dump.c revision 1.21
1 1.21 he /* $NetBSD: dump.c,v 1.21 2005/07/17 08:44:08 he Exp $ */ 2 1.2 mrg 3 1.1 darrenr /*- 4 1.1 darrenr * Copyright (c) 1988, 1993 5 1.1 darrenr * The Regents of the University of California. All rights reserved. 6 1.1 darrenr * 7 1.1 darrenr * Redistribution and use in source and binary forms, with or without 8 1.1 darrenr * modification, are permitted provided that the following conditions 9 1.1 darrenr * are met: 10 1.1 darrenr * 1. Redistributions of source code must retain the above copyright 11 1.1 darrenr * notice, this list of conditions and the following disclaimer. 12 1.1 darrenr * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 darrenr * notice, this list of conditions and the following disclaimer in the 14 1.1 darrenr * documentation and/or other materials provided with the distribution. 15 1.15 agc * 3. Neither the name of the University nor the names of its contributors 16 1.1 darrenr * may be used to endorse or promote products derived from this software 17 1.1 darrenr * without specific prior written permission. 18 1.1 darrenr * 19 1.1 darrenr * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 20 1.1 darrenr * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 21 1.1 darrenr * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 22 1.1 darrenr * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 23 1.1 darrenr * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 24 1.1 darrenr * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 25 1.1 darrenr * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 26 1.1 darrenr * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 27 1.1 darrenr * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 28 1.1 darrenr * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 29 1.1 darrenr * SUCH DAMAGE. 30 1.1 darrenr */ 31 1.1 darrenr 32 1.1 darrenr #include <sys/cdefs.h> 33 1.1 darrenr #ifndef lint 34 1.1 darrenr __COPYRIGHT("@(#) Copyright (c) 1988, 1993\n\ 35 1.1 darrenr The Regents of the University of California. All rights reserved.\n"); 36 1.1 darrenr #endif /* not lint */ 37 1.1 darrenr 38 1.1 darrenr #ifndef lint 39 1.1 darrenr #if 0 40 1.1 darrenr static char sccsid[] = "@(#)kdump.c 8.4 (Berkeley) 4/28/95"; 41 1.1 darrenr #endif 42 1.21 he __RCSID("$NetBSD: dump.c,v 1.21 2005/07/17 08:44:08 he Exp $"); 43 1.1 darrenr #endif /* not lint */ 44 1.1 darrenr 45 1.1 darrenr #include <sys/param.h> 46 1.1 darrenr #define _KERNEL 47 1.1 darrenr #include <sys/errno.h> 48 1.1 darrenr #undef _KERNEL 49 1.18 enami #include <sys/ioctl.h> 50 1.1 darrenr #include <sys/time.h> 51 1.1 darrenr #include <sys/uio.h> 52 1.1 darrenr #include <sys/ktrace.h> 53 1.1 darrenr #include <sys/ptrace.h> 54 1.18 enami #include <sys/queue.h> 55 1.1 darrenr 56 1.1 darrenr #include <err.h> 57 1.1 darrenr #include <signal.h> 58 1.18 enami #include <stdarg.h> 59 1.18 enami #include <stddef.h> 60 1.1 darrenr #include <stdio.h> 61 1.1 darrenr #include <stdlib.h> 62 1.1 darrenr #include <string.h> 63 1.1 darrenr #include <unistd.h> 64 1.1 darrenr #include <vis.h> 65 1.1 darrenr 66 1.1 darrenr #include "ktrace.h" 67 1.1 darrenr #include "misc.h" 68 1.9 jdolecek #include "setemul.h" 69 1.1 darrenr 70 1.1 darrenr int timestamp, decimal, fancy = 1, tail, maxdata; 71 1.1 darrenr 72 1.18 enami int width; /* Keep track of current columns. */ 73 1.1 darrenr 74 1.1 darrenr #include <sys/syscall.h> 75 1.1 darrenr 76 1.18 enami static const char *const ptrace_ops[] = { 77 1.1 darrenr "PT_TRACE_ME", "PT_READ_I", "PT_READ_D", "PT_READ_U", 78 1.1 darrenr "PT_WRITE_I", "PT_WRITE_D", "PT_WRITE_U", "PT_CONTINUE", 79 1.1 darrenr "PT_KILL", "PT_ATTACH", "PT_DETACH", 80 1.1 darrenr }; 81 1.1 darrenr 82 1.18 enami struct ktr_entry { 83 1.18 enami TAILQ_ENTRY(ktr_entry) kte_list; 84 1.18 enami struct ktr_header kte_kth; 85 1.18 enami }; 86 1.18 enami 87 1.18 enami TAILQ_HEAD(kteq, ktr_entry) ktependq = TAILQ_HEAD_INITIALIZER(ktependq); 88 1.18 enami 89 1.18 enami void argprint(const char *, register_t **, int *); 90 1.18 enami void dumpheader(struct ktr_header *); 91 1.18 enami int dumprecord(int, FILE *); 92 1.18 enami void flushpendq(struct ktr_entry *); 93 1.18 enami int fread_tail(void *, int, int, FILE *); 94 1.18 enami void genioprint(struct ktr_header *); 95 1.18 enami struct ktr_entry * 96 1.18 enami getpendq(struct ktr_header *, int, struct kteq *); 97 1.18 enami struct ktr_entry * 98 1.18 enami getrecord(FILE *); 99 1.18 enami void indent(int); 100 1.18 enami void ioctldecode(u_long); 101 1.18 enami void ktrcsw(struct ktr_entry *); 102 1.18 enami void ktremul(struct ktr_entry *); 103 1.18 enami void ktrgenio(struct ktr_entry *); 104 1.18 enami void ktrnamei(struct ktr_entry *); 105 1.18 enami void ktrpsig(struct ktr_entry *); 106 1.18 enami void ktrsyscall(struct ktr_entry *); 107 1.18 enami void ktrsysret(struct ktr_entry *); 108 1.18 enami void nameiargprint(const char *, struct ktr_header *, register_t **, int *); 109 1.18 enami void nameiprint(struct ktr_header *); 110 1.18 enami void newline(void); 111 1.18 enami void putpendq(struct ktr_entry *); 112 1.18 enami void syscallnameprint(int); 113 1.18 enami void syscallprint(struct ktr_header *); 114 1.18 enami void sysretprint(struct ktr_header *); 115 1.18 enami int wprintf(const char *, ...); 116 1.18 enami void *xrealloc(void *, size_t *, size_t); 117 1.18 enami 118 1.18 enami int 119 1.18 enami wprintf(const char *fmt, ...) 120 1.18 enami { 121 1.18 enami va_list ap; 122 1.18 enami int w; 123 1.18 enami 124 1.18 enami va_start(ap, fmt); 125 1.18 enami w = vprintf(fmt, ap); 126 1.18 enami if (w == -1) 127 1.18 enami warn("vprintf"); 128 1.18 enami else 129 1.18 enami width += w; 130 1.18 enami va_end(ap); 131 1.18 enami return (w); 132 1.18 enami } 133 1.1 darrenr 134 1.18 enami void 135 1.18 enami newline(void) 136 1.18 enami { 137 1.1 darrenr 138 1.18 enami if (width > 0) { 139 1.18 enami printf("\n"); 140 1.18 enami width = 0; 141 1.18 enami } 142 1.18 enami } 143 1.1 darrenr 144 1.1 darrenr void 145 1.18 enami indent(int col) 146 1.18 enami { 147 1.18 enami 148 1.18 enami while (width < col) 149 1.18 enami if (wprintf(" ") < 0) 150 1.18 enami break; 151 1.18 enami } 152 1.18 enami 153 1.18 enami void * 154 1.18 enami xrealloc(void *p, size_t *siz, size_t req) 155 1.18 enami { 156 1.18 enami 157 1.18 enami if (*siz < req) { 158 1.18 enami if (*siz == 0) 159 1.18 enami *siz = 1; 160 1.18 enami while (*siz < req) 161 1.18 enami *siz <<= 1; 162 1.18 enami p = realloc(p, *siz); 163 1.18 enami if (p == NULL) 164 1.18 enami err(EXIT_FAILURE, "realloc: %lu bytes", 165 1.18 enami (u_long)*siz); 166 1.18 enami } 167 1.18 enami return (p); 168 1.18 enami } 169 1.18 enami 170 1.18 enami struct ktr_entry * 171 1.18 enami getrecord(FILE *fp) 172 1.18 enami { 173 1.18 enami struct ktr_entry *kte; 174 1.18 enami struct ktr_header *kth; 175 1.18 enami char *cp; 176 1.18 enami size_t siz, len; 177 1.18 enami 178 1.18 enami siz = 0; 179 1.18 enami kte = xrealloc(NULL, &siz, sizeof(struct ktr_entry)); 180 1.18 enami kth = &kte->kte_kth; 181 1.18 enami if (fread_tail(kth, sizeof(struct ktr_header), 1, fp) == 0) { 182 1.18 enami free(kte); 183 1.18 enami return (NULL); 184 1.18 enami } 185 1.18 enami 186 1.18 enami len = kth->ktr_len; 187 1.18 enami if (len < 0) 188 1.18 enami errx(EXIT_FAILURE, "bogus length 0x%lx", (long)len); 189 1.18 enami if (len > 0) { 190 1.18 enami /* + 1 to ensure room for NUL terminate */ 191 1.18 enami kte = xrealloc(kte, &siz, sizeof(struct ktr_entry) + len + 1); 192 1.18 enami if (fread_tail(cp = (char *)(&kte->kte_kth + 1), 193 1.18 enami len, 1, fp) == 0) 194 1.18 enami errx(EXIT_FAILURE, "data too short"); 195 1.18 enami cp[len] = 0; 196 1.18 enami } 197 1.18 enami 198 1.18 enami return (kte); 199 1.18 enami } 200 1.18 enami 201 1.18 enami /* XXX: lwp. */ 202 1.18 enami #define KTE_TYPE(kte) ((kte)->kte_kth.ktr_type) 203 1.18 enami #define KTE_PID(kte) ((kte)->kte_kth.ktr_pid) 204 1.18 enami #define KTE_MATCH(kte, type, pid) \ 205 1.18 enami (KTE_TYPE(kte) == (type) && KTE_PID(kte) == (pid)) 206 1.18 enami 207 1.18 enami void 208 1.18 enami putpendq(struct ktr_entry *kte) 209 1.18 enami { 210 1.18 enami 211 1.18 enami TAILQ_INSERT_TAIL(&ktependq, kte, kte_list); 212 1.18 enami } 213 1.18 enami 214 1.18 enami void 215 1.18 enami flushpendq(struct ktr_entry *us) 216 1.18 enami { 217 1.18 enami struct ktr_entry *kte, *kte_next; 218 1.18 enami int pid = KTE_PID(us); 219 1.18 enami 220 1.18 enami for (kte = TAILQ_FIRST(&ktependq); kte != NULL; kte = kte_next) { 221 1.18 enami kte_next = TAILQ_NEXT(kte, kte_list); 222 1.18 enami if (KTE_PID(kte) == pid) { 223 1.18 enami TAILQ_REMOVE(&ktependq, kte, kte_list); 224 1.18 enami free(kte); 225 1.18 enami } 226 1.18 enami } 227 1.18 enami } 228 1.18 enami 229 1.18 enami struct ktr_entry * 230 1.18 enami getpendq(struct ktr_header *us, int type, struct kteq *kteq) 231 1.18 enami { 232 1.18 enami struct ktr_entry *kte, *kte_next; 233 1.18 enami int pid = us->ktr_pid; 234 1.18 enami 235 1.18 enami if (kteq != NULL) 236 1.18 enami TAILQ_INIT(kteq); 237 1.18 enami for (kte = TAILQ_FIRST(&ktependq); kte != NULL; kte = kte_next) { 238 1.18 enami kte_next = TAILQ_NEXT(kte, kte_list); 239 1.18 enami if (KTE_MATCH(kte, type, pid)) { 240 1.18 enami TAILQ_REMOVE(&ktependq, kte, kte_list); 241 1.18 enami if (kteq != NULL) 242 1.18 enami TAILQ_INSERT_TAIL(kteq, kte, kte_list); 243 1.18 enami else 244 1.18 enami break; 245 1.18 enami } 246 1.18 enami } 247 1.18 enami 248 1.18 enami return (kteq ? TAILQ_FIRST(kteq) : kte); 249 1.18 enami } 250 1.18 enami 251 1.18 enami int 252 1.18 enami dumprecord(int trpoints, FILE *fp) 253 1.1 darrenr { 254 1.18 enami struct ktr_entry *kte; 255 1.18 enami struct ktr_header *kth; 256 1.18 enami 257 1.18 enami kte = getrecord(fp); 258 1.18 enami if (kte == NULL) 259 1.18 enami return (0); 260 1.18 enami 261 1.18 enami kth = &kte->kte_kth; 262 1.18 enami if ((trpoints & (1 << kth->ktr_type)) == 0) { 263 1.18 enami free(kte); 264 1.18 enami goto out; 265 1.18 enami } 266 1.9 jdolecek 267 1.18 enami /* Update context to match currently processed record. */ 268 1.18 enami ectx_sanify(kth->ktr_pid); 269 1.9 jdolecek 270 1.18 enami switch (kth->ktr_type) { 271 1.1 darrenr case KTR_SYSCALL: 272 1.18 enami ktrsyscall(kte); 273 1.1 darrenr break; 274 1.1 darrenr case KTR_SYSRET: 275 1.18 enami ktrsysret(kte); 276 1.1 darrenr break; 277 1.1 darrenr case KTR_NAMEI: 278 1.18 enami putpendq(kte); 279 1.1 darrenr break; 280 1.1 darrenr case KTR_GENIO: 281 1.18 enami putpendq(kte); 282 1.1 darrenr break; 283 1.1 darrenr case KTR_PSIG: 284 1.18 enami ktrpsig(kte); 285 1.1 darrenr break; 286 1.1 darrenr case KTR_CSW: 287 1.18 enami ktrcsw(kte); 288 1.1 darrenr break; 289 1.1 darrenr case KTR_EMUL: 290 1.18 enami ktremul(kte); 291 1.18 enami break; 292 1.18 enami default: 293 1.18 enami /* 294 1.18 enami * XXX: Other types added recently. 295 1.18 enami */ 296 1.18 enami free(kte); 297 1.1 darrenr break; 298 1.1 darrenr } 299 1.18 enami newline(); 300 1.1 darrenr 301 1.18 enami out: 302 1.18 enami return (1); 303 1.1 darrenr } 304 1.1 darrenr 305 1.1 darrenr void 306 1.18 enami dumpfile(const char *file, int fd, int trpoints) 307 1.1 darrenr { 308 1.1 darrenr FILE *fp; 309 1.1 darrenr 310 1.18 enami if (file == NULL || *file == 0) { 311 1.18 enami if ((fp = fdopen(fd, "r")) == NULL) 312 1.18 enami err(EXIT_FAILURE, "fdopen(%d)", fd); 313 1.18 enami } else if (strcmp(file, "-") == 0) 314 1.1 darrenr fp = stdin; 315 1.18 enami else if ((fp = fopen(file, "r")) == NULL) 316 1.18 enami err(EXIT_FAILURE, "fopen: %s", file); 317 1.1 darrenr 318 1.18 enami for (width = 0; dumprecord(trpoints, fp) != 0;) 319 1.1 darrenr if (tail) 320 1.1 darrenr (void)fflush(stdout); 321 1.18 enami 322 1.18 enami newline(); 323 1.18 enami 324 1.18 enami /* 325 1.18 enami * XXX: Dump pending KTR_SYSCALL if any? 326 1.18 enami */ 327 1.1 darrenr } 328 1.1 darrenr 329 1.1 darrenr int 330 1.18 enami fread_tail(void *buf, int size, int num, FILE *fp) 331 1.1 darrenr { 332 1.1 darrenr int i; 333 1.1 darrenr 334 1.1 darrenr while ((i = fread(buf, size, num, fp)) == 0 && tail) { 335 1.1 darrenr (void)sleep(1); 336 1.5 enami clearerr(fp); 337 1.1 darrenr } 338 1.1 darrenr return (i); 339 1.1 darrenr } 340 1.1 darrenr 341 1.1 darrenr void 342 1.18 enami dumpheader(struct ktr_header *kth) 343 1.1 darrenr { 344 1.1 darrenr static struct timeval prevtime; 345 1.1 darrenr struct timeval temp; 346 1.1 darrenr 347 1.18 enami wprintf("%6d %-8.*s ", kth->ktr_pid, MAXCOMLEN, kth->ktr_comm); 348 1.1 darrenr 349 1.1 darrenr if (timestamp) { 350 1.1 darrenr if (timestamp == 2) { 351 1.1 darrenr timersub(&kth->ktr_time, &prevtime, &temp); 352 1.1 darrenr prevtime = kth->ktr_time; 353 1.1 darrenr } else 354 1.1 darrenr temp = kth->ktr_time; 355 1.18 enami wprintf("%ld.%06ld ", 356 1.18 enami (long int)temp.tv_sec, (long int)temp.tv_usec); 357 1.1 darrenr } 358 1.1 darrenr } 359 1.1 darrenr 360 1.1 darrenr void 361 1.18 enami ioctldecode(u_long cmd) 362 1.1 darrenr { 363 1.1 darrenr char dirbuf[4], *dir = dirbuf; 364 1.1 darrenr 365 1.1 darrenr if (cmd & IOC_OUT) 366 1.1 darrenr *dir++ = 'W'; 367 1.1 darrenr if (cmd & IOC_IN) 368 1.1 darrenr *dir++ = 'R'; 369 1.1 darrenr *dir = '\0'; 370 1.1 darrenr 371 1.18 enami wprintf(decimal ? ", _IO%s('%c',%ld" : ", _IO%s('%c',%#lx", 372 1.10 is dirbuf, (int) ((cmd >> 8) & 0xff), cmd & 0xff); 373 1.1 darrenr if ((cmd & IOC_VOID) == 0) 374 1.18 enami wprintf(decimal ? ",%ld)" : ",%#lx)", 375 1.18 enami (cmd >> 16) & 0xff); 376 1.1 darrenr else 377 1.18 enami wprintf(")"); 378 1.1 darrenr } 379 1.1 darrenr 380 1.18 enami void 381 1.18 enami nameiargprint(const char *prefix, struct ktr_header *kth, 382 1.18 enami register_t **ap, int *argsize) 383 1.18 enami { 384 1.18 enami struct ktr_entry *kte; 385 1.18 enami 386 1.18 enami if (*argsize == 0) 387 1.18 enami errx(EXIT_FAILURE, "argument expected"); 388 1.18 enami /* 389 1.18 enami * XXX: binary emulation mode. 390 1.18 enami */ 391 1.18 enami kte = getpendq(kth, KTR_NAMEI, NULL); 392 1.18 enami if (kte == NULL) 393 1.18 enami argprint(prefix, ap, argsize); 394 1.18 enami else { 395 1.18 enami wprintf("%s", prefix); 396 1.18 enami nameiprint(&kte->kte_kth); 397 1.18 enami free(kte); 398 1.18 enami (*ap)++; 399 1.18 enami *argsize -= sizeof(register_t); 400 1.18 enami } 401 1.18 enami } 402 1.18 enami 403 1.18 enami void 404 1.18 enami syscallnameprint(int code) 405 1.18 enami { 406 1.18 enami 407 1.18 enami if (code >= cur_emul->nsysnames || code < 0) 408 1.18 enami wprintf("[%d]", code); 409 1.18 enami else 410 1.18 enami wprintf("%s", cur_emul->sysnames[code]); 411 1.18 enami } 412 1.18 enami 413 1.18 enami void 414 1.18 enami argprint(const char *prefix, register_t **ap, int *argsize) 415 1.18 enami { 416 1.18 enami 417 1.18 enami if (decimal) 418 1.18 enami wprintf("%s%ld", prefix, (long)**ap); 419 1.18 enami else 420 1.18 enami wprintf("%s%#lx", prefix, (long)**ap); 421 1.18 enami (*ap)++; 422 1.18 enami *argsize -= sizeof(register_t); 423 1.18 enami } 424 1.18 enami 425 1.18 enami void 426 1.18 enami syscallprint(struct ktr_header *kth) 427 1.18 enami { 428 1.18 enami struct ktr_syscall *ktr = (struct ktr_syscall *)(kth + 1); 429 1.18 enami register_t *ap; 430 1.21 he const char *s; 431 1.18 enami int argsize; 432 1.18 enami 433 1.18 enami syscallnameprint(ktr->ktr_code); 434 1.18 enami 435 1.18 enami /* 436 1.18 enami * Arguments processing. 437 1.18 enami */ 438 1.18 enami argsize = ktr->ktr_argsize; 439 1.18 enami if (argsize == 0) { 440 1.18 enami wprintf("("); 441 1.18 enami goto noargument; 442 1.18 enami } 443 1.18 enami 444 1.18 enami ap = (register_t *)(ktr + 1); 445 1.18 enami if (!fancy) 446 1.18 enami goto print_first; 447 1.18 enami 448 1.18 enami switch (ktr->ktr_code) { 449 1.18 enami /* 450 1.18 enami * All these have a path as the first param. 451 1.18 enami * The order is same as syscalls.master. 452 1.18 enami */ 453 1.18 enami case SYS_open: 454 1.18 enami case SYS_link: 455 1.18 enami case SYS_unlink: 456 1.18 enami case SYS_chdir: 457 1.18 enami case SYS_mknod: 458 1.18 enami case SYS_chmod: 459 1.18 enami case SYS_chown: 460 1.18 enami case SYS_unmount: 461 1.18 enami case SYS_access: 462 1.18 enami case SYS_chflags: 463 1.18 enami case SYS_acct: 464 1.18 enami case SYS_revoke: 465 1.18 enami case SYS_symlink: 466 1.18 enami case SYS_readlink: 467 1.18 enami case SYS_execve: 468 1.18 enami case SYS_chroot: 469 1.18 enami case SYS_rename: 470 1.18 enami case SYS_mkfifo: 471 1.18 enami case SYS_mkdir: 472 1.18 enami case SYS_rmdir: 473 1.18 enami case SYS_utimes: 474 1.18 enami case SYS_quotactl: 475 1.20 christos case SYS_statvfs1: 476 1.18 enami case SYS_getfh: 477 1.18 enami case SYS_pathconf: 478 1.18 enami case SYS_truncate: 479 1.18 enami case SYS_undelete: 480 1.18 enami case SYS___posix_rename: 481 1.18 enami case SYS_lchmod: 482 1.18 enami case SYS_lchown: 483 1.18 enami case SYS_lutimes: 484 1.18 enami case SYS___stat13: 485 1.18 enami case SYS___lstat13: 486 1.18 enami case SYS___posix_chown: 487 1.18 enami case SYS___posix_lchown: 488 1.18 enami case SYS_lchflags: 489 1.18 enami nameiargprint("(", kth, &ap, &argsize); 490 1.18 enami 491 1.18 enami /* 492 1.18 enami * 2nd argument is also pathname. 493 1.18 enami */ 494 1.18 enami switch (ktr->ktr_code) { 495 1.18 enami case SYS_link: 496 1.18 enami case SYS_rename: 497 1.18 enami case SYS___posix_rename: 498 1.18 enami nameiargprint(", ", kth, &ap, &argsize); 499 1.18 enami break; 500 1.18 enami } 501 1.18 enami break; 502 1.18 enami 503 1.18 enami case SYS_compat_16___sigaction14 : 504 1.18 enami wprintf("(%s", signals[(int)*ap].name); 505 1.18 enami ap++; 506 1.18 enami argsize -= sizeof(register_t); 507 1.18 enami break; 508 1.18 enami 509 1.18 enami case SYS_ioctl : 510 1.18 enami argprint("(", &ap, &argsize); 511 1.18 enami if ((s = ioctlname(*ap)) != NULL) 512 1.18 enami wprintf(", %s", s); 513 1.18 enami else 514 1.18 enami ioctldecode(*ap); 515 1.18 enami ap++; 516 1.18 enami argsize -= sizeof(register_t); 517 1.18 enami break; 518 1.18 enami 519 1.18 enami case SYS_ptrace : 520 1.18 enami if (*ap >= 0 && 521 1.19 enami *ap < sizeof(ptrace_ops) / sizeof(ptrace_ops[0])) 522 1.18 enami wprintf("(%s", ptrace_ops[*ap]); 523 1.1 darrenr else 524 1.18 enami wprintf("(%ld", (long)*ap); 525 1.18 enami ap++; 526 1.18 enami argsize -= sizeof(register_t); 527 1.18 enami break; 528 1.18 enami 529 1.18 enami default: 530 1.18 enami print_first: 531 1.18 enami argprint("(", &ap, &argsize); 532 1.18 enami break; 533 1.18 enami } 534 1.18 enami 535 1.18 enami /* Print rest of argument. */ 536 1.18 enami while (argsize > 0) 537 1.18 enami argprint(", ", &ap, &argsize); 538 1.18 enami 539 1.18 enami noargument: 540 1.18 enami wprintf(")"); 541 1.18 enami } 542 1.18 enami 543 1.18 enami void 544 1.18 enami ktrsyscall(struct ktr_entry *kte) 545 1.18 enami { 546 1.18 enami struct ktr_header *kth = &kte->kte_kth; 547 1.18 enami struct ktr_syscall *ktr = (struct ktr_syscall *)(kth + 1); 548 1.18 enami 549 1.18 enami switch (ktr->ktr_code) { 550 1.18 enami case SYS_exit: 551 1.18 enami dumpheader(kth); 552 1.18 enami syscallprint(kth); 553 1.18 enami break; 554 1.18 enami default: 555 1.18 enami putpendq(kte); 556 1.18 enami return; 557 1.1 darrenr } 558 1.1 darrenr 559 1.18 enami free(kte); 560 1.1 darrenr } 561 1.1 darrenr 562 1.1 darrenr void 563 1.18 enami sysretprint(struct ktr_header *kth) 564 1.1 darrenr { 565 1.18 enami struct ktr_sysret *ktr = (struct ktr_sysret *)(kth + 1); 566 1.18 enami register_t ret = ktr->ktr_retval; 567 1.18 enami int error = ktr->ktr_error; 568 1.1 darrenr 569 1.18 enami indent(50); 570 1.1 darrenr if (error == EJUSTRETURN) 571 1.18 enami wprintf(" JUSTRETURN"); 572 1.1 darrenr else if (error == ERESTART) 573 1.18 enami wprintf(" RESTART"); 574 1.1 darrenr else if (error) { 575 1.18 enami wprintf(" Err#%d", error); 576 1.1 darrenr if (error < MAXERRNOS && error >= -2) 577 1.18 enami wprintf(" %s", errnos[error].name); 578 1.1 darrenr } else 579 1.18 enami switch (ktr->ktr_code) { 580 1.18 enami case SYS_mmap: 581 1.18 enami wprintf(" = %p", (long)ret); 582 1.18 enami break; 583 1.18 enami default: 584 1.18 enami wprintf(" = %ld", (long)ret); 585 1.18 enami if (kth->ktr_len > offsetof(struct ktr_sysret, 586 1.18 enami ktr_retval_1) && ktr->ktr_retval_1 != 0) 587 1.18 enami wprintf(", %ld", (long)ktr->ktr_retval_1); 588 1.18 enami break; 589 1.18 enami } 590 1.18 enami } 591 1.18 enami 592 1.18 enami void 593 1.18 enami ktrsysret(struct ktr_entry *kte) 594 1.18 enami { 595 1.18 enami struct ktr_header *kth = &kte->kte_kth; 596 1.18 enami struct ktr_sysret *ktr = (struct ktr_sysret *)(kth + 1); 597 1.18 enami struct ktr_entry *genio; 598 1.18 enami struct ktr_entry *syscall; 599 1.18 enami 600 1.18 enami dumpheader(kth); 601 1.18 enami 602 1.18 enami /* Print syscall name and arguments. */ 603 1.18 enami syscall = getpendq(kth, KTR_SYSCALL, NULL); 604 1.18 enami if (syscall == NULL) 605 1.18 enami /* 606 1.18 enami * Possibilly a child of fork/vfork, or tracing of 607 1.18 enami * process started during system call. 608 1.18 enami */ 609 1.18 enami syscallnameprint(ktr->ktr_code); 610 1.18 enami else { 611 1.18 enami syscallprint(&syscall->kte_kth); 612 1.18 enami free(syscall); 613 1.18 enami } 614 1.18 enami 615 1.18 enami /* Print return value and an error if any. */ 616 1.18 enami sysretprint(kth); 617 1.18 enami 618 1.18 enami genio = getpendq(kth, KTR_GENIO, NULL); 619 1.18 enami if (genio != NULL) { 620 1.18 enami genioprint(&genio->kte_kth); 621 1.18 enami free(genio); 622 1.18 enami } 623 1.18 enami 624 1.18 enami flushpendq(kte); 625 1.18 enami free(kte); 626 1.18 enami } 627 1.18 enami 628 1.18 enami void 629 1.18 enami nameiprint(struct ktr_header *kth) 630 1.18 enami { 631 1.18 enami 632 1.18 enami wprintf("\"%.*s\"", kth->ktr_len, (char *)(kth + 1)); 633 1.1 darrenr } 634 1.1 darrenr 635 1.18 enami #ifdef notused 636 1.1 darrenr void 637 1.18 enami ktrnamei(struct ktr_entry *kte) 638 1.1 darrenr { 639 1.18 enami struct ktr_header *kth = &kte->kte_kth; 640 1.18 enami 641 1.18 enami dumpheader(kth); 642 1.18 enami wprintf("namei("); 643 1.18 enami nameiprint(kth); 644 1.18 enami wprintf(")"); 645 1.18 enami 646 1.18 enami free(kte); 647 1.1 darrenr } 648 1.18 enami #endif 649 1.1 darrenr 650 1.1 darrenr void 651 1.18 enami ktremul(struct ktr_entry *kte) 652 1.1 darrenr { 653 1.18 enami struct ktr_header *kth = &kte->kte_kth; 654 1.18 enami char *emul = (char *)(kth + 1); 655 1.1 darrenr 656 1.18 enami dumpheader(kth); 657 1.18 enami wprintf("emul(%s)", emul); 658 1.18 enami setemul(emul, kth->ktr_pid, 1); 659 1.18 enami 660 1.18 enami free(kte); 661 1.1 darrenr } 662 1.1 darrenr 663 1.1 darrenr void 664 1.18 enami genioprint(struct ktr_header *kth) 665 1.1 darrenr { 666 1.18 enami struct ktr_genio *ktr = (struct ktr_genio *)(kth + 1); 667 1.1 darrenr static int screenwidth = 0; 668 1.18 enami int datalen = kth->ktr_len - sizeof(struct ktr_genio); 669 1.18 enami /* 670 1.18 enami * Need to be unsigned type so that positive value is passed 671 1.18 enami * to vis(), which will call isgraph(). 672 1.18 enami */ 673 1.18 enami unsigned char *dp = (unsigned char *)(ktr + 1); 674 1.18 enami int w; 675 1.18 enami char visbuf[5]; 676 1.18 enami 677 1.1 darrenr if (screenwidth == 0) { 678 1.1 darrenr struct winsize ws; 679 1.1 darrenr 680 1.1 darrenr if (fancy && ioctl(fileno(stderr), TIOCGWINSZ, &ws) != -1 && 681 1.1 darrenr ws.ws_col > 8) 682 1.1 darrenr screenwidth = ws.ws_col; 683 1.1 darrenr else 684 1.1 darrenr screenwidth = 80; 685 1.1 darrenr } 686 1.1 darrenr 687 1.1 darrenr if (maxdata && datalen > maxdata) 688 1.1 darrenr datalen = maxdata; 689 1.18 enami newline(); 690 1.18 enami wprintf(" \""); 691 1.1 darrenr for (; datalen > 0; datalen--, dp++) { 692 1.18 enami (void) vis(visbuf, *dp, VIS_NL|VIS_TAB|VIS_CSTYLE, 693 1.18 enami /* We put NUL at the end of buffer when reading */ 694 1.18 enami *(dp + 1)); 695 1.1 darrenr visbuf[4] = '\0'; 696 1.18 enami w = strlen(visbuf); 697 1.18 enami if (width + w + 2 >= screenwidth) 698 1.1 darrenr break; 699 1.18 enami wprintf("%s", visbuf); 700 1.18 enami if (width + 2 >= screenwidth) 701 1.1 darrenr break; 702 1.1 darrenr } 703 1.18 enami wprintf("\""); 704 1.1 darrenr } 705 1.1 darrenr 706 1.18 enami #ifdef notused 707 1.1 darrenr void 708 1.18 enami ktrgenio(struct ktr_entry *kte) 709 1.1 darrenr { 710 1.18 enami struct ktr_header *kth = &kte->kte_kth; 711 1.18 enami struct ktr_genio *ktr = (struct ktr_genio *)(kth + 1); 712 1.18 enami 713 1.18 enami dumpheader(kth); 714 1.18 enami wprintf("genio fd %d %s", 715 1.18 enami ktr->ktr_fd, ktr->ktr_rw ? "write" : "read"); 716 1.18 enami genioprint(kth); 717 1.18 enami 718 1.18 enami free(kte); 719 1.18 enami } 720 1.18 enami #endif 721 1.18 enami 722 1.18 enami void 723 1.18 enami ktrpsig(struct ktr_entry *kte) 724 1.18 enami { 725 1.18 enami struct ktr_header *kth = &kte->kte_kth; 726 1.18 enami struct ktr_psig *psig = (struct ktr_psig *)(kth + 1); 727 1.18 enami 728 1.18 enami dumpheader(kth); 729 1.18 enami wprintf("SIG%s ", sys_signame[psig->signo]); 730 1.1 darrenr if (psig->action == SIG_DFL) 731 1.18 enami wprintf("SIG_DFL"); 732 1.1 darrenr else { 733 1.18 enami wprintf("caught handler=0x%lx mask=0x%lx code=0x%x", 734 1.7 sommerfe (u_long)psig->action, (unsigned long)psig->mask.__bits[0], 735 1.7 sommerfe psig->code); 736 1.1 darrenr } 737 1.18 enami 738 1.18 enami free(kte); 739 1.1 darrenr } 740 1.1 darrenr 741 1.1 darrenr void 742 1.18 enami ktrcsw(struct ktr_entry *kte) 743 1.1 darrenr { 744 1.18 enami struct ktr_header *kth = &kte->kte_kth; 745 1.18 enami struct ktr_csw *cs = (struct ktr_csw *)(kth + 1); 746 1.18 enami 747 1.18 enami dumpheader(kth); 748 1.18 enami wprintf("%s %s", cs->out ? "stop" : "resume", 749 1.1 darrenr cs->user ? "user" : "kernel"); 750 1.18 enami 751 1.18 enami free(kte); 752 1.1 darrenr } 753
Indexes created Wed Sep 24 05:09:52 GMT 2025