kvm.c revision 1.4
1 1.1 cgd /*- 2 1.1 cgd * Copyright (c) 1989 The Regents of the University of California. 3 1.1 cgd * All rights reserved. 4 1.1 cgd * 5 1.1 cgd * Redistribution and use in source and binary forms, with or without 6 1.1 cgd * modification, are permitted provided that the following conditions 7 1.1 cgd * are met: 8 1.1 cgd * 1. Redistributions of source code must retain the above copyright 9 1.1 cgd * notice, this list of conditions and the following disclaimer. 10 1.1 cgd * 2. Redistributions in binary form must reproduce the above copyright 11 1.1 cgd * notice, this list of conditions and the following disclaimer in the 12 1.1 cgd * documentation and/or other materials provided with the distribution. 13 1.1 cgd * 3. All advertising materials mentioning features or use of this software 14 1.1 cgd * must display the following acknowledgement: 15 1.1 cgd * This product includes software developed by the University of 16 1.1 cgd * California, Berkeley and its contributors. 17 1.1 cgd * 4. Neither the name of the University nor the names of its contributors 18 1.1 cgd * may be used to endorse or promote products derived from this software 19 1.1 cgd * without specific prior written permission. 20 1.1 cgd * 21 1.1 cgd * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 22 1.1 cgd * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 23 1.1 cgd * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 24 1.1 cgd * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 25 1.1 cgd * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 26 1.1 cgd * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 27 1.1 cgd * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 28 1.1 cgd * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 29 1.1 cgd * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 30 1.1 cgd * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 1.1 cgd * SUCH DAMAGE. 32 1.2 cgd * 33 1.2 cgd * PATCHES MAGIC LEVEL PATCH THAT GOT US HERE 34 1.2 cgd * -------------------- ----- ---------------------- 35 1.2 cgd * CURRENT PATCH LEVEL: 2 00052 36 1.2 cgd * -------------------- ----- ---------------------- 37 1.2 cgd * 38 1.2 cgd * 08 Sep 92 Greenman & Kranenburg Change vaddr calc, move bogus #endif 39 1.2 cgd * 05 Aug 92 David Greenman Fix kernel namelist db create/use 40 1.1 cgd */ 41 1.1 cgd 42 1.1 cgd #if defined(LIBC_SCCS) && !defined(lint) 43 1.1 cgd static char sccsid[] = "@(#)kvm.c 5.18 (Berkeley) 5/7/91"; 44 1.1 cgd #endif /* LIBC_SCCS and not lint */ 45 1.1 cgd 46 1.2 cgd /* 47 1.2 cgd * Updated for 386BSD 0.1 by David Greenman (davidg%implode (at) percy.rain.com) 48 1.2 cgd * and Paul Kranenburg (pk (at) cs.few.eur.nl) 49 1.2 cgd * 20-Aug-1992 50 1.2 cgd */ 51 1.2 cgd 52 1.2 cgd 53 1.1 cgd #include <sys/param.h> 54 1.1 cgd #include <sys/user.h> 55 1.1 cgd #include <sys/proc.h> 56 1.1 cgd #include <sys/ioctl.h> 57 1.1 cgd #include <sys/kinfo.h> 58 1.1 cgd #include <sys/tty.h> 59 1.1 cgd #include <machine/vmparam.h> 60 1.1 cgd #include <fcntl.h> 61 1.1 cgd #include <nlist.h> 62 1.1 cgd #include <kvm.h> 63 1.1 cgd #include <ndbm.h> 64 1.1 cgd #include <limits.h> 65 1.1 cgd #include <paths.h> 66 1.1 cgd #include <stdio.h> 67 1.1 cgd #include <string.h> 68 1.1 cgd 69 1.1 cgd #ifdef SPPWAIT 70 1.1 cgd #define NEWVM 71 1.1 cgd #endif 72 1.1 cgd 73 1.1 cgd #ifdef NEWVM 74 1.1 cgd #define btop(x) (((unsigned)(x)) >> PGSHIFT) /* XXX */ 75 1.1 cgd #define ptob(x) ((caddr_t)((x) << PGSHIFT)) /* XXX */ 76 1.1 cgd #include <vm/vm.h> /* ??? kinfo_proc currently includes this*/ 77 1.3 cgd #include <vm/vm_page.h> 78 1.3 cgd #include <vm/swap_pager.h> 79 1.1 cgd #include <sys/kinfo_proc.h> 80 1.1 cgd #ifdef hp300 81 1.1 cgd #include <hp300/hp300/pte.h> 82 1.1 cgd #endif 83 1.1 cgd #else /* NEWVM */ 84 1.1 cgd #include <machine/pte.h> 85 1.1 cgd #include <sys/vmmac.h> 86 1.1 cgd #include <sys/text.h> 87 1.1 cgd #endif /* NEWVM */ 88 1.1 cgd 89 1.1 cgd /* 90 1.1 cgd * files 91 1.1 cgd */ 92 1.1 cgd static const char *unixf, *memf, *kmemf, *swapf; 93 1.1 cgd static int unixx, mem, kmem, swap; 94 1.1 cgd static DBM *db; 95 1.1 cgd /* 96 1.1 cgd * flags 97 1.1 cgd */ 98 1.1 cgd static int deadkernel; 99 1.1 cgd static int kvminit = 0; 100 1.1 cgd static int kvmfilesopen = 0; 101 1.1 cgd /* 102 1.1 cgd * state 103 1.1 cgd */ 104 1.1 cgd static struct kinfo_proc *kvmprocbase, *kvmprocptr; 105 1.1 cgd static int kvmnprocs; 106 1.1 cgd /* 107 1.1 cgd * u. buffer 108 1.1 cgd */ 109 1.1 cgd static union { 110 1.1 cgd struct user user; 111 1.1 cgd char upages[UPAGES][NBPG]; 112 1.1 cgd } user; 113 1.3 cgd 114 1.3 cgd #ifdef NEWVM 115 1.3 cgd struct swapblk { 116 1.3 cgd long offset; /* offset in swap device */ 117 1.3 cgd long size; /* remaining size of block in swap device */ 118 1.3 cgd }; 119 1.3 cgd #endif 120 1.1 cgd /* 121 1.1 cgd * random other stuff 122 1.1 cgd */ 123 1.1 cgd #ifndef NEWVM 124 1.1 cgd static struct pte *Usrptmap, *usrpt; 125 1.1 cgd static struct pte *Sysmap; 126 1.1 cgd static int Syssize; 127 1.1 cgd #endif 128 1.1 cgd static int dmmin, dmmax; 129 1.1 cgd static int pcbpf; 130 1.1 cgd static int argaddr0; /* XXX */ 131 1.1 cgd static int argaddr1; 132 1.3 cgd static int swaddr; 133 1.1 cgd static int nswap; 134 1.1 cgd static char *tmp; 135 1.1 cgd #if defined(hp300) 136 1.1 cgd static int lowram; 137 1.1 cgd static struct ste *Sysseg; 138 1.1 cgd #endif 139 1.1 cgd #if defined(i386) 140 1.1 cgd static struct pde *PTD; 141 1.1 cgd #endif 142 1.1 cgd 143 1.1 cgd #define basename(cp) ((tmp=rindex((cp), '/')) ? tmp+1 : (cp)) 144 1.1 cgd #define MAXSYMSIZE 256 145 1.1 cgd 146 1.1 cgd #if defined(hp300) 147 1.1 cgd #define pftoc(f) ((f) - lowram) 148 1.1 cgd #define iskva(v) (1) 149 1.1 cgd #endif 150 1.1 cgd 151 1.1 cgd #ifndef pftoc 152 1.1 cgd #define pftoc(f) (f) 153 1.1 cgd #endif 154 1.1 cgd #ifndef iskva 155 1.1 cgd #define iskva(v) ((u_long)(v) & KERNBASE) 156 1.1 cgd #endif 157 1.1 cgd 158 1.1 cgd static struct nlist nl[] = { 159 1.1 cgd { "_Usrptmap" }, 160 1.1 cgd #define X_USRPTMAP 0 161 1.1 cgd { "_usrpt" }, 162 1.1 cgd #define X_USRPT 1 163 1.1 cgd { "_nswap" }, 164 1.1 cgd #define X_NSWAP 2 165 1.1 cgd { "_dmmin" }, 166 1.1 cgd #define X_DMMIN 3 167 1.1 cgd { "_dmmax" }, 168 1.1 cgd #define X_DMMAX 4 169 1.3 cgd { "_vm_page_buckets" }, 170 1.3 cgd #define X_VM_PAGE_BUCKETS 5 171 1.3 cgd { "_vm_page_hash_mask" }, 172 1.3 cgd #define X_VM_PAGE_HASH_MASK 6 173 1.3 cgd { "_page_shift" }, 174 1.3 cgd #define X_PAGE_SHIFT 7 175 1.1 cgd /* 176 1.1 cgd * everything here and down, only if a dead kernel 177 1.1 cgd */ 178 1.1 cgd { "_Sysmap" }, 179 1.3 cgd #define X_SYSMAP 8 180 1.1 cgd #define X_DEADKERNEL X_SYSMAP 181 1.1 cgd { "_Syssize" }, 182 1.3 cgd #define X_SYSSIZE 9 183 1.1 cgd { "_allproc" }, 184 1.3 cgd #define X_ALLPROC 10 185 1.1 cgd { "_zombproc" }, 186 1.3 cgd #define X_ZOMBPROC 11 187 1.1 cgd { "_nproc" }, 188 1.3 cgd #define X_NPROC 12 189 1.3 cgd #define X_LAST 12 190 1.1 cgd #if defined(hp300) 191 1.1 cgd { "_Sysseg" }, 192 1.1 cgd #define X_SYSSEG (X_LAST+1) 193 1.1 cgd { "_lowram" }, 194 1.1 cgd #define X_LOWRAM (X_LAST+2) 195 1.1 cgd #endif 196 1.1 cgd #if defined(i386) 197 1.1 cgd { "_IdlePTD" }, 198 1.1 cgd #define X_IdlePTD (X_LAST+1) 199 1.1 cgd #endif 200 1.1 cgd { "" }, 201 1.1 cgd }; 202 1.1 cgd 203 1.1 cgd static off_t Vtophys(); 204 1.1 cgd static void klseek(), seterr(), setsyserr(), vstodb(); 205 1.1 cgd static int getkvars(), kvm_doprocs(), kvm_init(); 206 1.3 cgd #ifdef NEWVM 207 1.3 cgd static int vatosw(); 208 1.3 cgd static int findpage(); 209 1.3 cgd #endif 210 1.1 cgd 211 1.1 cgd /* 212 1.1 cgd * returns 0 if files were opened now, 213 1.1 cgd * 1 if files were already opened, 214 1.1 cgd * -1 if files could not be opened. 215 1.1 cgd */ 216 1.1 cgd kvm_openfiles(uf, mf, sf) 217 1.1 cgd const char *uf, *mf, *sf; 218 1.1 cgd { 219 1.1 cgd if (kvmfilesopen) 220 1.1 cgd return (1); 221 1.1 cgd unixx = mem = kmem = swap = -1; 222 1.1 cgd unixf = (uf == NULL) ? _PATH_UNIX : uf; 223 1.1 cgd memf = (mf == NULL) ? _PATH_MEM : mf; 224 1.1 cgd 225 1.1 cgd if ((unixx = open(unixf, O_RDONLY, 0)) == -1) { 226 1.1 cgd setsyserr("can't open %s", unixf); 227 1.1 cgd goto failed; 228 1.1 cgd } 229 1.1 cgd if ((mem = open(memf, O_RDONLY, 0)) == -1) { 230 1.1 cgd setsyserr("can't open %s", memf); 231 1.1 cgd goto failed; 232 1.1 cgd } 233 1.1 cgd if (sf != NULL) 234 1.1 cgd swapf = sf; 235 1.1 cgd if (mf != NULL) { 236 1.1 cgd deadkernel++; 237 1.1 cgd kmemf = mf; 238 1.1 cgd kmem = mem; 239 1.1 cgd swap = -1; 240 1.1 cgd } else { 241 1.1 cgd kmemf = _PATH_KMEM; 242 1.1 cgd if ((kmem = open(kmemf, O_RDONLY, 0)) == -1) { 243 1.1 cgd setsyserr("can't open %s", kmemf); 244 1.1 cgd goto failed; 245 1.1 cgd } 246 1.1 cgd swapf = (sf == NULL) ? _PATH_DRUM : sf; 247 1.1 cgd /* 248 1.1 cgd * live kernel - avoid looking up nlist entries 249 1.1 cgd * past X_DEADKERNEL. 250 1.1 cgd */ 251 1.1 cgd nl[X_DEADKERNEL].n_name = ""; 252 1.1 cgd } 253 1.1 cgd if (swapf != NULL && ((swap = open(swapf, O_RDONLY, 0)) == -1)) { 254 1.1 cgd seterr("can't open %s", swapf); 255 1.1 cgd goto failed; 256 1.1 cgd } 257 1.1 cgd kvmfilesopen++; 258 1.1 cgd if (kvminit == 0 && kvm_init(NULL, NULL, NULL, 0) == -1) /*XXX*/ 259 1.1 cgd return (-1); 260 1.1 cgd return (0); 261 1.1 cgd failed: 262 1.1 cgd kvm_close(); 263 1.1 cgd return (-1); 264 1.1 cgd } 265 1.1 cgd 266 1.1 cgd static 267 1.1 cgd kvm_init(uf, mf, sf) 268 1.1 cgd char *uf, *mf, *sf; 269 1.1 cgd { 270 1.1 cgd if (kvmfilesopen == 0 && kvm_openfiles(NULL, NULL, NULL) == -1) 271 1.1 cgd return (-1); 272 1.1 cgd if (getkvars() == -1) 273 1.1 cgd return (-1); 274 1.1 cgd kvminit = 1; 275 1.1 cgd 276 1.1 cgd return (0); 277 1.1 cgd } 278 1.1 cgd 279 1.1 cgd kvm_close() 280 1.1 cgd { 281 1.1 cgd if (unixx != -1) { 282 1.1 cgd close(unixx); 283 1.1 cgd unixx = -1; 284 1.1 cgd } 285 1.1 cgd if (kmem != -1) { 286 1.1 cgd if (kmem != mem) 287 1.1 cgd close(kmem); 288 1.1 cgd /* otherwise kmem is a copy of mem, and will be closed below */ 289 1.1 cgd kmem = -1; 290 1.1 cgd } 291 1.1 cgd if (mem != -1) { 292 1.1 cgd close(mem); 293 1.1 cgd mem = -1; 294 1.1 cgd } 295 1.1 cgd if (swap != -1) { 296 1.1 cgd close(swap); 297 1.1 cgd swap = -1; 298 1.1 cgd } 299 1.1 cgd if (db != NULL) { 300 1.1 cgd dbm_close(db); 301 1.1 cgd db = NULL; 302 1.1 cgd } 303 1.1 cgd kvminit = 0; 304 1.1 cgd kvmfilesopen = 0; 305 1.1 cgd deadkernel = 0; 306 1.1 cgd #ifndef NEWVM 307 1.1 cgd if (Sysmap) { 308 1.1 cgd free(Sysmap); 309 1.1 cgd Sysmap = NULL; 310 1.1 cgd } 311 1.1 cgd #endif 312 1.1 cgd } 313 1.1 cgd 314 1.1 cgd kvm_nlist(nl) 315 1.1 cgd struct nlist *nl; 316 1.1 cgd { 317 1.1 cgd datum key, data; 318 1.1 cgd char dbname[MAXPATHLEN]; 319 1.1 cgd char dbversion[_POSIX2_LINE_MAX]; 320 1.1 cgd char kversion[_POSIX2_LINE_MAX]; 321 1.1 cgd int dbversionlen; 322 1.1 cgd char symbuf[MAXSYMSIZE]; 323 1.1 cgd struct nlist nbuf, *n; 324 1.1 cgd int num, did; 325 1.1 cgd 326 1.1 cgd if (kvmfilesopen == 0 && kvm_openfiles(NULL, NULL, NULL) == -1) 327 1.1 cgd return (-1); 328 1.1 cgd if (deadkernel) 329 1.1 cgd goto hard2; 330 1.1 cgd /* 331 1.1 cgd * initialize key datum 332 1.1 cgd */ 333 1.1 cgd key.dptr = symbuf; 334 1.1 cgd 335 1.1 cgd if (db != NULL) 336 1.1 cgd goto win; /* off to the races */ 337 1.1 cgd /* 338 1.1 cgd * open database 339 1.1 cgd */ 340 1.1 cgd sprintf(dbname, "%s/kvm_%s", _PATH_VARRUN, basename(unixf)); 341 1.1 cgd if ((db = dbm_open(dbname, O_RDONLY, 0)) == NULL) 342 1.1 cgd goto hard2; 343 1.1 cgd /* 344 1.1 cgd * read version out of database 345 1.1 cgd */ 346 1.1 cgd bcopy("VERSION", symbuf, sizeof ("VERSION")-1); 347 1.2 cgd key.dsize = (sizeof ("VERSION") - 1); 348 1.1 cgd data = dbm_fetch(db, key); 349 1.1 cgd if (data.dptr == NULL) 350 1.1 cgd goto hard1; 351 1.1 cgd bcopy(data.dptr, dbversion, data.dsize); 352 1.1 cgd dbversionlen = data.dsize; 353 1.1 cgd /* 354 1.1 cgd * read version string from kernel memory 355 1.1 cgd */ 356 1.1 cgd bcopy("_version", symbuf, sizeof ("_version")-1); 357 1.2 cgd key.dsize = (sizeof ("_version")-1); 358 1.1 cgd data = dbm_fetch(db, key); 359 1.1 cgd if (data.dptr == NULL) 360 1.1 cgd goto hard1; 361 1.1 cgd if (data.dsize != sizeof (struct nlist)) 362 1.1 cgd goto hard1; 363 1.1 cgd bcopy(data.dptr, &nbuf, sizeof (struct nlist)); 364 1.1 cgd lseek(kmem, nbuf.n_value, 0); 365 1.1 cgd if (read(kmem, kversion, dbversionlen) != dbversionlen) 366 1.1 cgd goto hard1; 367 1.1 cgd /* 368 1.1 cgd * if they match, we win - otherwise do it the hard way 369 1.1 cgd */ 370 1.1 cgd if (bcmp(dbversion, kversion, dbversionlen) != 0) 371 1.1 cgd goto hard1; 372 1.1 cgd /* 373 1.1 cgd * getem from the database. 374 1.1 cgd */ 375 1.1 cgd win: 376 1.1 cgd num = did = 0; 377 1.1 cgd for (n = nl; n->n_name && n->n_name[0]; n++, num++) { 378 1.1 cgd int len; 379 1.1 cgd /* 380 1.1 cgd * clear out fields from users buffer 381 1.1 cgd */ 382 1.1 cgd n->n_type = 0; 383 1.1 cgd n->n_other = 0; 384 1.1 cgd n->n_desc = 0; 385 1.1 cgd n->n_value = 0; 386 1.1 cgd /* 387 1.1 cgd * query db 388 1.1 cgd */ 389 1.1 cgd if ((len = strlen(n->n_name)) > MAXSYMSIZE) { 390 1.1 cgd seterr("symbol too large"); 391 1.1 cgd return (-1); 392 1.1 cgd } 393 1.1 cgd (void)strcpy(symbuf, n->n_name); 394 1.2 cgd key.dsize = len; 395 1.1 cgd data = dbm_fetch(db, key); 396 1.1 cgd if (data.dptr == NULL || data.dsize != sizeof (struct nlist)) 397 1.1 cgd continue; 398 1.1 cgd bcopy(data.dptr, &nbuf, sizeof (struct nlist)); 399 1.1 cgd n->n_value = nbuf.n_value; 400 1.1 cgd n->n_type = nbuf.n_type; 401 1.1 cgd n->n_desc = nbuf.n_desc; 402 1.1 cgd n->n_other = nbuf.n_other; 403 1.1 cgd did++; 404 1.1 cgd } 405 1.1 cgd return (num - did); 406 1.1 cgd hard1: 407 1.1 cgd dbm_close(db); 408 1.1 cgd db = NULL; 409 1.1 cgd hard2: 410 1.1 cgd num = nlist(unixf, nl); 411 1.1 cgd if (num == -1) 412 1.1 cgd seterr("nlist (hard way) failed"); 413 1.1 cgd return (num); 414 1.1 cgd } 415 1.1 cgd 416 1.1 cgd kvm_getprocs(what, arg) 417 1.1 cgd int what, arg; 418 1.1 cgd { 419 1.3 cgd static int ocopysize = -1; 420 1.3 cgd 421 1.1 cgd if (kvminit == 0 && kvm_init(NULL, NULL, NULL, 0) == -1) 422 1.1 cgd return (NULL); 423 1.1 cgd if (!deadkernel) { 424 1.1 cgd int ret, copysize; 425 1.1 cgd 426 1.1 cgd if ((ret = getkerninfo(what, NULL, NULL, arg)) == -1) { 427 1.1 cgd setsyserr("can't get estimate for kerninfo"); 428 1.1 cgd return (-1); 429 1.1 cgd } 430 1.1 cgd copysize = ret; 431 1.4 mycroft if (copysize > ocopysize) { 432 1.4 mycroft if (ocopysize == -1) 433 1.4 mycroft kvmprocbase = 434 1.4 mycroft (struct kinfo_proc *)malloc(copysize); 435 1.4 mycroft else 436 1.4 mycroft kvmprocbase = 437 1.4 mycroft (struct kinfo_proc *)realloc(kvmprocbase, 438 1.4 mycroft copysize); 439 1.4 mycroft if (!kvmprocbase) { 440 1.4 mycroft seterr("out of memory"); 441 1.4 mycroft return (-1); 442 1.4 mycroft } 443 1.1 cgd } 444 1.3 cgd ocopysize = copysize; 445 1.1 cgd if ((ret = getkerninfo(what, kvmprocbase, ©size, 446 1.1 cgd arg)) == -1) { 447 1.1 cgd setsyserr("can't get proc list"); 448 1.1 cgd return (-1); 449 1.1 cgd } 450 1.1 cgd if (copysize % sizeof (struct kinfo_proc)) { 451 1.1 cgd seterr("proc size mismatch (got %d total, kinfo_proc: %d)", 452 1.1 cgd copysize, sizeof (struct kinfo_proc)); 453 1.1 cgd return (-1); 454 1.1 cgd } 455 1.1 cgd kvmnprocs = copysize / sizeof (struct kinfo_proc); 456 1.1 cgd } else { 457 1.1 cgd int nproc; 458 1.1 cgd 459 1.1 cgd if (kvm_read((void *) nl[X_NPROC].n_value, &nproc, 460 1.1 cgd sizeof (int)) != sizeof (int)) { 461 1.1 cgd seterr("can't read nproc"); 462 1.1 cgd return (-1); 463 1.1 cgd } 464 1.1 cgd if ((kvmprocbase = (struct kinfo_proc *) 465 1.1 cgd malloc(nproc * sizeof (struct kinfo_proc))) == NULL) { 466 1.1 cgd seterr("out of memory (addr: %x nproc = %d)", 467 1.1 cgd nl[X_NPROC].n_value, nproc); 468 1.1 cgd return (-1); 469 1.1 cgd } 470 1.1 cgd kvmnprocs = kvm_doprocs(what, arg, kvmprocbase); 471 1.1 cgd realloc(kvmprocbase, kvmnprocs * sizeof (struct kinfo_proc)); 472 1.1 cgd } 473 1.1 cgd kvmprocptr = kvmprocbase; 474 1.1 cgd 475 1.1 cgd return (kvmnprocs); 476 1.1 cgd } 477 1.1 cgd 478 1.1 cgd /* 479 1.1 cgd * XXX - should NOT give up so easily - especially since the kernel 480 1.1 cgd * may be corrupt (it died). Should gather as much information as possible. 481 1.1 cgd * Follows proc ptrs instead of reading table since table may go 482 1.1 cgd * away soon. 483 1.1 cgd */ 484 1.1 cgd static 485 1.1 cgd kvm_doprocs(what, arg, buff) 486 1.1 cgd int what, arg; 487 1.1 cgd char *buff; 488 1.1 cgd { 489 1.1 cgd struct proc *p, proc; 490 1.1 cgd register char *bp = buff; 491 1.1 cgd int i = 0; 492 1.1 cgd int doingzomb = 0; 493 1.1 cgd struct eproc eproc; 494 1.1 cgd struct pgrp pgrp; 495 1.1 cgd struct session sess; 496 1.1 cgd struct tty tty; 497 1.1 cgd #ifndef NEWVM 498 1.1 cgd struct text text; 499 1.1 cgd #endif 500 1.1 cgd 501 1.1 cgd /* allproc */ 502 1.1 cgd if (kvm_read((void *) nl[X_ALLPROC].n_value, &p, 503 1.1 cgd sizeof (struct proc *)) != sizeof (struct proc *)) { 504 1.1 cgd seterr("can't read allproc"); 505 1.1 cgd return (-1); 506 1.1 cgd } 507 1.1 cgd 508 1.1 cgd again: 509 1.1 cgd for (; p; p = proc.p_nxt) { 510 1.1 cgd if (kvm_read(p, &proc, sizeof (struct proc)) != 511 1.1 cgd sizeof (struct proc)) { 512 1.1 cgd seterr("can't read proc at %x", p); 513 1.1 cgd return (-1); 514 1.1 cgd } 515 1.1 cgd #ifdef NEWVM 516 1.1 cgd if (kvm_read(proc.p_cred, &eproc.e_pcred, 517 1.1 cgd sizeof (struct pcred)) == sizeof (struct pcred)) 518 1.1 cgd (void) kvm_read(eproc.e_pcred.pc_ucred, &eproc.e_ucred, 519 1.1 cgd sizeof (struct ucred)); 520 1.1 cgd switch(ki_op(what)) { 521 1.1 cgd 522 1.1 cgd case KINFO_PROC_PID: 523 1.1 cgd if (proc.p_pid != (pid_t)arg) 524 1.1 cgd continue; 525 1.1 cgd break; 526 1.1 cgd 527 1.1 cgd 528 1.1 cgd case KINFO_PROC_UID: 529 1.1 cgd if (eproc.e_ucred.cr_uid != (uid_t)arg) 530 1.1 cgd continue; 531 1.1 cgd break; 532 1.1 cgd 533 1.1 cgd case KINFO_PROC_RUID: 534 1.1 cgd if (eproc.e_pcred.p_ruid != (uid_t)arg) 535 1.1 cgd continue; 536 1.1 cgd break; 537 1.1 cgd } 538 1.1 cgd #else 539 1.1 cgd switch(ki_op(what)) { 540 1.1 cgd 541 1.1 cgd case KINFO_PROC_PID: 542 1.1 cgd if (proc.p_pid != (pid_t)arg) 543 1.1 cgd continue; 544 1.1 cgd break; 545 1.1 cgd 546 1.1 cgd 547 1.1 cgd case KINFO_PROC_UID: 548 1.1 cgd if (proc.p_uid != (uid_t)arg) 549 1.1 cgd continue; 550 1.1 cgd break; 551 1.1 cgd 552 1.1 cgd case KINFO_PROC_RUID: 553 1.1 cgd if (proc.p_ruid != (uid_t)arg) 554 1.1 cgd continue; 555 1.1 cgd break; 556 1.1 cgd } 557 1.1 cgd #endif 558 1.1 cgd /* 559 1.1 cgd * gather eproc 560 1.1 cgd */ 561 1.1 cgd eproc.e_paddr = p; 562 1.1 cgd if (kvm_read(proc.p_pgrp, &pgrp, sizeof (struct pgrp)) != 563 1.1 cgd sizeof (struct pgrp)) { 564 1.1 cgd seterr("can't read pgrp at %x", proc.p_pgrp); 565 1.1 cgd return (-1); 566 1.1 cgd } 567 1.1 cgd eproc.e_sess = pgrp.pg_session; 568 1.1 cgd eproc.e_pgid = pgrp.pg_id; 569 1.1 cgd eproc.e_jobc = pgrp.pg_jobc; 570 1.1 cgd if (kvm_read(pgrp.pg_session, &sess, sizeof (struct session)) 571 1.1 cgd != sizeof (struct session)) { 572 1.1 cgd seterr("can't read session at %x", pgrp.pg_session); 573 1.1 cgd return (-1); 574 1.1 cgd } 575 1.1 cgd if ((proc.p_flag&SCTTY) && sess.s_ttyp != NULL) { 576 1.1 cgd if (kvm_read(sess.s_ttyp, &tty, sizeof (struct tty)) 577 1.1 cgd != sizeof (struct tty)) { 578 1.1 cgd seterr("can't read tty at %x", sess.s_ttyp); 579 1.1 cgd return (-1); 580 1.1 cgd } 581 1.1 cgd eproc.e_tdev = tty.t_dev; 582 1.1 cgd eproc.e_tsess = tty.t_session; 583 1.1 cgd if (tty.t_pgrp != NULL) { 584 1.1 cgd if (kvm_read(tty.t_pgrp, &pgrp, sizeof (struct 585 1.1 cgd pgrp)) != sizeof (struct pgrp)) { 586 1.1 cgd seterr("can't read tpgrp at &x", 587 1.1 cgd tty.t_pgrp); 588 1.1 cgd return (-1); 589 1.1 cgd } 590 1.1 cgd eproc.e_tpgid = pgrp.pg_id; 591 1.1 cgd } else 592 1.1 cgd eproc.e_tpgid = -1; 593 1.1 cgd } else 594 1.1 cgd eproc.e_tdev = NODEV; 595 1.1 cgd if (proc.p_wmesg) 596 1.1 cgd kvm_read(proc.p_wmesg, eproc.e_wmesg, WMESGLEN); 597 1.1 cgd #ifdef NEWVM 598 1.1 cgd (void) kvm_read(proc.p_vmspace, &eproc.e_vm, 599 1.1 cgd sizeof (struct vmspace)); 600 1.1 cgd eproc.e_xsize = eproc.e_xrssize = 601 1.1 cgd eproc.e_xccount = eproc.e_xswrss = 0; 602 1.1 cgd #else 603 1.1 cgd if (proc.p_textp) { 604 1.1 cgd kvm_read(proc.p_textp, &text, sizeof (text)); 605 1.1 cgd eproc.e_xsize = text.x_size; 606 1.1 cgd eproc.e_xrssize = text.x_rssize; 607 1.1 cgd eproc.e_xccount = text.x_ccount; 608 1.1 cgd eproc.e_xswrss = text.x_swrss; 609 1.1 cgd } else { 610 1.1 cgd eproc.e_xsize = eproc.e_xrssize = 611 1.1 cgd eproc.e_xccount = eproc.e_xswrss = 0; 612 1.1 cgd } 613 1.1 cgd #endif 614 1.1 cgd 615 1.1 cgd switch(ki_op(what)) { 616 1.1 cgd 617 1.1 cgd case KINFO_PROC_PGRP: 618 1.1 cgd if (eproc.e_pgid != (pid_t)arg) 619 1.1 cgd continue; 620 1.1 cgd break; 621 1.1 cgd 622 1.1 cgd case KINFO_PROC_TTY: 623 1.1 cgd if ((proc.p_flag&SCTTY) == 0 || 624 1.1 cgd eproc.e_tdev != (dev_t)arg) 625 1.1 cgd continue; 626 1.1 cgd break; 627 1.1 cgd } 628 1.1 cgd 629 1.1 cgd i++; 630 1.1 cgd bcopy(&proc, bp, sizeof (struct proc)); 631 1.1 cgd bp += sizeof (struct proc); 632 1.1 cgd bcopy(&eproc, bp, sizeof (struct eproc)); 633 1.1 cgd bp+= sizeof (struct eproc); 634 1.1 cgd } 635 1.1 cgd if (!doingzomb) { 636 1.1 cgd /* zombproc */ 637 1.1 cgd if (kvm_read((void *) nl[X_ZOMBPROC].n_value, &p, 638 1.1 cgd sizeof (struct proc *)) != sizeof (struct proc *)) { 639 1.1 cgd seterr("can't read zombproc"); 640 1.1 cgd return (-1); 641 1.1 cgd } 642 1.1 cgd doingzomb = 1; 643 1.1 cgd goto again; 644 1.1 cgd } 645 1.1 cgd 646 1.1 cgd return (i); 647 1.1 cgd } 648 1.1 cgd 649 1.1 cgd struct proc * 650 1.1 cgd kvm_nextproc() 651 1.1 cgd { 652 1.1 cgd 653 1.1 cgd if (!kvmprocbase && kvm_getprocs(0, 0) == -1) 654 1.1 cgd return (NULL); 655 1.1 cgd if (kvmprocptr >= (kvmprocbase + kvmnprocs)) { 656 1.1 cgd seterr("end of proc list"); 657 1.1 cgd return (NULL); 658 1.1 cgd } 659 1.1 cgd return((struct proc *)(kvmprocptr++)); 660 1.1 cgd } 661 1.1 cgd 662 1.1 cgd struct eproc * 663 1.1 cgd kvm_geteproc(p) 664 1.1 cgd const struct proc *p; 665 1.1 cgd { 666 1.1 cgd return ((struct eproc *)(((char *)p) + sizeof (struct proc))); 667 1.1 cgd } 668 1.1 cgd 669 1.1 cgd kvm_setproc() 670 1.1 cgd { 671 1.1 cgd kvmprocptr = kvmprocbase; 672 1.1 cgd } 673 1.1 cgd 674 1.1 cgd kvm_freeprocs() 675 1.1 cgd { 676 1.1 cgd 677 1.1 cgd if (kvmprocbase) { 678 1.1 cgd free(kvmprocbase); 679 1.1 cgd kvmprocbase = NULL; 680 1.1 cgd } 681 1.1 cgd } 682 1.1 cgd 683 1.2 cgd #ifdef i386 684 1.2 cgd /* See also ./sys/kern/kern_execve.c */ 685 1.2 cgd #define ARGSIZE (roundup(ARG_MAX, NBPG)) 686 1.2 cgd #endif 687 1.2 cgd 688 1.1 cgd #ifdef NEWVM 689 1.1 cgd struct user * 690 1.1 cgd kvm_getu(p) 691 1.1 cgd const struct proc *p; 692 1.1 cgd { 693 1.1 cgd register struct kinfo_proc *kp = (struct kinfo_proc *)p; 694 1.1 cgd register int i; 695 1.1 cgd register char *up; 696 1.3 cgd u_int vaddr; 697 1.3 cgd struct swapblk swb; 698 1.1 cgd 699 1.1 cgd if (kvminit == 0 && kvm_init(NULL, NULL, NULL, 0) == -1) 700 1.1 cgd return (NULL); 701 1.1 cgd if (p->p_stat == SZOMB) { 702 1.1 cgd seterr("zombie process"); 703 1.1 cgd return (NULL); 704 1.1 cgd } 705 1.3 cgd 706 1.3 cgd argaddr0 = argaddr1 = swaddr = 0; 707 1.3 cgd if ((p->p_flag & SLOAD) == 0) { 708 1.3 cgd vm_offset_t maddr; 709 1.3 cgd 710 1.3 cgd if (swap < 0) { 711 1.3 cgd seterr("no swap"); 712 1.3 cgd return (NULL); 713 1.3 cgd } 714 1.3 cgd /* 715 1.3 cgd * Costly operation, better set enable_swap to zero 716 1.3 cgd * in vm/vm_glue.c, since paging of user pages isn't 717 1.3 cgd * done yet anyway. 718 1.3 cgd */ 719 1.3 cgd if (vatosw(p, USRSTACK + i * NBPG, &maddr, &swb) == 0) 720 1.3 cgd return NULL; 721 1.3 cgd 722 1.3 cgd if (maddr == 0 && swb.size < UPAGES * NBPG) 723 1.3 cgd return NULL; 724 1.3 cgd 725 1.3 cgd for (i = 0; i < UPAGES; i++) { 726 1.3 cgd if (maddr) { 727 1.3 cgd (void) lseek(mem, maddr + i * NBPG, 0); 728 1.3 cgd if (read(mem, 729 1.3 cgd (char *)user.upages[i], NBPG) != NBPG) { 730 1.3 cgd seterr( 731 1.3 cgd "can't read u for pid %d from %s", 732 1.3 cgd p->p_pid, swapf); 733 1.3 cgd return NULL; 734 1.3 cgd } 735 1.3 cgd } else { 736 1.3 cgd (void) lseek(swap, swb.offset + i * NBPG, 0); 737 1.3 cgd if (read(swap, 738 1.3 cgd (char *)user.upages[i], NBPG) != NBPG) { 739 1.3 cgd seterr( 740 1.3 cgd "can't read u for pid %d from %s", 741 1.3 cgd p->p_pid, swapf); 742 1.3 cgd return NULL; 743 1.3 cgd } 744 1.3 cgd } 745 1.3 cgd } 746 1.3 cgd return(&user.user); 747 1.3 cgd } 748 1.1 cgd /* 749 1.1 cgd * Read u-area one page at a time for the benefit of post-mortems 750 1.1 cgd */ 751 1.1 cgd up = (char *) p->p_addr; 752 1.1 cgd for (i = 0; i < UPAGES; i++) { 753 1.1 cgd klseek(kmem, (long)up, 0); 754 1.1 cgd if (read(kmem, user.upages[i], CLBYTES) != CLBYTES) { 755 1.1 cgd seterr("cant read page %x of u of pid %d from %s", 756 1.1 cgd up, p->p_pid, kmemf); 757 1.1 cgd return(NULL); 758 1.1 cgd } 759 1.1 cgd up += CLBYTES; 760 1.1 cgd } 761 1.1 cgd pcbpf = (int) btop(p->p_addr); /* what should this be really? */ 762 1.1 cgd /* 763 1.1 cgd * Conjure up a physical address for the arguments. 764 1.1 cgd */ 765 1.1 cgd #ifdef hp300 766 1.1 cgd if (kp->kp_eproc.e_vm.vm_pmap.pm_ptab) { 767 1.1 cgd struct pte pte[CLSIZE*2]; 768 1.1 cgd 769 1.1 cgd klseek(kmem, 770 1.1 cgd (long)&kp->kp_eproc.e_vm.vm_pmap.pm_ptab 771 1.1 cgd [btoc(USRSTACK-CLBYTES*2)], 0); 772 1.1 cgd if (read(kmem, (char *)&pte, sizeof(pte)) == sizeof(pte)) { 773 1.1 cgd #if CLBYTES < 2048 774 1.1 cgd argaddr0 = ctob(pftoc(pte[CLSIZE*0].pg_pfnum)); 775 1.1 cgd #endif 776 1.1 cgd argaddr1 = ctob(pftoc(pte[CLSIZE*1].pg_pfnum)); 777 1.1 cgd } 778 1.1 cgd } 779 1.3 cgd #endif 780 1.1 cgd kp->kp_eproc.e_vm.vm_rssize = 781 1.1 cgd kp->kp_eproc.e_vm.vm_pmap.pm_stats.resident_count; /* XXX */ 782 1.2 cgd 783 1.3 cgd vaddr = (u_int)kp->kp_eproc.e_vm.vm_maxsaddr + MAXSSIZ - ARGSIZE; 784 1.3 cgd 785 1.2 cgd #ifdef i386 786 1.2 cgd if (kp->kp_eproc.e_vm.vm_pmap.pm_pdir) { 787 1.2 cgd struct pde pde; 788 1.2 cgd 789 1.2 cgd klseek(kmem, 790 1.2 cgd (long)(&kp->kp_eproc.e_vm.vm_pmap.pm_pdir[pdei(vaddr)]), 0); 791 1.3 cgd 792 1.2 cgd if (read(kmem, (char *)&pde, sizeof pde) == sizeof pde 793 1.2 cgd && pde.pd_v) { 794 1.1 cgd 795 1.2 cgd struct pte pte; 796 1.1 cgd 797 1.3 cgd if (lseek(mem, (long)ctob(pde.pd_pfnum) + 798 1.3 cgd (ptei(vaddr) * sizeof pte), 0) == -1) 799 1.3 cgd seterr("kvm_getu: lseek"); 800 1.3 cgd if (read(mem, (char *)&pte, sizeof pte) == sizeof pte) { 801 1.3 cgd if (pte.pg_v) { 802 1.3 cgd argaddr1 = (long)ctob(pte.pg_pfnum); 803 1.3 cgd } else { 804 1.3 cgd goto hard; 805 1.3 cgd } 806 1.3 cgd } else { 807 1.3 cgd seterr("kvm_getu: read"); 808 1.2 cgd } 809 1.3 cgd } else { 810 1.3 cgd goto hard; 811 1.2 cgd } 812 1.2 cgd } 813 1.3 cgd #endif /* i386 */ 814 1.3 cgd 815 1.3 cgd hard: 816 1.3 cgd if (vatosw(p, vaddr, &argaddr1, &swb)) { 817 1.3 cgd if (argaddr1 == 0 && swb.size >= ARGSIZE) 818 1.3 cgd swaddr = swb.offset; 819 1.3 cgd } 820 1.3 cgd 821 1.1 cgd return(&user.user); 822 1.1 cgd } 823 1.1 cgd #else 824 1.1 cgd struct user * 825 1.1 cgd kvm_getu(p) 826 1.1 cgd const struct proc *p; 827 1.1 cgd { 828 1.1 cgd struct pte *pteaddr, apte; 829 1.1 cgd struct pte arguutl[HIGHPAGES+(CLSIZE*2)]; 830 1.1 cgd register int i; 831 1.1 cgd int ncl; 832 1.1 cgd 833 1.1 cgd if (kvminit == 0 && kvm_init(NULL, NULL, NULL, 0) == -1) 834 1.1 cgd return (NULL); 835 1.1 cgd if (p->p_stat == SZOMB) { 836 1.1 cgd seterr("zombie process"); 837 1.1 cgd return (NULL); 838 1.1 cgd } 839 1.1 cgd if ((p->p_flag & SLOAD) == 0) { 840 1.1 cgd if (swap < 0) { 841 1.1 cgd seterr("no swap"); 842 1.1 cgd return (NULL); 843 1.1 cgd } 844 1.1 cgd (void) lseek(swap, (long)dtob(p->p_swaddr), 0); 845 1.1 cgd if (read(swap, (char *)&user.user, sizeof (struct user)) != 846 1.1 cgd sizeof (struct user)) { 847 1.1 cgd seterr("can't read u for pid %d from %s", 848 1.1 cgd p->p_pid, swapf); 849 1.1 cgd return (NULL); 850 1.1 cgd } 851 1.1 cgd pcbpf = 0; 852 1.1 cgd argaddr0 = 0; 853 1.1 cgd argaddr1 = 0; 854 1.1 cgd return (&user.user); 855 1.1 cgd } 856 1.1 cgd pteaddr = &Usrptmap[btokmx(p->p_p0br) + p->p_szpt - 1]; 857 1.1 cgd klseek(kmem, (long)pteaddr, 0); 858 1.1 cgd if (read(kmem, (char *)&apte, sizeof(apte)) != sizeof(apte)) { 859 1.1 cgd seterr("can't read indir pte to get u for pid %d from %s", 860 1.1 cgd p->p_pid, kmemf); 861 1.1 cgd return (NULL); 862 1.1 cgd } 863 1.1 cgd lseek(mem, (long)ctob(pftoc(apte.pg_pfnum+1)) - sizeof(arguutl), 0); 864 1.1 cgd if (read(mem, (char *)arguutl, sizeof(arguutl)) != sizeof(arguutl)) { 865 1.1 cgd seterr("can't read page table for u of pid %d from %s", 866 1.1 cgd p->p_pid, memf); 867 1.1 cgd return (NULL); 868 1.1 cgd } 869 1.1 cgd if (arguutl[0].pg_fod == 0 && arguutl[0].pg_pfnum) 870 1.1 cgd argaddr0 = ctob(pftoc(arguutl[0].pg_pfnum)); 871 1.1 cgd else 872 1.1 cgd argaddr0 = 0; 873 1.1 cgd if (arguutl[CLSIZE*1].pg_fod == 0 && arguutl[CLSIZE*1].pg_pfnum) 874 1.1 cgd argaddr1 = ctob(pftoc(arguutl[CLSIZE*1].pg_pfnum)); 875 1.1 cgd else 876 1.1 cgd argaddr1 = 0; 877 1.1 cgd pcbpf = arguutl[CLSIZE*2].pg_pfnum; 878 1.1 cgd ncl = (sizeof (struct user) + CLBYTES - 1) / CLBYTES; 879 1.1 cgd while (--ncl >= 0) { 880 1.1 cgd i = ncl * CLSIZE; 881 1.1 cgd lseek(mem, 882 1.1 cgd (long)ctob(pftoc(arguutl[(CLSIZE*2)+i].pg_pfnum)), 0); 883 1.1 cgd if (read(mem, user.upages[i], CLBYTES) != CLBYTES) { 884 1.1 cgd seterr("can't read page %d of u of pid %d from %s", 885 1.1 cgd arguutl[(CLSIZE*2)+i].pg_pfnum, p->p_pid, memf); 886 1.1 cgd return(NULL); 887 1.1 cgd } 888 1.1 cgd } 889 1.1 cgd return (&user.user); 890 1.1 cgd } 891 1.1 cgd #endif 892 1.1 cgd 893 1.1 cgd char * 894 1.1 cgd kvm_getargs(p, up) 895 1.1 cgd const struct proc *p; 896 1.1 cgd const struct user *up; 897 1.1 cgd { 898 1.2 cgd #ifdef i386 899 1.2 cgd /* See also ./sys/kern/kern_execve.c */ 900 1.2 cgd static char cmdbuf[ARGSIZE]; 901 1.2 cgd static union { 902 1.2 cgd char argc[ARGSIZE]; 903 1.2 cgd int argi[ARGSIZE/sizeof (int)]; 904 1.2 cgd } argspac; 905 1.2 cgd #else 906 1.1 cgd static char cmdbuf[CLBYTES*2]; 907 1.1 cgd static union { 908 1.1 cgd char argc[CLBYTES*2]; 909 1.1 cgd int argi[CLBYTES*2/sizeof (int)]; 910 1.1 cgd } argspac; 911 1.2 cgd #endif 912 1.1 cgd register char *cp; 913 1.1 cgd register int *ip; 914 1.1 cgd char c; 915 1.1 cgd int nbad; 916 1.1 cgd #ifndef NEWVM 917 1.1 cgd struct dblock db; 918 1.1 cgd #endif 919 1.1 cgd const char *file; 920 1.1 cgd int stkoff = 0; 921 1.1 cgd 922 1.1 cgd #if defined(NEWVM) && defined(hp300) 923 1.1 cgd stkoff = 20; /* XXX for sigcode */ 924 1.1 cgd #endif 925 1.1 cgd if (up == NULL || p->p_pid == 0 || p->p_pid == 2) 926 1.1 cgd goto retucomm; 927 1.1 cgd if ((p->p_flag & SLOAD) == 0 || argaddr1 == 0) { 928 1.1 cgd #ifdef NEWVM 929 1.3 cgd if (swaddr == 0) 930 1.3 cgd goto retucomm; /* XXX for now */ 931 1.3 cgd #ifdef i386 932 1.3 cgd (void) lseek(swap, swaddr, 0); 933 1.3 cgd if (read(swap, &argspac.argc[0], ARGSIZE) != ARGSIZE) 934 1.3 cgd goto bad; 935 1.3 cgd #else 936 1.3 cgd if (argaddr0) { 937 1.3 cgd lseek(swap, (long)argaddr0, 0); 938 1.3 cgd if (read(swap, (char *)&argspac, CLBYTES) != CLBYTES) 939 1.3 cgd goto bad; 940 1.3 cgd } else 941 1.3 cgd bzero(&argspac, CLBYTES); 942 1.3 cgd lseek(swap, (long)argaddr1, 0); 943 1.3 cgd if (read(swap, &argspac.argc[CLBYTES], CLBYTES) != CLBYTES) 944 1.3 cgd goto bad; 945 1.3 cgd #endif 946 1.1 cgd #else 947 1.1 cgd if (swap < 0 || p->p_ssize == 0) 948 1.1 cgd goto retucomm; 949 1.1 cgd vstodb(0, CLSIZE, &up->u_smap, &db, 1); 950 1.1 cgd (void) lseek(swap, (long)dtob(db.db_base), 0); 951 1.1 cgd if (read(swap, (char *)&argspac.argc[CLBYTES], CLBYTES) 952 1.1 cgd != CLBYTES) 953 1.1 cgd goto bad; 954 1.1 cgd vstodb(1, CLSIZE, &up->u_smap, &db, 1); 955 1.1 cgd (void) lseek(swap, (long)dtob(db.db_base), 0); 956 1.1 cgd if (read(swap, (char *)&argspac.argc[0], CLBYTES) != CLBYTES) 957 1.1 cgd goto bad; 958 1.1 cgd file = swapf; 959 1.1 cgd #endif 960 1.1 cgd } else { 961 1.2 cgd #ifdef i386 962 1.2 cgd lseek(mem, (long)argaddr1, 0); 963 1.2 cgd if (read(mem, &argspac.argc[0], ARGSIZE) != ARGSIZE) 964 1.2 cgd goto bad; 965 1.2 cgd #else 966 1.1 cgd if (argaddr0) { 967 1.1 cgd lseek(mem, (long)argaddr0, 0); 968 1.1 cgd if (read(mem, (char *)&argspac, CLBYTES) != CLBYTES) 969 1.1 cgd goto bad; 970 1.1 cgd } else 971 1.1 cgd bzero(&argspac, CLBYTES); 972 1.1 cgd lseek(mem, (long)argaddr1, 0); 973 1.1 cgd if (read(mem, &argspac.argc[CLBYTES], CLBYTES) != CLBYTES) 974 1.1 cgd goto bad; 975 1.2 cgd #endif 976 1.1 cgd file = (char *) memf; 977 1.1 cgd } 978 1.3 cgd 979 1.3 cgd nbad = 0; 980 1.1 cgd #ifdef i386 981 1.2 cgd ip = &argspac.argi[(ARGSIZE-ARG_MAX)/sizeof (int)]; 982 1.2 cgd 983 1.2 cgd for (cp = (char *)ip; cp < &argspac.argc[ARGSIZE-stkoff]; cp++) { 984 1.1 cgd #else 985 1.1 cgd ip = &argspac.argi[CLBYTES*2/sizeof (int)]; 986 1.1 cgd ip -= 2; /* last arg word and .long 0 */ 987 1.1 cgd ip -= stkoff / sizeof (int); 988 1.1 cgd while (*--ip) { 989 1.1 cgd if (ip == argspac.argi) 990 1.1 cgd goto retucomm; 991 1.1 cgd } 992 1.1 cgd *(char *)ip = ' '; 993 1.1 cgd ip++; 994 1.2 cgd 995 1.2 cgd for (cp = (char *)ip; cp < &argspac.argc[CLBYTES*2-stkoff]; cp++) { 996 1.1 cgd #endif 997 1.2 cgd c = *cp; 998 1.2 cgd if (c == 0) { /* convert null between arguments to space */ 999 1.1 cgd *cp = ' '; 1000 1.2 cgd if (*(cp+1) == 0) break; /* if null argument follows then no more args */ 1001 1.2 cgd } 1002 1.1 cgd else if (c < ' ' || c > 0176) { 1003 1.2 cgd if (++nbad >= 5*(0+1)) { /* eflg -> 0 XXX */ /* limit number of bad chars to 5 */ 1004 1.2 cgd *cp++ = '?'; 1005 1.1 cgd break; 1006 1.1 cgd } 1007 1.1 cgd *cp = '?'; 1008 1.2 cgd } 1009 1.2 cgd else if (0 == 0 && c == '=') { /* eflg -> 0 XXX */ 1010 1.1 cgd while (*--cp != ' ') 1011 1.1 cgd if (cp <= (char *)ip) 1012 1.1 cgd break; 1013 1.1 cgd break; 1014 1.1 cgd } 1015 1.1 cgd } 1016 1.1 cgd *cp = 0; 1017 1.1 cgd while (*--cp == ' ') 1018 1.1 cgd *cp = 0; 1019 1.1 cgd cp = (char *)ip; 1020 1.2 cgd (void) strcpy(cmdbuf, cp); 1021 1.1 cgd if (cp[0] == '-' || cp[0] == '?' || cp[0] <= ' ') { 1022 1.1 cgd (void) strcat(cmdbuf, " ("); 1023 1.1 cgd (void) strncat(cmdbuf, p->p_comm, sizeof(p->p_comm)); 1024 1.1 cgd (void) strcat(cmdbuf, ")"); 1025 1.1 cgd } 1026 1.1 cgd return (cmdbuf); 1027 1.1 cgd 1028 1.1 cgd bad: 1029 1.1 cgd seterr("error locating command name for pid %d from %s", 1030 1.1 cgd p->p_pid, file); 1031 1.1 cgd retucomm: 1032 1.1 cgd (void) strcpy(cmdbuf, " ("); 1033 1.1 cgd (void) strncat(cmdbuf, p->p_comm, sizeof (p->p_comm)); 1034 1.1 cgd (void) strcat(cmdbuf, ")"); 1035 1.1 cgd return (cmdbuf); 1036 1.1 cgd } 1037 1.1 cgd 1038 1.1 cgd 1039 1.1 cgd static 1040 1.1 cgd getkvars() 1041 1.1 cgd { 1042 1.1 cgd if (kvm_nlist(nl) == -1) 1043 1.1 cgd return (-1); 1044 1.1 cgd if (deadkernel) { 1045 1.1 cgd /* We must do the sys map first because klseek uses it */ 1046 1.1 cgd long addr; 1047 1.1 cgd 1048 1.1 cgd #ifndef NEWVM 1049 1.1 cgd Syssize = nl[X_SYSSIZE].n_value; 1050 1.1 cgd Sysmap = (struct pte *) 1051 1.1 cgd calloc((unsigned) Syssize, sizeof (struct pte)); 1052 1.1 cgd if (Sysmap == NULL) { 1053 1.1 cgd seterr("out of space for Sysmap"); 1054 1.1 cgd return (-1); 1055 1.1 cgd } 1056 1.1 cgd addr = (long) nl[X_SYSMAP].n_value; 1057 1.1 cgd addr &= ~KERNBASE; 1058 1.1 cgd (void) lseek(kmem, addr, 0); 1059 1.1 cgd if (read(kmem, (char *) Sysmap, Syssize * sizeof (struct pte)) 1060 1.1 cgd != Syssize * sizeof (struct pte)) { 1061 1.1 cgd seterr("can't read Sysmap"); 1062 1.1 cgd return (-1); 1063 1.1 cgd } 1064 1.1 cgd #endif 1065 1.1 cgd #if defined(hp300) 1066 1.1 cgd addr = (long) nl[X_LOWRAM].n_value; 1067 1.1 cgd (void) lseek(kmem, addr, 0); 1068 1.1 cgd if (read(kmem, (char *) &lowram, sizeof (lowram)) 1069 1.1 cgd != sizeof (lowram)) { 1070 1.1 cgd seterr("can't read lowram"); 1071 1.1 cgd return (-1); 1072 1.1 cgd } 1073 1.1 cgd lowram = btop(lowram); 1074 1.1 cgd Sysseg = (struct ste *) malloc(NBPG); 1075 1.1 cgd if (Sysseg == NULL) { 1076 1.1 cgd seterr("out of space for Sysseg"); 1077 1.1 cgd return (-1); 1078 1.1 cgd } 1079 1.1 cgd addr = (long) nl[X_SYSSEG].n_value; 1080 1.1 cgd (void) lseek(kmem, addr, 0); 1081 1.1 cgd read(kmem, (char *)&addr, sizeof(addr)); 1082 1.1 cgd (void) lseek(kmem, (long)addr, 0); 1083 1.1 cgd if (read(kmem, (char *) Sysseg, NBPG) != NBPG) { 1084 1.1 cgd seterr("can't read Sysseg"); 1085 1.1 cgd return (-1); 1086 1.1 cgd } 1087 1.1 cgd #endif 1088 1.1 cgd #if defined(i386) 1089 1.1 cgd PTD = (struct pde *) malloc(NBPG); 1090 1.1 cgd if (PTD == NULL) { 1091 1.1 cgd seterr("out of space for PTD"); 1092 1.1 cgd return (-1); 1093 1.1 cgd } 1094 1.1 cgd addr = (long) nl[X_IdlePTD].n_value; 1095 1.1 cgd (void) lseek(kmem, addr, 0); 1096 1.1 cgd read(kmem, (char *)&addr, sizeof(addr)); 1097 1.1 cgd (void) lseek(kmem, (long)addr, 0); 1098 1.1 cgd if (read(kmem, (char *) PTD, NBPG) != NBPG) { 1099 1.1 cgd seterr("can't read PTD"); 1100 1.1 cgd return (-1); 1101 1.1 cgd } 1102 1.1 cgd #endif 1103 1.1 cgd } 1104 1.1 cgd #ifndef NEWVM 1105 1.1 cgd usrpt = (struct pte *)nl[X_USRPT].n_value; 1106 1.1 cgd Usrptmap = (struct pte *)nl[X_USRPTMAP].n_value; 1107 1.1 cgd #endif 1108 1.1 cgd if (kvm_read((void *) nl[X_NSWAP].n_value, &nswap, sizeof (long)) != 1109 1.1 cgd sizeof (long)) { 1110 1.1 cgd seterr("can't read nswap"); 1111 1.1 cgd return (-1); 1112 1.1 cgd } 1113 1.1 cgd if (kvm_read((void *) nl[X_DMMIN].n_value, &dmmin, sizeof (long)) != 1114 1.1 cgd sizeof (long)) { 1115 1.1 cgd seterr("can't read dmmin"); 1116 1.1 cgd return (-1); 1117 1.1 cgd } 1118 1.1 cgd if (kvm_read((void *) nl[X_DMMAX].n_value, &dmmax, sizeof (long)) != 1119 1.1 cgd sizeof (long)) { 1120 1.1 cgd seterr("can't read dmmax"); 1121 1.1 cgd return (-1); 1122 1.1 cgd } 1123 1.1 cgd return (0); 1124 1.1 cgd } 1125 1.1 cgd 1126 1.1 cgd kvm_read(loc, buf, len) 1127 1.1 cgd void *loc; 1128 1.1 cgd void *buf; 1129 1.1 cgd { 1130 1.1 cgd if (kvmfilesopen == 0 && kvm_openfiles(NULL, NULL, NULL) == -1) 1131 1.1 cgd return (-1); 1132 1.1 cgd if (iskva(loc)) { 1133 1.1 cgd klseek(kmem, (off_t) loc, 0); 1134 1.1 cgd if (read(kmem, buf, len) != len) { 1135 1.1 cgd seterr("error reading kmem at %x", loc); 1136 1.1 cgd return (-1); 1137 1.1 cgd } 1138 1.1 cgd } else { 1139 1.1 cgd lseek(mem, (off_t) loc, 0); 1140 1.1 cgd if (read(mem, buf, len) != len) { 1141 1.1 cgd seterr("error reading mem at %x", loc); 1142 1.1 cgd return (-1); 1143 1.1 cgd } 1144 1.1 cgd } 1145 1.1 cgd return (len); 1146 1.1 cgd } 1147 1.1 cgd 1148 1.1 cgd static void 1149 1.1 cgd klseek(fd, loc, off) 1150 1.1 cgd int fd; 1151 1.1 cgd off_t loc; 1152 1.1 cgd int off; 1153 1.1 cgd { 1154 1.1 cgd 1155 1.1 cgd if (deadkernel) { 1156 1.1 cgd if ((loc = Vtophys(loc)) == -1) 1157 1.1 cgd return; 1158 1.1 cgd } 1159 1.1 cgd (void) lseek(fd, (off_t)loc, off); 1160 1.1 cgd } 1161 1.1 cgd 1162 1.1 cgd #ifndef NEWVM 1163 1.1 cgd /* 1164 1.1 cgd * Given a base/size pair in virtual swap area, 1165 1.1 cgd * return a physical base/size pair which is the 1166 1.1 cgd * (largest) initial, physically contiguous block. 1167 1.1 cgd */ 1168 1.1 cgd static void 1169 1.1 cgd vstodb(vsbase, vssize, dmp, dbp, rev) 1170 1.1 cgd register int vsbase; 1171 1.1 cgd int vssize; 1172 1.1 cgd struct dmap *dmp; 1173 1.1 cgd register struct dblock *dbp; 1174 1.1 cgd { 1175 1.1 cgd register int blk = dmmin; 1176 1.1 cgd register swblk_t *ip = dmp->dm_map; 1177 1.1 cgd 1178 1.1 cgd vsbase = ctod(vsbase); 1179 1.1 cgd vssize = ctod(vssize); 1180 1.1 cgd if (vsbase < 0 || vsbase + vssize > dmp->dm_size) 1181 1.1 cgd /*panic("vstodb")*/; 1182 1.1 cgd while (vsbase >= blk) { 1183 1.1 cgd vsbase -= blk; 1184 1.1 cgd if (blk < dmmax) 1185 1.1 cgd blk *= 2; 1186 1.1 cgd ip++; 1187 1.1 cgd } 1188 1.1 cgd if (*ip <= 0 || *ip + blk > nswap) 1189 1.1 cgd /*panic("vstodb")*/; 1190 1.1 cgd dbp->db_size = MIN(vssize, blk - vsbase); 1191 1.1 cgd dbp->db_base = *ip + (rev ? blk - (vsbase + dbp->db_size) : vsbase); 1192 1.1 cgd } 1193 1.1 cgd #endif 1194 1.1 cgd 1195 1.1 cgd #ifdef NEWVM 1196 1.1 cgd static off_t 1197 1.1 cgd Vtophys(loc) 1198 1.1 cgd u_long loc; 1199 1.1 cgd { 1200 1.1 cgd off_t newloc = (off_t) -1; 1201 1.1 cgd #ifdef hp300 1202 1.1 cgd int p, ste, pte; 1203 1.1 cgd 1204 1.1 cgd ste = *(int *)&Sysseg[loc >> SG_ISHIFT]; 1205 1.1 cgd if ((ste & SG_V) == 0) { 1206 1.1 cgd seterr("vtophys: segment not valid"); 1207 1.1 cgd return((off_t) -1); 1208 1.1 cgd } 1209 1.1 cgd p = btop(loc & SG_PMASK); 1210 1.1 cgd newloc = (ste & SG_FRAME) + (p * sizeof(struct pte)); 1211 1.1 cgd (void) lseek(kmem, (long)(newloc-(off_t)ptob(lowram)), 0); 1212 1.1 cgd if (read(kmem, (char *)&pte, sizeof pte) != sizeof pte) { 1213 1.1 cgd seterr("vtophys: cannot locate pte"); 1214 1.1 cgd return((off_t) -1); 1215 1.1 cgd } 1216 1.1 cgd newloc = pte & PG_FRAME; 1217 1.1 cgd if (pte == PG_NV || newloc < (off_t)ptob(lowram)) { 1218 1.1 cgd seterr("vtophys: page not valid"); 1219 1.1 cgd return((off_t) -1); 1220 1.1 cgd } 1221 1.1 cgd newloc = (newloc - (off_t)ptob(lowram)) + (loc & PGOFSET); 1222 1.1 cgd #endif 1223 1.1 cgd #ifdef i386 1224 1.1 cgd struct pde pde; 1225 1.1 cgd struct pte pte; 1226 1.1 cgd int p; 1227 1.1 cgd 1228 1.1 cgd pde = PTD[loc >> PD_SHIFT]; 1229 1.1 cgd if (pde.pd_v == 0) { 1230 1.1 cgd seterr("vtophys: page directory entry not valid"); 1231 1.1 cgd return((off_t) -1); 1232 1.1 cgd } 1233 1.1 cgd p = btop(loc & PT_MASK); 1234 1.1 cgd newloc = pde.pd_pfnum + (p * sizeof(struct pte)); 1235 1.1 cgd (void) lseek(kmem, (long)newloc, 0); 1236 1.1 cgd if (read(kmem, (char *)&pte, sizeof pte) != sizeof pte) { 1237 1.1 cgd seterr("vtophys: cannot obtain desired pte"); 1238 1.1 cgd return((off_t) -1); 1239 1.1 cgd } 1240 1.1 cgd newloc = pte.pg_pfnum; 1241 1.1 cgd if (pte.pg_v == 0) { 1242 1.1 cgd seterr("vtophys: page table entry not valid"); 1243 1.1 cgd return((off_t) -1); 1244 1.1 cgd } 1245 1.1 cgd newloc += (loc & PGOFSET); 1246 1.1 cgd #endif 1247 1.1 cgd return((off_t) newloc); 1248 1.1 cgd } 1249 1.1 cgd #else 1250 1.1 cgd static off_t 1251 1.1 cgd vtophys(loc) 1252 1.1 cgd long loc; 1253 1.1 cgd { 1254 1.1 cgd int p; 1255 1.1 cgd off_t newloc; 1256 1.1 cgd register struct pte *pte; 1257 1.1 cgd 1258 1.1 cgd newloc = loc & ~KERNBASE; 1259 1.1 cgd p = btop(newloc); 1260 1.1 cgd #if defined(vax) || defined(tahoe) 1261 1.1 cgd if ((loc & KERNBASE) == 0) { 1262 1.1 cgd seterr("vtophys: translating non-kernel address"); 1263 1.1 cgd return((off_t) -1); 1264 1.1 cgd } 1265 1.1 cgd #endif 1266 1.1 cgd if (p >= Syssize) { 1267 1.1 cgd seterr("vtophys: page out of bound (%d>=%d)", p, Syssize); 1268 1.1 cgd return((off_t) -1); 1269 1.1 cgd } 1270 1.1 cgd pte = &Sysmap[p]; 1271 1.1 cgd if (pte->pg_v == 0 && (pte->pg_fod || pte->pg_pfnum == 0)) { 1272 1.1 cgd seterr("vtophys: page not valid"); 1273 1.1 cgd return((off_t) -1); 1274 1.1 cgd } 1275 1.1 cgd #if defined(hp300) 1276 1.1 cgd if (pte->pg_pfnum < lowram) { 1277 1.1 cgd seterr("vtophys: non-RAM page (%d<%d)", pte->pg_pfnum, lowram); 1278 1.1 cgd return((off_t) -1); 1279 1.1 cgd } 1280 1.1 cgd #endif 1281 1.1 cgd loc = (long) (ptob(pftoc(pte->pg_pfnum)) + (loc & PGOFSET)); 1282 1.1 cgd return(loc); 1283 1.1 cgd } 1284 1.1 cgd #endif 1285 1.1 cgd 1286 1.3 cgd 1287 1.3 cgd #ifdef NEWVM 1288 1.3 cgd /* 1289 1.3 cgd * locate address of unwired or swapped page 1290 1.3 cgd */ 1291 1.3 cgd 1292 1.3 cgd #define DEBUG 0 1293 1.3 cgd 1294 1.3 cgd #define KREAD(off, addr, len) \ 1295 1.3 cgd (kvm_read((void *)(off), (char *)(addr), (len)) == (len)) 1296 1.3 cgd 1297 1.3 cgd 1298 1.3 cgd static int 1299 1.3 cgd vatosw(p, vaddr, maddr, swb) 1300 1.3 cgd struct proc *p ; 1301 1.3 cgd vm_offset_t vaddr; 1302 1.3 cgd vm_offset_t *maddr; 1303 1.3 cgd struct swapblk *swb; 1304 1.3 cgd { 1305 1.3 cgd register struct kinfo_proc *kp = (struct kinfo_proc *)p; 1306 1.3 cgd vm_map_t mp = &kp->kp_eproc.e_vm.vm_map; 1307 1.3 cgd struct vm_object vm_object; 1308 1.3 cgd struct vm_map_entry vm_entry; 1309 1.3 cgd struct pager_struct pager; 1310 1.3 cgd struct swpager swpager; 1311 1.3 cgd struct swblock swblock; 1312 1.3 cgd long addr, off; 1313 1.3 cgd int i; 1314 1.3 cgd 1315 1.3 cgd if (p->p_pid == 0 || p->p_pid == 2) 1316 1.3 cgd return 0; 1317 1.3 cgd 1318 1.3 cgd addr = (long)mp->header.next; 1319 1.3 cgd for (i = 0; i < mp->nentries; i++) { 1320 1.3 cgd /* Weed through map entries until vaddr in range */ 1321 1.3 cgd if (!KREAD(addr, &vm_entry, sizeof(vm_entry))) { 1322 1.3 cgd setsyserr("vatosw: read vm_map_entry"); 1323 1.3 cgd return 0; 1324 1.3 cgd } 1325 1.3 cgd if ((vaddr >= vm_entry.start) && (vaddr <= vm_entry.end) && 1326 1.3 cgd (vm_entry.object.vm_object != 0)) 1327 1.3 cgd break; 1328 1.3 cgd 1329 1.3 cgd addr = (long)vm_entry.next; 1330 1.3 cgd } 1331 1.3 cgd if (i == mp->nentries) { 1332 1.3 cgd seterr("%u: map not found\n", p->p_pid); 1333 1.3 cgd return 0; 1334 1.3 cgd } 1335 1.3 cgd 1336 1.3 cgd if (vm_entry.is_a_map || vm_entry.is_sub_map) { 1337 1.3 cgd seterr("%u: Is a map\n", p->p_pid); 1338 1.3 cgd return 0; 1339 1.3 cgd } 1340 1.3 cgd 1341 1.3 cgd /* Locate memory object */ 1342 1.3 cgd off = (vaddr - vm_entry.start) + vm_entry.offset; 1343 1.3 cgd addr = (long)vm_entry.object.vm_object; 1344 1.3 cgd while (1) { 1345 1.3 cgd if (!KREAD(addr, &vm_object, sizeof vm_object)) { 1346 1.3 cgd setsyserr("vatosw: read vm_object"); 1347 1.3 cgd return 0; 1348 1.3 cgd } 1349 1.3 cgd 1350 1.3 cgd #if DEBUG 1351 1.3 cgd fprintf(stderr, "%u: find page: object %#x offset %x\n", 1352 1.3 cgd p->p_pid, addr, off); 1353 1.3 cgd #endif 1354 1.3 cgd 1355 1.3 cgd /* Lookup in page queue */ 1356 1.3 cgd if (findpage(addr, off, maddr)) 1357 1.3 cgd return 1; 1358 1.3 cgd 1359 1.3 cgd if (vm_object.shadow == 0) 1360 1.3 cgd break; 1361 1.3 cgd 1362 1.3 cgd #if DEBUG 1363 1.3 cgd fprintf(stderr, "%u: shadow obj at %x: offset %x+%x\n", 1364 1.3 cgd p->p_pid, addr, off, vm_object.shadow_offset); 1365 1.3 cgd #endif 1366 1.3 cgd 1367 1.3 cgd addr = (long)vm_object.shadow; 1368 1.3 cgd off += vm_object.shadow_offset; 1369 1.3 cgd } 1370 1.3 cgd 1371 1.3 cgd if (!vm_object.pager) { 1372 1.3 cgd seterr("%u: no pager\n", p->p_pid); 1373 1.3 cgd return 0; 1374 1.3 cgd } 1375 1.3 cgd 1376 1.3 cgd /* Find address in swap space */ 1377 1.3 cgd if (!KREAD(vm_object.pager, &pager, sizeof pager)) { 1378 1.3 cgd setsyserr("vatosw: read pager"); 1379 1.3 cgd return 0; 1380 1.3 cgd } 1381 1.3 cgd if (pager.pg_type != PG_SWAP) { 1382 1.3 cgd seterr("%u: weird pager\n", p->p_pid); 1383 1.3 cgd return 0; 1384 1.3 cgd } 1385 1.3 cgd 1386 1.3 cgd /* Get swap pager data */ 1387 1.3 cgd if (!KREAD(pager.pg_data, &swpager, sizeof swpager)) { 1388 1.3 cgd setsyserr("vatosw: read swpager"); 1389 1.3 cgd return 0; 1390 1.3 cgd } 1391 1.3 cgd 1392 1.3 cgd off += vm_object.paging_offset; 1393 1.3 cgd 1394 1.3 cgd /* Read swap block array */ 1395 1.3 cgd if (!KREAD((long)swpager.sw_blocks + 1396 1.3 cgd (off/dbtob(swpager.sw_bsize)) * sizeof swblock, 1397 1.3 cgd &swblock, sizeof swblock)) { 1398 1.3 cgd setsyserr("vatosw: read swblock"); 1399 1.3 cgd return 0; 1400 1.3 cgd } 1401 1.3 cgd swb->offset = dbtob(swblock.swb_block)+ (off % dbtob(swpager.sw_bsize)); 1402 1.3 cgd swb->size = dbtob(swpager.sw_bsize) - (off % dbtob(swpager.sw_bsize)); 1403 1.3 cgd return 1; 1404 1.3 cgd } 1405 1.3 cgd 1406 1.3 cgd 1407 1.3 cgd #define atop(x) (((unsigned)(x)) >> page_shift) 1408 1.3 cgd #define vm_page_hash(object, offset) \ 1409 1.3 cgd (((unsigned)object+(unsigned)atop(offset))&vm_page_hash_mask) 1410 1.3 cgd 1411 1.3 cgd static int 1412 1.3 cgd findpage(object, offset, maddr) 1413 1.3 cgd long object; 1414 1.3 cgd long offset; 1415 1.3 cgd vm_offset_t *maddr; 1416 1.3 cgd { 1417 1.3 cgd static long vm_page_hash_mask; 1418 1.3 cgd static long vm_page_buckets; 1419 1.3 cgd static long page_shift; 1420 1.3 cgd queue_head_t bucket; 1421 1.3 cgd struct vm_page mem; 1422 1.3 cgd long addr, baddr; 1423 1.3 cgd 1424 1.3 cgd if (vm_page_hash_mask == 0 && !KREAD(nl[X_VM_PAGE_HASH_MASK].n_value, 1425 1.3 cgd &vm_page_hash_mask, sizeof (long))) { 1426 1.3 cgd seterr("can't read vm_page_hash_mask"); 1427 1.3 cgd return 0; 1428 1.3 cgd } 1429 1.3 cgd if (page_shift == 0 && !KREAD(nl[X_PAGE_SHIFT].n_value, 1430 1.3 cgd &page_shift, sizeof (long))) { 1431 1.3 cgd seterr("can't read page_shift"); 1432 1.3 cgd return 0; 1433 1.3 cgd } 1434 1.3 cgd if (vm_page_buckets == 0 && !KREAD(nl[X_VM_PAGE_BUCKETS].n_value, 1435 1.3 cgd &vm_page_buckets, sizeof (long))) { 1436 1.3 cgd seterr("can't read vm_page_buckets"); 1437 1.3 cgd return 0; 1438 1.3 cgd } 1439 1.3 cgd 1440 1.3 cgd baddr = vm_page_buckets + vm_page_hash(object,offset) * sizeof(queue_head_t); 1441 1.3 cgd if (!KREAD(baddr, &bucket, sizeof (bucket))) { 1442 1.3 cgd seterr("can't read vm_page_bucket"); 1443 1.3 cgd return 0; 1444 1.3 cgd } 1445 1.3 cgd 1446 1.3 cgd addr = (long)bucket.next; 1447 1.3 cgd while (addr != baddr) { 1448 1.3 cgd if (!KREAD(addr, &mem, sizeof (mem))) { 1449 1.3 cgd seterr("can't read vm_page"); 1450 1.3 cgd return 0; 1451 1.3 cgd } 1452 1.3 cgd if ((long)mem.object == object && mem.offset == offset) { 1453 1.3 cgd *maddr = (long)mem.phys_addr; 1454 1.3 cgd return 1; 1455 1.3 cgd } 1456 1.3 cgd addr = (long)mem.hashq.next; 1457 1.3 cgd } 1458 1.3 cgd return 0; 1459 1.3 cgd } 1460 1.3 cgd #endif /* NEWVM */ 1461 1.3 cgd 1462 1.1 cgd #include <varargs.h> 1463 1.1 cgd static char errbuf[_POSIX2_LINE_MAX]; 1464 1.1 cgd 1465 1.1 cgd static void 1466 1.1 cgd seterr(va_alist) 1467 1.1 cgd va_dcl 1468 1.1 cgd { 1469 1.1 cgd char *fmt; 1470 1.1 cgd va_list ap; 1471 1.1 cgd 1472 1.1 cgd va_start(ap); 1473 1.1 cgd fmt = va_arg(ap, char *); 1474 1.1 cgd (void) vsnprintf(errbuf, _POSIX2_LINE_MAX, fmt, ap); 1475 1.3 cgd #if DEBUG 1476 1.3 cgd (void) vfprintf(stderr, fmt, ap); 1477 1.3 cgd #endif 1478 1.1 cgd va_end(ap); 1479 1.1 cgd } 1480 1.1 cgd 1481 1.1 cgd static void 1482 1.1 cgd setsyserr(va_alist) 1483 1.1 cgd va_dcl 1484 1.1 cgd { 1485 1.1 cgd char *fmt, *cp; 1486 1.1 cgd va_list ap; 1487 1.1 cgd extern int errno; 1488 1.1 cgd 1489 1.1 cgd va_start(ap); 1490 1.1 cgd fmt = va_arg(ap, char *); 1491 1.1 cgd (void) vsnprintf(errbuf, _POSIX2_LINE_MAX, fmt, ap); 1492 1.1 cgd for (cp=errbuf; *cp; cp++) 1493 1.1 cgd ; 1494 1.1 cgd snprintf(cp, _POSIX2_LINE_MAX - (cp - errbuf), ": %s", strerror(errno)); 1495 1.1 cgd va_end(ap); 1496 1.1 cgd } 1497 1.1 cgd 1498 1.1 cgd char * 1499 1.1 cgd kvm_geterr() 1500 1.1 cgd { 1501 1.1 cgd return (errbuf); 1502 1.1 cgd } 1503
Indexes created Sun Sep 21 15:09:59 GMT 2025