1 /*- 2 * Copyright (c) 2006 Peter Wemm 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions 7 * are met: 8 * 9 * 1. Redistributions of source code must retain the above copyright 10 * notice, this list of conditions and the following disclaimer. 11 * 2. Redistributions in binary form must reproduce the above copyright 12 * notice, this list of conditions and the following disclaimer in the 13 * documentation and/or other materials provided with the distribution. 14 * 15 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 16 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 17 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 18 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 19 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 20 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 21 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 22 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 23 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 24 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 25 * 26 * $FreeBSD: src/sys/amd64/amd64/minidump_machdep.c,v 1.10 2009/05/29 21:27:12 jamie Exp $ 27 */ 28 29 #include <sys/param.h> 30 #include <sys/systm.h> 31 #include <sys/conf.h> 32 #include <sys/cons.h> 33 #include <sys/device.h> 34 #include <sys/globaldata.h> 35 #include <sys/kernel.h> 36 #include <sys/kerneldump.h> 37 #include <sys/msgbuf.h> 38 #include <sys/kbio.h> 39 #include <vm/vm.h> 40 #include <vm/vm_kern.h> 41 #include <vm/pmap.h> 42 #include <machine/atomic.h> 43 #include <machine/elf.h> 44 #include <machine/globaldata.h> 45 #include <machine/md_var.h> 46 #include <machine/vmparam.h> 47 #include <machine/minidump.h> 48 49 CTASSERT(sizeof(struct kerneldumpheader) == 512); 50 51 /* 52 * Don't touch the first SIZEOF_METADATA bytes on the dump device. This 53 * is to protect us from metadata and to protect metadata from us. 54 */ 55 #define SIZEOF_METADATA (64*1024) 56 57 #define MD_ALIGN(x) (((off_t)(x) + PAGE_MASK) & ~PAGE_MASK) 58 #define DEV_ALIGN(x) roundup2((off_t)(x), DEV_BSIZE) 59 60 extern uint64_t KPDPphys; 61 62 uint64_t *vm_page_dump; 63 int vm_page_dump_size; 64 65 static struct kerneldumpheader kdh; 66 static off_t dumplo; 67 68 /* Handle chunked writes. */ 69 static size_t fragsz; 70 static void *dump_va; 71 static size_t counter, progress; 72 73 CTASSERT(sizeof(*vm_page_dump) == 8); 74 75 static int 76 is_dumpable(vm_paddr_t pa) 77 { 78 int i; 79 80 for (i = 0; dump_avail[i] != 0 || dump_avail[i + 1] != 0; i += 2) { 81 if (pa >= dump_avail[i] && pa < dump_avail[i + 1]) 82 return (1); 83 } 84 return (0); 85 } 86 87 #define PG2MB(pgs) (((pgs) + (1 << 8) - 1) >> 8) 88 89 static int 90 blk_flush(struct dumperinfo *di) 91 { 92 int error; 93 94 if (fragsz == 0) 95 return (0); 96 97 error = dev_ddump(di->priv, dump_va, 0, dumplo, fragsz); 98 dumplo += fragsz; 99 fragsz = 0; 100 return (error); 101 } 102 103 static int 104 blk_write(struct dumperinfo *di, char *ptr, vm_paddr_t pa, size_t sz) 105 { 106 size_t len; 107 int error, i, c; 108 int max_iosize; 109 110 error = 0; 111 if ((sz & PAGE_MASK)) { 112 kprintf("size not page aligned\n"); 113 return (EINVAL); 114 } 115 if (ptr != NULL && pa != 0) { 116 kprintf("can't have both va and pa!\n"); 117 return (EINVAL); 118 } 119 if (pa != 0 && (((uintptr_t)pa) & PAGE_MASK) != 0) { 120 kprintf("address not page aligned\n"); 121 return (EINVAL); 122 } 123 if (ptr != NULL) { 124 /* 125 * If we're doing a virtual dump, flush any 126 * pre-existing pa pages 127 */ 128 error = blk_flush(di); 129 if (error) 130 return (error); 131 } 132 max_iosize = min(MAXPHYS, di->maxiosize); 133 while (sz) { 134 len = max_iosize - fragsz; 135 if (len > sz) 136 len = sz; 137 counter += len; 138 progress -= len; 139 if (counter >> 24) { 140 kprintf(" %ld", PG2MB(progress >> PAGE_SHIFT)); 141 counter &= (1<<24) - 1; 142 } 143 if (ptr) { 144 /*kprintf("s");*/ 145 error = dev_ddump(di->priv, ptr, 0, dumplo, len); 146 /* kprintf("t");*/ 147 if (error) 148 return (error); 149 dumplo += len; 150 ptr += len; 151 sz -= len; 152 } else { 153 for (i = 0; i < len; i += PAGE_SIZE) { 154 dump_va = pmap_kenter_temporary(pa + i, 155 (i + fragsz) >> PAGE_SHIFT); 156 } 157 smp_invltlb(); 158 fragsz += len; 159 pa += len; 160 sz -= len; 161 if (fragsz == max_iosize) { 162 error = blk_flush(di); 163 if (error) 164 return (error); 165 } 166 } 167 } 168 169 /* Check for user abort. */ 170 c = cncheckc(); 171 if (c == 0x03) 172 return (ECANCELED); 173 if (c != -1 && c != NOKEY) 174 kprintf(" (CTRL-C to abort) "); 175 176 return (0); 177 } 178 179 /* A fake page table page, to avoid having to handle both 4K and 2M pages */ 180 static pt_entry_t fakept[NPTEPG]; 181 182 void 183 minidumpsys(struct dumperinfo *di) 184 { 185 uint64_t dumpsize; 186 uint32_t ptesize; 187 vm_offset_t va; 188 vm_offset_t kern_end; 189 int error; 190 uint64_t bits; 191 uint64_t *pdp, *pd, *pt, pa; 192 int i, j, k, bit; 193 struct minidumphdr mdhdr; 194 struct mdglobaldata *md; 195 196 cnpoll(TRUE); 197 counter = 0; 198 /* 199 * Walk page table pages, set bits in vm_page_dump. 200 * 201 * NOTE: kernel_vm_end can actually be below KERNBASE. 202 * Just use KvaEnd. Also note that loops which go 203 * all the way to the end of the address space might 204 * overflow the loop variable. 205 */ 206 ptesize = 0; 207 208 md = (struct mdglobaldata *)globaldata_find(0); 209 210 kern_end = KvaEnd; 211 if (kern_end < (vm_offset_t)&(md[ncpus])) 212 kern_end = (vm_offset_t)&(md[ncpus]); 213 214 pdp = (uint64_t *)PHYS_TO_DMAP(KPDPphys); 215 for (va = VM_MIN_KERNEL_ADDRESS; va < kern_end; va += NBPDR) { 216 /* 217 * The loop probably overflows a 64-bit int due to NBPDR. 218 */ 219 if (va < VM_MIN_KERNEL_ADDRESS) 220 break; 221 222 /* 223 * We always write a page, even if it is zero. Each 224 * page written corresponds to 2MB of space 225 */ 226 i = (va >> PDPSHIFT) & ((1ul << NPDPEPGSHIFT) - 1); 227 ptesize += PAGE_SIZE; 228 if ((pdp[i] & kernel_pmap.pmap_bits[PG_V_IDX]) == 0) 229 continue; 230 pd = (uint64_t *)PHYS_TO_DMAP(pdp[i] & PG_FRAME); 231 j = ((va >> PDRSHIFT) & ((1ul << NPDEPGSHIFT) - 1)); 232 if ((pd[j] & (kernel_pmap.pmap_bits[PG_PS_IDX] | kernel_pmap.pmap_bits[PG_V_IDX])) == 233 (kernel_pmap.pmap_bits[PG_PS_IDX] | kernel_pmap.pmap_bits[PG_V_IDX])) { 234 /* This is an entire 2M page. */ 235 pa = pd[j] & PG_PS_FRAME; 236 for (k = 0; k < NPTEPG; k++) { 237 if (is_dumpable(pa)) 238 dump_add_page(pa); 239 pa += PAGE_SIZE; 240 } 241 continue; 242 } 243 if ((pd[j] & kernel_pmap.pmap_bits[PG_V_IDX]) == kernel_pmap.pmap_bits[PG_V_IDX]) { 244 /* set bit for each valid page in this 2MB block */ 245 pt = (uint64_t *)PHYS_TO_DMAP(pd[j] & PG_FRAME); 246 for (k = 0; k < NPTEPG; k++) { 247 if ((pt[k] & kernel_pmap.pmap_bits[PG_V_IDX]) == kernel_pmap.pmap_bits[PG_V_IDX]) { 248 pa = pt[k] & PG_FRAME; 249 if (is_dumpable(pa)) 250 dump_add_page(pa); 251 } 252 } 253 } else { 254 /* nothing, we're going to dump a null page */ 255 } 256 } 257 258 /* Calculate dump size. */ 259 dumpsize = ptesize; 260 dumpsize += round_page(msgbufp->msg_size); 261 dumpsize += round_page(vm_page_dump_size); 262 for (i = 0; i < vm_page_dump_size / sizeof(*vm_page_dump); i++) { 263 bits = vm_page_dump[i]; 264 while (bits) { 265 bit = bsfq(bits); 266 pa = (((uint64_t)i * sizeof(*vm_page_dump) * NBBY) + bit) * PAGE_SIZE; 267 /* Clear out undumpable pages now if needed */ 268 if (is_dumpable(pa)) { 269 dumpsize += PAGE_SIZE; 270 } else { 271 dump_drop_page(pa); 272 } 273 bits &= ~(1ul << bit); 274 } 275 } 276 dumpsize += PAGE_SIZE; 277 278 /* Determine dump offset on device. */ 279 if (di->mediasize < SIZEOF_METADATA + dumpsize + sizeof(kdh) * 2) { 280 error = ENOSPC; 281 goto fail; 282 } 283 dumplo = di->mediaoffset + di->mediasize - dumpsize; 284 dumplo -= sizeof(kdh) * 2; 285 progress = dumpsize; 286 287 /* Initialize mdhdr */ 288 bzero(&mdhdr, sizeof(mdhdr)); 289 strcpy(mdhdr.magic, MINIDUMP_MAGIC); 290 mdhdr.version = MINIDUMP_VERSION; 291 mdhdr.msgbufsize = msgbufp->msg_size; 292 mdhdr.bitmapsize = vm_page_dump_size; 293 mdhdr.ptesize = ptesize; 294 mdhdr.kernbase = VM_MIN_KERNEL_ADDRESS; 295 mdhdr.dmapbase = DMAP_MIN_ADDRESS; 296 mdhdr.dmapend = DMAP_MAX_ADDRESS; 297 298 mkdumpheader(&kdh, KERNELDUMPMAGIC, KERNELDUMP_AMD64_VERSION, 299 dumpsize, di->blocksize); 300 301 kprintf("Physical memory: %jd MB\n", (intmax_t)ptoa(physmem) / 1048576); 302 kprintf("Dumping %jd MB:", (intmax_t)dumpsize >> 20); 303 304 /* Dump leader */ 305 error = dev_ddump(di->priv, &kdh, 0, dumplo, sizeof(kdh)); 306 if (error) 307 goto fail; 308 dumplo += sizeof(kdh); 309 310 /* Dump my header */ 311 bzero(&fakept, sizeof(fakept)); 312 bcopy(&mdhdr, &fakept, sizeof(mdhdr)); 313 error = blk_write(di, (char *)&fakept, 0, PAGE_SIZE); 314 if (error) 315 goto fail; 316 317 /* Dump msgbuf up front */ 318 error = blk_write(di, (char *)msgbufp->msg_ptr, 0, round_page(msgbufp->msg_size)); 319 if (error) 320 goto fail; 321 322 /* Dump bitmap */ 323 error = blk_write(di, (char *)vm_page_dump, 0, round_page(vm_page_dump_size)); 324 if (error) 325 goto fail; 326 327 /* Dump kernel page table pages */ 328 pdp = (uint64_t *)PHYS_TO_DMAP(KPDPphys); 329 for (va = VM_MIN_KERNEL_ADDRESS; va < kern_end; va += NBPDR) { 330 /* 331 * The loop probably overflows a 64-bit int due to NBPDR. 332 */ 333 if (va < VM_MIN_KERNEL_ADDRESS) 334 break; 335 336 /* 337 * We always write a page, even if it is zero 338 */ 339 i = (va >> PDPSHIFT) & ((1ul << NPDPEPGSHIFT) - 1); 340 if ((pdp[i] & kernel_pmap.pmap_bits[PG_V_IDX]) == 0) { 341 bzero(fakept, sizeof(fakept)); 342 error = blk_write(di, (char *)&fakept, 0, PAGE_SIZE); 343 if (error) 344 goto fail; 345 /* flush, in case we reuse fakept in the same block */ 346 error = blk_flush(di); 347 if (error) 348 goto fail; 349 continue; 350 } 351 pd = (uint64_t *)PHYS_TO_DMAP(pdp[i] & PG_FRAME); 352 j = ((va >> PDRSHIFT) & ((1ul << NPDEPGSHIFT) - 1)); 353 if ((pd[j] & (kernel_pmap.pmap_bits[PG_PS_IDX] | kernel_pmap.pmap_bits[PG_V_IDX])) == 354 (kernel_pmap.pmap_bits[PG_PS_IDX] | kernel_pmap.pmap_bits[PG_V_IDX])) { 355 /* This is a single 2M block. Generate a fake PTP */ 356 pa = pd[j] & PG_PS_FRAME; 357 for (k = 0; k < NPTEPG; k++) { 358 fakept[k] = (pa + (k * PAGE_SIZE)) | 359 kernel_pmap.pmap_bits[PG_V_IDX] | 360 kernel_pmap.pmap_bits[PG_RW_IDX] | 361 kernel_pmap.pmap_bits[PG_A_IDX] | 362 kernel_pmap.pmap_bits[PG_M_IDX]; 363 } 364 error = blk_write(di, (char *)&fakept, 0, PAGE_SIZE); 365 if (error) 366 goto fail; 367 /* flush, in case we reuse fakept in the same block */ 368 error = blk_flush(di); 369 if (error) 370 goto fail; 371 continue; 372 } 373 if ((pd[j] & kernel_pmap.pmap_bits[PG_V_IDX]) == kernel_pmap.pmap_bits[PG_V_IDX]) { 374 pt = (uint64_t *)PHYS_TO_DMAP(pd[j] & PG_FRAME); 375 error = blk_write(di, (char *)pt, 0, PAGE_SIZE); 376 if (error) 377 goto fail; 378 } else { 379 bzero(fakept, sizeof(fakept)); 380 error = blk_write(di, (char *)&fakept, 0, PAGE_SIZE); 381 if (error) 382 goto fail; 383 /* flush, in case we reuse fakept in the same block */ 384 error = blk_flush(di); 385 if (error) 386 goto fail; 387 } 388 } 389 390 /* Dump memory chunks */ 391 /* XXX cluster it up and use blk_dump() */ 392 for (i = 0; i < vm_page_dump_size / sizeof(*vm_page_dump); i++) { 393 bits = vm_page_dump[i]; 394 while (bits) { 395 bit = bsfq(bits); 396 pa = (((uint64_t)i * sizeof(*vm_page_dump) * NBBY) + bit) * PAGE_SIZE; 397 error = blk_write(di, 0, pa, PAGE_SIZE); 398 if (error) 399 goto fail; 400 bits &= ~(1ul << bit); 401 } 402 } 403 404 error = blk_flush(di); 405 if (error) 406 goto fail; 407 408 /* Dump trailer */ 409 error = dev_ddump(di->priv, &kdh, 0, dumplo, sizeof(kdh)); 410 if (error) 411 goto fail; 412 dumplo += sizeof(kdh); 413 414 /* Signal completion, signoff and exit stage left. */ 415 dev_ddump(di->priv, NULL, 0, 0, 0); 416 kprintf("\nDump complete\n"); 417 cnpoll(FALSE); 418 return; 419 420 fail: 421 cnpoll(FALSE); 422 if (error < 0) 423 error = -error; 424 425 if (error == ECANCELED) 426 kprintf("\nDump aborted\n"); 427 else if (error == ENOSPC) 428 kprintf("\nDump failed. Partition too small.\n"); 429 else 430 kprintf("\n** DUMP FAILED (ERROR %d) **\n", error); 431 } 432 433 void 434 dump_add_page(vm_paddr_t pa) 435 { 436 int idx, bit; 437 438 pa >>= PAGE_SHIFT; 439 idx = pa >> 6; /* 2^6 = 64 */ 440 bit = pa & 63; 441 atomic_set_long(&vm_page_dump[idx], 1ul << bit); 442 } 443 444 void 445 dump_drop_page(vm_paddr_t pa) 446 { 447 int idx, bit; 448 449 pa >>= PAGE_SHIFT; 450 idx = pa >> 6; /* 2^6 = 64 */ 451 bit = pa & 63; 452 atomic_clear_long(&vm_page_dump[idx], 1ul << bit); 453 } 454