1 /*- 2 * Copyright (c) 1988, 1993 3 * The Regents of the University of California. 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 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright 11 * notice, this list of conditions and the following disclaimer in the 12 * documentation and/or other materials provided with the distribution. 13 * 3. All advertising materials mentioning features or use of this software 14 * must display the following acknowledgement: 15 * This product includes software developed by the University of 16 * California, Berkeley and its contributors. 17 * 4. Neither the name of the University nor the names of its contributors 18 * may be used to endorse or promote products derived from this software 19 * without specific prior written permission. 20 * 21 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 22 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 23 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 24 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 25 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 26 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 27 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 28 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 29 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 30 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 * SUCH DAMAGE. 32 * 33 * @(#) Copyright (c) 1988, 1993 The Regents of the University of California. All rights reserved. 34 * @(#)fstat.c 8.3 (Berkeley) 5/2/95 35 * $FreeBSD: src/usr.bin/fstat/fstat.c,v 1.21.2.7 2001/11/21 10:49:37 dwmalone Exp $ 36 * $DragonFly: src/usr.bin/fstat/fstat.c,v 1.26 2008/05/03 04:13:12 dillon Exp $ 37 */ 38 39 #define _KERNEL_STRUCTURES 40 41 #include <sys/param.h> 42 #include <sys/time.h> 43 #include <sys/user.h> 44 #include <sys/stat.h> 45 #include <sys/vnode.h> 46 #include <sys/socket.h> 47 #include <sys/socketvar.h> 48 #include <sys/domain.h> 49 #include <sys/protosw.h> 50 #include <sys/un.h> 51 #include <sys/unpcb.h> 52 #include <sys/sysctl.h> 53 #include <sys/filedesc.h> 54 #include <sys/queue.h> 55 #include <sys/pipe.h> 56 #include <sys/conf.h> 57 #include <sys/file.h> 58 #include <sys/ktrace.h> 59 #include <vfs/ufs/quota.h> 60 #include <vfs/ufs/inode.h> 61 #include <sys/mount.h> 62 #include <sys/namecache.h> 63 #include <nfs/nfsproto.h> 64 #include <nfs/rpcv2.h> 65 #include <nfs/nfs.h> 66 #include <nfs/nfsnode.h> 67 68 69 #include <vm/vm.h> 70 #include <vm/vm_map.h> 71 #include <vm/vm_object.h> 72 73 #include <net/route.h> 74 #include <netinet/in.h> 75 #include <netinet/in_systm.h> 76 #include <netinet/ip.h> 77 #include <netinet/in_pcb.h> 78 79 #include <ctype.h> 80 #include <err.h> 81 #include <fcntl.h> 82 #include <kvm.h> 83 #include <limits.h> 84 #include <nlist.h> 85 #include <paths.h> 86 #include <pwd.h> 87 #include <stdio.h> 88 #include <stdlib.h> 89 #include <string.h> 90 #include <unistd.h> 91 #include <netdb.h> 92 93 #include "fstat.h" 94 95 #define TEXT -1 96 #define CDIR -2 97 #define RDIR -3 98 #define TRACE -4 99 #define MMAP -5 100 101 DEVS *devs; 102 103 static void make_printable(char *buf, int len); 104 105 #ifdef notdef 106 struct nlist nl[] = { 107 { "" }, 108 }; 109 #endif 110 111 int fsflg, /* show files on same filesystem as file(s) argument */ 112 pflg, /* show files open by a particular pid */ 113 uflg; /* show files open by a particular (effective) user */ 114 int checkfile; /* true if restricting to particular files or filesystems */ 115 int nflg; /* (numerical) display f.s. and rdev as dev_t */ 116 int vflg; /* display errors in locating kernel data objects etc... */ 117 int mflg; /* include memory-mapped files */ 118 int wflg_mnt = 16; 119 int wflg_cmd = 10; 120 int pid_width = 5; 121 int ino_width = 6; 122 123 124 struct fdnode *ofiles; /* buffer of pointers to file structures */ 125 int maxfiles; 126 127 #define ALLOC_OFILES(d) \ 128 if ((d) > maxfiles) { \ 129 free(ofiles); \ 130 ofiles = malloc((d) * sizeof(struct fdnode)); \ 131 if (ofiles == NULL) { \ 132 err(1, NULL); \ 133 } \ 134 maxfiles = (d); \ 135 } 136 137 kvm_t *kd; 138 139 void dofiles(struct kinfo_proc *kp, struct proc *p); 140 void dommap(struct proc *p); 141 void vtrans(struct vnode *vp, struct nchandle *ncr, int i, int flag); 142 int ufs_filestat(struct vnode *vp, struct filestat *fsp); 143 int nfs_filestat(struct vnode *vp, struct filestat *fsp); 144 char *getmnton(struct mount *m, struct namecache_list *ncplist, struct nchandle *ncr); 145 void pipetrans(struct pipe *pi, int i, int flag); 146 void socktrans(struct socket *sock, int i); 147 void getinetproto(int number); 148 int getfname(const char *filename); 149 void usage(void); 150 151 152 int 153 main(int argc, char **argv) 154 { 155 struct passwd *passwd; 156 struct kinfo_proc *p, *plast; 157 struct proc proc; 158 int arg, ch, what; 159 char *memf, *nlistf; 160 char buf[_POSIX2_LINE_MAX]; 161 int cnt; 162 163 arg = 0; 164 what = KERN_PROC_ALL; 165 nlistf = memf = NULL; 166 while ((ch = getopt(argc, argv, "fmnp:u:vwN:M:")) != -1) 167 switch((char)ch) { 168 case 'f': 169 fsflg = 1; 170 break; 171 case 'M': 172 memf = optarg; 173 break; 174 case 'N': 175 nlistf = optarg; 176 break; 177 case 'm': 178 mflg = 1; 179 break; 180 case 'n': 181 nflg = 1; 182 break; 183 case 'p': 184 if (pflg++) 185 usage(); 186 if (!isdigit(*optarg)) { 187 warnx("-p requires a process id"); 188 usage(); 189 } 190 what = KERN_PROC_PID; 191 arg = atoi(optarg); 192 break; 193 case 'u': 194 if (uflg++) 195 usage(); 196 if (!(passwd = getpwnam(optarg))) 197 errx(1, "%s: unknown uid", optarg); 198 what = KERN_PROC_UID; 199 arg = passwd->pw_uid; 200 break; 201 case 'v': 202 vflg = 1; 203 break; 204 case 'w': 205 wflg_mnt = 40; 206 wflg_cmd = 16; 207 break; 208 case '?': 209 default: 210 usage(); 211 } 212 213 if (*(argv += optind)) { 214 for (; *argv; ++argv) { 215 if (getfname(*argv)) 216 checkfile = 1; 217 } 218 if (!checkfile) /* file(s) specified, but none accessable */ 219 exit(1); 220 } 221 222 ALLOC_OFILES(256); /* reserve space for file pointers */ 223 224 if (fsflg && !checkfile) { 225 /* -f with no files means use wd */ 226 if (getfname(".") == 0) 227 exit(1); 228 checkfile = 1; 229 } 230 231 /* 232 * Discard setgid privileges if not the running kernel so that bad 233 * guys can't print interesting stuff from kernel memory. 234 */ 235 if (nlistf != NULL || memf != NULL) 236 setgid(getgid()); 237 238 if ((kd = kvm_openfiles(nlistf, memf, NULL, O_RDONLY, buf)) == NULL) 239 errx(1, "%s", buf); 240 #ifdef notdef 241 if (kvm_nlist(kd, nl) != 0) 242 errx(1, "no namelist: %s", kvm_geterr(kd)); 243 #endif 244 if ((p = kvm_getprocs(kd, what, arg, &cnt)) == NULL) 245 errx(1, "%s", kvm_geterr(kd)); 246 if (nflg) 247 printf("USER %-*.*s %*.*s FD DEV %*.*s MODE SZ|DV R/W", 248 wflg_cmd, wflg_cmd, "CMD", 249 pid_width, pid_width, "PID", 250 ino_width, ino_width, "INUM"); 251 else 252 printf("USER %-*.*s %*.*s FD %-*.*s %*.*s MODE SZ|DV R/W", 253 wflg_cmd, wflg_cmd, "CMD", 254 pid_width, pid_width, "PID", 255 wflg_mnt, wflg_mnt, "PATH", 256 ino_width, ino_width, "INUM"); 257 if (checkfile && fsflg == 0) 258 printf(" NAME\n"); 259 else 260 putchar('\n'); 261 262 for (plast = &p[cnt]; p < plast; ++p) { 263 if (p->kp_stat == SZOMB) 264 continue; 265 if (!kread((void *)p->kp_paddr, &proc, sizeof(proc))) { 266 dprintf(stderr, "can't read proc at %p for pid %d\n", 267 (void *)p->kp_paddr, Pid); 268 continue; 269 } 270 dofiles(p, &proc); 271 if (mflg) 272 dommap(&proc); 273 } 274 exit(0); 275 } 276 277 char *Uname, *Comm; 278 int Pid; 279 280 #define PREFIX(i) \ 281 printf("%-8.8s %-*s %*d", Uname, wflg_cmd, Comm, pid_width, Pid); \ 282 switch(i) { \ 283 case TEXT: \ 284 printf(" text"); \ 285 break; \ 286 case CDIR: \ 287 printf(" wd"); \ 288 break; \ 289 case RDIR: \ 290 printf(" root"); \ 291 break; \ 292 case TRACE: \ 293 printf(" tr"); \ 294 break; \ 295 case MMAP: \ 296 printf(" mmap"); \ 297 break; \ 298 default: \ 299 printf(" %4d", i); \ 300 break; \ 301 } 302 303 /* 304 * print open files attributed to this process 305 */ 306 void 307 dofiles(struct kinfo_proc *kp, struct proc *p) 308 { 309 int i; 310 struct file file; 311 struct filedesc filed; 312 struct ktrace_node ktrace_node; 313 314 Uname = user_from_uid(kp->kp_uid, 0); 315 Pid = kp->kp_pid; 316 Comm = kp->kp_comm; 317 make_printable(Comm, strlen(Comm)); 318 319 if (p->p_fd == NULL) 320 return; 321 if (!kread(p->p_fd, &filed, sizeof (filed))) { 322 dprintf(stderr, "can't read filedesc at %p for pid %d\n", 323 (void *)p->p_fd, Pid); 324 return; 325 } 326 /* 327 * root directory vnode, if one 328 */ 329 if (filed.fd_rdir) 330 vtrans(filed.fd_rdir, &filed.fd_nrdir, RDIR, FREAD); 331 /* 332 * current working directory vnode 333 */ 334 vtrans(filed.fd_cdir, &filed.fd_ncdir, CDIR, FREAD); 335 /* 336 * ktrace vnode, if one 337 */ 338 if (p->p_tracenode) { 339 if (kread(p->p_tracenode, &ktrace_node, sizeof (ktrace_node))) 340 vtrans(ktrace_node.kn_vp, NULL, TRACE, FREAD|FWRITE); 341 } 342 /* 343 * text vnode, if one 344 */ 345 if (p->p_textvp) 346 vtrans(p->p_textvp, NULL, TEXT, FREAD); 347 /* 348 * open files 349 */ 350 ALLOC_OFILES(filed.fd_lastfile+1); 351 if (!kread(filed.fd_files, ofiles, 352 (filed.fd_lastfile+1) * sizeof(struct fdnode))) { 353 dprintf(stderr, 354 "can't read file structures at %p for pid %d\n", 355 (void *)filed.fd_files, Pid); 356 return; 357 } 358 for (i = 0; i <= filed.fd_lastfile; i++) { 359 if (ofiles[i].fp == NULL) 360 continue; 361 if (!kread(ofiles[i].fp, &file, sizeof (struct file))) { 362 dprintf(stderr, "can't read file %d at %p for pid %d\n", 363 i, (void *)ofiles[i].fp, Pid); 364 continue; 365 } 366 if (file.f_type == DTYPE_VNODE) { 367 vtrans((struct vnode *)file.f_data, &file.f_nchandle, i, 368 file.f_flag); 369 } else if (file.f_type == DTYPE_SOCKET) { 370 if (checkfile == 0) 371 socktrans((struct socket *)file.f_data, i); 372 } 373 #ifdef DTYPE_PIPE 374 else if (file.f_type == DTYPE_PIPE) { 375 if (checkfile == 0) 376 pipetrans((struct pipe *)file.f_data, i, 377 file.f_flag); 378 } 379 #endif 380 #ifdef DTYPE_FIFO 381 else if (file.f_type == DTYPE_FIFO) { 382 if (checkfile == 0) 383 vtrans((struct vnode *)file.f_data, &file.f_nchandle, 384 i, file.f_flag); 385 } 386 #endif 387 else { 388 dprintf(stderr, 389 "unknown file type %d for file %d of pid %d\n", 390 file.f_type, i, Pid); 391 } 392 } 393 } 394 395 void 396 dommap(struct proc *p) 397 { 398 struct vmspace vmspace; 399 vm_map_t map; 400 struct vm_map_entry entry; 401 vm_map_entry_t entryp; 402 struct vm_object object; 403 vm_object_t objp; 404 int prot, fflags; 405 406 if (!kread(p->p_vmspace, &vmspace, sizeof(vmspace))) { 407 dprintf(stderr, "can't read vmspace at %p for pid %d\n", 408 (void *)p->p_vmspace, Pid); 409 return; 410 } 411 412 map = &vmspace.vm_map; 413 414 for (entryp = map->header.next; entryp != &p->p_vmspace->vm_map.header; 415 entryp = entry.next) { 416 if (!kread(entryp, &entry, sizeof(entry))) { 417 dprintf(stderr, 418 "can't read vm_map_entry at %p for pid %d\n", 419 (void *)entryp, Pid); 420 return; 421 } 422 423 if (entry.maptype == VM_MAPTYPE_SUBMAP) 424 continue; 425 426 if ((objp = entry.object.vm_object) == NULL) 427 continue; 428 429 for (; objp; objp = object.backing_object) { 430 if (!kread(objp, &object, sizeof(object))) { 431 dprintf(stderr, 432 "can't read vm_object at %p for pid %d\n", 433 (void *)objp, Pid); 434 return; 435 } 436 } 437 438 prot = entry.protection; 439 fflags = (prot & VM_PROT_READ ? FREAD : 0) | 440 (prot & VM_PROT_WRITE ? FWRITE : 0); 441 442 switch (object.type) { 443 case OBJT_VNODE: 444 vtrans((struct vnode *)object.handle, NULL, 445 MMAP, fflags); 446 break; 447 default: 448 break; 449 } 450 } 451 } 452 453 void 454 vtrans(struct vnode *vp, struct nchandle *ncr, int i, int flag) 455 { 456 struct vnode vn; 457 struct filestat fst; 458 char rw[3], mode[15]; 459 const char *badtype = NULL, *filename; 460 461 filename = badtype = NULL; 462 if (!kread(vp, &vn, sizeof (struct vnode))) { 463 dprintf(stderr, "can't read vnode at %p for pid %d\n", 464 (void *)vp, Pid); 465 return; 466 } 467 if (vn.v_type == VNON || vn.v_tag == VT_NON) 468 badtype = "none"; 469 else if (vn.v_type == VBAD) 470 badtype = "bad"; 471 else 472 switch (vn.v_tag) { 473 case VT_UFS: 474 if (!ufs_filestat(&vn, &fst)) 475 badtype = "error"; 476 break; 477 case VT_MFS: 478 if (!ufs_filestat(&vn, &fst)) 479 badtype = "error"; 480 break; 481 case VT_NFS: 482 if (!nfs_filestat(&vn, &fst)) 483 badtype = "error"; 484 break; 485 486 case VT_MSDOSFS: 487 if (!msdosfs_filestat(&vn, &fst)) 488 badtype = "error"; 489 break; 490 491 case VT_ISOFS: 492 if (!isofs_filestat(&vn, &fst)) 493 badtype = "error"; 494 break; 495 496 default: { 497 static char unknown[10]; 498 sprintf(unknown, "?(%x)", vn.v_tag); 499 badtype=unknown; 500 break; 501 } 502 } 503 if (checkfile) { 504 int fsmatch = 0; 505 DEVS *d; 506 507 if (badtype) 508 return; 509 for (d = devs; d != NULL; d = d->next) 510 if (d->fsid == fst.fsid) { 511 fsmatch = 1; 512 if (d->ino == (ino_t)fst.fileid) { 513 filename = d->name; 514 break; 515 } 516 } 517 if (fsmatch == 0 || (filename == NULL && fsflg == 0)) 518 return; 519 } 520 PREFIX(i); 521 if (badtype) { 522 (void)printf(" %-*s %10s -\n", 523 wflg_mnt, 524 getmnton(vn.v_mount, &vn.v_namecache, ncr), 525 badtype); 526 return; 527 } 528 if (nflg) 529 (void)printf(" %3d,%-9d ", major(fst.fsid), minor(fst.fsid)); 530 else 531 (void)printf(" %-*s", wflg_mnt, getmnton(vn.v_mount, &vn.v_namecache, ncr)); 532 if (nflg) 533 (void)sprintf(mode, "%o", fst.mode); 534 else 535 strmode(fst.mode, mode); 536 (void)printf(" %*ld %10s", ino_width, fst.fileid, mode); 537 switch (vn.v_type) { 538 case VBLK: 539 case VCHR: { 540 char *name; 541 542 if (nflg || ((name = devname(fst.rdev, vn.v_type == VCHR ? 543 S_IFCHR : S_IFBLK)) == NULL)) 544 printf(" %3d,%-4d", major(fst.rdev), minor(fst.rdev)); 545 else 546 printf(" %8s", name); 547 break; 548 } 549 default: 550 printf(" %8llu", fst.size); 551 } 552 rw[0] = '\0'; 553 if (flag & FREAD) 554 strcat(rw, "r"); 555 if (flag & FWRITE) 556 strcat(rw, "w"); 557 printf(" %2s", rw); 558 if (filename && !fsflg) 559 printf(" %s", filename); 560 putchar('\n'); 561 } 562 563 int 564 ufs_filestat(struct vnode *vp, struct filestat *fsp) 565 { 566 struct inode inode; 567 568 if (!kread(VTOI(vp), &inode, sizeof (inode))) { 569 dprintf(stderr, "can't read inode at %p for pid %d\n", 570 (void *)VTOI(vp), Pid); 571 return 0; 572 } 573 /* 574 * The st_dev from stat(2) is a udev_t. These kernel structures 575 * contain dev_t structures. We need to convert to udev to make 576 * comparisons 577 */ 578 fsp->fsid = dev2udev(inode.i_dev); 579 fsp->fileid = (long)inode.i_number; 580 fsp->mode = (mode_t)inode.i_mode; 581 fsp->size = inode.i_size; 582 fsp->rdev = inode.i_rdev; 583 584 return 1; 585 } 586 587 int 588 nfs_filestat(struct vnode *vp, struct filestat *fsp) 589 { 590 struct nfsnode nfsnode; 591 mode_t mode; 592 593 if (!kread(VTONFS(vp), &nfsnode, sizeof (nfsnode))) { 594 dprintf(stderr, "can't read nfsnode at %p for pid %d\n", 595 (void *)VTONFS(vp), Pid); 596 return 0; 597 } 598 fsp->fsid = nfsnode.n_vattr.va_fsid; 599 fsp->fileid = nfsnode.n_vattr.va_fileid; 600 fsp->size = nfsnode.n_size; 601 fsp->rdev = makeudev(nfsnode.n_vattr.va_rmajor, 602 nfsnode.n_vattr.va_rminor); 603 mode = (mode_t)nfsnode.n_vattr.va_mode; 604 switch (vp->v_type) { 605 case VREG: 606 mode |= S_IFREG; 607 break; 608 case VDIR: 609 mode |= S_IFDIR; 610 break; 611 case VBLK: 612 mode |= S_IFBLK; 613 break; 614 case VCHR: 615 mode |= S_IFCHR; 616 break; 617 case VLNK: 618 mode |= S_IFLNK; 619 break; 620 case VSOCK: 621 mode |= S_IFSOCK; 622 break; 623 case VFIFO: 624 mode |= S_IFIFO; 625 break; 626 case VDATABASE: 627 break; 628 case VNON: 629 case VBAD: 630 return 0; 631 }; 632 fsp->mode = mode; 633 634 return 1; 635 } 636 637 638 char * 639 getmnton(struct mount *m, struct namecache_list *ncplist, struct nchandle *ncr) 640 { 641 static struct mount mount_l; 642 static struct mtab { 643 struct mtab *next; 644 struct mount *m; 645 char mntonname[MNAMELEN]; 646 } *mhead = NULL; 647 struct mtab *mt; 648 struct namecache *ncp; 649 struct namecache ncp_copy; 650 static char path[1024]; 651 int i; 652 653 /* 654 * If no ncp is passed try to find one via ncplist. Make sure 655 * we are using the correct mount pointer or the matching code 656 * will not know how to transition mount points properly. 657 */ 658 if (ncr == NULL || ncr->ncp == NULL) { 659 ncp = ncplist->tqh_first; 660 } else { 661 ncp = ncr->ncp; 662 if (ncr->mount) 663 m = ncr->mount; 664 } 665 666 /* 667 * If we have an ncp, traceback the path. This is a kvm pointer. 668 */ 669 if (ncp) { 670 if (!kread(m, &mount_l, sizeof(struct mount))) { 671 warnx("can't read mount table at %p", (void *)m); 672 return (NULL); 673 } 674 i = sizeof(path) - 1; 675 path[i] = 0; 676 while (ncp) { 677 /* 678 * If this is the root of the mount then traverse 679 * to the parent mount. 680 */ 681 if (ncp == mount_l.mnt_ncmountpt.ncp) { 682 ncp = mount_l.mnt_ncmounton.ncp; 683 if (ncp == NULL) 684 break; 685 m = mount_l.mnt_ncmounton.mount; 686 if (!kread(m, &mount_l, sizeof(struct mount))) { 687 warnx("can't read mount table at %p", (void *)m); 688 return (NULL); 689 } 690 } 691 692 /* 693 * Ok, pull out the ncp and extract the name 694 */ 695 if (!kread(ncp, &ncp_copy, sizeof(ncp_copy))) { 696 warnx("can't read ncp at %p", ncp); 697 return (NULL); 698 } 699 if (i <= ncp_copy.nc_nlen) 700 break; 701 i -= ncp_copy.nc_nlen; 702 if (!kread(ncp_copy.nc_name, path + i, ncp_copy.nc_nlen)) { 703 warnx("can't read ncp %p path component at %p", ncp, ncp_copy.nc_name); 704 return (NULL); 705 } 706 make_printable(path + i, ncp_copy.nc_nlen); 707 path[--i] = '/'; 708 ncp = ncp_copy.nc_parent; 709 } 710 if (i == sizeof(path) - 1) 711 path[--i] = '/'; 712 return(path + i); 713 } 714 715 /* 716 * If all else fails print out the mount point path 717 */ 718 for (mt = mhead; mt != NULL; mt = mt->next) { 719 if (m == mt->m) 720 return (mt->mntonname); 721 } 722 if (!kread(m, &mount_l, sizeof(struct mount))) { 723 warnx("can't read mount table at %p", (void *)m); 724 return (NULL); 725 } 726 if ((mt = malloc(sizeof (struct mtab))) == NULL) 727 err(1, NULL); 728 mt->m = m; 729 bcopy(&mount_l.mnt_stat.f_mntonname[0], &mt->mntonname[0], MNAMELEN); 730 mt->next = mhead; 731 mhead = mt; 732 return (mt->mntonname); 733 } 734 735 void 736 pipetrans(struct pipe *pi, int i, int flag) 737 { 738 struct pipe pip; 739 char rw[3]; 740 741 PREFIX(i); 742 743 /* fill in socket */ 744 if (!kread(pi, &pip, sizeof(struct pipe))) { 745 dprintf(stderr, "can't read pipe at %p\n", (void *)pi); 746 goto bad; 747 } 748 749 printf("* pipe %8lx <-> %8lx", (u_long)pi, (u_long)pip.pipe_peer); 750 printf(" %6d", (int)(pip.pipe_buffer.windex - pip.pipe_buffer.rindex)); 751 rw[0] = '\0'; 752 if (flag & FREAD) 753 strcat(rw, "r"); 754 if (flag & FWRITE) 755 strcat(rw, "w"); 756 printf(" %2s", rw); 757 putchar('\n'); 758 return; 759 760 bad: 761 printf("* error\n"); 762 } 763 764 void 765 socktrans(struct socket *sock, int i) 766 { 767 static const char *stypename[] = { 768 "unused", /* 0 */ 769 "stream", /* 1 */ 770 "dgram", /* 2 */ 771 "raw", /* 3 */ 772 "rdm", /* 4 */ 773 "seqpak" /* 5 */ 774 }; 775 #define STYPEMAX 5 776 struct socket so; 777 struct protosw proto; 778 struct domain dom; 779 struct inpcb inpcb; 780 struct unpcb unpcb; 781 int len; 782 char dname[32]; 783 784 PREFIX(i); 785 786 /* fill in socket */ 787 if (!kread(sock, &so, sizeof(struct socket))) { 788 dprintf(stderr, "can't read sock at %p\n", (void *)sock); 789 goto bad; 790 } 791 792 /* fill in protosw entry */ 793 if (!kread(so.so_proto, &proto, sizeof(struct protosw))) { 794 dprintf(stderr, "can't read protosw at %p", 795 (void *)so.so_proto); 796 goto bad; 797 } 798 799 /* fill in domain */ 800 if (!kread(proto.pr_domain, &dom, sizeof(struct domain))) { 801 dprintf(stderr, "can't read domain at %p\n", 802 (const void *)proto.pr_domain); 803 goto bad; 804 } 805 806 if ((len = kvm_read(kd, (u_long)dom.dom_name, dname, 807 sizeof(dname) - 1)) < 0) { 808 dprintf(stderr, "can't read domain name at %p\n", 809 (void *)dom.dom_name); 810 dname[0] = '\0'; 811 } 812 else 813 dname[len] = '\0'; 814 815 if ((u_short)so.so_type > STYPEMAX) 816 printf("* %s ?%d", dname, so.so_type); 817 else 818 printf("* %s %s", dname, stypename[so.so_type]); 819 820 /* 821 * protocol specific formatting 822 * 823 * Try to find interesting things to print. For tcp, the interesting 824 * thing is the address of the tcpcb, for udp and others, just the 825 * inpcb (socket pcb). For unix domain, its the address of the socket 826 * pcb and the address of the connected pcb (if connected). Otherwise 827 * just print the protocol number and address of the socket itself. 828 * The idea is not to duplicate netstat, but to make available enough 829 * information for further analysis. 830 */ 831 switch(dom.dom_family) { 832 case AF_INET: 833 case AF_INET6: 834 getinetproto(proto.pr_protocol); 835 if (proto.pr_protocol == IPPROTO_TCP ) { 836 if (so.so_pcb) { 837 if (kvm_read(kd, (u_long)so.so_pcb, 838 (char *)&inpcb, sizeof(struct inpcb)) 839 != sizeof(struct inpcb)) { 840 dprintf(stderr, 841 "can't read inpcb at %p\n", 842 (void *)so.so_pcb); 843 goto bad; 844 } 845 printf(" %lx", (u_long)inpcb.inp_ppcb); 846 } 847 } 848 else if (so.so_pcb) 849 printf(" %lx", (u_long)so.so_pcb); 850 break; 851 case AF_UNIX: 852 /* print address of pcb and connected pcb */ 853 if (so.so_pcb) { 854 printf(" %lx", (u_long)so.so_pcb); 855 if (kvm_read(kd, (u_long)so.so_pcb, (char *)&unpcb, 856 sizeof(struct unpcb)) != sizeof(struct unpcb)){ 857 dprintf(stderr, "can't read unpcb at %p\n", 858 (void *)so.so_pcb); 859 goto bad; 860 } 861 if (unpcb.unp_conn) { 862 char shoconn[4], *cp; 863 864 cp = shoconn; 865 if (!(so.so_state & SS_CANTRCVMORE)) 866 *cp++ = '<'; 867 *cp++ = '-'; 868 if (!(so.so_state & SS_CANTSENDMORE)) 869 *cp++ = '>'; 870 *cp = '\0'; 871 printf(" %s %lx", shoconn, 872 (u_long)unpcb.unp_conn); 873 } 874 } 875 break; 876 default: 877 /* print protocol number and socket address */ 878 printf(" %d %lx", proto.pr_protocol, (u_long)sock); 879 } 880 printf("\n"); 881 return; 882 bad: 883 printf("* error\n"); 884 } 885 886 887 /* 888 * Read the cdev structure in the kernel (as pointed to by a dev_t) 889 * in order to work out the associated udev_t 890 */ 891 udev_t 892 dev2udev(void *dev) 893 { 894 struct cdev si; 895 896 if (kread(dev, &si, sizeof si)) { 897 if ((si.si_umajor & 0xffffff00) || 898 (si.si_uminor & 0x0000ff00)) { 899 return NOUDEV; 900 } 901 return((si.si_umajor << 8) | si.si_uminor); 902 } else { 903 dprintf(stderr, "can't convert dev_t %p to a udev_t\n", dev); 904 return NOUDEV; 905 } 906 } 907 908 udev_t 909 makeudev(int x, int y) 910 { 911 if ((x & 0xffffff00) || (y & 0x0000ff00)) 912 return NOUDEV; 913 return ((x << 8) | y); 914 } 915 916 /* 917 * getinetproto -- 918 * print name of protocol number 919 */ 920 void 921 getinetproto(int number) 922 { 923 static int isopen; 924 struct protoent *pe; 925 926 if (!isopen) 927 setprotoent(++isopen); 928 if ((pe = getprotobynumber(number)) != NULL) 929 printf(" %s", pe->p_name); 930 else 931 printf(" %d", number); 932 } 933 934 int 935 getfname(const char *filename) 936 { 937 struct stat statbuf; 938 DEVS *cur; 939 940 if (stat(filename, &statbuf)) { 941 warn("%s", filename); 942 return(0); 943 } 944 if ((cur = malloc(sizeof(DEVS))) == NULL) 945 err(1, NULL); 946 cur->next = devs; 947 devs = cur; 948 949 cur->ino = statbuf.st_ino; 950 cur->fsid = statbuf.st_dev; 951 cur->name = filename; 952 return(1); 953 } 954 955 void 956 usage(void) 957 { 958 (void)fprintf(stderr, 959 "usage: fstat [-fmnv] [-p pid] [-u user] [-N system] [-M core] [file ...]\n"); 960 exit(1); 961 } 962 963 static 964 void 965 make_printable(char *buf, int len) 966 { 967 while (len > 0) { 968 if (!isprint(*buf)) 969 *buf = '?'; 970 ++buf; 971 --len; 972 } 973 } 974 975 ssize_t 976 kread(const void *kaddr, void *uaddr, size_t nbytes) 977 { 978 if (nbytes > 0x10000000) 979 return(0); 980 981 if (kvm_read(kd, (u_long)kaddr, (char *)uaddr, nbytes) == (ssize_t)nbytes) 982 return(1); 983 else 984 return(0); 985 } 986 987