorse or promote products derived from this software 16 1.1 ragge * without specific prior written permission. 17 1.1 ragge * 18 1.1 ragge * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 19 1.1 ragge * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 20 1.1 ragge * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 21 1.1 ragge * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 22 1.1 ragge * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 23 1.1 ragge * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 24 1.1 ragge * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 25 1.1 ragge * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 26 1.1 ragge * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 27 1.1 ragge * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28 1.1 ragge * SUCH DAMAGE. 29 1.1 ragge * 30 1.1 ragge * @(#)boot.c 7.15 (Berkeley) 5/4/91 31 1.1 ragge */ 32 1.1 ragge 33 1.1 ragge #include "sys/param.h" 34 1.1 ragge #include "sys/reboot.h" 35 1.1 ragge #include "sys/disklabel.h" 36 1.11 matt #include "sys/exec.h" 37 1.11 matt #include "sys/exec_elf.h" 38 1.1 ragge 39 1.1 ragge #include "lib/libsa/stand.h" 40 1.1 ragge #include "lib/libsa/ufs.h" 41 1.6 ragge #include "lib/libsa/cd9660.h" 42 1.16 matt #include "lib/libsa/ustarfs.h" 43 1.6 ragge 44 1.6 ragge #include "lib/libkern/libkern.h" 45 1.1 ragge 46 1.11 matt #include "machine/pte.h" 47 1.11 matt #include "machine/sid.h" 48 1.11 matt #include "machine/mtpr.h" 49 1.11 matt #include "machine/reg.h" 50 1.11 matt #include "machine/rpb.h" 51 1.10 ragge #include "../vax/gencons.h" 52 1.1 ragge 53 1.1 ragge #include "../mba/mbareg.h" 54 1.1 ragge #include "../mba/hpreg.h" 55 1.1 ragge 56 1.1 ragge #define NRSP 1 /* Kludge */ 57 1.1 ragge #define NCMD 1 /* Kludge */ 58 1.1 ragge 59 1.2 ragge #include "dev/mscp/mscp.h" 60 1.2 ragge #include "dev/mscp/mscpreg.h" 61 1.1 ragge 62 1.6 ragge #include "../boot/data.h" 63 1.1 ragge 64 1.13 simonb #define RF_PROTECTED_SECTORS 64 /* XXX refer to <.../rf_optnames.h> */ 65 1.13 simonb 66 1.6 ragge void Xmain(void); 67 1.6 ragge void hoppabort(int); 68 1.6 ragge void romread_uvax(int lbn, int size, void *buf, struct rpb *rpb); 69 1.7 ragge void hpread(int block); 70 1.6 ragge int read750(int block, int *regs); 71 1.6 ragge int unit_init(int, struct rpb *, int); 72 1.1 ragge 73 1.2 ragge struct open_file file; 74 1.2 ragge 75 1.1 ragge unsigned *bootregs; 76 1.1 ragge struct rpb *rpb; 77 1.6 ragge struct bqo *bqo; 78 1.1 ragge int vax_cputype; 79 1.11 matt int vax_load_failure; 80 1.6 ragge struct udadevice {u_short udaip;u_short udasa;}; 81 1.6 ragge volatile struct udadevice *csr; 82 1.10 ragge static int moved; 83 1.6 ragge 84 1.6 ragge extern int from; 85 1.6 ragge #define FROM750 1 86 1.6 ragge #define FROMMV 2 87 1.6 ragge #define FROMVMB 4 88 1.1 ragge 89 1.1 ragge /* 90 1.1 ragge * The boot block are used by 11/750, 8200, MicroVAX II/III, VS2000, 91 1.1 ragge * VS3100/??, VS4000 and VAX6000/???, and only when booting from disk. 92 1.1 ragge */ 93 1.6 ragge void 94 1.1 ragge Xmain() 95 1.1 ragge { 96 1.11 matt union { 97 1.11 matt struct exec aout; 98 1.11 matt Elf32_Ehdr elf; 99 1.11 matt } hdr; 100 1.1 ragge int io; 101 1.11 matt u_long entry; 102 1.1 ragge 103 1.1 ragge vax_cputype = (mfpr(PR_SID) >> 24) & 0xFF; 104 1.10 ragge moved = 0; 105 1.2 ragge /* 106 1.2 ragge */ 107 1.6 ragge rpb = (void *)0xf0000; /* Safe address right now */ 108 1.6 ragge bqo = (void *)0xf1000; 109 1.6 ragge if (from == FROMMV) { 110 1.1 ragge /* 111 1.1 ragge * now relocate rpb/bqo (which are used by ROM-routines) 112 1.1 ragge */ 113 1.6 ragge bcopy ((void *)bootregs[11], rpb, sizeof(struct rpb)); 114 1.1 ragge bcopy ((void*)rpb->iovec, bqo, rpb->iovecsz); 115 1.6 ragge } else { 116 1.6 ragge bzero(rpb, sizeof(struct rpb)); 117 1.6 ragge rpb->devtyp = bootregs[0]; 118 1.6 ragge rpb->unit = bootregs[3]; 119 1.6 ragge rpb->rpb_bootr5 = bootregs[5]; 120 1.6 ragge rpb->csrphy = bootregs[2]; 121 1.6 ragge rpb->adpphy = bootregs[1]; /* BI node on 8200 */ 122 1.7 ragge if (rpb->devtyp != BDEV_HP && vax_cputype == VAX_TYP_750) 123 1.7 ragge rpb->adpphy = 124 1.7 ragge (bootregs[1] == 0xffe000 ? 0xf30000 : 0xf32000); 125 1.1 ragge } 126 1.6 ragge rpb->rpb_base = rpb; 127 1.6 ragge rpb->iovec = (int)bqo; 128 1.1 ragge 129 1.8 matt io = open("/boot.vax", 0); 130 1.8 matt if (io < 0) 131 1.8 matt io = open("/boot", 0); 132 1.8 matt if (io < 0) 133 1.8 matt asm("halt"); 134 1.1 ragge 135 1.11 matt read(io, (void *)&hdr.aout, sizeof(hdr.aout)); 136 1.11 matt if (N_GETMAGIC(hdr.aout) == OMAGIC && N_GETMID(hdr.aout) == MID_VAX) { 137 1.11 matt vax_load_failure++; 138 1.11 matt entry = hdr.aout.a_entry; 139 1.11 matt if (entry < sizeof(hdr.aout)) 140 1.11 matt entry = sizeof(hdr.aout); 141 1.11 matt read(io, (void *) entry, hdr.aout.a_text + hdr.aout.a_data); 142 1.11 matt memset((void *) (entry + hdr.aout.a_text + hdr.aout.a_data), 143 1.11 matt 0, hdr.aout.a_bss); 144 1.11 matt } else if (memcmp(hdr.elf.e_ident, ELFMAG, SELFMAG) == 0) { 145 1.11 matt Elf32_Phdr ph; 146 1.11 matt size_t off = sizeof(hdr.elf); 147 1.11 matt vax_load_failure += 2; 148 1.11 matt read(io, (caddr_t)(&hdr.elf) + sizeof(hdr.aout), 149 1.11 matt sizeof(hdr.elf) - sizeof(hdr.aout)); 150 1.11 matt if (hdr.elf.e_machine != EM_VAX || hdr.elf.e_type != ET_EXEC 151 1.11 matt || hdr.elf.e_phnum != 1) 152 1.11 matt goto die; 153 1.11 matt vax_load_failure++; 154 1.11 matt entry = hdr.elf.e_entry; 155 1.11 matt if (hdr.elf.e_phoff != sizeof(hdr.elf)) 156 1.11 matt goto die; 157 1.11 matt vax_load_failure++; 158 1.11 matt read(io, &ph, sizeof(ph)); 159 1.11 matt off += sizeof(ph); 160 1.11 matt if (ph.p_type != PT_LOAD) 161 1.11 matt goto die; 162 1.11 matt vax_load_failure++; 163 1.11 matt while (off < ph.p_offset) { 164 1.11 matt u_int32_t tmp; 165 1.11 matt read(io, &tmp, sizeof(tmp)); 166 1.11 matt off += sizeof(tmp); 167 1.11 matt } 168 1.11 matt read(io, (void *) ph.p_paddr, ph.p_filesz); 169 1.11 matt memset((void *) (ph.p_paddr + ph.p_filesz), 0, 170 1.11 matt ph.p_memsz - ph.p_filesz); 171 1.11 matt } else { 172 1.11 matt goto die; 173 1.11 matt } 174 1.11 matt hoppabort(entry); 175 1.11 matt die: 176 1.2 ragge asm("halt"); 177 1.1 ragge } 178 1.1 ragge 179 1.2 ragge /* 180 1.2 ragge * Write an extremely limited version of a (us)tar filesystem, suitable 181 1.2 ragge * for loading secondary-stage boot loader. 182 1.2 ragge * - Can only load file "boot". 183 1.2 ragge * - Must be the first file on tape. 184 1.2 ragge */ 185 1.6 ragge struct fs_ops file_system[] = { 186 1.16 matt #ifdef NEED_UFS 187 1.6 ragge { ufs_open, 0, ufs_read, 0, 0, ufs_stat }, 188 1.16 matt #endif 189 1.16 matt #ifdef NEED_CD9660 190 1.6 ragge { cd9660_open, 0, cd9660_read, 0, 0, cd9660_stat }, 191 1.16 matt #endif 192 1.16 matt #ifdef NEED_USTARFS 193 1.6 ragge { ustarfs_open, 0, ustarfs_read, 0, 0, ustarfs_stat }, 194 1.6 ragge #endif 195 1.6 ragge }; 196 1.6 ragge 197 1.6 ragge int nfsys = (sizeof(file_system) / sizeof(struct fs_ops)); 198 1.6 ragge 199 1.6 ragge #if 0 200 1.2 ragge int tar_open(char *path, struct open_file *f); 201 1.2 ragge ssize_t tar_read(struct open_file *f, void *buf, size_t size, size_t *resid); 202 1.1 ragge 203 1.2 ragge int 204 1.2 ragge tar_open(path, f) 205 1.2 ragge char *path; 206 1.2 ragge struct open_file *f; 207 1.2 ragge { 208 1.2 ragge char *buf = alloc(512); 209 1.2 ragge 210 1.2 ragge bzero(buf, 512); 211 1.2 ragge romstrategy(0, 0, 8192, 512, buf, 0); 212 1.2 ragge if (bcmp(buf, "boot", 5) || bcmp(&buf[257], "ustar", 5)) 213 1.2 ragge return EINVAL; /* Not a ustarfs with "boot" first */ 214 1.2 ragge return 0; 215 1.2 ragge } 216 1.2 ragge 217 1.2 ragge ssize_t 218 1.2 ragge tar_read(f, buf, size, resid) 219 1.2 ragge struct open_file *f; 220 1.2 ragge void *buf; 221 1.2 ragge size_t size; 222 1.2 ragge size_t *resid; 223 1.2 ragge { 224 1.2 ragge romstrategy(0, 0, (8192+512), size, buf, 0); 225 1.2 ragge *resid = size; 226 1.6 ragge return 0; /* XXX */ 227 1.2 ragge } 228 1.6 ragge #endif 229 1.1 ragge 230 1.1 ragge 231 1.6 ragge int 232 1.1 ragge devopen(f, fname, file) 233 1.1 ragge struct open_file *f; 234 1.1 ragge const char *fname; 235 1.1 ragge char **file; 236 1.1 ragge { 237 1.1 ragge *file = (char *)fname; 238 1.1 ragge 239 1.6 ragge if (from == FROM750) 240 1.6 ragge return 0; 241 1.1 ragge /* 242 1.6 ragge * Reinit the VMB boot device. 243 1.1 ragge */ 244 1.10 ragge if (bqo->unit_init && (moved++ == 0)) { 245 1.6 ragge int initfn; 246 1.6 ragge 247 1.6 ragge initfn = rpb->iovec + bqo->unit_init; 248 1.6 ragge if (rpb->devtyp == BDEV_UDA || rpb->devtyp == BDEV_TK) { 249 1.7 ragge /* 250 1.7 ragge * This reset do not seem to be done in the 251 1.7 ragge * ROM routines, so we have to do it manually. 252 1.7 ragge */ 253 1.1 ragge csr = (struct udadevice *)rpb->csrphy; 254 1.6 ragge csr->udaip = 0; 255 1.6 ragge while ((csr->udasa & MP_STEP1) == 0) 256 1.6 ragge ; 257 1.1 ragge } 258 1.7 ragge /* 259 1.7 ragge * AP (R12) have a pointer to the VMB argument list, 260 1.7 ragge * wanted by bqo->unit_init. 261 1.7 ragge */ 262 1.6 ragge unit_init(initfn, rpb, bootregs[12]); 263 1.1 ragge } 264 1.1 ragge return 0; 265 1.1 ragge } 266 1.1 ragge 267 1.12 matt extern struct disklabel romlabel; 268 1.12 matt 269 1.6 ragge int 270 1.1 ragge romstrategy(sc, func, dblk, size, buf, rsize) 271 1.1 ragge void *sc; 272 1.1 ragge int func; 273 1.1 ragge daddr_t dblk; 274 1.1 ragge size_t size; 275 1.1 ragge void *buf; 276 1.1 ragge size_t *rsize; 277 1.1 ragge { 278 1.1 ragge int block = dblk; 279 1.1 ragge int nsize = size; 280 1.12 matt 281 1.14 matt if (romlabel.d_magic == DISKMAGIC && romlabel.d_magic2 == DISKMAGIC) { 282 1.12 matt if (romlabel.d_npartitions > 1) { 283 1.12 matt block += romlabel.d_partitions[0].p_offset; 284 1.14 matt if (romlabel.d_partitions[0].p_fstype == FS_RAID) { 285 1.13 simonb block += RF_PROTECTED_SECTORS; 286 1.12 matt } 287 1.12 matt } 288 1.12 matt } 289 1.1 ragge 290 1.6 ragge if (from == FROMMV) { 291 1.6 ragge romread_uvax(block, size, buf, rpb); 292 1.6 ragge } else /* if (from == FROM750) */ { 293 1.7 ragge while (size > 0) { 294 1.7 ragge if (rpb->devtyp == BDEV_HP) 295 1.7 ragge hpread(block); 296 1.7 ragge else 297 1.7 ragge read750(block, bootregs); 298 1.7 ragge bcopy(0, buf, 512); 299 1.7 ragge size -= 512; 300 1.7 ragge (char *)buf += 512; 301 1.7 ragge block++; 302 1.7 ragge } 303 1.1 ragge } 304 1.1 ragge 305 1.2 ragge if (rsize) 306 1.2 ragge *rsize = nsize; 307 1.1 ragge return 0; 308 1.1 ragge } 309 1.1 ragge 310 1.7 ragge /* 311 1.7 ragge * The 11/750 boot ROM for Massbus disks doesn't seen to have layout info 312 1.7 ragge * for all RP disks (not RP07 at least) so therefore a very small and dumb 313 1.7 ragge * device driver is used. It assumes that there is a label on the disk 314 1.7 ragge * already that has valid layout info. If there is no label, we can't boot 315 1.7 ragge * anyway. 316 1.7 ragge */ 317 1.9 ragge 318 1.9 ragge #define MBA_WCSR(reg, val) \ 319 1.9 ragge ((void)(*(volatile u_int32_t *)((adpadr) + (reg)) = (val))); 320 1.9 ragge #define MBA_RCSR(reg) \ 321 1.9 ragge (*(volatile u_int32_t *)((adpadr) + (reg))) 322 1.9 ragge #define HP_WCSR(reg, val) \ 323 1.9 ragge ((void)(*(volatile u_int32_t *)((unitadr) + (reg)) = (val))); 324 1.9 ragge #define HP_RCSR(reg) \ 325 1.9 ragge (*(volatile u_int32_t *)((unitadr) + (reg))) 326 1.9 ragge 327 1.7 ragge void 328 1.7 ragge hpread(int bn) 329 1.1 ragge { 330 1.9 ragge int adpadr = bootregs[1]; 331 1.9 ragge int unitadr = adpadr + MUREG(bootregs[3], 0); 332 1.7 ragge u_int cn, sn, tn; 333 1.6 ragge struct disklabel *dp; 334 1.6 ragge extern char start; 335 1.1 ragge 336 1.6 ragge dp = (struct disklabel *)(LABELOFFSET + &start); 337 1.9 ragge MBA_WCSR(MAPREG(0), PG_V); 338 1.1 ragge 339 1.9 ragge MBA_WCSR(MBA_VAR, 0); 340 1.9 ragge MBA_WCSR(MBA_BC, (~512) + 1); 341 1.7 ragge #ifdef __GNUC__ 342 1.7 ragge /* 343 1.7 ragge * Avoid four subroutine calls by using hardware division. 344 1.7 ragge */ 345 1.15 matt asm("clrl %%r1;" 346 1.15 matt "movl %3,%%r0;" 347 1.15 matt "ediv %4,%%r0,%0,%1;" 348 1.15 matt "movl %1,%%r0;" 349 1.15 matt "ediv %5,%%r0,%2,%1" 350 1.7 ragge : "=g"(cn),"=g"(sn),"=g"(tn) 351 1.7 ragge : "g"(bn),"g"(dp->d_secpercyl),"g"(dp->d_nsectors) 352 1.7 ragge : "r0","r1","cc"); 353 1.7 ragge #else 354 1.1 ragge cn = bn / dp->d_secpercyl; 355 1.1 ragge sn = bn % dp->d_secpercyl; 356 1.1 ragge tn = sn / dp->d_nsectors; 357 1.1 ragge sn = sn % dp->d_nsectors; 358 1.7 ragge #endif 359 1.9 ragge HP_WCSR(HP_DC, cn); 360 1.9 ragge HP_WCSR(HP_DA, (tn << 8) | sn); 361 1.9 ragge HP_WCSR(HP_CS1, HPCS_READ); 362 1.9 ragge 363 1.9 ragge while (MBA_RCSR(MBA_SR) & MBASR_DTBUSY) 364 1.7 ragge ; 365 1.7 ragge return; 366 1.1 ragge } 367 1.1 ragge 368 1.2 ragge extern char end[]; 369 1.2 ragge static char *top = (char*)end; 370 1.1 ragge 371 1.2 ragge void * 372 1.2 ragge alloc(size) 373 1.2 ragge unsigned size; 374 1.2 ragge { 375 1.2 ragge void *ut = top; 376 1.2 ragge top += size; 377 1.2 ragge return ut; 378 1.1 ragge } 379 1.1 ragge 380 1.1 ragge void 381 1.2 ragge free(ptr, size) 382 1.2 ragge void *ptr; 383 1.2 ragge unsigned size; 384 1.1 ragge { 385 1.1 ragge } 386 1.1 ragge 387 1.2 ragge int 388 1.2 ragge romclose(f) 389 1.2 ragge struct open_file *f; 390 1.1 ragge { 391 1.2 ragge return 0; 392 1.1 ragge } 393 1.10 ragge 394 1.10 ragge #ifdef USE_PRINTF 395 1.10 ragge void 396 1.10 ragge putchar(int ch) 397 1.10 ragge { 398 1.10 ragge /* 399 1.10 ragge * On KA88 we may get C-S/C-Q from the console. 400 1.10 ragge * Must obey it. 401 1.10 ragge */ 402 1.10 ragge while (mfpr(PR_RXCS) & GC_DON) { 403 1.10 ragge if ((mfpr(PR_RXDB) & 0x7f) == 19) { 404 1.10 ragge while (1) { 405 1.10 ragge while ((mfpr(PR_RXCS) & GC_DON) == 0) 406 1.10 ragge ; 407 1.10 ragge if ((mfpr(PR_RXDB) & 0x7f) == 17) 408 1.10 ragge break; 409 1.10 ragge } 410 1.10 ragge } 411 1.10 ragge } 412 1.10 ragge 413 1.10 ragge while ((mfpr(PR_TXCS) & GC_RDY) == 0) 414 1.10 ragge ; 415 1.10 ragge mtpr(0, PR_TXCS); 416 1.10 ragge mtpr(ch & 0377, PR_TXDB); 417 1.10 ragge if (ch == 10) 418 1.10 ragge putchar(13); 419 1.10 ragge } 420 1.10 ragge #endif 421
Indexes created Mon Oct 20 15:10:11 GMT 2025