/* * Copyright (c) 1997-1999 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. * * %W% (Berkeley) %G% * * $Id: nfs_subr.c,v 1.3 1999/01/13 23:31:00 ezk Exp $ * */ #ifdef HAVE_CONFIG_H # include #endif /* HAVE_CONFIG_H */ #include #include /* * Convert from UN*X to NFS error code. * Some systems like linux define their own (see * conf/mount/mount_linux.h). */ #ifndef nfs_error # define nfs_error(e) ((nfsstat)(e)) #endif /* nfs_error */ /* forward declarations */ static void count_map_entries(const am_node *mp, u_int *out_blocks, u_int *out_bfree, u_int *out_bavail); static char * do_readlink(am_node *mp, int *error_return, nfsattrstat **attrpp) { char *ln; /* * If there is a readlink method, then use * that, otherwise if a link exists use * that, otherwise use the mount point. */ if (mp->am_mnt->mf_ops->readlink) { int retry = 0; mp = (*mp->am_mnt->mf_ops->readlink) (mp, &retry); if (mp == 0) { *error_return = retry; return 0; } /* reschedule_timeout_mp(); */ } if (mp->am_link) { ln = mp->am_link; } else { ln = mp->am_mnt->mf_mount; } if (attrpp) *attrpp = &mp->am_attr; return ln; } voidp nfsproc_null_2_svc(voidp argp, struct svc_req *rqstp) { static char res; return (voidp) &res; } nfsattrstat * nfsproc_getattr_2_svc(am_nfs_fh *argp, struct svc_req *rqstp) { static nfsattrstat res; am_node *mp; int retry; #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "getattr:"); #endif /* DEBUG */ mp = fh_to_mp2(argp, &retry); if (mp == 0) { #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "\tretry=%d", retry); #endif /* DEBUG */ if (retry < 0) return 0; res.ns_status = nfs_error(retry); } else { nfsattrstat *attrp = &mp->am_attr; #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "\tstat(%s), size = %d", mp->am_path, (int) attrp->ns_u.ns_attr_u.na_size); #endif /* DEBUG */ mp->am_stats.s_getattr++; return attrp; } #ifndef MNT2_NFS_OPT_SYMTTL /* * This code is needed to defeat Solaris 2.4's (and newer) symlink values * cache. It forces the last-modified time of the symlink to be current. * It is not needed if the O/S has an nfs flag to turn off the * symlink-cache at mount time (such as Irix 5.x and 6.x). -Erez. */ if (++res.ns_u.ns_attr_u.na_mtime.nt_useconds == 0) ++res.ns_u.ns_attr_u.na_mtime.nt_seconds; #endif /* not MNT2_NFS_OPT_SYMTTL */ return &res; } nfsattrstat * nfsproc_setattr_2_svc(nfssattrargs *argp, struct svc_req *rqstp) { static nfsattrstat res; if (!fh_to_mp(&argp->sag_fhandle)) res.ns_status = nfs_error(ESTALE); else res.ns_status = nfs_error(EROFS); return &res; } voidp nfsproc_root_2_svc(voidp argp, struct svc_req *rqstp) { static char res; return (voidp) &res; } nfsdiropres * nfsproc_lookup_2_svc(nfsdiropargs *argp, struct svc_req *rqstp) { static nfsdiropres res; am_node *mp; int retry; #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "lookup:"); #endif /* DEBUG */ mp = fh_to_mp2(&argp->da_fhandle, &retry); if (mp == 0) { if (retry < 0) return 0; res.dr_status = nfs_error(retry); } else { int error; am_node *ap; #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "\tlookuppn(%s, %s)", mp->am_path, argp->da_name); #endif /* DEBUG */ ap = (*mp->am_mnt->mf_ops->lookuppn) (mp, argp->da_name, &error, VLOOK_CREATE); if (ap == 0) { if (error < 0) { #ifdef DEBUG dlog("Not sending RPC reply"); #endif /* DEBUG */ amd_stats.d_drops++; return 0; } res.dr_status = nfs_error(error); } else { /* * XXX: EXPERIMENTAL! Delay unmount of what was looked up. This * should reduce the chance for race condition between unmounting an * entry synchronously, and re-mounting it asynchronously. */ if (ap->am_ttl < mp->am_ttl) ap->am_ttl = mp->am_ttl; mp_to_fh(ap, &res.dr_u.dr_drok_u.drok_fhandle); res.dr_u.dr_drok_u.drok_attributes = ap->am_fattr; res.dr_status = NFS_OK; } mp->am_stats.s_lookup++; /* reschedule_timeout_mp(); */ } return &res; } void quick_reply(am_node *mp, int error) { SVCXPRT *transp = mp->am_transp; nfsdiropres res; xdrproc_t xdr_result = (xdrproc_t) xdr_diropres; /* * If there's a transp structure then we can reply to the client's * nfs lookup request. */ if (transp) { if (error == 0) { /* * Construct a valid reply to a lookup request. Same * code as in nfsproc_lookup_2_svc() above. */ mp_to_fh(mp, &res.dr_u.dr_drok_u.drok_fhandle); res.dr_u.dr_drok_u.drok_attributes = mp->am_fattr; res.dr_status = NFS_OK; } else /* * Return the error that was passed to us. */ res.dr_status = nfs_error(error); /* * Send off our reply */ if (!svc_sendreply(transp, (XDRPROC_T_TYPE) xdr_result, (SVC_IN_ARG_TYPE) & res)) svcerr_systemerr(transp); /* * Free up transp. It's only used for one reply. */ XFREE(transp); mp->am_transp = NULL; #ifdef DEBUG dlog("Quick reply sent for %s", mp->am_mnt->mf_mount); #endif /* DEBUG */ } } nfsreadlinkres * nfsproc_readlink_2_svc(am_nfs_fh *argp, struct svc_req *rqstp) { static nfsreadlinkres res; am_node *mp; int retry; #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "readlink:"); #endif /* DEBUG */ mp = fh_to_mp2(argp, &retry); if (mp == 0) { readlink_retry: if (retry < 0) return 0; res.rlr_status = nfs_error(retry); } else { char *ln = do_readlink(mp, &retry, (nfsattrstat **) 0); if (ln == 0) goto readlink_retry; res.rlr_status = NFS_OK; #ifdef DEBUG amuDebug(D_TRACE) if (ln) plog(XLOG_DEBUG, "\treadlink(%s) = %s", mp->am_path, ln); #endif /* DEBUG */ res.rlr_u.rlr_data_u = ln; mp->am_stats.s_readlink++; } return &res; } nfsreadres * nfsproc_read_2_svc(nfsreadargs *argp, struct svc_req *rqstp) { static nfsreadres res; memset((char *) &res, 0, sizeof(res)); res.rr_status = nfs_error(EACCES); return &res; } voidp nfsproc_writecache_2_svc(voidp argp, struct svc_req *rqstp) { static char res; return (voidp) &res; } nfsattrstat * nfsproc_write_2_svc(nfswriteargs *argp, struct svc_req *rqstp) { static nfsattrstat res; if (!fh_to_mp(&argp->wra_fhandle)) res.ns_status = nfs_error(ESTALE); else res.ns_status = nfs_error(EROFS); return &res; } nfsdiropres * nfsproc_create_2_svc(nfscreateargs *argp, struct svc_req *rqstp) { static nfsdiropres res; if (!fh_to_mp(&argp->ca_where.da_fhandle)) res.dr_status = nfs_error(ESTALE); else res.dr_status = nfs_error(EROFS); return &res; } static nfsstat * unlink_or_rmdir(nfsdiropargs *argp, struct svc_req *rqstp, int unlinkp) { static nfsstat res; int retry; am_node *mp = fh_to_mp3(&argp->da_fhandle, &retry, VLOOK_DELETE); if (mp == 0) { if (retry < 0) return 0; res = nfs_error(retry); goto out; } if (mp->am_fattr.na_type != NFDIR) { res = nfs_error(ENOTDIR); goto out; } #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "\tremove(%s, %s)", mp->am_path, argp->da_name); #endif /* DEBUG */ mp = (*mp->am_mnt->mf_ops->lookuppn) (mp, argp->da_name, &retry, VLOOK_DELETE); if (mp == 0) { /* * Ignore retries... */ if (retry < 0) retry = 0; /* * Usual NFS workaround... */ else if (retry == ENOENT) retry = 0; res = nfs_error(retry); } else { forcibly_timeout_mp(mp); res = NFS_OK; } out: return &res; } nfsstat * nfsproc_remove_2_svc(nfsdiropargs *argp, struct svc_req *rqstp) { return unlink_or_rmdir(argp, rqstp, TRUE); } nfsstat * nfsproc_rename_2_svc(nfsrenameargs *argp, struct svc_req *rqstp) { static nfsstat res; if (!fh_to_mp(&argp->rna_from.da_fhandle) || !fh_to_mp(&argp->rna_to.da_fhandle)) res = nfs_error(ESTALE); /* * If the kernel is doing clever things with referenced files * then let it pretend... */ else if (NSTREQ(argp->rna_to.da_name, ".nfs", 4)) res = NFS_OK; /* * otherwise a failure */ else res = nfs_error(EROFS); return &res; } nfsstat * nfsproc_link_2_svc(nfslinkargs *argp, struct svc_req *rqstp) { static nfsstat res; if (!fh_to_mp(&argp->la_fhandle) || !fh_to_mp(&argp->la_to.da_fhandle)) res = nfs_error(ESTALE); else res = nfs_error(EROFS); return &res; } nfsstat * nfsproc_symlink_2_svc(nfssymlinkargs *argp, struct svc_req *rqstp) { static nfsstat res; if (!fh_to_mp(&argp->sla_from.da_fhandle)) res = nfs_error(ESTALE); else res = nfs_error(EROFS); return &res; } nfsdiropres * nfsproc_mkdir_2_svc(nfscreateargs *argp, struct svc_req *rqstp) { static nfsdiropres res; if (!fh_to_mp(&argp->ca_where.da_fhandle)) res.dr_status = nfs_error(ESTALE); else res.dr_status = nfs_error(EROFS); return &res; } nfsstat * nfsproc_rmdir_2_svc(nfsdiropargs *argp, struct svc_req *rqstp) { return unlink_or_rmdir(argp, rqstp, FALSE); } nfsreaddirres * nfsproc_readdir_2_svc(nfsreaddirargs *argp, struct svc_req *rqstp) { static nfsreaddirres res; static nfsentry e_res[MAX_READDIR_ENTRIES]; am_node *mp; int retry; #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "readdir:"); #endif /* DEBUG */ mp = fh_to_mp2(&argp->rda_fhandle, &retry); if (mp == 0) { if (retry < 0) return 0; res.rdr_status = nfs_error(retry); } else { #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "\treaddir(%s)", mp->am_path); #endif /* DEBUG */ res.rdr_status = nfs_error((*mp->am_mnt->mf_ops->readdir) (mp, argp->rda_cookie, &res.rdr_u.rdr_reply_u, e_res, argp->rda_count)); mp->am_stats.s_readdir++; } return &res; } nfsstatfsres * nfsproc_statfs_2_svc(am_nfs_fh *argp, struct svc_req *rqstp) { static nfsstatfsres res; am_node *mp; int retry; mntent_t mnt; #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "statfs:"); #endif /* DEBUG */ mp = fh_to_mp2(argp, &retry); if (mp == 0) { if (retry < 0) return 0; res.sfr_status = nfs_error(retry); } else { nfsstatfsokres *fp; #ifdef DEBUG amuDebug(D_TRACE) plog(XLOG_DEBUG, "\tstat_fs(%s)", mp->am_path); #endif /* DEBUG */ /* * just return faked up file system information */ fp = &res.sfr_u.sfr_reply_u; fp->sfrok_tsize = 1024; fp->sfrok_bsize = 1024; /* check if map is browsable and show_statfs_entries=yes */ if ((gopt.flags & CFM_SHOW_STATFS_ENTRIES) && mp->am_mnt && mp->am_mnt->mf_mopts) { mnt.mnt_opts = mp->am_mnt->mf_mopts; if (hasmntopt(&mnt, "browsable")) { count_map_entries(mp, &fp->sfrok_blocks, &fp->sfrok_bfree, &fp->sfrok_bavail); } } else { fp->sfrok_blocks = 0; /* set to 1 if you don't want empty automounts */ fp->sfrok_bfree = 0; fp->sfrok_bavail = 0; } res.sfr_status = NFS_OK; mp->am_stats.s_statfs++; } return &res; } /* * count how many total entries there are in a map, and how many * of them are in use. */ static void count_map_entries(const am_node *mp, u_int *out_blocks, u_int *out_bfree, u_int *out_bavail) { u_int blocks, bfree, bavail, i; mntfs *mf; mnt_map *mmp; kv *k; blocks = bfree = bavail = 0; if (!mp) goto out; mf = mp->am_mnt; if (!mf) goto out; mmp = (mnt_map *) mf->mf_private; if (!mmp) goto out; /* iterate over keys */ for (i = 0; i < NKVHASH; i++) { for (k = mmp->kvhash[i]; k ; k = k->next) { if (!k->key) continue; blocks++; /* * XXX: Need to count how many are actively in use and recompute * bfree and bavail based on it. */ } } out: *out_blocks = blocks; *out_bfree = bfree; *out_bavail = bavail; }