/* * 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/restart.c * */ #ifdef HAVE_CONFIG_H # include #endif /* HAVE_CONFIG_H */ #include #include static void restart_fake_mntfs(mntent_t *me, am_ops *fs_ops) { mntfs *mf; am_opts mo; char *cp; /* * Partially fake up an opts structure */ memset(&mo, 0, sizeof(mo)); mo.opt_rhost = 0; mo.opt_rfs = 0; cp = strchr(me->mnt_fsname, ':'); if (cp) { *cp = '\0'; mo.opt_rhost = strdup(me->mnt_fsname); mo.opt_rfs = strdup(cp + 1); *cp = ':'; } else if (STREQ(me->mnt_type, MNTTAB_TYPE_NFS)) { /* * Hacky workaround for mnttab NFS entries that only list the server */ plog(XLOG_WARNING, "NFS server entry assumed to be %s:/", me->mnt_fsname); mo.opt_rhost = strdup(me->mnt_fsname); mo.opt_rfs = strdup("/"); me->mnt_fsname = str3cat(me->mnt_fsname, mo.opt_rhost, ":", "/"); } mo.opt_fs = me->mnt_dir; mo.opt_opts = me->mnt_opts; /* * Make a new mounted filesystem */ mf = find_mntfs(fs_ops, &mo, me->mnt_dir, me->mnt_fsname, "", me->mnt_opts, ""); if (mf->mf_refc == 1) { mf->mf_flags |= MFF_RESTART | MFF_MOUNTED; mf->mf_error = 0; /* Already mounted correctly */ mf->mf_fo = 0; /* * Only timeout non-NFS entries */ if (!STREQ(me->mnt_type, MNTTAB_TYPE_NFS)) mf->mf_flags |= MFF_RSTKEEP; if (fs_ops->fs_init) { /* * Don't care whether this worked since * it is checked again when the fs is * inherited. */ (void) (*fs_ops->fs_init) (mf); } plog(XLOG_INFO, "%s restarted fstype %s on %s, flags 0x%x", me->mnt_fsname, fs_ops->fs_type, me->mnt_dir, mf->mf_flags); } else { /* Something strange happened - two mounts at the same place! */ free_mntfs(mf); } /* * Clean up mo */ if (mo.opt_rhost) XFREE(mo.opt_rhost); if (mo.opt_rfs) XFREE(mo.opt_rfs); } /* * Handle an amd restart. * * Scan through the mount list finding all "interesting" mount points. * Next hack up partial data structures and add the mounted file * system to the list of known filesystems. * * This module relies on internal details of other components. If * you change something else make *sure* restart() still works. */ void restart(void) { mntlist *ml, *mlp; /* * Read the existing mount table. For each entry, find nfs, ufs or auto * mounts and create a partial am_node to represent it. */ for (mlp = ml = read_mtab("restart", mnttab_file_name); mlp; mlp = mlp->mnext) { mntent_t *me = mlp->mnt; am_ops *fs_ops = 0; if (STREQ(me->mnt_type, MNTTAB_TYPE_NFS)) { /* * NFS entry, or possibly an Amd entry... * The mnt_fsname for daemon mount points is * host:(pidXXX) * or (seen on Solaris) * host:daemon(pidXXX) */ char *colon = strchr(me->mnt_fsname, ':'); if (colon && strstr(colon, "(pid")) continue; } /* Search for the correct filesystem ops */ fs_ops = ops_search(me->mnt_type); /* * Catch everything else with symlinks to * avoid recursive mounts. This is debatable... */ if (!fs_ops) fs_ops = &amfs_link_ops; restart_fake_mntfs(me, fs_ops); } /* * Free the mount list */ free_mntlist(ml); } /* * Handle an amd restart for amd's own mount points. * * Scan through the mount list finding all daemon mount points * (determined by the presence of a pid inside the mount info). * Next hack up partial data structures and add the mounted file * system to the list of known filesystems. * * This module relies on internal details of other components. If * you change something else make *sure* restart() still works. */ void restart_automounter_nodes(void) { mntlist *ml, *mlp; /* reasonably sized list of restarted nfs ports */ u_short old_ports[256]; memset((voidp) &old_ports, 0, sizeof(u_short) * 256); /* * Read the existing mount table. For each entry, find nfs, ufs or auto * mounts and create a partial am_node to represent it. */ for (mlp = ml = read_mtab("restart", mnttab_file_name); mlp; mlp = mlp->mnext) { mntent_t *me = mlp->mnt; am_ops *fs_ops = 0; char *colon; long pid; u_short port; int err; if (!STREQ(me->mnt_type, MNTTAB_TYPE_NFS)) continue; /* to next mlp */ /* * NFS entry, or possibly an Amd entry... * The mnt_fsname for daemon mount points is * host:(pidXXX) * or (seen on Solaris) * host:daemon(pidXXX) */ colon = strchr(me->mnt_fsname, ':'); if (!colon || !strstr(colon, "(pid")) continue; /* if got here, then we matched an existing Amd mount point */ err = 1; plog(XLOG_WARNING, "%s is an existing automount point", me->mnt_dir); /* Is the old automounter still alive? */ if (sscanf(colon, "%*[^(](pid%ld%*[,)]", &pid) != 1) { plog(XLOG_WARNING, "Can't parse pid in %s", me->mnt_fsname); goto give_up; } if (kill(pid, 0) != -1 || errno != ESRCH) { plog(XLOG_WARNING, "Automounter (pid: %ld) still alive", pid); goto give_up; } /* * Do we have a map for this mount point? Who cares, we'll restart * anyway -- getting ESTALE is way better than hanging. */ /* Can we restart it? Only if it tells us what port it was using... */ if (sscanf(colon, "%*[^,],port%hu)", &port) != 1) { plog(XLOG_WARNING, "No port specified for %s", me->mnt_fsname); goto give_up; } /* Maybe we already own that port... */ if (port != nfs_port) { int i; for (i = 0; i < 256; i++) { if (old_ports[i] == port || old_ports[i] == 0) break; } if (i == 256) { plog(XLOG_WARNING, "Too many open ports (256)"); goto give_up; } if (old_ports[i] == 0) { int soNFS; SVCXPRT *nfsxprt; if (create_nfs_service(&soNFS, &port, &nfsxprt, nfs_program_2) != 0) { plog(XLOG_WARNING, "Can't bind to port %u", port); goto give_up; } old_ports[i] = nfs_port = port; } } err = 0; give_up: if (err) { plog(XLOG_WARNING, "Can't restart %s, leaving it alone", me->mnt_dir); fs_ops = &amfs_link_ops; } else { fs_ops = &amfs_toplvl_ops; } restart_fake_mntfs(me, fs_ops); } /* end of "for (mlp" */ /* free the mount list */ free_mntlist(ml); }