/* $NetBSD: print-nfs.c,v 1.5 1996/05/20 00:41:09 fvdl Exp $ */ /* * Copyright (c) 1988, 1989, 1990, 1991, 1992, 1993, 1994 * 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: (1) source code distributions * retain the above copyright notice and this paragraph in its entirety, (2) * distributions including binary code include the above copyright notice and * this paragraph in its entirety in the documentation or other materials * provided with the distribution, and (3) all advertising materials mentioning * features or use of this software display the following acknowledgement: * ``This product includes software developed by the University of California, * Lawrence Berkeley Laboratory and its contributors.'' 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 ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ #ifndef lint static char rcsid[] = "@(#) Header: print-nfs.c,v 1.41 94/06/12 14:35:15 leres Exp (LBL)"; #endif #include #include #include #include #include #include #include #include #include #include #ifdef SOLARIS #include #endif #include #include #include #include #include #include #include "interface.h" #include "addrtoname.h" #include "extract.h" /* must come after interface.h */ #include "nfs.h" #include "nfsfh.h" static void nfs_printfh(const u_int32 *, const int); static void xid_map_enter(const struct rpc_msg *, const struct ip *); static int32 xid_map_find(const struct rpc_msg *, const struct ip *, u_int32 *, u_int32 *); static void interp_reply(const struct rpc_msg *, u_int32, u_int32, int); static const u_int32 *parse_post_op_attr(const u_int32 *, int); /* * Mapping of old NFS Version 2 RPC numbers to generic numbers. */ u_int32 nfsv3_procid[NFS_NPROCS] = { NFSPROC_NULL, NFSPROC_GETATTR, NFSPROC_SETATTR, NFSPROC_NOOP, NFSPROC_LOOKUP, NFSPROC_READLINK, NFSPROC_READ, NFSPROC_NOOP, NFSPROC_WRITE, NFSPROC_CREATE, NFSPROC_REMOVE, NFSPROC_RENAME, NFSPROC_LINK, NFSPROC_SYMLINK, NFSPROC_MKDIR, NFSPROC_RMDIR, NFSPROC_READDIR, NFSPROC_FSSTAT, NFSPROC_NOOP, NFSPROC_NOOP, NFSPROC_NOOP, NFSPROC_NOOP, NFSPROC_NOOP, NFSPROC_NOOP, NFSPROC_NOOP, NFSPROC_NOOP }; const char *nfsv3_writemodes[NFSV3WRITE_NMODES] = { "unstable", "datasync", "filesync" }; static struct token type2str[] = { { NFNON, "NON" }, { NFREG, "REG" }, { NFDIR, "DIR" }, { NFBLK, "BLK" }, { NFCHR, "CHR" }, { NFLNK, "LNK" }, { NFFIFO, "FIFO" }, { 0, NULL } }; /* * Print out a 64-bit integer. This appears to be different on each system, * try to make the best of it. The integer stored as 2 consecutive XDR * encoded 32-bit integers, to which a pointer is passed. * * Assume that a system that has INT64_FORMAT defined, has a 64-bit * integer datatype and can print it. */ #define UNSIGNED 0 #define SIGNED 1 #define HEX 2 int print_int64(const u_int32 *dp, int how) { static char buf[32]; #ifdef INT64_FORMAT u_int64 res; res = ((u_int64)ntohl(dp[0]) << 32) | (u_int64)ntohl(dp[1]); switch (how) { case SIGNED: printf(INT64_FORMAT, res); break; case UNSIGNED: printf(U_INT64_FORMAT, res); break; case HEX: printf(HEX_INT64_FORMAT, res); break; default: return (0); } #else /* * XXX - throw upper 32 bits away. * Could also go for hex: printf("0x%x%x", dp[0], dp[1]); */ if (sign) printf("%ld", (int)dp[1]); else printf("%lu", (unsigned int)dp[1]); #endif return 1; } static const u_int32 * parse_sattr3(const u_int32 *dp, struct nfsv3_sattr *sa3) { register const u_int32 *ep = (u_int32 *)snapend; if (dp + 1 > ep) return (0); if ((sa3->sa_modeset = ntohl(*dp++))) { if (dp + 1 > ep) return (0); sa3->sa_mode = ntohl(*dp++); } if (dp + 1 > ep) return (0); if ((sa3->sa_uidset = ntohl(*dp++))) { if (dp + 1 > ep) return (0); sa3->sa_uid = ntohl(*dp++); } if (dp + 1 > ep) return (0); if ((sa3->sa_gidset = ntohl(*dp++))) { if (dp + 1 > ep) return (0); sa3->sa_gid = ntohl(*dp++); } if (dp + 1 > ep) return (0); if ((sa3->sa_sizeset = ntohl(*dp++))) { if (dp + 1 > ep) return (0); sa3->sa_size = ntohl(*dp++); } if (dp + 1 > ep) return (0); if ((sa3->sa_atimetype = ntohl(*dp++)) == NFSV3SATTRTIME_TOCLIENT) { if (dp + 2 > ep) return (0); sa3->sa_atime.nfsv3_sec = ntohl(*dp++); sa3->sa_atime.nfsv3_nsec = ntohl(*dp++); } if (dp + 1 > ep) return (0); if ((sa3->sa_mtimetype = ntohl(*dp++)) == NFSV3SATTRTIME_TOCLIENT) { if (dp + 2 > ep) return (0); sa3->sa_mtime.nfsv3_sec = ntohl(*dp++); sa3->sa_mtime.nfsv3_nsec = ntohl(*dp++); } return dp; } void print_sattr3(const struct nfsv3_sattr *sa3, int verbose) { if (sa3->sa_modeset) printf(" mode %o", sa3->sa_mode); if (sa3->sa_uidset) printf(" uid %u", sa3->sa_uid); if (sa3->sa_gidset) printf(" gid %u", sa3->sa_gid); if (verbose > 1) { if (sa3->sa_atimetype == NFSV3SATTRTIME_TOCLIENT) printf(" atime %u.%06u", sa3->sa_atime.nfsv3_sec, sa3->sa_atime.nfsv3_nsec); if (sa3->sa_mtimetype == NFSV3SATTRTIME_TOCLIENT) printf(" mtime %u.%06u", sa3->sa_mtime.nfsv3_sec, sa3->sa_mtime.nfsv3_nsec); } } void nfsreply_print(register const u_char *bp, int length, register const u_char *bp2) { register const struct rpc_msg *rp; register const struct ip *ip; u_int32 proc, vers; rp = (const struct rpc_msg *)bp; ip = (const struct ip *)bp2; if (!nflag) (void)printf("%s.nfs > %s.%x: reply %s %d", ipaddr_string(&ip->ip_src), ipaddr_string(&ip->ip_dst), ntohl(rp->rm_xid), ntohl(rp->rm_reply.rp_stat) == MSG_ACCEPTED? "ok":"ERR", length); else (void)printf("%s.%x > %s.%x: reply %s %d", ipaddr_string(&ip->ip_src), NFS_PORT, ipaddr_string(&ip->ip_dst), ntohl(rp->rm_xid), ntohl(rp->rm_reply.rp_stat) == MSG_ACCEPTED? "ok":"ERR", length); if (xid_map_find(rp, ip, &proc, &vers) >= 0) interp_reply(rp, proc, vers, length); } /* * Return a pointer to the first file handle in the packet. * If the packet was truncated, return 0. */ static const u_int32 * parsereq(register const struct rpc_msg *rp, register int length) { register const u_int32 *dp = (u_int32 *)&rp->rm_call.cb_cred; register const u_int32 *ep = (u_int32 *)snapend; register u_int len; if (&dp[2] >= ep) return (0); /* * find the start of the req data (if we captured it) */ len = ntohl(dp[1]); if (dp < ep && len < length) { dp += (len + (2 * sizeof(u_int32) + 3)) / sizeof(u_int32); len = ntohl(dp[1]); if ((dp < ep) && (len < length)) { dp += (len + (2 * sizeof(u_int32) + 3)) / sizeof(u_int32); if (dp < ep) return (dp); } } return (0); } /* * Print out an NFS file handle and return a pointer to following word. * If packet was truncated, return 0. */ static const u_int32 * parsefh(register const u_int32 *dp, int v3) { int len; if (v3) { if (dp + 1 > (u_int32 *)snapend) return (0); len = (int)ntohl(*dp) / 4; dp++; } else len = NFSX_V2FH / 4; if (dp + len <= (u_int32 *)snapend) { nfs_printfh(dp, len); return (dp + len); } return (0); } /* * Print out a file name and return pointer to 32-bit word past it. * If packet was truncated, return 0. */ static const u_int32 * parsefn(register const u_int32 *dp) { register u_int32 len; register const u_char *cp; /* Bail if we don't have the string length */ if ((u_char *)dp > snapend - sizeof(*dp)) return(0); /* Fetch string length; convert to host order */ len = *dp++; NTOHL(len); cp = (u_char *)dp; /* Update 32-bit pointer (NFS filenames padded to 32-bit boundaries) */ dp += ((len + 3) & ~3) / sizeof(*dp); if ((u_char *)dp > snapend) return (0); /* XXX seems like we should be checking the length */ (void) fn_printn(cp, len, NULL); return (dp); } /* * Print out file handle and file name. * Return pointer to 32-bit word past file name. * If packet was truncated (or there was some other error), return 0. */ static const u_int32 * parsefhn(register const u_int32 *dp, int v3) { dp = parsefh(dp, v3); if (dp == 0) return (0); putchar(' '); return (parsefn(dp)); } void nfsreq_print(register const u_char *bp, int length, register const u_char *bp2) { register const struct rpc_msg *rp; register const struct ip *ip; register const u_int32 *dp; register const u_char *ep; nfstype type; int proc, v3; struct nfsv3_sattr sa3; #define TCHECK(p, l) if ((u_char *)(p) > ep - l) break rp = (const struct rpc_msg *)bp; ip = (const struct ip *)bp2; ep = snapend; if (!nflag) (void)printf("%s.%x > %s.nfs: %d", ipaddr_string(&ip->ip_src), ntohl(rp->rm_xid), ipaddr_string(&ip->ip_dst), length); else (void)printf("%s.%x > %s.%x: %d", ipaddr_string(&ip->ip_src), ntohl(rp->rm_xid), ipaddr_string(&ip->ip_dst), NFS_PORT, length); xid_map_enter(rp, ip); /* record proc number for later on */ v3 = (ntohl(rp->rm_call.cb_vers) == NFS_VER3); proc = ntohl(rp->rm_call.cb_proc); if (!v3 && proc < NFS_NPROCS) proc = nfsv3_procid[proc]; switch (proc) { case NFSPROC_NOOP: printf(" nop"); return; case NFSPROC_NULL: printf(" null"); return; case NFSPROC_GETATTR: printf(" getattr"); if ((dp = parsereq(rp, length)) != 0 && parsefh(dp, v3) != 0) return; break; case NFSPROC_SETATTR: printf(" setattr"); if ((dp = parsereq(rp, length)) != 0 && parsefh(dp, v3) != 0) return; break; case NFSPROC_LOOKUP: printf(" lookup"); if ((dp = parsereq(rp, length)) != 0 && parsefhn(dp, v3) != 0) return; break; case NFSPROC_ACCESS: printf(" access"); if ((dp = parsereq(rp, length)) != 0 && (dp = parsefh(dp, v3)) != 0) { TCHECK(dp, 4); printf(" %04x", ntohl(dp[0])); return; } break; case NFSPROC_READLINK: printf(" readlink"); if ((dp = parsereq(rp, length)) != 0 && parsefh(dp, v3) != 0) return; break; case NFSPROC_READ: printf(" read"); if ((dp = parsereq(rp, length)) != 0 && (dp = parsefh(dp, v3)) != 0) { if (v3) { TCHECK(dp, 3 * sizeof(*dp)); printf(" %lu bytes @ ", ntohl(dp[2])); print_int64(dp, UNSIGNED); } else { TCHECK(dp, 2 * sizeof(*dp)); printf(" %lu bytes @ %lu", ntohl(dp[1]), ntohl(dp[0])); } return; } break; case NFSPROC_WRITE: printf(" write"); if ((dp = parsereq(rp, length)) != 0 && (dp = parsefh(dp, v3)) != 0) { if (v3) { TCHECK(dp, 3 * sizeof(*dp)); printf(" %lu bytes @ ", ntohl(dp[4])); print_int64(dp, UNSIGNED); if (vflag) { dp += 3; TCHECK(dp, sizeof(*dp)); printf(" <%s>", nfsv3_writemodes[ntohl(*dp)]); } } else { TCHECK(dp, 4 * sizeof(*dp)); printf(" %lu (%lu) bytes @ %lu (%lu)", ntohl(dp[3]), ntohl(dp[2]), ntohl(dp[1]), ntohl(dp[0])); } return; } break; case NFSPROC_CREATE: printf(" create"); if ((dp = parsereq(rp, length)) != 0 && parsefhn(dp, v3) != 0) return; break; case NFSPROC_MKDIR: printf(" mkdir"); if ((dp = parsereq(rp, length)) != 0 && parsefhn(dp, v3) != 0) return; break; case NFSPROC_SYMLINK: printf(" symlink"); if ((dp = parsereq(rp, length)) != 0 && (dp = parsefhn(dp, v3)) != 0) { fputs(" -> ", stdout); if (v3 && (dp = parse_sattr3(dp, &sa3)) == 0) break; if (parsefn(dp) == 0) break; if (v3 && vflag) print_sattr3(&sa3, vflag); return; } break; case NFSPROC_MKNOD: printf(" mknod"); if ((dp = parsereq(rp, length)) != 0 && (dp = parsefhn(dp, v3)) != 0) { if (dp + 1 > (u_int32 *)snapend) break; type = (nfstype)ntohl(*dp++); if ((dp = parse_sattr3(dp, &sa3)) == 0) break; printf(" %s", tok2str(type2str, "unk-ft %d", type)); if (vflag && (type == NFCHR || type == NFBLK)) { if (dp + 2 > (u_int32 *)snapend) break; printf(" %u/%u", ntohl(dp[0]), ntohl(dp[1])); dp += 2; } if (vflag) print_sattr3(&sa3, vflag); return; } break; case NFSPROC_REMOVE: printf(" remove"); if ((dp = parsereq(rp, length)) != 0 && parsefhn(dp, v3) != 0) return; break; case NFSPROC_RMDIR: printf(" rmdir"); if ((dp = parsereq(rp, length)) != 0 && parsefhn(dp, v3) != 0) return; break; case NFSPROC_RENAME: printf(" rename"); if ((dp = parsereq(rp, length)) != 0 && (dp = parsefhn(dp, v3)) != 0) { fputs(" ->", stdout); if (parsefhn(dp, v3) != 0) return; } break; case NFSPROC_LINK: printf(" link"); if ((dp = parsereq(rp, length)) != 0 && (dp = parsefh(dp, v3)) != 0) { fputs(" ->", stdout); if (parsefhn(dp, v3) != 0) return; } break; case NFSPROC_READDIR: printf(" readdir"); if ((dp = parsereq(rp, length)) != 0 && (dp = parsefh(dp, v3)) != 0) { if (v3) { TCHECK(dp, 20); /* * We shouldn't really try to interpret the * offset cookie here. */ printf(" %lu bytes @ ", ntohl(dp[4])); print_int64(dp, SIGNED); if (vflag) printf(" verf %08lx%08lx", dp[2], dp[3]); } else { TCHECK(dp, 2 * sizeof(*dp)); /* * Print the offset as signed, since -1 is * common, but offsets > 2^31 aren't. */ printf(" %lu bytes @ %ld", ntohl(dp[1]), ntohl(dp[0])); } return; } break; case NFSPROC_READDIRPLUS: printf(" readdirplus"); if ((dp = parsereq(rp, length)) != 0 && (dp = parsefh(dp, v3)) != 0) { TCHECK(dp, 20); /* * We don't try to interpret the offset * cookie here. */ printf(" %lu bytes @ ", ntohl(dp[4])); print_int64(dp, SIGNED); if (vflag) printf(" max %lu verf %08lx%08lx", ntohl(dp[5]), dp[2], dp[3]); return; } break; case NFSPROC_FSSTAT: printf(" fsstat"); if ((dp = parsereq(rp, length)) != 0 && parsefh(dp, v3) != 0) return; break; case NFSPROC_FSINFO: printf(" fsinfo"); break; case NFSPROC_PATHCONF: printf(" pathconf"); break; case NFSPROC_COMMIT: printf(" commit"); if ((dp = parsereq(rp, length)) != 0 && (dp = parsefh(dp, v3)) != 0) { printf(" %lu bytes @ ", ntohl(dp[2])); print_int64(dp, UNSIGNED); return; } break; default: printf(" proc-%lu", ntohl(rp->rm_call.cb_proc)); return; } fputs(" [|nfs]", stdout); } /* * Print out an NFS file handle. * We assume packet was not truncated before the end of the * file handle pointed to by dp. * * Note: new version (using portable file-handle parser) doesn't produce * generation number. It probably could be made to do that, with some * additional hacking on the parser code. */ static void nfs_printfh(register const u_int32 *dp, const int len) { my_fsid fsid; ino_t ino; char *sfsname = NULL; Parse_fh((caddr_t*)dp, len, &fsid, &ino, NULL, &sfsname, 0); if (sfsname) { /* file system ID is ASCII, not numeric, for this server OS */ static char temp[NFSX_V3FHMAX+1]; /* Make sure string is null-terminated */ strncpy(temp, sfsname, NFSX_V3FHMAX); /* Remove trailing spaces */ sfsname = strchr(temp, ' '); if (sfsname) *sfsname = 0; (void)printf(" fh %s/%ld", temp, ino); } else { (void)printf(" fh %d,%d/%ld", fsid.fsid_dev.Major, fsid.fsid_dev.Minor, ino); } } /* * Maintain a small cache of recent client.XID.server/proc pairs, to allow * us to match up replies with requests and thus to know how to parse * the reply. */ struct xid_map_entry { u_int32 xid; /* transaction ID (net order) */ struct in_addr client; /* client IP address (net order) */ struct in_addr server; /* server IP address (net order) */ u_int32 proc; /* call proc number (host order) */ u_int32 vers; /* program version (host order) */ }; /* * Map entries are kept in an array that we manage as a ring; * new entries are always added at the tail of the ring. Initially, * all the entries are zero and hence don't match anything. */ #define XIDMAPSIZE 64 struct xid_map_entry xid_map[XIDMAPSIZE]; int xid_map_next = 0; int xid_map_hint = 0; static void xid_map_enter(const struct rpc_msg *rp, const struct ip *ip) { struct xid_map_entry *xmep; xmep = &xid_map[xid_map_next]; if (++xid_map_next >= XIDMAPSIZE) xid_map_next = 0; xmep->xid = rp->rm_xid; xmep->client = ip->ip_src; xmep->server = ip->ip_dst; xmep->proc = ntohl(rp->rm_call.cb_proc); xmep->vers = ntohl(rp->rm_call.cb_vers); } /* Returns NFSPROC_xxx or -1 on failure */ static int xid_map_find(const struct rpc_msg *rp, const struct ip *ip, u_int32 *proc, u_int32 *vers) { int i; struct xid_map_entry *xmep; u_int32 xid = rp->rm_xid; u_int32 clip = ip->ip_dst.s_addr; u_int32 sip = ip->ip_src.s_addr; /* Start searching from where we last left off */ i = xid_map_hint; do { xmep = &xid_map[i]; if (xmep->xid == xid && xmep->client.s_addr == clip && xmep->server.s_addr == sip) { /* match */ xid_map_hint = i; *proc = xmep->proc; *vers = xmep->vers; return 0; } if (++i >= XIDMAPSIZE) i = 0; } while (i != xid_map_hint); /* search failed */ return(-1); } /* * Routines for parsing reply packets */ /* * Return a pointer to the beginning of the actual results. * If the packet was truncated, return 0. */ static const u_int32 * parserep(register const struct rpc_msg *rp, register int length) { register const u_int32 *dp; register const u_int32 *ep = (const u_int32 *)snapend; int len; enum accept_stat astat; /* * Portability note: * Here we find the address of the ar_verf credentials. * Originally, this calculation was * dp = (u_int32 *)&rp->rm_reply.rp_acpt.ar_verf * On the wire, the rp_acpt field starts immediately after * the (32 bit) rp_stat field. However, rp_acpt (which is a * "struct accepted_reply") contains a "struct opaque_auth", * whose internal representation contains a pointer, so on a * 64-bit machine the compiler inserts 32 bits of padding * before rp->rm_reply.rp_acpt.ar_verf. So, we cannot use * the internal representation to parse the on-the-wire * representation. Instead, we skip past the rp_stat field, * which is an "enum" and so occupies one 32-bit word. */ dp = ((const u_int32 *)&rp->rm_reply) + 1; if (&dp[1] >= ep) return(0); len = ntohl(dp[1]); if (len >= length) return(0); /* * skip past the ar_verf credentials. */ dp += (len + (2*sizeof(u_int32) + 3)) / sizeof(u_int32); if (dp >= ep) return(0); /* * now we can check the ar_stat field */ astat = ntohl(*(enum accept_stat *)dp); switch (astat) { case SUCCESS: break; case PROG_UNAVAIL: printf(" PROG_UNAVAIL"); return(0); case PROG_MISMATCH: printf(" PROG_MISMATCH"); return(0); case PROC_UNAVAIL: printf(" PROC_UNAVAIL"); return(0); case GARBAGE_ARGS: printf(" GARBAGE_ARGS"); return(0); case SYSTEM_ERR: printf(" SYSTEM_ERR"); return(0); default: printf(" ar_stat %d", astat); return(0); } /* successful return */ if ((sizeof(astat) + ((char *)dp)) < (char *)ep) return((u_int32 *) (sizeof(astat) + ((char *)dp))); return (0); } #define T2CHECK(p, l) if ((u_char *)(p) > ((u_char *)snapend) - l) return(0) /* * Not all systems have strerror(). */ static char * strerr(int errno) { return (strerror(errno)); } static const u_int32 * parsestatus(const u_int32 *dp, int *er) { int errno; T2CHECK(dp, 4); errno = ntohl(dp[0]); if (er) *er = errno; if (errno != 0 && !qflag) { char *errmsg; errmsg = strerr(errno); if (errmsg) printf(" ERROR: '%s'", errmsg); else printf(" ERROR: %d", errno); } return (dp + 1); } static const u_int32 * parsefattr(const u_int32 *dp, int verbose, int v3) { const struct nfs_fattr *fap; T2CHECK(dp, 5 * sizeof(*dp)); fap = (const struct nfs_fattr *)dp; if (verbose) { printf(" %s %o ids %d/%d", tok2str(type2str, "unk-ft %d ", ntohl(fap->fa_type)), ntohl(fap->fa_mode), ntohl(fap->fa_uid), ntohl(fap->fa_gid)); if (v3) { T2CHECK(dp, 7 * sizeof(*dp)); printf(" sz "); print_int64((u_int32 *)&fap->fa3_size, UNSIGNED); putchar(' '); } else { T2CHECK(dp, 6 * sizeof(*dp)); printf(" sz %d ", ntohl(fap->fa2_size)); } } /* print lots more stuff */ if (verbose > 1) { if (v3) { T2CHECK(dp, 64); printf("nlink %d rdev %d/%d ", ntohl(fap->fa_nlink), ntohl(fap->fa3_rdev.specdata1), ntohl(fap->fa3_rdev.specdata2)); printf("fsid "); print_int64((u_int32 *)&fap->fa2_fsid, HEX); printf(" nodeid "); print_int64((u_int32 *)&fap->fa2_fileid, HEX); printf(" a/m/ctime %u.%06u ", ntohl(fap->fa3_atime.nfsv3_sec), ntohl(fap->fa3_atime.nfsv3_nsec)); printf("%u.%06u ", ntohl(fap->fa3_mtime.nfsv3_sec), ntohl(fap->fa3_mtime.nfsv3_nsec)); printf("%u.%06u ", ntohl(fap->fa3_ctime.nfsv3_sec), ntohl(fap->fa3_ctime.nfsv3_nsec)); } else { T2CHECK(dp, 48); printf("nlink %d rdev %x fsid %x nodeid %x a/m/ctime ", ntohl(fap->fa_nlink), ntohl(fap->fa2_rdev), ntohl(fap->fa2_fsid), ntohl(fap->fa2_fileid)); printf("%u.%06u ", ntohl(fap->fa2_atime.nfsv2_sec), ntohl(fap->fa2_atime.nfsv2_usec)); printf("%u.%06u ", ntohl(fap->fa2_mtime.nfsv2_sec), ntohl(fap->fa2_mtime.nfsv2_usec)); printf("%u.%06u ", ntohl(fap->fa2_ctime.nfsv2_sec), ntohl(fap->fa2_ctime.nfsv2_usec)); } } return ((const u_int32 *)((unsigned char *)dp + (v3 ? NFSX_V3FATTR : NFSX_V2FATTR))); } static int parseattrstat(const u_int32 *dp, int verbose, int v3) { int er; dp = parsestatus(dp, &er); if (dp == NULL || er) return (0); return ((long)parsefattr(dp, verbose, v3)); } static int parsediropres(const u_int32 *dp) { int er; if (!(dp = parsestatus(dp, &er)) || er) return (0); dp = parsefh(dp, 0); if (dp == NULL) return (0); return (parsefattr(dp, vflag, 0) != NULL); } static int parselinkres(const u_int32 *dp, int v3) { int er; dp = parsestatus(dp, &er); if (dp == NULL || er) return(0); if (v3 && !(dp = parse_post_op_attr(dp, vflag))) return (0); putchar(' '); return (parsefn(dp) != NULL); } static int parsestatfs(const u_int32 *dp, int v3) { const struct nfs_statfs *sfsp; int er; dp = parsestatus(dp, &er); if (dp == NULL || (!v3 && er)) return(0); if (qflag) return(1); if (v3) { if (vflag) printf(" POST:"); if (!(dp = parse_post_op_attr(dp, vflag))) return (0); } T2CHECK(dp, (v3 ? NFSX_V3STATFS : NFSX_V2STATFS)); sfsp = (const struct nfs_statfs *)dp; if (v3) { printf(" tbytes "); print_int64((u_int32 *)&sfsp->sf_tbytes, UNSIGNED); printf(" fbytes "); print_int64((u_int32 *)&sfsp->sf_fbytes, UNSIGNED); printf(" abytes "); print_int64((u_int32 *)&sfsp->sf_abytes, UNSIGNED); if (vflag) { printf(" tfiles "); print_int64((u_int32 *)&sfsp->sf_tfiles, UNSIGNED); printf(" ffiles "); print_int64((u_int32 *)&sfsp->sf_ffiles, UNSIGNED); printf(" afiles "); print_int64((u_int32 *)&sfsp->sf_afiles, UNSIGNED); printf(" invar %lu", ntohl(sfsp->sf_invarsec)); } } else { printf(" tsize %d bsize %d blocks %d bfree %d bavail %d", ntohl(sfsp->sf_tsize), ntohl(sfsp->sf_bsize), ntohl(sfsp->sf_blocks), ntohl(sfsp->sf_bfree), ntohl(sfsp->sf_bavail)); } return (1); } static int parserddires(const u_int32 *dp) { int er; dp = parsestatus(dp, &er); if (dp == 0 || er) return (0); if (qflag) return (1); T2CHECK(dp, 12); printf(" offset %x size %d ", ntohl(dp[0]), ntohl(dp[1])); if (dp[2] != 0) printf("eof"); return (1); } static const u_int32 * parse_wcc_attr(const u_int32 *dp) { printf(" sz "); print_int64(dp, UNSIGNED); printf(" mtime %u.%06u ctime %u.%06u", ntohl(dp[2]), ntohl(dp[3]), ntohl(dp[4]), ntohl(dp[5])); return (dp + 6); } /* * Pre operation attributes. Print only if vflag > 1. */ static const u_int32 * parse_pre_op_attr(const u_int32 *dp, int verbose) { T2CHECK(dp, 4); if (!ntohl(dp[0])) return (dp + 1); dp++; T2CHECK(dp, 24); if (verbose > 1) { return parse_wcc_attr(dp); } else { /* If not verbose enough, just skip over wcc_attr */ return (dp + 6); } } /* * Post operation attributes are printed if vflag >= 1 */ static const u_int32 * parse_post_op_attr(const u_int32 *dp, int verbose) { T2CHECK(dp, 4); if (!ntohl(dp[0])) return (dp + 1); dp++; if (verbose) { return parsefattr(dp, verbose, 1); } else return (dp + (NFSX_V3FATTR / sizeof (u_int32))); } static const u_int32 * parse_wcc_data(const u_int32 *dp, int verbose) { if (verbose > 1) printf(" PRE:"); if (!(dp = parse_pre_op_attr(dp, verbose))) return (0); if (verbose) printf(" POST:"); return parse_post_op_attr(dp, verbose); } static const u_int32 * parsecreateopres(const u_int32 *dp, int verbose) { int er; if (!(dp = parsestatus(dp, &er))) return (0); if (er) dp = parse_wcc_data(dp, verbose); else { T2CHECK(dp, 4); if (!ntohl(dp[0])) return (dp + 1); dp++; if (!(dp = parsefh(dp, 1))) return (0); if (verbose) { if (!(dp = parse_post_op_attr(dp, verbose))) return (0); if (vflag > 1) { printf("dir attr:"); dp = parse_wcc_data(dp, verbose); } } } return (dp); } static int parsewccres(const u_int32 *dp, int verbose) { int er; if (!(dp = parsestatus(dp, &er))) return (0); return parse_wcc_data(dp, verbose) != 0; } static const u_int32 * parsev3rddirres(const u_int32 *dp, int verbose) { int er; if (!(dp = parsestatus(dp, &er))) return (0); if (vflag) printf(" POST:"); if (!(dp = parse_post_op_attr(dp, verbose))) return (0); if (er) return dp; if (vflag) { T2CHECK(dp, 8); printf(" verf %08lx%08lx", dp[0], dp[1]); dp += 2; } return dp; } static int parsefsinfo(const u_int32 *dp) { struct nfsv3_fsinfo *sfp; int er; if (!(dp = parsestatus(dp, &er))) return (0); if (vflag) printf(" POST:"); if (!(dp = parse_post_op_attr(dp, vflag))) return (0); if (er) return (1); T2CHECK(dp, sizeof (struct nfsv3_fsinfo)); sfp = (struct nfsv3_fsinfo *)dp; printf(" rtmax %lu rtpref %lu wtmax %lu wtpref %lu dtpref %lu", ntohl(sfp->fs_rtmax), ntohl(sfp->fs_rtpref), ntohl(sfp->fs_wtmax), ntohl(sfp->fs_wtpref), ntohl(sfp->fs_dtpref)); if (vflag) { printf(" rtmult %lu wtmult %lu maxfsz ", ntohl(sfp->fs_rtmult), ntohl(sfp->fs_wtmult)); print_int64((u_int32 *)&sfp->fs_maxfilesize, UNSIGNED); printf(" delta %u.%06u ", ntohl(sfp->fs_timedelta.nfsv3_sec), ntohl(sfp->fs_timedelta.nfsv3_nsec)); } return (1); } static int parsepathconf(const u_int32 *dp) { int er; struct nfsv3_pathconf *spp; if (!(dp = parsestatus(dp, &er))) return (0); if (vflag) printf(" POST:"); if (!(dp = parse_post_op_attr(dp, vflag))) return (0); if (er) return (1); T2CHECK(dp, sizeof (struct nfsv3_pathconf)); spp = (struct nfsv3_pathconf *)dp; printf(" linkmax %lu namemax %lu %s %s %s %s", ntohl(spp->pc_linkmax), ntohl(spp->pc_namemax), ntohl(spp->pc_notrunc) ? "notrunc" : "", ntohl(spp->pc_chownrestricted) ? "chownres" : "", ntohl(spp->pc_caseinsensitive) ? "igncase" : "", ntohl(spp->pc_casepreserving) ? "keepcase" : ""); return (0); } static void interp_reply(const struct rpc_msg *rp, u_int32 proc, u_int32 vers, int length) { register const u_int32 *dp; register int v3; register const u_char *ep = snapend; int er; v3 = (vers == NFS_VER3); if (!v3 && proc < NFS_NPROCS) proc = nfsv3_procid[proc]; switch (proc) { case NFSPROC_NOOP: printf(" nop"); return; case NFSPROC_NULL: printf(" null"); return; case NFSPROC_GETATTR: printf(" getattr"); dp = parserep(rp, length); if (dp != 0 && parseattrstat(dp, !qflag, v3) != 0) return; break; case NFSPROC_SETATTR: printf(" setattr"); if (!(dp = parserep(rp, length))) return; if (v3) { if (parsewccres(dp, vflag)) return; } else { if (parseattrstat(dp, !qflag, 0) != 0) return; } break; case NFSPROC_LOOKUP: printf(" lookup"); if (!(dp = parserep(rp, length))) break; if (v3) { if (!(dp = parsestatus(dp, &er))) break; if (er) { if (vflag > 1) { printf(" post dattr:"); dp = parse_post_op_attr(dp, vflag); } } else { if (!(dp = parsefh(dp, v3))) break; if ((dp = parse_post_op_attr(dp, vflag)) && vflag > 1) { printf(" post dattr:"); dp = parse_post_op_attr(dp, vflag); } } if (dp) return; } else { if (parsediropres(dp) != 0) return; } break; case NFSPROC_ACCESS: printf(" access"); dp = parserep(rp, length); if (!(dp = parsestatus(dp, &er))) break; if (vflag) printf(" attr:"); if (!(dp = parse_post_op_attr(dp, vflag))) break; if (!er) printf(" c %04x", ntohl(dp[0])); return; case NFSPROC_READLINK: printf(" readlink"); dp = parserep(rp, length); if (dp != 0 && parselinkres(dp, v3) != 0) return; break; case NFSPROC_READ: printf(" read"); if (!(dp = parserep(rp, length))) break; if (v3) { if (!(dp = parsestatus(dp, &er))) break; if (!(dp = parse_post_op_attr(dp, vflag))) break; if (er) return; if (vflag) { TCHECK(dp, 8); printf("%lu bytes", ntohl(dp[0])); if (ntohl(dp[1])) printf(" EOF"); } return; } else { if (parseattrstat(dp, vflag, 0) != 0) return; } break; case NFSPROC_WRITE: printf(" write"); if (!(dp = parserep(rp, length))) break; if (v3) { if (!(dp = parsestatus(dp, &er))) break; if (!(dp = parse_wcc_data(dp, vflag))) break; if (er) return; if (vflag) { TCHECK(dp, 4); printf("%lu bytes", ntohl(dp[0])); if (vflag > 1) { TCHECK(dp, 4); printf(" <%s>", nfsv3_writemodes[ntohl(dp[1])]); } return; } } else { if (parseattrstat(dp, vflag, v3) != 0) return; } break; case NFSPROC_CREATE: printf(" create"); if (!(dp = parserep(rp, length))) break; if (v3) { if (parsecreateopres(dp, vflag) != 0) return; } else { if (parsediropres(dp) != 0) return; } break; case NFSPROC_MKDIR: printf(" mkdir"); if (!(dp = parserep(rp, length))) break; if (v3) { if (parsecreateopres(dp, vflag) != 0) return; } else { if (parsediropres(dp) != 0) return; } break; case NFSPROC_SYMLINK: printf(" symlink"); if (!(dp = parserep(rp, length))) break; if (v3) { if (parsecreateopres(dp, vflag) != 0) return; } else { if (parsestatus(dp, &er) != 0) return; } break; case NFSPROC_MKNOD: printf(" mknod"); if (!(dp = parserep(rp, length))) break; if (parsecreateopres(dp, vflag) != 0) return; break; case NFSPROC_REMOVE: printf(" remove"); if (!(dp = parserep(rp, length))) break; if (v3) { if (parsewccres(dp, vflag)) return; } else { if (parsestatus(dp, &er) != 0) return; } break; case NFSPROC_RMDIR: printf(" rmdir"); if (!(dp = parserep(rp, length))) break; if (v3) { if (parsewccres(dp, vflag)) return; } else { if (parsestatus(dp, &er) != 0) return; } break; case NFSPROC_RENAME: printf(" rename"); if (!(dp = parserep(rp, length))) break; if (v3) { if (!(dp = parsestatus(dp, &er))) break; if (vflag) { printf(" from:"); if (!(dp = parse_wcc_data(dp, vflag))) break; printf(" to:"); if (!(dp = parse_wcc_data(dp, vflag))) break; } return; } else { if (parsestatus(dp, &er) != 0) return; } break; case NFSPROC_LINK: printf(" link"); if (!(dp = parserep(rp, length))) break; if (v3) { if (!(dp = parsestatus(dp, &er))) break; if (vflag) { printf(" file POST:"); if (!(dp = parse_post_op_attr(dp, vflag))) break; printf(" dir:"); if (!(dp = parse_wcc_data(dp, vflag))) break; return; } } else { if (parsestatus(dp, &er) != 0) return; } break; case NFSPROC_READDIR: printf(" readdir"); if (!(dp = parserep(rp, length))) break; if (v3) { if (parsev3rddirres(dp, vflag)) return; } else { if (parserddires(dp) != 0) return; } break; case NFSPROC_READDIRPLUS: printf(" readdirplus"); if (!(dp = parserep(rp, length))) break; if (parsev3rddirres(dp, vflag)) return; break; case NFSPROC_FSSTAT: printf(" fsstat"); dp = parserep(rp, length); if (dp != 0 && parsestatfs(dp, v3) != 0) return; break; case NFSPROC_FSINFO: printf(" fsinfo"); dp = parserep(rp, length); if (dp != 0 && parsefsinfo(dp) != 0) return; break; case NFSPROC_PATHCONF: printf(" pathconf"); dp = parserep(rp, length); if (dp != 0 && parsepathconf(dp) != 0) return; break; case NFSPROC_COMMIT: printf(" commit"); dp = parserep(rp, length); if (dp != 0 && parsewccres(dp, vflag) != 0) return; break; default: printf(" proc-%lu", proc); return; } fputs(" [|nfs]", stdout); }