/* * Copyright (c) 1997-2006 Erez Zadok * Copyright (c) 1990 Jan-Simon Pendry * Copyright (c) 1990 Imperial College of Science, Technology & Medicine * Copyright (c) 1990 The Regents of the University of California. * All rights reserved. * * This code is derived from software contributed to Berkeley by * Jan-Simon Pendry at Imperial College, London. * * 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. All advertising materials mentioning features or use of this software * must display the following acknowledgment: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. 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. * * * File: am-utils/amd/srvr_nfs.c * */ /* * NFS server modeling */ #ifdef HAVE_CONFIG_H # include #endif /* HAVE_CONFIG_H */ #include #include /* * Number of pings allowed to fail before host is declared down * - three-fifths of the allowed mount time... */ #define MAX_ALLOWED_PINGS (3 + /* for luck ... */ 1) /* * How often to ping when starting a new server */ #define FAST_NFS_PING 3 #if (FAST_NFS_PING * MAX_ALLOWED_PINGS) >= ALLOWED_MOUNT_TIME # error: sanity check failed in srvr_nfs.c /* * you cannot do things this way... * sufficient fast pings must be given the chance to fail * within the allowed mount time */ #endif /* (FAST_NFS_PING * MAX_ALLOWED_PINGS) >= ALLOWED_MOUNT_TIME */ /* structures and typedefs */ typedef struct nfs_private { u_short np_mountd; /* Mount daemon port number */ char np_mountd_inval; /* Port *may* be invalid */ int np_ping; /* Number of failed ping attempts */ time_t np_ttl; /* Time when server is thought dead */ int np_xid; /* RPC transaction id for pings */ int np_error; /* Error during portmap request */ } nfs_private; /* globals */ qelem nfs_srvr_list = {&nfs_srvr_list, &nfs_srvr_list}; /* statics */ static int global_xid; /* For NFS pings */ #define XID_ALLOC() (++global_xid) #ifdef HAVE_FS_NFS3 # define NUM_NFS_VERS 2 #else /* not HAVE_FS_NFS3 */ # define NUM_NFS_VERS 1 #endif /* not HAVE_FS_NFS3 */ static int ping_len[NUM_NFS_VERS]; static char ping_buf[NUM_NFS_VERS][sizeof(struct rpc_msg) + 32]; #if defined(MNTTAB_OPT_PROTO) || defined(HAVE_FS_NFS3) /* * Protocols we know about, in order of preference. * * Note that Solaris 8 and newer NetBSD systems are switching to UDP first, * so this order may have to be adjusted for Amd in the future once more * vendors make that change. -Erez 11/24/2000 * * Or we might simply make this is a platform-specific order. -Ion 09/13/2003 */ static char *protocols[] = { "tcp", "udp", NULL }; #endif /* defined(MNTTAB_OPT_PROTO) || defined(HAVE_FS_NFS3) */ /* forward definitions */ static void nfs_keepalive(voidp); /* * Flush cached data for an fserver (or for all, if fs==NULL) */ void flush_srvr_nfs_cache(fserver *fs) { fserver *fs2 = NULL; ITER(fs2, fserver, &nfs_srvr_list) { if (fs == NULL || fs == fs2) { nfs_private *np = (nfs_private *) fs2->fs_private; if (np) { np->np_mountd_inval = TRUE; np->np_error = -1; } } } } /* * Startup the NFS ping for a particular version. */ static void create_ping_payload(u_long nfs_version) { XDR ping_xdr; struct rpc_msg ping_msg; /* * Non nfs mounts like /afs/glue.umd.edu have ended up here. */ if (nfs_version == 0) { nfs_version = NFS_VERSION; plog(XLOG_WARNING, "create_ping_payload: nfs_version = 0, changed to 2"); } else plog(XLOG_INFO, "create_ping_payload: nfs_version: %d", (int) nfs_version); rpc_msg_init(&ping_msg, NFS_PROGRAM, nfs_version, NFSPROC_NULL); /* * Create an XDR endpoint */ xdrmem_create(&ping_xdr, ping_buf[nfs_version - NFS_VERSION], sizeof(ping_buf[0]), XDR_ENCODE); /* * Create the NFS ping message */ if (!xdr_callmsg(&ping_xdr, &ping_msg)) { plog(XLOG_ERROR, "Couldn't create ping RPC message"); going_down(3); } /* * Find out how long it is */ ping_len[nfs_version - NFS_VERSION] = xdr_getpos(&ping_xdr); /* * Destroy the XDR endpoint - we don't need it anymore */ xdr_destroy(&ping_xdr); } /* * Called when a portmap reply arrives */ static void got_portmap(voidp pkt, int len, struct sockaddr_in *sa, struct sockaddr_in *ia, voidp idv, int done) { fserver *fs2 = (fserver *) idv; fserver *fs = 0; /* * Find which fileserver we are talking about */ ITER(fs, fserver, &nfs_srvr_list) if (fs == fs2) break; if (fs == fs2) { u_long port = 0; /* XXX - should be short but protocol is naff */ int error = done ? pickup_rpc_reply(pkt, len, (voidp) &port, (XDRPROC_T_TYPE) xdr_u_long) : -1; nfs_private *np = (nfs_private *) fs->fs_private; if (!error && port) { dlog("got port (%d) for mountd on %s", (int) port, fs->fs_host); /* * Grab the port number. Portmap sends back * an u_long in native ordering, so it * needs converting to a u_short in * network ordering. */ np->np_mountd = htons((u_short) port); np->np_mountd_inval = FALSE; np->np_error = 0; } else { dlog("Error fetching port for mountd on %s", fs->fs_host); dlog("\t error=%d, port=%d", error, (int) port); /* * Almost certainly no mountd running on remote host */ np->np_error = error ? error : ETIMEDOUT; } if (fs->fs_flags & FSF_WANT) wakeup_srvr(fs); } else if (done) { dlog("Got portmap for old port request"); } else { dlog("portmap request timed out"); } } /* * Obtain portmap information */ static int call_portmap(fserver *fs, AUTH *auth, u_long prog, u_long vers, u_long prot) { struct rpc_msg pmap_msg; int len; char iobuf[UDPMSGSIZE]; int error; struct pmap pmap; rpc_msg_init(&pmap_msg, PMAPPROG, PMAPVERS, PMAPPROC_NULL); pmap.pm_prog = prog; pmap.pm_vers = vers; pmap.pm_prot = prot; pmap.pm_port = 0; len = make_rpc_packet(iobuf, sizeof(iobuf), PMAPPROC_GETPORT, &pmap_msg, (voidp) &pmap, (XDRPROC_T_TYPE) xdr_pmap, auth); if (len > 0) { struct sockaddr_in sin; memset((voidp) &sin, 0, sizeof(sin)); sin = *fs->fs_ip; sin.sin_port = htons(PMAPPORT); error = fwd_packet(RPC_XID_PORTMAP, iobuf, len, &sin, &sin, (voidp) fs, got_portmap); } else { error = -len; } return error; } static void recompute_portmap(fserver *fs) { int error; u_long mnt_version; /* * No portmap calls for pure WebNFS servers. */ if (fs->fs_flags & FSF_WEBNFS) return; if (nfs_auth) error = 0; else error = make_nfs_auth(); if (error) { nfs_private *np = (nfs_private *) fs->fs_private; np->np_error = error; return; } if (fs->fs_version == 0) plog(XLOG_WARNING, "recompute_portmap: nfs_version = 0 fixed"); plog(XLOG_INFO, "recompute_portmap: NFS version %d on %s", (int) fs->fs_version, fs->fs_host); #ifdef HAVE_FS_NFS3 if (fs->fs_version == NFS_VERSION3) mnt_version = AM_MOUNTVERS3; else #endif /* HAVE_FS_NFS3 */ mnt_version = MOUNTVERS; plog(XLOG_INFO, "Using MOUNT version: %d", (int) mnt_version); call_portmap(fs, nfs_auth, MOUNTPROG, mnt_version, (u_long) IPPROTO_UDP); } int get_mountd_port(fserver *fs, u_short *port, wchan_t wchan) { int error = -1; if (FSRV_ISDOWN(fs)) return EWOULDBLOCK; if (FSRV_ISUP(fs)) { nfs_private *np = (nfs_private *) fs->fs_private; if (np->np_error == 0) { *port = np->np_mountd; error = 0; } else { error = np->np_error; } /* * Now go get the port mapping again in case it changed. * Note that it is used even if (np_mountd_inval) * is True. The flag is used simply as an * indication that the mountd may be invalid, not * that it is known to be invalid. */ if (np->np_mountd_inval) recompute_portmap(fs); else np->np_mountd_inval = TRUE; } if (error < 0 && wchan && !(fs->fs_flags & FSF_WANT)) { /* * If a wait channel is supplied, and no * error has yet occurred, then arrange * that a wakeup is done on the wait channel, * whenever a wakeup is done on this fs node. * Wakeup's are done on the fs node whenever * it changes state - thus causing control to * come back here and new, better things to happen. */ fs->fs_flags |= FSF_WANT; sched_task(wakeup_task, wchan, (wchan_t) fs); } return error; } /* * This is called when we get a reply to an RPC ping. * The value of id was taken from the nfs_private * structure when the ping was transmitted. */ static void nfs_keepalive_callback(voidp pkt, int len, struct sockaddr_in *sp, struct sockaddr_in *tsp, voidp idv, int done) { int xid = (long) idv; /* cast needed for 64-bit archs */ fserver *fs; int found_map = 0; if (!done) return; /* * For each node... */ ITER(fs, fserver, &nfs_srvr_list) { nfs_private *np = (nfs_private *) fs->fs_private; if (np->np_xid == xid && (fs->fs_flags & FSF_PINGING)) { /* * Reset the ping counter. * Update the keepalive timer. * Log what happened. */ if (fs->fs_flags & FSF_DOWN) { fs->fs_flags &= ~FSF_DOWN; if (fs->fs_flags & FSF_VALID) { srvrlog(fs, "is up"); } else { if (np->np_ping > 1) srvrlog(fs, "ok"); else srvrlog(fs, "starts up"); fs->fs_flags |= FSF_VALID; } map_flush_srvr(fs); } else { if (fs->fs_flags & FSF_VALID) { dlog("file server %s type nfs is still up", fs->fs_host); } else { if (np->np_ping > 1) srvrlog(fs, "ok"); fs->fs_flags |= FSF_VALID; } } /* * Adjust ping interval */ untimeout(fs->fs_cid); fs->fs_cid = timeout(fs->fs_pinger, nfs_keepalive, (voidp) fs); /* * Update ttl for this server */ np->np_ttl = clocktime(NULL) + (MAX_ALLOWED_PINGS - 1) * FAST_NFS_PING + fs->fs_pinger - 1; /* * New RPC xid... */ np->np_xid = XID_ALLOC(); /* * Failed pings is zero... */ np->np_ping = 0; /* * Recompute portmap information if not known */ if (np->np_mountd_inval) recompute_portmap(fs); found_map++; break; } } if (found_map == 0) dlog("Spurious ping packet"); } static void check_fs_addr_change(fserver *fs) { struct hostent *hp = NULL; struct in_addr ia; char *old_ipaddr, *new_ipaddr; hp = gethostbyname(fs->fs_host); if (!hp || hp->h_addrtype != AF_INET || !STREQ((char *) hp->h_name, fs->fs_host) || memcmp((voidp) &fs->fs_ip->sin_addr, (voidp) hp->h_addr, sizeof(fs->fs_ip->sin_addr)) == 0) return; /* if got here: downed server changed IP address */ old_ipaddr = strdup(inet_ntoa(fs->fs_ip->sin_addr)); memmove((voidp) &ia, (voidp) hp->h_addr, sizeof(struct in_addr)); new_ipaddr = inet_ntoa(ia); /* ntoa uses static buf */ plog(XLOG_WARNING, "EZK: down fileserver %s changed ip: %s -> %s", fs->fs_host, old_ipaddr, new_ipaddr); XFREE(old_ipaddr); /* copy new IP addr */ memmove((voidp) &fs->fs_ip->sin_addr, (voidp) hp->h_addr, sizeof(fs->fs_ip->sin_addr)); /* XXX: do we need to un/set these flags? */ fs->fs_flags &= ~FSF_DOWN; fs->fs_flags |= FSF_VALID | FSF_WANT; map_flush_srvr(fs); /* XXX: a race with flush_srvr_nfs_cache? */ flush_srvr_nfs_cache(fs); fs->fs_flags |= FSF_FORCE_UNMOUNT; #if 0 flush_nfs_fhandle_cache(fs); /* done in caller: nfs_keepalive_timeout */ /* XXX: need to purge nfs_private so that somehow it will get re-initialized? */ #endif } /* * Called when no ping-reply received */ static void nfs_keepalive_timeout(voidp v) { fserver *fs = v; nfs_private *np = (nfs_private *) fs->fs_private; /* * Another ping has failed */ np->np_ping++; if (np->np_ping > 1) srvrlog(fs, "not responding"); /* * Not known to be up any longer */ if (FSRV_ISUP(fs)) fs->fs_flags &= ~FSF_VALID; /* * If ttl has expired then guess that it is dead */ if (np->np_ttl < clocktime(NULL)) { int oflags = fs->fs_flags; dlog("ttl has expired"); if ((fs->fs_flags & FSF_DOWN) == 0) { /* * Server was up, but is now down. */ srvrlog(fs, "is down"); fs->fs_flags |= FSF_DOWN | FSF_VALID; /* * Since the server is down, the portmap * information may now be wrong, so it * must be flushed from the local cache */ flush_nfs_fhandle_cache(fs); np->np_error = -1; check_fs_addr_change(fs); /* check if IP addr of fserver changed */ } else { /* * Known to be down */ if ((fs->fs_flags & FSF_VALID) == 0) srvrlog(fs, "starts down"); fs->fs_flags |= FSF_VALID; } if (oflags != fs->fs_flags && (fs->fs_flags & FSF_WANT)) wakeup_srvr(fs); /* * Reset failed ping count */ np->np_ping = 0; } else { if (np->np_ping > 1) dlog("%d pings to %s failed - at most %d allowed", np->np_ping, fs->fs_host, MAX_ALLOWED_PINGS); } /* * New RPC xid, so any late responses to the previous ping * get ignored... */ np->np_xid = XID_ALLOC(); /* * Run keepalive again */ nfs_keepalive(fs); } /* * Keep track of whether a server is alive */ static void nfs_keepalive(voidp v) { fserver *fs = v; int error; nfs_private *np = (nfs_private *) fs->fs_private; int fstimeo = -1; /* * Send an NFS ping to this node */ if (ping_len[fs->fs_version - NFS_VERSION] == 0) create_ping_payload(fs->fs_version); /* * Queue the packet... */ error = fwd_packet(MK_RPC_XID(RPC_XID_NFSPING, np->np_xid), ping_buf[fs->fs_version - NFS_VERSION], ping_len[fs->fs_version - NFS_VERSION], fs->fs_ip, (struct sockaddr_in *) 0, (voidp) ((long) np->np_xid), /* cast needed for 64-bit archs */ nfs_keepalive_callback); /* * See if a hard error occurred */ switch (error) { case ENETDOWN: case ENETUNREACH: case EHOSTDOWN: case EHOSTUNREACH: np->np_ping = MAX_ALLOWED_PINGS; /* immediately down */ np->np_ttl = (time_t) 0; /* * This causes an immediate call to nfs_keepalive_timeout * whenever the server was thought to be up. * See +++ below. */ fstimeo = 0; break; case 0: dlog("Sent NFS ping to %s", fs->fs_host); break; } /* * Back off the ping interval if we are not getting replies and * the remote system is known to be down. */ switch (fs->fs_flags & (FSF_DOWN | FSF_VALID)) { case FSF_VALID: /* Up */ if (fstimeo < 0) /* +++ see above */ fstimeo = FAST_NFS_PING; break; case FSF_VALID | FSF_DOWN: /* Down */ fstimeo = fs->fs_pinger; break; default: /* Unknown */ fstimeo = FAST_NFS_PING; break; } dlog("NFS timeout in %d seconds", fstimeo); fs->fs_cid = timeout(fstimeo, nfs_keepalive_timeout, (voidp) fs); } static void start_nfs_pings(fserver *fs, int pingval) { if (pingval == 0) /* could be because ping mnt option not found */ pingval = AM_PINGER; /* if pings haven't been initalized, then init them for first time */ if (fs->fs_flags & FSF_PING_UNINIT) { fs->fs_flags &= ~FSF_PING_UNINIT; plog(XLOG_INFO, "initializing %s's pinger to %d sec", fs->fs_host, pingval); goto do_pings; } if ((fs->fs_flags & FSF_PINGING) && fs->fs_pinger == pingval) { dlog("already running pings to %s", fs->fs_host); return; } /* if got here, then we need to update the ping value */ plog(XLOG_INFO, "changing %s's ping value from %d%s to %d%s", fs->fs_host, fs->fs_pinger, (fs->fs_pinger < 0 ? " (off)" : ""), pingval, (pingval < 0 ? " (off)" : "")); do_pings: fs->fs_pinger = pingval; if (fs->fs_cid) untimeout(fs->fs_cid); if (pingval < 0) { srvrlog(fs, "wired up (pings disabled)"); fs->fs_flags |= FSF_VALID; fs->fs_flags &= ~FSF_DOWN; } else { fs->fs_flags |= FSF_PINGING; nfs_keepalive(fs); } } /* * Find an nfs server for a host. */ fserver * find_nfs_srvr(mntfs *mf) { char *host = mf->mf_fo->opt_rhost; fserver *fs; int pingval; mntent_t mnt; nfs_private *np; struct hostent *hp = NULL; struct sockaddr_in *ip = NULL; u_long nfs_version = 0; /* default is no version specified */ u_long best_nfs_version = 0; char *nfs_proto = NULL; /* no IP protocol either */ int nfs_port = 0; int nfs_port_opt = 0; int fserver_is_down = 0; /* * Get ping interval from mount options. * Current only used to decide whether pings * are required or not. < 0 = no pings. */ mnt.mnt_opts = mf->mf_mopts; pingval = hasmntval(&mnt, "ping"); if (mf->mf_flags & MFF_NFS_SCALEDOWN) { /* * the server granted us a filehandle, but we were unable to mount it. * therefore, scale down to NFSv2/UDP and try again. */ nfs_version = NFS_VERSION; nfs_proto = "udp"; plog(XLOG_WARNING, "find_nfs_srvr: NFS mount failed, trying again with NFSv2/UDP"); mf->mf_flags &= ~MFF_NFS_SCALEDOWN; } else { /* * Get the NFS version from the mount options. This is used * to decide the highest NFS version to try. */ #ifdef MNTTAB_OPT_VERS nfs_version = hasmntval(&mnt, MNTTAB_OPT_VERS); #endif /* MNTTAB_OPT_VERS */ #ifdef MNTTAB_OPT_PROTO { char *proto_opt = hasmnteq(&mnt, MNTTAB_OPT_PROTO); if (proto_opt) { char **p; for (p = protocols; *p; p++) if (NSTREQ(proto_opt, *p, strlen(*p))) { nfs_proto = *p; break; } if (*p == NULL) plog(XLOG_WARNING, "ignoring unknown protocol option for %s:%s", host, mf->mf_fo->opt_rfs); } } #endif /* MNTTAB_OPT_PROTO */ #ifdef HAVE_NFS_NFSV2_H /* allow overriding if nfsv2 option is specified in mount options */ if (amu_hasmntopt(&mnt, "nfsv2")) { nfs_version = NFS_VERSION;/* nullify any ``vers=X'' statements */ nfs_proto = "udp"; /* nullify any ``proto=tcp'' statements */ plog(XLOG_WARNING, "found compatibility option \"nfsv2\": set options vers=2,proto=udp for host %s", host); } #endif /* HAVE_NFS_NFSV2_H */ /* check if we've globally overridden the NFS version/protocol */ if (gopt.nfs_vers) { nfs_version = gopt.nfs_vers; plog(XLOG_INFO, "find_nfs_srvr: force NFS version to %d", (int) nfs_version); } if (gopt.nfs_proto) { nfs_proto = gopt.nfs_proto; plog(XLOG_INFO, "find_nfs_srvr: force NFS protocol transport to %s", nfs_proto); } } /* * lookup host address and canonical name */ hp = gethostbyname(host); /* * New code from Bob Harris * Use canonical name to keep track of file server * information. This way aliases do not generate * multiple NFS pingers. (Except when we're normalizing * hosts.) */ if (hp && !(gopt.flags & CFM_NORMALIZE_HOSTNAMES)) host = (char *) hp->h_name; if (hp) { switch (hp->h_addrtype) { case AF_INET: ip = ALLOC(struct sockaddr_in); memset((voidp) ip, 0, sizeof(*ip)); /* as per POSIX, sin_len need not be set (used internally by kernel) */ ip->sin_family = AF_INET; memmove((voidp) &ip->sin_addr, (voidp) hp->h_addr, sizeof(ip->sin_addr)); break; default: plog(XLOG_USER, "No IP address for host %s", host); goto no_dns; } } else { plog(XLOG_USER, "Unknown host: %s", host); goto no_dns; } /* * This may not be the best way to do things, but it really doesn't make * sense to query a file server which is marked as 'down' for any * version/proto combination. */ ITER(fs, fserver, &nfs_srvr_list) { if (FSRV_ISDOWN(fs) && STREQ(host, fs->fs_host)) { plog(XLOG_WARNING, "fileserver %s is already hung - not running NFS proto/version discovery", host); fs->fs_refc++; if (ip) XFREE(ip); return fs; } } /* * Get the NFS Version, and verify server is up. * If the client only supports NFSv2, hardcode it but still try to * contact the remote portmapper to see if the service is running. */ #ifndef HAVE_FS_NFS3 nfs_version = NFS_VERSION; nfs_proto = "udp"; plog(XLOG_INFO, "The client supports only NFS(2,udp)"); #endif /* not HAVE_FS_NFS3 */ if (amu_hasmntopt(&mnt, MNTTAB_OPT_PUBLIC)) { /* * Use WebNFS to obtain file handles. */ mf->mf_flags |= MFF_WEBNFS; plog(XLOG_INFO, "%s option used, NOT contacting the portmapper on %s", MNTTAB_OPT_PUBLIC, host); /* * Prefer NFSv3/tcp if the client supports it (cf. RFC 2054, 7). */ if (!nfs_version) { #ifdef HAVE_FS_NFS3 nfs_version = NFS_VERSION3; #else /* not HAVE_FS_NFS3 */ nfs_version = NFS_VERSION; #endif /* not HAVE_FS_NFS3 */ plog(XLOG_INFO, "No NFS version specified, will use NFSv%d", (int) nfs_version); } if (!nfs_proto) { #if defined(MNTTAB_OPT_PROTO) || defined(HAVE_FS_NFS3) nfs_proto = "tcp"; #else /* not defined(MNTTAB_OPT_PROTO) || defined(HAVE_FS_NFS3) */ nfs_proto = "udp"; #endif /* not defined(MNTTAB_OPT_PROTO) || defined(HAVE_FS_NFS3) */ plog(XLOG_INFO, "No NFS protocol transport specified, will use %s", nfs_proto); } } else { /* * Find the best combination of NFS version and protocol. * When given a choice, use the highest available version, * and use TCP over UDP if available. */ if (check_pmap_up(host, ip)) { if (nfs_proto) { best_nfs_version = get_nfs_version(host, ip, nfs_version, nfs_proto); nfs_port = ip->sin_port; } #ifdef MNTTAB_OPT_PROTO else { u_int proto_nfs_version; char **p; for (p = protocols; *p; p++) { proto_nfs_version = get_nfs_version(host, ip, nfs_version, *p); if (proto_nfs_version > best_nfs_version) { best_nfs_version = proto_nfs_version; nfs_proto = *p; nfs_port = ip->sin_port; } } } #endif /* MNTTAB_OPT_PROTO */ } else { plog(XLOG_INFO, "portmapper service not running on %s", host); } /* use the portmapper results only nfs_version is not set yet */ if (!best_nfs_version) { /* * If the NFS server is down or does not support the portmapper call * (such as certain Novell NFS servers) we mark it as version 2 and we * let the nfs code deal with the case when it is down. If/when the * server comes back up and it can support NFSv3 and/or TCP, it will * use those. */ if (nfs_version == 0) { nfs_version = NFS_VERSION; nfs_proto = "udp"; } plog(XLOG_INFO, "NFS service not running on %s", host); fserver_is_down = 1; } else { if (nfs_version == 0) nfs_version = best_nfs_version; plog(XLOG_INFO, "Using NFS version %d, protocol %s on host %s", (int) nfs_version, nfs_proto, host); } } /* * Determine the NFS port. * * A valid "port" mount option overrides anything else. * If the port has been determined from the portmapper, use that. * Default to NFS_PORT otherwise (cf. RFC 2054, 3). */ nfs_port_opt = hasmntval(&mnt, MNTTAB_OPT_PORT); if (nfs_port_opt > 0) nfs_port = htons(nfs_port_opt); if (!nfs_port) nfs_port = htons(NFS_PORT); dlog("find_nfs_srvr: using port %d for nfs on %s", (int) ntohs(nfs_port), host); ip->sin_port = nfs_port; no_dns: /* * Try to find an existing fs server structure for this host. * Note that differing versions or protocols have their own structures. * XXX: Need to fix the ping mechanism to actually use the NFS protocol * chosen here (right now it always uses datagram sockets). */ ITER(fs, fserver, &nfs_srvr_list) { if (STREQ(host, fs->fs_host) && nfs_version == fs->fs_version && STREQ(nfs_proto, fs->fs_proto)) { /* * fill in the IP address -- this is only needed * if there is a chance an IP address will change * between mounts. * Mike Mitchell, mcm@unx.sas.com, 09/08/93 */ if (hp && fs->fs_ip && memcmp((voidp) &fs->fs_ip->sin_addr, (voidp) hp->h_addr, sizeof(fs->fs_ip->sin_addr)) != 0) { struct in_addr ia; char *old_ipaddr, *new_ipaddr; old_ipaddr = strdup(inet_ntoa(fs->fs_ip->sin_addr)); memmove((voidp) &ia, (voidp) hp->h_addr, sizeof(struct in_addr)); new_ipaddr = inet_ntoa(ia); /* ntoa uses static buf */ plog(XLOG_WARNING, "fileserver %s changed ip: %s -> %s", fs->fs_host, old_ipaddr, new_ipaddr); XFREE(old_ipaddr); flush_nfs_fhandle_cache(fs); memmove((voidp) &fs->fs_ip->sin_addr, (voidp) hp->h_addr, sizeof(fs->fs_ip->sin_addr)); } /* * If the new file systems doesn't use WebNFS, the nfs pings may * try to contact the portmapper. */ if (!(mf->mf_flags & MFF_WEBNFS)) fs->fs_flags &= ~FSF_WEBNFS; /* check if pingval needs to be updated/set/reset */ start_nfs_pings(fs, pingval); /* * Following if statement from Mike Mitchell * Initialize the ping data if we aren't pinging now. The np_ttl and * np_ping fields are especially important. */ if (!(fs->fs_flags & FSF_PINGING)) { np = (nfs_private *) fs->fs_private; np->np_mountd_inval = TRUE; np->np_xid = XID_ALLOC(); np->np_error = -1; np->np_ping = 0; /* * Initially the server will be deemed dead * after MAX_ALLOWED_PINGS of the fast variety * have failed. */ np->np_ttl = MAX_ALLOWED_PINGS * FAST_NFS_PING + clocktime(NULL) - 1; start_nfs_pings(fs, pingval); if (fserver_is_down) fs->fs_flags |= FSF_VALID | FSF_DOWN; } fs->fs_refc++; if (ip) XFREE(ip); return fs; } } /* * Get here if we can't find an entry */ /* * Allocate a new server */ fs = ALLOC(struct fserver); fs->fs_refc = 1; fs->fs_host = strdup(hp ? hp->h_name : "unknown_hostname"); if (gopt.flags & CFM_NORMALIZE_HOSTNAMES) host_normalize(&fs->fs_host); fs->fs_ip = ip; fs->fs_cid = 0; if (ip) { fs->fs_flags = FSF_DOWN; /* Starts off down */ } else { fs->fs_flags = FSF_ERROR | FSF_VALID; mf->mf_flags |= MFF_ERROR; mf->mf_error = ENOENT; } if (mf->mf_flags & MFF_WEBNFS) fs->fs_flags |= FSF_WEBNFS; fs->fs_version = nfs_version; fs->fs_proto = nfs_proto; fs->fs_type = MNTTAB_TYPE_NFS; fs->fs_pinger = AM_PINGER; fs->fs_flags |= FSF_PING_UNINIT; /* pinger hasn't been initialized */ np = ALLOC(struct nfs_private); memset((voidp) np, 0, sizeof(*np)); np->np_mountd_inval = TRUE; np->np_xid = XID_ALLOC(); np->np_error = -1; /* * Initially the server will be deemed dead after * MAX_ALLOWED_PINGS of the fast variety have failed. */ np->np_ttl = clocktime(NULL) + MAX_ALLOWED_PINGS * FAST_NFS_PING - 1; fs->fs_private = (voidp) np; fs->fs_prfree = (void (*)(voidp)) free; if (!FSRV_ERROR(fs)) { /* start of keepalive timer, first updating pingval */ start_nfs_pings(fs, pingval); if (fserver_is_down) fs->fs_flags |= FSF_VALID | FSF_DOWN; } /* * Add to list of servers */ ins_que(&fs->fs_q, &nfs_srvr_list); return fs; }