/* $NetBSD: fstat.c,v 1.71 2004/12/14 03:09:24 atatat Exp $ */ /*- * Copyright (c) 1988, 1993 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #ifndef lint __COPYRIGHT("@(#) Copyright (c) 1988, 1993\n\ The Regents of the University of California. All rights reserved.\n"); #endif /* not lint */ #ifndef lint #if 0 static char sccsid[] = "@(#)fstat.c 8.3 (Berkeley) 5/2/95"; #else __RCSID("$NetBSD: fstat.c,v 1.71 2004/12/14 03:09:24 atatat Exp $"); #endif #endif /* not lint */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define _KERNEL #include #include #undef _KERNEL #define _KERNEL #include #undef _KERNEL #define NFS #include #include #include #include #undef NFS #include #include #define _KERNEL #include #undef _KERNEL #define _KERNEL #include #undef _KERNEL #include #include #include #include #include #ifdef INET6 #include #include #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "fstat.h" #define TEXT -1 #define CDIR -2 #define RDIR -3 #define TRACE -4 typedef struct devs { struct devs *next; long fsid; ino_t ino; char *name; } DEVS; DEVS *devs; int fsflg, /* show files on same filesystem as file(s) argument */ pflg, /* show files open by a particular pid */ uflg; /* show files open by a particular (effective) user */ int checkfile; /* true if restricting to particular files or filesystems */ int nflg; /* (numerical) display f.s. and rdev as dev_t */ int vflg; /* display errors in locating kernel data objects etc... */ struct file **ofiles; /* buffer of pointers to file structures */ int maxfiles; #define ALLOC_OFILES(d) \ if ((d) > maxfiles) { \ free(ofiles); \ ofiles = malloc((d) * sizeof(struct file *)); \ if (ofiles == NULL) { \ err(1, "malloc(%u)", (d) * \ (unsigned int)sizeof(struct file *)); \ } \ maxfiles = (d); \ } kvm_t *kd; void dofiles __P((struct kinfo_proc2 *)); int ext2fs_filestat __P((struct vnode *, struct filestat *)); int getfname __P((char *)); void getinetproto __P((int)); char *getmnton __P((struct mount *)); char *layer_filestat __P((struct vnode *, struct filestat *)); int main __P((int, char **)); int msdosfs_filestat __P((struct vnode *, struct filestat *)); int nfs_filestat __P((struct vnode *, struct filestat *)); #ifdef INET6 static const char *inet6_addrstr __P((struct in6_addr *)); #endif void socktrans __P((struct socket *, int)); void kqueuetrans __P((void *, int)); int ufs_filestat __P((struct vnode *, struct filestat *)); void usage __P((void)); char *vfilestat __P((struct vnode *, struct filestat *)); void vtrans __P((struct vnode *, int, int)); void ftrans __P((struct file *, int)); void ptrans __P((struct file *, struct pipe *, int)); int main(argc, argv) int argc; char **argv; { struct passwd *passwd; struct kinfo_proc2 *p, *plast; int arg, ch, what; char *memf, *nlistf; char buf[_POSIX2_LINE_MAX]; int cnt; gid_t egid = getegid(); (void)setegid(getgid()); arg = 0; what = KERN_PROC_ALL; nlistf = memf = NULL; while ((ch = getopt(argc, argv, "fnp:u:vN:M:")) != -1) switch((char)ch) { case 'f': fsflg = 1; break; case 'M': memf = optarg; break; case 'N': nlistf = optarg; break; case 'n': nflg = 1; break; case 'p': if (pflg++) usage(); if (!isdigit((unsigned char)*optarg)) { warnx("-p requires a process id"); usage(); } what = KERN_PROC_PID; arg = atoi(optarg); break; case 'u': if (uflg++) usage(); if (!(passwd = getpwnam(optarg))) { errx(1, "%s: unknown uid", optarg); } what = KERN_PROC_UID; arg = passwd->pw_uid; break; case 'v': vflg = 1; break; case '?': default: usage(); } if (*(argv += optind)) { for (; *argv; ++argv) { if (getfname(*argv)) checkfile = 1; } if (!checkfile) /* file(s) specified, but none accessible */ exit(1); } ALLOC_OFILES(256); /* reserve space for file pointers */ if (fsflg && !checkfile) { /* -f with no files means use wd */ if (getfname(".") == 0) exit(1); checkfile = 1; } /* * Discard setgid privileges. If not the running kernel, we toss * them away totally so that bad guys can't print interesting stuff * from kernel memory, otherwise switch back to kmem for the * duration of the kvm_openfiles() call. */ if (nlistf != NULL || memf != NULL) (void)setgid(getgid()); else (void)setegid(egid); if ((kd = kvm_openfiles(nlistf, memf, NULL, O_RDONLY, buf)) == NULL) errx(1, "%s", buf); /* get rid of it now anyway */ if (nlistf == NULL && memf == NULL) (void)setgid(getgid()); if ((p = kvm_getproc2(kd, what, arg, sizeof *p, &cnt)) == NULL) { errx(1, "%s", kvm_geterr(kd)); } if (nflg) printf("%s", "USER CMD PID FD DEV INUM MODE SZ|DV R/W"); else printf("%s", "USER CMD PID FD MOUNT INUM MODE SZ|DV R/W"); if (checkfile && fsflg == 0) printf(" NAME\n"); else putchar('\n'); for (plast = &p[cnt]; p < plast; ++p) { if (p->p_stat == SZOMB) continue; dofiles(p); } exit(0); } const char *Uname, *Comm; pid_t Pid; #define PREFIX(i) printf("%-8.8s %-10s %5d", Uname, Comm, Pid); \ switch(i) { \ case TEXT: \ printf(" text"); \ break; \ case CDIR: \ printf(" wd"); \ break; \ case RDIR: \ printf(" root"); \ break; \ case TRACE: \ printf(" tr"); \ break; \ default: \ printf(" %4d", i); \ break; \ } /* * print open files attributed to this process */ void dofiles(p) struct kinfo_proc2 *p; { int i; struct filedesc0 filed0; #define filed filed0.fd_fd struct cwdinfo cwdi; Uname = user_from_uid(p->p_uid, 0); Pid = p->p_pid; Comm = p->p_comm; if (p->p_fd == 0 || p->p_cwdi == 0) return; if (!KVM_READ(p->p_fd, &filed0, sizeof (filed0))) { warnx("can't read filedesc at %#llx for pid %d", (unsigned long long)p->p_fd, Pid); return; } if (!KVM_READ(p->p_cwdi, &cwdi, sizeof(cwdi))) { warnx("can't read cwdinfo at %#llx for pid %d", (unsigned long long)p->p_cwdi, Pid); return; } if (filed.fd_nfiles < 0 || filed.fd_lastfile >= filed.fd_nfiles || filed.fd_freefile > filed.fd_lastfile + 1) { dprintf("filedesc corrupted at %#llx for pid %d", (unsigned long long)p->p_fd, Pid); return; } /* * root directory vnode, if one */ if (cwdi.cwdi_rdir) vtrans(cwdi.cwdi_rdir, RDIR, FREAD); /* * current working directory vnode */ vtrans(cwdi.cwdi_cdir, CDIR, FREAD); /* * ktrace vnode, if one */ if (p->p_tracep) ftrans((struct file *)(intptr_t)p->p_tracep, TRACE); /* * open files */ #define FPSIZE (sizeof (struct file *)) ALLOC_OFILES(filed.fd_lastfile+1); if (filed.fd_nfiles > NDFILE) { if (!KVM_READ(filed.fd_ofiles, ofiles, (filed.fd_lastfile+1) * FPSIZE)) { dprintf("can't read file structures at %p for pid %d", filed.fd_ofiles, Pid); return; } } else memmove(ofiles, filed0.fd_dfiles, (filed.fd_lastfile+1) * FPSIZE); for (i = 0; i <= filed.fd_lastfile; i++) { if (ofiles[i] == NULL) continue; ftrans(ofiles[i], i); } } void ftrans (fp, i) struct file *fp; int i; { struct file file; if (!KVM_READ(fp, &file, sizeof (struct file))) { dprintf("can't read file %d at %p for pid %d", i, fp, Pid); return; } switch (file.f_type) { case DTYPE_VNODE: vtrans((struct vnode *)file.f_data, i, file.f_flag); break; case DTYPE_SOCKET: if (checkfile == 0) socktrans((struct socket *)file.f_data, i); break; case DTYPE_PIPE: if (checkfile == 0) ptrans(&file, (struct pipe *)file.f_data, i); break; case DTYPE_KQUEUE: if (checkfile == 0) kqueuetrans((void *)file.f_data, i); break; default: dprintf("unknown file type %d for file %d of pid %d", file.f_type, i, Pid); break; } } char * vfilestat(vp, fsp) struct vnode *vp; struct filestat *fsp; { char *badtype = NULL; if (vp->v_type == VNON || vp->v_tag == VT_NON) badtype = "none"; else if (vp->v_type == VBAD) badtype = "bad"; else switch (vp->v_tag) { case VT_UFS: case VT_LFS: case VT_MFS: if (!ufs_filestat(vp, fsp)) badtype = "error"; break; case VT_MSDOSFS: if (!msdosfs_filestat(vp, fsp)) badtype = "error"; break; case VT_NFS: if (!nfs_filestat(vp, fsp)) badtype = "error"; break; case VT_EXT2FS: if (!ext2fs_filestat(vp, fsp)) badtype = "error"; break; case VT_ISOFS: if (!isofs_filestat(vp, fsp)) badtype = "error"; break; case VT_NTFS: if (!ntfs_filestat(vp, fsp)) badtype = "error"; break; case VT_PTYFS: if (!ptyfs_filestat(vp, fsp)) badtype = "error"; break; case VT_NULL: case VT_OVERLAY: case VT_UMAP: badtype = layer_filestat(vp, fsp); break; default: { static char unknown[10]; (void)snprintf(badtype = unknown, sizeof unknown, "?(%x)", vp->v_tag); break; } } return (badtype); } void vtrans(vp, i, flag) struct vnode *vp; int i; int flag; { struct vnode vn; struct filestat fst; char mode[15], rw[3]; char *badtype, *filename; filename = NULL; if (!KVM_READ(vp, &vn, sizeof(struct vnode))) { dprintf("can't read vnode at %p for pid %d", vp, Pid); return; } badtype = vfilestat(&vn, &fst); if (checkfile) { int fsmatch = 0; DEVS *d; if (badtype) return; for (d = devs; d != NULL; d = d->next) if (d->fsid == fst.fsid) { fsmatch = 1; if (d->ino == fst.fileid) { filename = d->name; break; } } if (fsmatch == 0 || (filename == NULL && fsflg == 0)) return; } PREFIX(i); if (badtype) { (void)printf(" - - %10s -\n", badtype); return; } if (nflg) (void)printf(" %2d,%-2d", major(fst.fsid), minor(fst.fsid)); else (void)printf(" %-8s", getmnton(vn.v_mount)); if (nflg) (void)snprintf(mode, sizeof mode, "%o", fst.mode); else strmode(fst.mode, mode); (void)printf(" %7lu %*s", (unsigned long)fst.fileid, nflg ? 5 : 10, mode); switch (vn.v_type) { case VBLK: case VCHR: { char *name; if (nflg || ((name = devname(fst.rdev, vn.v_type == VCHR ? S_IFCHR : S_IFBLK)) == NULL)) printf(" %2d,%-2d", major(fst.rdev), minor(fst.rdev)); else printf(" %6s", name); break; } default: printf(" %6lld", (long long)fst.size); } rw[0] = '\0'; if (flag & FREAD) strlcat(rw, "r", sizeof(rw)); if (flag & FWRITE) strlcat(rw, "w", sizeof(rw)); printf(" %-2s", rw); if (filename && !fsflg) printf(" %s", filename); putchar('\n'); } int ufs_filestat(vp, fsp) struct vnode *vp; struct filestat *fsp; { struct inode inode; union dinode { struct ufs1_dinode dp1; struct ufs2_dinode dp2; } dip; if (!KVM_READ(VTOI(vp), &inode, sizeof (inode))) { dprintf("can't read inode at %p for pid %d", VTOI(vp), Pid); return 0; } if (!KVM_READ(inode.i_din.ffs1_din, &dip, sizeof(struct ufs1_dinode))) { dprintf("can't read dinode at %p for pid %d", inode.i_din.ffs1_din, Pid); return 0; } if (inode.i_size == dip.dp1.di_size) fsp->rdev = dip.dp1.di_rdev; else { if (!KVM_READ(inode.i_din.ffs1_din, &dip, sizeof(struct ufs2_dinode))) { dprintf("can't read dinode at %p for pid %d", inode.i_din.ffs1_din, Pid); return 0; } fsp->rdev = dip.dp2.di_rdev; } fsp->fsid = inode.i_dev & 0xffff; fsp->fileid = (long)inode.i_number; fsp->mode = (mode_t)inode.i_mode; fsp->size = inode.i_size; return 1; } int ext2fs_filestat(vp, fsp) struct vnode *vp; struct filestat *fsp; { struct inode inode; u_int16_t mode; u_int32_t size; if (!KVM_READ(VTOI(vp), &inode, sizeof (inode))) { dprintf("can't read inode at %p for pid %d", VTOI(vp), Pid); return 0; } fsp->fsid = inode.i_dev & 0xffff; fsp->fileid = (long)inode.i_number; if (!KVM_READ(&inode.i_e2fs_mode, &mode, sizeof mode)) { dprintf("can't read inode %p's mode at %p for pid %d", VTOI(vp), &inode.i_e2fs_mode, Pid); return 0; } fsp->mode = mode; if (!KVM_READ(&inode.i_e2fs_size, &size, sizeof size)) { dprintf("can't read inode %p's size at %p for pid %d", VTOI(vp), &inode.i_e2fs_size, Pid); return 0; } fsp->size = size; fsp->rdev = 0; /* XXX */ return 1; } int nfs_filestat(vp, fsp) struct vnode *vp; struct filestat *fsp; { struct nfsnode nfsnode; struct vattr va; if (!KVM_READ(VTONFS(vp), &nfsnode, sizeof (nfsnode))) { dprintf("can't read nfsnode at %p for pid %d", VTONFS(vp), Pid); return 0; } if (!KVM_READ(nfsnode.n_vattr, &va, sizeof(va))) { dprintf("can't read vnode attributes at %p for pid %d", nfsnode.n_vattr, Pid); return 0; } fsp->fsid = va.va_fsid; fsp->fileid = va.va_fileid; fsp->size = nfsnode.n_size; fsp->rdev = va.va_rdev; fsp->mode = (mode_t)va.va_mode | getftype(vp->v_type); return 1; } int msdosfs_filestat(vp, fsp) struct vnode *vp; struct filestat *fsp; { struct denode de; struct msdosfsmount mp; if (!KVM_READ(VTONFS(vp), &de, sizeof(de))) { dprintf("can't read denode at %p for pid %d", VTONFS(vp), Pid); return 0; } if (!KVM_READ(de.de_pmp, &mp, sizeof(mp))) { dprintf("can't read mount struct at %p for pid %d", de.de_pmp, Pid); return 0; } fsp->fsid = de.de_dev & 0xffff; fsp->fileid = 0; /* XXX see msdosfs_vptofh() for more info */ fsp->size = de.de_FileSize; fsp->rdev = 0; /* msdosfs doesn't support device files */ fsp->mode = (0777 & mp.pm_mask) | getftype(vp->v_type); return 1; } char * layer_filestat(vp, fsp) struct vnode *vp; struct filestat *fsp; { struct layer_node layer_node; struct mount mount; struct vnode vn; char *badtype; if (!KVM_READ(VTOLAYER(vp), &layer_node, sizeof(layer_node))) { dprintf("can't read layer_node at %p for pid %d", VTOLAYER(vp), Pid); return ("error"); } if (!KVM_READ(vp->v_mount, &mount, sizeof(struct mount))) { dprintf("can't read mount struct at %p for pid %d", vp->v_mount, Pid); return ("error"); } vp = layer_node.layer_lowervp; if (!KVM_READ(vp, &vn, sizeof(struct vnode))) { dprintf("can't read vnode at %p for pid %d", vp, Pid); return ("error"); } if ((badtype = vfilestat(&vn, fsp)) == NULL) fsp->fsid = mount.mnt_stat.f_fsidx.__fsid_val[0]; return (badtype); } char * getmnton(m) struct mount *m; { static struct mount mount; static struct mtab { struct mtab *next; struct mount *m; char mntonname[MNAMELEN]; } *mhead = NULL; struct mtab *mt; for (mt = mhead; mt != NULL; mt = mt->next) if (m == mt->m) return (mt->mntonname); if (!KVM_READ(m, &mount, sizeof(struct mount))) { warnx("can't read mount table at %p", m); return (NULL); } if ((mt = malloc(sizeof (struct mtab))) == NULL) { err(1, "malloc(%u)", (unsigned int)sizeof(struct mtab)); } mt->m = m; memmove(&mt->mntonname[0], &mount.mnt_stat.f_mntonname[0], MNAMELEN); mt->next = mhead; mhead = mt; return (mt->mntonname); } #ifdef INET6 static const char * inet6_addrstr(p) struct in6_addr *p; { struct sockaddr_in6 sin6; static char hbuf[NI_MAXHOST]; const int niflags = NI_NUMERICHOST; memset(&sin6, 0, sizeof(sin6)); sin6.sin6_family = AF_INET6; sin6.sin6_len = sizeof(struct sockaddr_in6); sin6.sin6_addr = *p; if (IN6_IS_ADDR_LINKLOCAL(p) && *(u_int16_t *)&sin6.sin6_addr.s6_addr[2] != 0) { sin6.sin6_scope_id = ntohs(*(u_int16_t *)&sin6.sin6_addr.s6_addr[2]); sin6.sin6_addr.s6_addr[2] = sin6.sin6_addr.s6_addr[3] = 0; } if (getnameinfo((struct sockaddr *)&sin6, sin6.sin6_len, hbuf, sizeof(hbuf), NULL, 0, niflags)) return "invalid"; return hbuf; } #endif void socktrans(sock, i) struct socket *sock; int i; { static char *stypename[] = { "unused", /* 0 */ "stream", /* 1 */ "dgram", /* 2 */ "raw", /* 3 */ "rdm", /* 4 */ "seqpak" /* 5 */ }; #define STYPEMAX 5 struct socket so; struct protosw proto; struct domain dom; struct inpcb inpcb; #ifdef INET6 struct in6pcb in6pcb; #endif struct unpcb unpcb; int len; char dname[32]; #ifdef INET6 char xaddrbuf[NI_MAXHOST + 2]; #endif PREFIX(i); /* fill in socket */ if (!KVM_READ(sock, &so, sizeof(struct socket))) { dprintf("can't read sock at %p", sock); goto bad; } /* fill in protosw entry */ if (!KVM_READ(so.so_proto, &proto, sizeof(struct protosw))) { dprintf("can't read protosw at %p", so.so_proto); goto bad; } /* fill in domain */ if (!KVM_READ(proto.pr_domain, &dom, sizeof(struct domain))) { dprintf("can't read domain at %p", proto.pr_domain); goto bad; } if ((len = kvm_read(kd, (u_long)dom.dom_name, dname, sizeof(dname) - 1)) != sizeof(dname) -1) { dprintf("can't read domain name at %p", dom.dom_name); dname[0] = '\0'; } else dname[len] = '\0'; if ((u_short)so.so_type > STYPEMAX) printf("* %s ?%d", dname, so.so_type); else printf("* %s %s", dname, stypename[so.so_type]); /* * protocol specific formatting * * Try to find interesting things to print. For TCP, the interesting * thing is the address of the tcpcb, for UDP and others, just the * inpcb (socket pcb). For UNIX domain, its the address of the socket * pcb and the address of the connected pcb (if connected). Otherwise * just print the protocol number and address of the socket itself. * The idea is not to duplicate netstat, but to make available enough * information for further analysis. */ switch(dom.dom_family) { case AF_INET: getinetproto(proto.pr_protocol); if (proto.pr_protocol == IPPROTO_TCP) { if (so.so_pcb == NULL) break; if (kvm_read(kd, (u_long)so.so_pcb, (char *)&inpcb, sizeof(struct inpcb)) != sizeof(struct inpcb)) { dprintf("can't read inpcb at %p", so.so_pcb); goto bad; } printf(" %lx", (long)inpcb.inp_ppcb); printf(" %s:%d", inpcb.inp_laddr.s_addr == INADDR_ANY ? "*" : inet_ntoa(inpcb.inp_laddr), ntohs(inpcb.inp_lport)); if (inpcb.inp_fport) { printf(" <-> %s:%d", inpcb.inp_faddr.s_addr == INADDR_ANY ? "*" : inet_ntoa(inpcb.inp_faddr), ntohs(inpcb.inp_fport)); } } else if (proto.pr_protocol == IPPROTO_UDP) { if (so.so_pcb == NULL) break; if (kvm_read(kd, (u_long)so.so_pcb, (char *)&inpcb, sizeof(struct inpcb)) != sizeof(struct inpcb)) { dprintf("can't read inpcb at %p", so.so_pcb); goto bad; } printf(" %lx", (long)so.so_pcb); printf(" %s:%d", inpcb.inp_laddr.s_addr == INADDR_ANY ? "*" : inet_ntoa(inpcb.inp_laddr), ntohs(inpcb.inp_lport)); if (inpcb.inp_fport) printf(" <-> %s:%d", inpcb.inp_faddr.s_addr == INADDR_ANY ? "*" : inet_ntoa(inpcb.inp_faddr), ntohs(inpcb.inp_fport)); } else if (so.so_pcb) printf(" %lx", (long)so.so_pcb); break; #ifdef INET6 case AF_INET6: getinetproto(proto.pr_protocol); if (proto.pr_protocol == IPPROTO_TCP) { if (so.so_pcb == NULL) break; if (kvm_read(kd, (u_long)so.so_pcb, (char *)&in6pcb, sizeof(struct in6pcb)) != sizeof(struct in6pcb)) { dprintf("can't read in6pcb at %p", so.so_pcb); goto bad; } printf(" %lx", (long)in6pcb.in6p_ppcb); snprintf(xaddrbuf, sizeof(xaddrbuf), "[%s]", inet6_addrstr(&in6pcb.in6p_laddr)); printf(" %s:%d", IN6_IS_ADDR_UNSPECIFIED(&in6pcb.in6p_laddr) ? "*" : xaddrbuf, ntohs(in6pcb.in6p_lport)); if (in6pcb.in6p_fport) { snprintf(xaddrbuf, sizeof(xaddrbuf), "[%s]", inet6_addrstr(&in6pcb.in6p_faddr)); printf(" <-> %s:%d", IN6_IS_ADDR_UNSPECIFIED(&in6pcb.in6p_faddr) ? "*" : xaddrbuf, ntohs(in6pcb.in6p_fport)); } } else if (proto.pr_protocol == IPPROTO_UDP) { if (so.so_pcb == NULL) break; if (kvm_read(kd, (u_long)so.so_pcb, (char *)&in6pcb, sizeof(struct in6pcb)) != sizeof(struct in6pcb)) { dprintf("can't read inpcb at %p", so.so_pcb); goto bad; } printf(" %lx", (long)so.so_pcb); snprintf(xaddrbuf, sizeof(xaddrbuf), "[%s]", inet6_addrstr(&in6pcb.in6p_laddr)); printf(" %s:%d", IN6_IS_ADDR_UNSPECIFIED(&in6pcb.in6p_laddr) ? "*" : xaddrbuf, ntohs(in6pcb.in6p_lport)); if (in6pcb.in6p_fport) { snprintf(xaddrbuf, sizeof(xaddrbuf), "[%s]", inet6_addrstr(&in6pcb.in6p_faddr)); printf(" <-> %s:%d", IN6_IS_ADDR_UNSPECIFIED(&in6pcb.in6p_faddr) ? "*" : xaddrbuf, ntohs(in6pcb.in6p_fport)); } } else if (so.so_pcb) printf(" %lx", (long)so.so_pcb); break; #endif case AF_LOCAL: /* print address of pcb and connected pcb */ if (so.so_pcb) { printf(" %lx", (long)so.so_pcb); if (kvm_read(kd, (u_long)so.so_pcb, (char *)&unpcb, sizeof(struct unpcb)) != sizeof(struct unpcb)){ dprintf("can't read unpcb at %p", so.so_pcb); goto bad; } if (unpcb.unp_conn) { char shoconn[4], *cp; cp = shoconn; if (!(so.so_state & SS_CANTRCVMORE)) *cp++ = '<'; *cp++ = '-'; if (!(so.so_state & SS_CANTSENDMORE)) *cp++ = '>'; *cp = '\0'; printf(" %s %lx", shoconn, (long)unpcb.unp_conn); } } break; default: /* print protocol number and socket address */ printf(" %d %lx", proto.pr_protocol, (long)sock); } printf("\n"); return; bad: printf("* error\n"); } void ptrans(fp, cpipe, i) struct file *fp; struct pipe *cpipe; int i; { struct pipe cp; PREFIX(i); /* fill in pipe */ if (!KVM_READ(cpipe, &cp, sizeof(struct pipe))) { dprintf("can't read pipe at %p", cpipe); goto bad; } /* pipe descriptor is either read or write, never both */ printf("* pipe %p %s %p %s%s%s", cpipe, (fp->f_flag & FWRITE) ? "->" : "<-", cp.pipe_peer, (fp->f_flag & FWRITE) ? "w" : "r", (fp->f_flag & FNONBLOCK) ? "n" : "", (cp.pipe_state & PIPE_ASYNC) ? "a" : ""); printf("\n"); return; bad: printf("* error\n"); } void kqueuetrans(kq, i) void *kq; int i; { PREFIX(i); printf("* kqueue %lx", (long)kq); printf("\n"); } /* * getinetproto -- * print name of protocol number */ void getinetproto(number) int number; { char *cp; switch (number) { case IPPROTO_IP: cp = "ip"; break; case IPPROTO_ICMP: cp ="icmp"; break; case IPPROTO_GGP: cp ="ggp"; break; case IPPROTO_TCP: cp ="tcp"; break; case IPPROTO_EGP: cp ="egp"; break; case IPPROTO_PUP: cp ="pup"; break; case IPPROTO_UDP: cp ="udp"; break; case IPPROTO_IDP: cp ="idp"; break; case IPPROTO_RAW: cp ="raw"; break; case IPPROTO_ICMPV6: cp ="icmp6"; break; default: printf(" %d", number); return; } printf(" %s", cp); } int getfname(filename) char *filename; { struct stat statbuf; DEVS *cur; if (stat(filename, &statbuf)) { warn("stat(%s)", filename); return(0); } if ((cur = malloc(sizeof(DEVS))) == NULL) { err(1, "malloc(%u)", (unsigned int)sizeof(DEVS)); } cur->next = devs; devs = cur; cur->ino = statbuf.st_ino; cur->fsid = statbuf.st_dev & 0xffff; cur->name = filename; return(1); } mode_t getftype(v_type) enum vtype v_type; { mode_t ftype; switch (v_type) { case VREG: ftype = S_IFREG; break; case VDIR: ftype = S_IFDIR; break; case VBLK: ftype = S_IFBLK; break; case VCHR: ftype = S_IFCHR; break; case VLNK: ftype = S_IFLNK; break; case VSOCK: ftype = S_IFSOCK; break; case VFIFO: ftype = S_IFIFO; break; default: ftype = 0; break; }; return ftype; } void usage(void) { (void)fprintf(stderr, "Usage: %s [-fnv] [-p pid] [-u user] " "[-N system] [-M core] [file ...]\n", getprogname()); exit(1); }