oea_machdep.c revision 1.13
1 1.13 pk /* $NetBSD: oea_machdep.c,v 1.13 2003/12/30 12:33:19 pk Exp $ */ 2 1.1 matt 3 1.1 matt /* 4 1.1 matt * Copyright (C) 2002 Matt Thomas 5 1.1 matt * Copyright (C) 1995, 1996 Wolfgang Solfrank. 6 1.1 matt * Copyright (C) 1995, 1996 TooLs GmbH. 7 1.1 matt * All rights reserved. 8 1.1 matt * 9 1.1 matt * Redistribution and use in source and binary forms, with or without 10 1.1 matt * modification, are permitted provided that the following conditions 11 1.1 matt * are met: 12 1.1 matt * 1. Redistributions of source code must retain the above copyright 13 1.1 matt * notice, this list of conditions and the following disclaimer. 14 1.1 matt * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 matt * notice, this list of conditions and the following disclaimer in the 16 1.1 matt * documentation and/or other materials provided with the distribution. 17 1.1 matt * 3. All advertising materials mentioning features or use of this software 18 1.1 matt * must display the following acknowledgement: 19 1.1 matt * This product includes software developed by TooLs GmbH. 20 1.1 matt * 4. The name of TooLs GmbH may not be used to endorse or promote products 21 1.1 matt * derived from this software without specific prior written permission. 22 1.1 matt * 23 1.1 matt * THIS SOFTWARE IS PROVIDED BY TOOLS GMBH ``AS IS'' AND ANY EXPRESS OR 24 1.1 matt * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 25 1.1 matt * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 26 1.1 matt * IN NO EVENT SHALL TOOLS GMBH BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 27 1.1 matt * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 28 1.1 matt * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; 29 1.1 matt * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, 30 1.1 matt * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR 31 1.1 matt * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF 32 1.1 matt * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 33 1.1 matt */ 34 1.9 lukem 35 1.9 lukem #include <sys/cdefs.h> 36 1.13 pk __KERNEL_RCSID(0, "$NetBSD: oea_machdep.c,v 1.13 2003/12/30 12:33:19 pk Exp $"); 37 1.1 matt 38 1.1 matt #include "opt_compat_netbsd.h" 39 1.1 matt #include "opt_ddb.h" 40 1.1 matt #include "opt_kgdb.h" 41 1.1 matt #include "opt_ipkdb.h" 42 1.1 matt #include "opt_multiprocessor.h" 43 1.1 matt #include "opt_altivec.h" 44 1.1 matt 45 1.1 matt #include <sys/param.h> 46 1.1 matt #include <sys/buf.h> 47 1.1 matt #include <sys/exec.h> 48 1.1 matt #include <sys/malloc.h> 49 1.1 matt #include <sys/mbuf.h> 50 1.1 matt #include <sys/mount.h> 51 1.1 matt #include <sys/msgbuf.h> 52 1.1 matt #include <sys/proc.h> 53 1.1 matt #include <sys/reboot.h> 54 1.1 matt #include <sys/sa.h> 55 1.1 matt #include <sys/syscallargs.h> 56 1.1 matt #include <sys/syslog.h> 57 1.1 matt #include <sys/systm.h> 58 1.1 matt #include <sys/kernel.h> 59 1.1 matt #include <sys/user.h> 60 1.1 matt #include <sys/boot_flag.h> 61 1.1 matt 62 1.1 matt #include <uvm/uvm_extern.h> 63 1.1 matt 64 1.1 matt #include <net/netisr.h> 65 1.1 matt 66 1.1 matt #ifdef DDB 67 1.1 matt #include <machine/db_machdep.h> 68 1.1 matt #include <ddb/db_extern.h> 69 1.1 matt #endif 70 1.1 matt 71 1.1 matt #ifdef KGDB 72 1.1 matt #include <sys/kgdb.h> 73 1.1 matt #endif 74 1.1 matt 75 1.1 matt #ifdef IPKDB 76 1.1 matt #include <ipkdb/ipkdb.h> 77 1.1 matt #endif 78 1.1 matt 79 1.1 matt #include <powerpc/oea/bat.h> 80 1.1 matt #include <powerpc/oea/sr_601.h> 81 1.1 matt #include <powerpc/trap.h> 82 1.1 matt #include <powerpc/stdarg.h> 83 1.1 matt #include <powerpc/spr.h> 84 1.1 matt #include <powerpc/pte.h> 85 1.1 matt #include <powerpc/altivec.h> 86 1.1 matt #include <machine/powerpc.h> 87 1.1 matt 88 1.1 matt char machine[] = MACHINE; /* from <machine/param.h> */ 89 1.1 matt char machine_arch[] = MACHINE_ARCH; /* from <machine/param.h> */ 90 1.1 matt 91 1.1 matt struct vm_map *exec_map = NULL; 92 1.1 matt struct vm_map *mb_map = NULL; 93 1.1 matt struct vm_map *phys_map = NULL; 94 1.1 matt 95 1.1 matt /* 96 1.1 matt * Global variables used here and there 97 1.1 matt */ 98 1.1 matt extern struct user *proc0paddr; 99 1.1 matt 100 1.1 matt struct bat battable[512]; 101 1.2 matt register_t iosrtable[16]; /* I/O segments, for kernel_pmap setup */ 102 1.1 matt paddr_t msgbuf_paddr; 103 1.1 matt 104 1.1 matt void 105 1.1 matt oea_init(void (*handler)(void)) 106 1.1 matt { 107 1.1 matt extern int trapstart[], trapend[]; 108 1.6 matt extern int trapcode[], trapsize[]; 109 1.6 matt extern int sctrap[], scsize[]; 110 1.6 matt extern int alitrap[], alisize[]; 111 1.6 matt extern int dsitrap[], dsisize[]; 112 1.6 matt extern int dsi601trap[], dsi601size[]; 113 1.6 matt extern int decrint[], decrsize[]; 114 1.6 matt extern int tlbimiss[], tlbimsize[]; 115 1.6 matt extern int tlbdlmiss[], tlbdlmsize[]; 116 1.6 matt extern int tlbdsmiss[], tlbdsmsize[]; 117 1.1 matt #if defined(DDB) || defined(KGDB) 118 1.6 matt extern int ddblow[], ddbsize[]; 119 1.1 matt #endif 120 1.1 matt #ifdef IPKDB 121 1.6 matt extern int ipkdblow[], ipkdbsize[]; 122 1.1 matt #endif 123 1.1 matt #ifdef ALTIVEC 124 1.1 matt register_t msr; 125 1.1 matt #endif 126 1.1 matt uintptr_t exc; 127 1.1 matt register_t scratch; 128 1.1 matt unsigned int cpuvers; 129 1.1 matt size_t size; 130 1.1 matt struct cpu_info * const ci = &cpu_info[0]; 131 1.1 matt 132 1.1 matt mtspr(SPR_SPRG0, ci); 133 1.1 matt cpuvers = mfpvr() >> 16; 134 1.1 matt 135 1.1 matt 136 1.1 matt /* 137 1.1 matt * Initialize proc0 and current pcb and pmap pointers. 138 1.1 matt */ 139 1.1 matt KASSERT(ci != NULL); 140 1.1 matt KASSERT(curcpu() == ci); 141 1.1 matt lwp0.l_cpu = ci; 142 1.1 matt lwp0.l_addr = proc0paddr; 143 1.1 matt memset(lwp0.l_addr, 0, sizeof *lwp0.l_addr); 144 1.4 matt KASSERT(lwp0.l_cpu != NULL); 145 1.1 matt 146 1.1 matt curpcb = &proc0paddr->u_pcb; 147 1.5 matt memset(curpcb, 0, sizeof(*curpcb)); 148 1.5 matt #ifdef ALTIVEC 149 1.5 matt /* 150 1.5 matt * Initialize the vectors with NaNs 151 1.5 matt */ 152 1.5 matt for (scratch = 0; scratch < 32; scratch++) { 153 1.5 matt curpcb->pcb_vr.vreg[scratch][0] = 0x7FFFDEAD; 154 1.5 matt curpcb->pcb_vr.vreg[scratch][1] = 0x7FFFDEAD; 155 1.5 matt curpcb->pcb_vr.vreg[scratch][2] = 0x7FFFDEAD; 156 1.5 matt curpcb->pcb_vr.vreg[scratch][3] = 0x7FFFDEAD; 157 1.5 matt } 158 1.5 matt curpcb->pcb_vr.vscr = 0; 159 1.5 matt curpcb->pcb_vr.vrsave = 0; 160 1.5 matt #endif 161 1.12 matt curpm = curpcb->pcb_pm = pmap_kernel(); 162 1.1 matt 163 1.1 matt /* 164 1.1 matt * Cause a PGM trap if we branch to 0. 165 1.1 matt */ 166 1.1 matt memset(0, 0, 0x100); 167 1.1 matt 168 1.1 matt /* 169 1.1 matt * Set up trap vectors. Don't assume vectors are on 0x100. 170 1.1 matt */ 171 1.3 matt for (exc = 0; exc <= EXC_LAST; exc += 0x100) { 172 1.1 matt switch (exc) { 173 1.1 matt default: 174 1.6 matt size = (size_t)trapsize; 175 1.6 matt memcpy((void *)exc, trapcode, size); 176 1.1 matt break; 177 1.1 matt #if 0 178 1.1 matt case EXC_EXI: 179 1.1 matt /* 180 1.1 matt * This one is (potentially) installed during autoconf 181 1.1 matt */ 182 1.1 matt break; 183 1.1 matt #endif 184 1.1 matt case EXC_SC: 185 1.6 matt size = (size_t)scsize; 186 1.6 matt memcpy((void *)EXC_SC, sctrap, size); 187 1.1 matt break; 188 1.1 matt case EXC_ALI: 189 1.6 matt size = (size_t)alisize; 190 1.6 matt memcpy((void *)EXC_ALI, alitrap, size); 191 1.1 matt break; 192 1.1 matt case EXC_DSI: 193 1.1 matt if (cpuvers == MPC601) { 194 1.6 matt size = (size_t)dsi601size; 195 1.6 matt memcpy((void *)EXC_DSI, dsi601trap, size); 196 1.1 matt } else { 197 1.6 matt size = (size_t)dsisize; 198 1.6 matt memcpy((void *)EXC_DSI, dsitrap, size); 199 1.1 matt } 200 1.1 matt break; 201 1.1 matt case EXC_DECR: 202 1.6 matt size = (size_t)decrsize; 203 1.6 matt memcpy((void *)EXC_DECR, decrint, size); 204 1.1 matt break; 205 1.1 matt case EXC_IMISS: 206 1.6 matt size = (size_t)tlbimsize; 207 1.6 matt memcpy((void *)EXC_IMISS, tlbimiss, size); 208 1.1 matt break; 209 1.1 matt case EXC_DLMISS: 210 1.6 matt size = (size_t)tlbdlmsize; 211 1.6 matt memcpy((void *)EXC_DLMISS, tlbdlmiss, size); 212 1.1 matt break; 213 1.1 matt case EXC_DSMISS: 214 1.6 matt size = (size_t)tlbdsmsize; 215 1.6 matt memcpy((void *)EXC_DSMISS, tlbdsmiss, size); 216 1.1 matt break; 217 1.1 matt case EXC_PERF: 218 1.6 matt size = (size_t)trapsize; 219 1.6 matt memcpy((void *)EXC_PERF, trapcode, size); 220 1.6 matt memcpy((void *)EXC_VEC, trapcode, size); 221 1.1 matt break; 222 1.1 matt #if defined(DDB) || defined(IPKDB) || defined(KGDB) 223 1.1 matt case EXC_RUNMODETRC: 224 1.1 matt if (cpuvers != MPC601) { 225 1.6 matt size = (size_t)trapsize; 226 1.6 matt memcpy((void *)EXC_RUNMODETRC, trapcode, size); 227 1.1 matt break; 228 1.1 matt } 229 1.1 matt /* FALLTHROUGH */ 230 1.1 matt case EXC_PGM: 231 1.1 matt case EXC_TRC: 232 1.1 matt case EXC_BPT: 233 1.1 matt #if defined(DDB) || defined(KGDB) 234 1.6 matt size = (size_t)ddbsize; 235 1.6 matt memcpy((void *)exc, ddblow, size); 236 1.1 matt #if defined(IPKDB) 237 1.1 matt #error "cannot enable IPKDB with DDB or KGDB" 238 1.1 matt #endif 239 1.1 matt #else 240 1.6 matt size = (size_t)ipkdbsize; 241 1.6 matt memcpy((void *)exc, ipkdblow, size); 242 1.1 matt #endif 243 1.1 matt break; 244 1.1 matt #endif /* DDB || IPKDB || KGDB */ 245 1.1 matt } 246 1.1 matt #if 0 247 1.1 matt exc += roundup(size, 32); 248 1.1 matt #endif 249 1.1 matt } 250 1.1 matt 251 1.1 matt /* 252 1.1 matt * Get the cache sizes because install_extint calls __syncicache. 253 1.1 matt */ 254 1.1 matt cpu_probe_cache(); 255 1.1 matt 256 1.1 matt #define MxSPR_MASK 0x7c1fffff 257 1.1 matt #define MFSPR_MQ 0x7c0002a6 258 1.1 matt #define MTSPR_MQ 0x7c0003a6 259 1.1 matt #define NOP 0x60000000 260 1.1 matt 261 1.1 matt #ifdef ALTIVEC 262 1.1 matt #define MFSPR_VRSAVE 0x7c0042a6 263 1.1 matt #define MTSPR_VRSAVE 0x7c0043a6 264 1.1 matt 265 1.1 matt /* 266 1.1 matt * Try to set the VEC bit in the MSR. If it doesn't get set, we are 267 1.1 matt * not on a AltiVec capable processor. 268 1.1 matt */ 269 1.1 matt __asm __volatile ( 270 1.1 matt "mfmsr %0; oris %1,%0,%2@h; mtmsr %1; isync; " 271 1.1 matt "mfmsr %1; mtmsr %0; isync" 272 1.1 matt : "=r"(msr), "=r"(scratch) 273 1.1 matt : "J"(PSL_VEC)); 274 1.1 matt 275 1.1 matt /* 276 1.1 matt * If we aren't on an AltiVec capable processor, we to need zap any of 277 1.1 matt * sequences we save/restore the VRSAVE SPR into NOPs. 278 1.1 matt */ 279 1.1 matt if (scratch & PSL_VEC) { 280 1.1 matt cpu_altivec = 1; 281 1.1 matt } else { 282 1.1 matt int *ip = trapstart; 283 1.1 matt 284 1.1 matt for (; ip < trapend; ip++) { 285 1.1 matt if ((ip[0] & MxSPR_MASK) == MFSPR_VRSAVE) { 286 1.1 matt ip[0] = NOP; /* mfspr */ 287 1.1 matt ip[1] = NOP; /* stw */ 288 1.1 matt } else if ((ip[0] & MxSPR_MASK) == MTSPR_VRSAVE) { 289 1.1 matt ip[-1] = NOP; /* lwz */ 290 1.1 matt ip[0] = NOP; /* mtspr */ 291 1.1 matt } 292 1.1 matt } 293 1.1 matt } 294 1.1 matt #endif 295 1.1 matt 296 1.1 matt /* 297 1.1 matt * If we aren't on a MPC601 processor, we to need zap any of 298 1.1 matt * sequences we save/restore the MQ SPR into NOPs. 299 1.1 matt */ 300 1.1 matt if (cpuvers != MPC601) { 301 1.1 matt int *ip = trapstart; 302 1.1 matt 303 1.1 matt for (; ip < trapend; ip++) { 304 1.1 matt if ((ip[0] & MxSPR_MASK) == MFSPR_MQ) { 305 1.1 matt ip[0] = NOP; /* mfspr */ 306 1.1 matt ip[1] = NOP; /* stw */ 307 1.1 matt } else if ((ip[0] & MxSPR_MASK) == MTSPR_MQ) { 308 1.1 matt ip[-1] = NOP; /* lwz */ 309 1.1 matt ip[0] = NOP; /* mtspr */ 310 1.1 matt } 311 1.1 matt } 312 1.1 matt } 313 1.1 matt 314 1.1 matt if (!cpu_altivec || cpuvers != MPC601) { 315 1.1 matt /* 316 1.1 matt * Sync the changed instructions. 317 1.1 matt */ 318 1.1 matt __syncicache((void *) trapstart, 319 1.1 matt (uintptr_t) trapend - (uintptr_t) trapstart); 320 1.1 matt } 321 1.1 matt 322 1.1 matt /* 323 1.1 matt * external interrupt handler install 324 1.1 matt */ 325 1.1 matt if (handler) 326 1.1 matt oea_install_extint(handler); 327 1.1 matt 328 1.1 matt __syncicache(0, EXC_LAST + 0x100); 329 1.1 matt 330 1.1 matt /* 331 1.1 matt * Now enable translation (and machine checks/recoverable interrupts). 332 1.1 matt */ 333 1.1 matt __asm __volatile ("sync; mfmsr %0; ori %0,%0,%1; mtmsr %0; isync" 334 1.1 matt : "=r"(scratch) 335 1.1 matt : "K"(PSL_IR|PSL_DR|PSL_ME|PSL_RI)); 336 1.1 matt 337 1.1 matt KASSERT(curcpu() == ci); 338 1.1 matt } 339 1.1 matt 340 1.1 matt void 341 1.1 matt mpc601_ioseg_add(paddr_t pa, register_t len) 342 1.1 matt { 343 1.1 matt const u_int i = pa >> ADDR_SR_SHFT; 344 1.1 matt 345 1.1 matt if (len != BAT_BL_256M) 346 1.1 matt panic("mpc601_ioseg_add: len != 256M"); 347 1.1 matt 348 1.1 matt /* 349 1.1 matt * Translate into an I/O segment, load it, and stash away for use 350 1.1 matt * in pmap_bootstrap(). 351 1.1 matt */ 352 1.1 matt iosrtable[i] = SR601(SR601_Ks, SR601_BUID_MEMFORCED, 0, i); 353 1.1 matt __asm __volatile ("mtsrin %0,%1" 354 1.1 matt :: "r"(iosrtable[i]), 355 1.1 matt "r"(pa)); 356 1.1 matt } 357 1.1 matt 358 1.1 matt void 359 1.1 matt oea_iobat_add(paddr_t pa, register_t len) 360 1.1 matt { 361 1.1 matt static int n = 1; 362 1.1 matt const u_int i = pa >> 28; 363 1.1 matt battable[i].batl = BATL(pa, BAT_I|BAT_G, BAT_PP_RW); 364 1.1 matt battable[i].batu = BATU(pa, len, BAT_Vs); 365 1.1 matt 366 1.1 matt /* 367 1.1 matt * Let's start loading the BAT registers. 368 1.1 matt */ 369 1.1 matt switch (n) { 370 1.1 matt case 1: 371 1.1 matt __asm __volatile ("mtdbatl 1,%0; mtdbatu 1,%1;" 372 1.1 matt :: "r"(battable[i].batl), 373 1.1 matt "r"(battable[i].batu)); 374 1.1 matt n = 2; 375 1.1 matt break; 376 1.1 matt case 2: 377 1.1 matt __asm __volatile ("mtdbatl 2,%0; mtdbatu 2,%1;" 378 1.1 matt :: "r"(battable[i].batl), 379 1.1 matt "r"(battable[i].batu)); 380 1.1 matt n = 3; 381 1.1 matt break; 382 1.1 matt case 3: 383 1.1 matt __asm __volatile ("mtdbatl 3,%0; mtdbatu 3,%1;" 384 1.1 matt :: "r"(battable[i].batl), 385 1.1 matt "r"(battable[i].batu)); 386 1.1 matt n = 4; 387 1.1 matt break; 388 1.1 matt default: 389 1.1 matt break; 390 1.3 matt } 391 1.3 matt } 392 1.3 matt 393 1.3 matt void 394 1.3 matt oea_iobat_remove(paddr_t pa) 395 1.3 matt { 396 1.3 matt register_t batu; 397 1.3 matt int i, n; 398 1.3 matt 399 1.3 matt n = pa >> ADDR_SR_SHFT; 400 1.3 matt if (!BAT_VA_MATCH_P(battable[n].batu, pa) || 401 1.3 matt !BAT_VALID_P(battable[n].batu, PSL_PR)) 402 1.3 matt return; 403 1.3 matt battable[n].batl = 0; 404 1.3 matt battable[n].batu = 0; 405 1.3 matt #define BAT_RESET(n) \ 406 1.3 matt __asm __volatile("mtdbatu %0,%1; mtdbatl %0,%1" :: "n"(n), "r"(0)) 407 1.3 matt #define BATU_GET(n, r) __asm __volatile("mfdbatu %0,%1" : "=r"(r) : "n"(n)) 408 1.3 matt 409 1.3 matt for (i=1 ; i<4 ; i++) { 410 1.3 matt switch (i) { 411 1.3 matt case 1: 412 1.3 matt BATU_GET(1, batu); 413 1.3 matt if (BAT_VA_MATCH_P(batu, pa) && 414 1.3 matt BAT_VALID_P(batu, PSL_PR)) 415 1.3 matt BAT_RESET(1); 416 1.3 matt break; 417 1.3 matt case 2: 418 1.3 matt BATU_GET(2, batu); 419 1.3 matt if (BAT_VA_MATCH_P(batu, pa) && 420 1.3 matt BAT_VALID_P(batu, PSL_PR)) 421 1.3 matt BAT_RESET(2); 422 1.3 matt break; 423 1.3 matt case 3: 424 1.3 matt BATU_GET(3, batu); 425 1.3 matt if (BAT_VA_MATCH_P(batu, pa) && 426 1.3 matt BAT_VALID_P(batu, PSL_PR)) 427 1.3 matt BAT_RESET(3); 428 1.3 matt break; 429 1.3 matt default: 430 1.3 matt break; 431 1.3 matt } 432 1.1 matt } 433 1.1 matt } 434 1.1 matt 435 1.1 matt void 436 1.1 matt oea_batinit(paddr_t pa, ...) 437 1.1 matt { 438 1.1 matt struct mem_region *allmem, *availmem, *mp; 439 1.1 matt int i; 440 1.1 matt unsigned int cpuvers; 441 1.7 matt register_t msr = mfmsr(); 442 1.1 matt va_list ap; 443 1.1 matt 444 1.1 matt cpuvers = mfpvr() >> 16; 445 1.1 matt 446 1.1 matt /* 447 1.1 matt * Initialize BAT registers to unmapped to not generate 448 1.1 matt * overlapping mappings below. 449 1.1 matt * 450 1.1 matt * The 601's implementation differs in the Valid bit being situated 451 1.1 matt * in the lower BAT register, and in being a unified BAT only whose 452 1.1 matt * four entries are accessed through the IBAT[0-3] SPRs. 453 1.1 matt * 454 1.1 matt * Also, while the 601 does distinguish between supervisor/user 455 1.1 matt * protection keys, it does _not_ distinguish distinguish between 456 1.1 matt * validity in supervisor/user mode. 457 1.1 matt */ 458 1.7 matt if ((msr & (PSL_IR|PSL_DR)) == 0) { 459 1.7 matt if (cpuvers == MPC601) { 460 1.7 matt __asm __volatile ("mtibatl 0,%0" :: "r"(0)); 461 1.7 matt __asm __volatile ("mtibatl 1,%0" :: "r"(0)); 462 1.7 matt __asm __volatile ("mtibatl 2,%0" :: "r"(0)); 463 1.7 matt __asm __volatile ("mtibatl 3,%0" :: "r"(0)); 464 1.7 matt } else { 465 1.7 matt __asm __volatile ("mtibatu 0,%0" :: "r"(0)); 466 1.7 matt __asm __volatile ("mtibatu 1,%0" :: "r"(0)); 467 1.7 matt __asm __volatile ("mtibatu 2,%0" :: "r"(0)); 468 1.7 matt __asm __volatile ("mtibatu 3,%0" :: "r"(0)); 469 1.7 matt __asm __volatile ("mtdbatu 0,%0" :: "r"(0)); 470 1.7 matt __asm __volatile ("mtdbatu 1,%0" :: "r"(0)); 471 1.7 matt __asm __volatile ("mtdbatu 2,%0" :: "r"(0)); 472 1.7 matt __asm __volatile ("mtdbatu 3,%0" :: "r"(0)); 473 1.7 matt } 474 1.1 matt } 475 1.1 matt 476 1.1 matt /* 477 1.1 matt * Set up BAT to map physical memory 478 1.1 matt */ 479 1.1 matt if (cpuvers == MPC601) { 480 1.1 matt /* 481 1.1 matt * Set up battable to map the lowest 256 MB area. 482 1.1 matt * Map the lowest 32 MB area via BAT[0-3]; 483 1.1 matt * BAT[01] are fixed, BAT[23] are floating. 484 1.1 matt */ 485 1.1 matt for (i = 0; i < 32; i++) { 486 1.1 matt battable[i].batl = BATL601(i << 23, 487 1.1 matt BAT601_BSM_8M, BAT601_V); 488 1.1 matt battable[i].batu = BATU601(i << 23, 489 1.1 matt BAT601_M, BAT601_Ku, BAT601_PP_NONE); 490 1.1 matt } 491 1.1 matt __asm __volatile ("mtibatu 0,%1; mtibatl 0,%0" 492 1.1 matt :: "r"(battable[0x00000000 >> 23].batl), 493 1.1 matt "r"(battable[0x00000000 >> 23].batu)); 494 1.1 matt __asm __volatile ("mtibatu 1,%1; mtibatl 1,%0" 495 1.1 matt :: "r"(battable[0x00800000 >> 23].batl), 496 1.1 matt "r"(battable[0x00800000 >> 23].batu)); 497 1.1 matt __asm __volatile ("mtibatu 2,%1; mtibatl 2,%0" 498 1.1 matt :: "r"(battable[0x01000000 >> 23].batl), 499 1.1 matt "r"(battable[0x01000000 >> 23].batu)); 500 1.1 matt __asm __volatile ("mtibatu 3,%1; mtibatl 3,%0" 501 1.1 matt :: "r"(battable[0x01800000 >> 23].batl), 502 1.1 matt "r"(battable[0x01800000 >> 23].batu)); 503 1.1 matt } else { 504 1.1 matt /* 505 1.1 matt * Set up BAT0 to only map the lowest 256 MB area 506 1.1 matt */ 507 1.1 matt battable[0].batl = BATL(0x00000000, BAT_M, BAT_PP_RW); 508 1.1 matt battable[0].batu = BATU(0x00000000, BAT_BL_256M, BAT_Vs); 509 1.1 matt 510 1.1 matt __asm __volatile ("mtibatl 0,%0; mtibatu 0,%1;" 511 1.1 matt "mtdbatl 0,%0; mtdbatu 0,%1;" 512 1.1 matt :: "r"(battable[0].batl), "r"(battable[0].batu)); 513 1.1 matt } 514 1.1 matt 515 1.1 matt /* 516 1.1 matt * Now setup other fixed bat registers 517 1.1 matt * 518 1.1 matt * Note that we still run in real mode, and the BAT 519 1.1 matt * registers were cleared above. 520 1.1 matt */ 521 1.1 matt 522 1.1 matt va_start(ap, pa); 523 1.1 matt 524 1.1 matt /* 525 1.1 matt * Add any I/O BATs specificed; 526 1.1 matt * use I/O segments on the BAT-starved 601. 527 1.1 matt */ 528 1.1 matt if (cpuvers == MPC601) { 529 1.1 matt while (pa != 0) { 530 1.1 matt register_t len = va_arg(ap, register_t); 531 1.1 matt mpc601_ioseg_add(pa, len); 532 1.1 matt pa = va_arg(ap, paddr_t); 533 1.1 matt } 534 1.1 matt } else { 535 1.1 matt while (pa != 0) { 536 1.1 matt register_t len = va_arg(ap, register_t); 537 1.1 matt oea_iobat_add(pa, len); 538 1.1 matt pa = va_arg(ap, paddr_t); 539 1.1 matt } 540 1.1 matt } 541 1.1 matt 542 1.1 matt va_end(ap); 543 1.1 matt 544 1.1 matt /* 545 1.1 matt * Set up battable to map all RAM regions. 546 1.1 matt * This is here because mem_regions() call needs bat0 set up. 547 1.1 matt */ 548 1.1 matt mem_regions(&allmem, &availmem); 549 1.1 matt if (cpuvers == MPC601) { 550 1.1 matt for (mp = allmem; mp->size; mp++) { 551 1.1 matt paddr_t pa = mp->start & 0xff800000; 552 1.1 matt paddr_t end = mp->start + mp->size; 553 1.1 matt 554 1.1 matt do { 555 1.1 matt u_int i = pa >> 23; 556 1.1 matt 557 1.1 matt battable[i].batl = 558 1.1 matt BATL601(pa, BAT601_BSM_8M, BAT601_V); 559 1.1 matt battable[i].batu = 560 1.1 matt BATU601(pa, BAT601_M, BAT601_Ku, BAT601_PP_NONE); 561 1.1 matt pa += (1 << 23); 562 1.1 matt } while (pa < end); 563 1.1 matt } 564 1.1 matt } else { 565 1.1 matt for (mp = allmem; mp->size; mp++) { 566 1.1 matt paddr_t pa = mp->start & 0xf0000000; 567 1.1 matt paddr_t end = mp->start + mp->size; 568 1.1 matt 569 1.1 matt do { 570 1.1 matt u_int i = pa >> 28; 571 1.1 matt 572 1.1 matt battable[i].batl = 573 1.1 matt BATL(pa, BAT_M, BAT_PP_RW); 574 1.1 matt battable[i].batu = 575 1.1 matt BATU(pa, BAT_BL_256M, BAT_Vs); 576 1.1 matt pa += SEGMENT_LENGTH; 577 1.1 matt } while (pa < end); 578 1.1 matt } 579 1.1 matt } 580 1.1 matt } 581 1.1 matt 582 1.1 matt void 583 1.1 matt oea_install_extint(void (*handler)(void)) 584 1.1 matt { 585 1.6 matt extern int extint[], extsize[]; 586 1.6 matt extern int extint_call[]; 587 1.6 matt uintptr_t offset = (uintptr_t)handler - (uintptr_t)extint_call; 588 1.1 matt int omsr, msr; 589 1.1 matt 590 1.1 matt #ifdef DIAGNOSTIC 591 1.1 matt if (offset > 0x1ffffff) 592 1.1 matt panic("install_extint: %p too far away (%#lx)", handler, 593 1.1 matt (unsigned long) offset); 594 1.1 matt #endif 595 1.1 matt __asm __volatile ("mfmsr %0; andi. %1,%0,%2; mtmsr %1" 596 1.1 matt : "=r" (omsr), "=r" (msr) 597 1.1 matt : "K" ((u_short)~PSL_EE)); 598 1.6 matt extint_call[0] = (extint_call[0] & 0xfc000003) | offset; 599 1.6 matt memcpy((void *)EXC_EXI, extint, (size_t)extsize); 600 1.6 matt __syncicache((void *)extint_call, sizeof extint_call[0]); 601 1.6 matt __syncicache((void *)EXC_EXI, (int)extsize); 602 1.1 matt __asm __volatile ("mtmsr %0" :: "r"(omsr)); 603 1.1 matt } 604 1.1 matt 605 1.1 matt /* 606 1.1 matt * Machine dependent startup code. 607 1.1 matt */ 608 1.1 matt void 609 1.1 matt oea_startup(const char *model) 610 1.1 matt { 611 1.1 matt uintptr_t sz; 612 1.1 matt caddr_t v; 613 1.1 matt vaddr_t minaddr, maxaddr; 614 1.1 matt char pbuf[9]; 615 1.13 pk u_int i; 616 1.1 matt 617 1.1 matt KASSERT(curcpu() != NULL); 618 1.1 matt KASSERT(lwp0.l_cpu != NULL); 619 1.4 matt KASSERT(curcpu()->ci_intstk != 0); 620 1.4 matt KASSERT(curcpu()->ci_intrdepth == -1); 621 1.1 matt 622 1.1 matt /* 623 1.1 matt * If the msgbuf is not in segment 0, allocate KVA for it and access 624 1.1 matt * it via mapped pages. [This prevents unneeded BAT switches.] 625 1.1 matt */ 626 1.1 matt sz = round_page(MSGBUFSIZE); 627 1.1 matt v = (caddr_t) msgbuf_paddr; 628 1.1 matt if (msgbuf_paddr + sz > SEGMENT_LENGTH) { 629 1.1 matt minaddr = 0; 630 1.1 matt if (uvm_map(kernel_map, &minaddr, sz, 631 1.1 matt NULL, UVM_UNKNOWN_OFFSET, 0, 632 1.1 matt UVM_MAPFLAG(UVM_PROT_NONE, UVM_PROT_NONE, 633 1.1 matt UVM_INH_NONE, UVM_ADV_NORMAL, 0)) != 0) 634 1.1 matt panic("startup: cannot allocate VM for msgbuf"); 635 1.1 matt v = (caddr_t)minaddr; 636 1.8 thorpej for (i = 0; i < sz; i += PAGE_SIZE) { 637 1.1 matt pmap_kenter_pa(minaddr + i, msgbuf_paddr + i, 638 1.1 matt VM_PROT_READ|VM_PROT_WRITE); 639 1.1 matt } 640 1.1 matt pmap_update(pmap_kernel()); 641 1.1 matt } 642 1.1 matt initmsgbuf(v, sz); 643 1.1 matt 644 1.1 matt printf("%s", version); 645 1.1 matt if (model != NULL) 646 1.1 matt printf("Model: %s\n", model); 647 1.1 matt cpu_identify(NULL, 0); 648 1.1 matt 649 1.1 matt format_bytes(pbuf, sizeof(pbuf), ctob((u_int)physmem)); 650 1.1 matt printf("total memory = %s\n", pbuf); 651 1.1 matt 652 1.1 matt /* 653 1.1 matt * Allocate away the pages that map to 0xDEA[CDE]xxxx. Do this after 654 1.1 matt * the bufpages are allocated in case they overlap since it's not 655 1.1 matt * fatal if we can't allocate these. 656 1.1 matt */ 657 1.4 matt if (KERNEL_SR == 13 || KERNEL2_SR == 14) { 658 1.4 matt int error; 659 1.4 matt minaddr = 0xDEAC0000; 660 1.4 matt error = uvm_map(kernel_map, &minaddr, 0x30000, 661 1.4 matt NULL, UVM_UNKNOWN_OFFSET, 0, 662 1.4 matt UVM_MAPFLAG(UVM_PROT_NONE, UVM_PROT_NONE, UVM_INH_NONE, 663 1.4 matt UVM_ADV_NORMAL, UVM_FLAG_FIXED)); 664 1.4 matt if (error != 0 || minaddr != 0xDEAC0000) 665 1.4 matt printf("oea_startup: failed to allocate DEAD " 666 1.4 matt "ZONE: error=%d\n", error); 667 1.1 matt } 668 1.13 pk 669 1.4 matt minaddr = 0; 670 1.1 matt /* 671 1.1 matt * Allocate a submap for exec arguments. This map effectively 672 1.1 matt * limits the number of processes exec'ing at any time. These 673 1.1 matt * submaps will be allocated after the dead zone. 674 1.1 matt */ 675 1.1 matt exec_map = uvm_km_suballoc(kernel_map, &minaddr, &maxaddr, 676 1.1 matt 16*NCARGS, VM_MAP_PAGEABLE, FALSE, NULL); 677 1.1 matt 678 1.1 matt /* 679 1.1 matt * Allocate a submap for physio 680 1.1 matt */ 681 1.1 matt phys_map = uvm_km_suballoc(kernel_map, &minaddr, &maxaddr, 682 1.1 matt VM_PHYS_SIZE, 0, FALSE, NULL); 683 1.1 matt 684 1.1 matt #ifndef PMAP_MAP_POOLPAGE 685 1.1 matt /* 686 1.1 matt * No need to allocate an mbuf cluster submap. Mbuf clusters 687 1.1 matt * are allocated via the pool allocator, and we use direct-mapped 688 1.1 matt * pool pages. 689 1.1 matt */ 690 1.1 matt mb_map = uvm_km_suballoc(kernel_map, &minaddr, &maxaddr, 691 1.1 matt mclbytes*nmbclusters, VM_MAP_INTRSAFE, FALSE, NULL); 692 1.1 matt #endif 693 1.1 matt 694 1.1 matt format_bytes(pbuf, sizeof(pbuf), ptoa(uvmexp.free)); 695 1.1 matt printf("avail memory = %s\n", pbuf); 696 1.1 matt } 697 1.1 matt 698 1.1 matt /* 699 1.1 matt * Crash dump handling. 700 1.1 matt */ 701 1.1 matt 702 1.1 matt void 703 1.1 matt oea_dumpsys(void) 704 1.1 matt { 705 1.1 matt printf("dumpsys: TBD\n"); 706 1.1 matt } 707 1.1 matt 708 1.1 matt /* 709 1.1 matt * Soft networking interrupts. 710 1.1 matt */ 711 1.1 matt void 712 1.1 matt softnet(int pendisr) 713 1.1 matt { 714 1.1 matt #define DONETISR(bit, fn) do { \ 715 1.1 matt if (pendisr & (1 << bit)) \ 716 1.1 matt (*fn)(); \ 717 1.1 matt } while (0) 718 1.1 matt 719 1.1 matt #include <net/netisr_dispatch.h> 720 1.1 matt 721 1.1 matt #undef DONETISR 722 1.1 matt 723 1.1 matt } 724 1.1 matt 725 1.1 matt /* 726 1.1 matt * Convert kernel VA to physical address 727 1.1 matt */ 728 1.1 matt paddr_t 729 1.1 matt kvtop(caddr_t addr) 730 1.1 matt { 731 1.1 matt vaddr_t va; 732 1.1 matt paddr_t pa; 733 1.1 matt uintptr_t off; 734 1.1 matt extern char end[]; 735 1.1 matt 736 1.1 matt if (addr < end) 737 1.1 matt return (paddr_t)addr; 738 1.1 matt 739 1.1 matt va = trunc_page((vaddr_t)addr); 740 1.1 matt off = (uintptr_t)addr - va; 741 1.1 matt 742 1.1 matt if (pmap_extract(pmap_kernel(), va, &pa) == FALSE) { 743 1.1 matt /*printf("kvtop: zero page frame (va=0x%x)\n", addr);*/ 744 1.1 matt return (paddr_t)addr; 745 1.1 matt } 746 1.1 matt 747 1.1 matt return(pa + off); 748 1.1 matt } 749 1.1 matt 750 1.1 matt /* 751 1.1 matt * Allocate vm space and mapin the I/O address 752 1.1 matt */ 753 1.1 matt void * 754 1.1 matt mapiodev(paddr_t pa, psize_t len) 755 1.1 matt { 756 1.1 matt paddr_t faddr; 757 1.1 matt vaddr_t taddr, va; 758 1.1 matt int off; 759 1.1 matt 760 1.1 matt faddr = trunc_page(pa); 761 1.1 matt off = pa - faddr; 762 1.1 matt len = round_page(off + len); 763 1.1 matt va = taddr = uvm_km_valloc(kernel_map, len); 764 1.1 matt 765 1.1 matt if (va == 0) 766 1.1 matt return NULL; 767 1.1 matt 768 1.8 thorpej for (; len > 0; len -= PAGE_SIZE) { 769 1.1 matt pmap_kenter_pa(taddr, faddr, VM_PROT_READ | VM_PROT_WRITE); 770 1.8 thorpej faddr += PAGE_SIZE; 771 1.8 thorpej taddr += PAGE_SIZE; 772 1.1 matt } 773 1.1 matt pmap_update(pmap_kernel()); 774 1.1 matt return (void *)(va + off); 775 1.1 matt } 776
Indexes created Mon Sep 29 21:09:56 GMT 2025