/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2009 Rick Macklem, University of Guelph * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR 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 AUTHOR 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 /* * These functions implement the client side state handling for NFSv4. * NFSv4 state handling: * - A lockowner is used to determine lock contention, so it * corresponds directly to a Posix pid. (1 to 1 mapping) * - The correct granularity of an OpenOwner is not nearly so * obvious. An OpenOwner does the following: * - provides a serial sequencing of Open/Close/Lock-with-new-lockowner * - is used to check for Open/Share contention (not applicable to * this client, since all Opens are Deny_None) * As such, I considered both extreme. * 1 OpenOwner per ClientID - Simple to manage, but fully serializes * all Open, Close and Lock (with a new lockowner) Ops. * 1 OpenOwner for each Open - This one results in an OpenConfirm for * every Open, for most servers. * So, I chose to use the same mapping as I did for LockOwnwers. * The main concern here is that you can end up with multiple Opens * for the same File Handle, but on different OpenOwners (opens * inherited from parents, grandparents...) and you do not know * which of these the vnodeop close applies to. This is handled by * delaying the Close Op(s) until all of the Opens have been closed. * (It is not yet obvious if this is the correct granularity.) * - How the code handles serialization: * - For the ClientId, it uses an exclusive lock while getting its * SetClientId and during recovery. Otherwise, it uses a shared * lock via a reference count. * - For the rest of the data structures, it uses an SMP mutex * (once the nfs client is SMP safe) and doesn't sleep while * manipulating the linked lists. * - The serialization of Open/Close/Lock/LockU falls out in the * "wash", since OpenOwners and LockOwners are both mapped from * Posix pid. In other words, there is only one Posix pid using * any given owner, so that owner is serialized. (If you change * the granularity of the OpenOwner, then code must be added to * serialize Ops on the OpenOwner.) * - When to get rid of OpenOwners and LockOwners. * - The function nfscl_cleanup_common() is executed after a process exits. * It goes through the client list looking for all Open and Lock Owners. * When one is found, it is marked "defunct" or in the case of * an OpenOwner without any Opens, freed. * The renew thread scans for defunct Owners and gets rid of them, * if it can. The LockOwners will also be deleted when the * associated Open is closed. * - If the LockU or Close Op(s) fail during close in a way * that could be recovered upon retry, they are relinked to the * ClientId's defunct open list and retried by the renew thread * until they succeed or an unmount/recovery occurs. * (Since we are done with them, they do not need to be recovered.) */ #include /* * Global variables */ extern struct nfsstatsv1 nfsstatsv1; extern struct nfsreqhead nfsd_reqq; extern u_int32_t newnfs_false, newnfs_true; extern int nfscl_debuglevel; extern int nfscl_enablecallb; extern int nfs_numnfscbd; NFSREQSPINLOCK; NFSCLSTATEMUTEX; int nfscl_inited = 0; struct nfsclhead nfsclhead; /* Head of clientid list */ int nfscl_deleghighwater = NFSCLDELEGHIGHWATER; int nfscl_layouthighwater = NFSCLLAYOUTHIGHWATER; static int nfscl_delegcnt = 0; static int nfscl_layoutcnt = 0; static int nfscl_getopen(struct nfsclownerhead *, struct nfsclopenhash *, u_int8_t *, int, u_int8_t *, u_int8_t *, u_int32_t, struct nfscllockowner **, struct nfsclopen **); static bool nfscl_checkown(struct nfsclowner *, struct nfsclopen *, uint8_t *, uint8_t *, struct nfscllockowner **, struct nfsclopen **, struct nfsclopen **); static void nfscl_clrelease(struct nfsclclient *); static void nfscl_unlinkopen(struct nfsclopen *); static void nfscl_cleanclient(struct nfsclclient *); static void nfscl_expireclient(struct nfsclclient *, struct nfsmount *, struct ucred *, NFSPROC_T *); static int nfscl_expireopen(struct nfsclclient *, struct nfsclopen *, struct nfsmount *, struct ucred *, NFSPROC_T *); static void nfscl_recover(struct nfsclclient *, bool *, struct ucred *, NFSPROC_T *); static void nfscl_insertlock(struct nfscllockowner *, struct nfscllock *, struct nfscllock *, int); static int nfscl_updatelock(struct nfscllockowner *, struct nfscllock **, struct nfscllock **, int); static void nfscl_delegreturnall(struct nfsclclient *, NFSPROC_T *, struct nfscldeleghead *); static u_int32_t nfscl_nextcbident(void); static mount_t nfscl_getmnt(int, uint8_t *, u_int32_t, struct nfsclclient **); static struct nfsclclient *nfscl_getclnt(u_int32_t); static struct nfsclclient *nfscl_getclntsess(uint8_t *); static struct nfscldeleg *nfscl_finddeleg(struct nfsclclient *, u_int8_t *, int); static void nfscl_retoncloselayout(vnode_t, struct nfsclclient *, uint8_t *, int, struct nfsclrecalllayout **, struct nfscllayout **); static void nfscl_reldevinfo_locked(struct nfscldevinfo *); static struct nfscllayout *nfscl_findlayout(struct nfsclclient *, u_int8_t *, int); static struct nfscldevinfo *nfscl_finddevinfo(struct nfsclclient *, uint8_t *); static int nfscl_checkconflict(struct nfscllockownerhead *, struct nfscllock *, u_int8_t *, struct nfscllock **); static void nfscl_freealllocks(struct nfscllockownerhead *, int); static int nfscl_localconflict(struct nfsclclient *, u_int8_t *, int, struct nfscllock *, u_int8_t *, struct nfscldeleg *, struct nfscllock **); static void nfscl_newopen(struct nfsclclient *, struct nfscldeleg *, struct nfsclowner **, struct nfsclowner **, struct nfsclopen **, struct nfsclopen **, u_int8_t *, u_int8_t *, int, struct ucred *, int *); static int nfscl_moveopen(vnode_t , struct nfsclclient *, struct nfsmount *, struct nfsclopen *, struct nfsclowner *, struct nfscldeleg *, struct ucred *, NFSPROC_T *); static void nfscl_totalrecall(struct nfsclclient *); static int nfscl_relock(vnode_t , struct nfsclclient *, struct nfsmount *, struct nfscllockowner *, struct nfscllock *, struct ucred *, NFSPROC_T *); static int nfscl_tryopen(struct nfsmount *, vnode_t , u_int8_t *, int, u_int8_t *, int, u_int32_t, struct nfsclopen *, u_int8_t *, int, struct nfscldeleg **, int, u_int32_t, struct ucred *, NFSPROC_T *); static int nfscl_trylock(struct nfsmount *, vnode_t , u_int8_t *, int, struct nfscllockowner *, int, int, u_int64_t, u_int64_t, short, struct ucred *, NFSPROC_T *); static int nfsrpc_reopen(struct nfsmount *, u_int8_t *, int, u_int32_t, struct nfsclopen *, struct nfscldeleg **, struct ucred *, NFSPROC_T *); static void nfscl_freedeleg(struct nfscldeleghead *, struct nfscldeleg *, bool); static int nfscl_errmap(struct nfsrv_descript *, u_int32_t); static void nfscl_cleanup_common(struct nfsclclient *, u_int8_t *); static int nfscl_recalldeleg(struct nfsclclient *, struct nfsmount *, struct nfscldeleg *, vnode_t, struct ucred *, NFSPROC_T *, int, vnode_t *); static void nfscl_freeopenowner(struct nfsclowner *, int); static void nfscl_cleandeleg(struct nfscldeleg *); static int nfscl_trydelegreturn(struct nfscldeleg *, struct ucred *, struct nfsmount *, NFSPROC_T *); static void nfscl_emptylockowner(struct nfscllockowner *, struct nfscllockownerfhhead *); static void nfscl_mergeflayouts(struct nfsclflayouthead *, struct nfsclflayouthead *); static int nfscl_layoutrecall(int, struct nfscllayout *, uint32_t, uint64_t, uint64_t, uint32_t, uint32_t, uint32_t, char *, struct nfsclrecalllayout *); static int nfscl_seq(uint32_t, uint32_t); static void nfscl_layoutreturn(struct nfsmount *, struct nfscllayout *, struct ucred *, NFSPROC_T *); static void nfscl_dolayoutcommit(struct nfsmount *, struct nfscllayout *, struct ucred *, NFSPROC_T *); static short nfscberr_null[] = { 0, 0, }; static short nfscberr_getattr[] = { NFSERR_RESOURCE, NFSERR_BADHANDLE, NFSERR_BADXDR, NFSERR_RESOURCE, NFSERR_SERVERFAULT, 0, }; static short nfscberr_recall[] = { NFSERR_RESOURCE, NFSERR_BADHANDLE, NFSERR_BADSTATEID, NFSERR_BADXDR, NFSERR_RESOURCE, NFSERR_SERVERFAULT, 0, }; static short *nfscl_cberrmap[] = { nfscberr_null, nfscberr_null, nfscberr_null, nfscberr_getattr, nfscberr_recall }; #define NETFAMILY(clp) \ (((clp)->nfsc_flags & NFSCLFLAGS_AFINET6) ? AF_INET6 : AF_INET) /* * Called for an open operation. * If the nfhp argument is NULL, just get an openowner. */ int nfscl_open(vnode_t vp, u_int8_t *nfhp, int fhlen, u_int32_t amode, int usedeleg, struct ucred *cred, NFSPROC_T *p, struct nfsclowner **owpp, struct nfsclopen **opp, int *newonep, int *retp, int lockit, bool firstref) { struct nfsclclient *clp; struct nfsclowner *owp, *nowp; struct nfsclopen *op = NULL, *nop = NULL; struct nfscldeleg *dp; struct nfsclownerhead *ohp; u_int8_t own[NFSV4CL_LOCKNAMELEN]; int ret; if (newonep != NULL) *newonep = 0; if (opp != NULL) *opp = NULL; if (owpp != NULL) *owpp = NULL; /* * Might need one or both of these, so MALLOC them now, to * avoid a tsleep() in MALLOC later. */ nowp = malloc(sizeof (struct nfsclowner), M_NFSCLOWNER, M_WAITOK); if (nfhp != NULL) { nop = malloc(sizeof (struct nfsclopen) + fhlen - 1, M_NFSCLOPEN, M_WAITOK); nop->nfso_hash.le_prev = NULL; } ret = nfscl_getcl(vp->v_mount, cred, p, false, firstref, &clp); if (ret != 0) { free(nowp, M_NFSCLOWNER); if (nop != NULL) free(nop, M_NFSCLOPEN); return (ret); } /* * Get the Open iff it already exists. * If none found, add the new one or return error, depending upon * "create". */ NFSLOCKCLSTATE(); dp = NULL; /* First check the delegation list */ if (nfhp != NULL && usedeleg) { LIST_FOREACH(dp, NFSCLDELEGHASH(clp, nfhp, fhlen), nfsdl_hash) { if (dp->nfsdl_fhlen == fhlen && !NFSBCMP(nfhp, dp->nfsdl_fh, fhlen)) { if (!(amode & NFSV4OPEN_ACCESSWRITE) || (dp->nfsdl_flags & NFSCLDL_WRITE)) break; dp = NULL; break; } } } /* For NFSv4.1/4.2 and this option, use a single open_owner. */ if (NFSHASONEOPENOWN(VFSTONFS(vp->v_mount))) nfscl_filllockowner(NULL, own, F_POSIX); else nfscl_filllockowner(p->td_proc, own, F_POSIX); if (dp != NULL) ohp = &dp->nfsdl_owner; else ohp = &clp->nfsc_owner; /* Now, search for an openowner */ LIST_FOREACH(owp, ohp, nfsow_list) { if (!NFSBCMP(owp->nfsow_owner, own, NFSV4CL_LOCKNAMELEN)) break; } /* * Create a new open, as required. */ nfscl_newopen(clp, dp, &owp, &nowp, &op, &nop, own, nfhp, fhlen, cred, newonep); /* * Now, check the mode on the open and return the appropriate * value. */ if (retp != NULL) { if (nfhp != NULL && dp != NULL && nop == NULL) /* new local open on delegation */ *retp = NFSCLOPEN_SETCRED; else *retp = NFSCLOPEN_OK; } if (op != NULL && (amode & ~(op->nfso_mode))) { op->nfso_mode |= amode; if (retp != NULL && dp == NULL) *retp = NFSCLOPEN_DOOPEN; } /* * Serialize modifications to the open owner for multiple threads * within the same process using a read/write sleep lock. * For NFSv4.1 and a single OpenOwner, allow concurrent open operations * by acquiring a shared lock. The close operations still use an * exclusive lock for this case. */ if (lockit != 0) { if (NFSHASONEOPENOWN(VFSTONFS(vp->v_mount))) { /* * Get a shared lock on the OpenOwner, but first * wait for any pending exclusive lock, so that the * exclusive locker gets priority. */ nfsv4_lock(&owp->nfsow_rwlock, 0, NULL, NFSCLSTATEMUTEXPTR, NULL); nfsv4_getref(&owp->nfsow_rwlock, NULL, NFSCLSTATEMUTEXPTR, NULL); } else nfscl_lockexcl(&owp->nfsow_rwlock, NFSCLSTATEMUTEXPTR); } NFSUNLOCKCLSTATE(); if (nowp != NULL) free(nowp, M_NFSCLOWNER); if (nop != NULL) free(nop, M_NFSCLOPEN); if (owpp != NULL) *owpp = owp; if (opp != NULL) *opp = op; return (0); } /* * Create a new open, as required. */ static void nfscl_newopen(struct nfsclclient *clp, struct nfscldeleg *dp, struct nfsclowner **owpp, struct nfsclowner **nowpp, struct nfsclopen **opp, struct nfsclopen **nopp, u_int8_t *own, u_int8_t *fhp, int fhlen, struct ucred *cred, int *newonep) { struct nfsclowner *owp = *owpp, *nowp; struct nfsclopen *op, *nop; if (nowpp != NULL) nowp = *nowpp; else nowp = NULL; if (nopp != NULL) nop = *nopp; else nop = NULL; if (owp == NULL && nowp != NULL) { NFSBCOPY(own, nowp->nfsow_owner, NFSV4CL_LOCKNAMELEN); LIST_INIT(&nowp->nfsow_open); nowp->nfsow_clp = clp; nowp->nfsow_seqid = 0; nowp->nfsow_defunct = 0; nfscl_lockinit(&nowp->nfsow_rwlock); if (dp != NULL) { nfsstatsv1.cllocalopenowners++; LIST_INSERT_HEAD(&dp->nfsdl_owner, nowp, nfsow_list); } else { nfsstatsv1.clopenowners++; LIST_INSERT_HEAD(&clp->nfsc_owner, nowp, nfsow_list); } owp = *owpp = nowp; *nowpp = NULL; if (newonep != NULL) *newonep = 1; } /* If an fhp has been specified, create an Open as well. */ if (fhp != NULL) { /* and look for the correct open, based upon FH */ LIST_FOREACH(op, &owp->nfsow_open, nfso_list) { if (op->nfso_fhlen == fhlen && !NFSBCMP(op->nfso_fh, fhp, fhlen)) break; } if (op == NULL && nop != NULL) { nop->nfso_own = owp; nop->nfso_mode = 0; nop->nfso_opencnt = 0; nop->nfso_posixlock = 1; nop->nfso_fhlen = fhlen; NFSBCOPY(fhp, nop->nfso_fh, fhlen); LIST_INIT(&nop->nfso_lock); nop->nfso_stateid.seqid = 0; nop->nfso_stateid.other[0] = 0; nop->nfso_stateid.other[1] = 0; nop->nfso_stateid.other[2] = 0; KASSERT(cred != NULL, ("%s: cred NULL\n", __func__)); newnfs_copyincred(cred, &nop->nfso_cred); if (dp != NULL) { TAILQ_REMOVE(&clp->nfsc_deleg, dp, nfsdl_list); TAILQ_INSERT_HEAD(&clp->nfsc_deleg, dp, nfsdl_list); dp->nfsdl_timestamp = NFSD_MONOSEC + 120; nfsstatsv1.cllocalopens++; } else { LIST_INSERT_HEAD(NFSCLOPENHASH(clp, fhp, fhlen), nop, nfso_hash); nfsstatsv1.clopens++; } LIST_INSERT_HEAD(&owp->nfsow_open, nop, nfso_list); *opp = nop; *nopp = NULL; if (newonep != NULL) *newonep = 1; } else { *opp = op; } } } /* * Called to find/add a delegation to a client. */ int nfscl_deleg(mount_t mp, struct nfsclclient *clp, u_int8_t *nfhp, int fhlen, struct ucred *cred, NFSPROC_T *p, struct nfscldeleg **dpp) { struct nfscldeleg *dp = *dpp, *tdp; struct nfsmount *nmp; KASSERT(mp != NULL, ("nfscl_deleg: mp NULL")); nmp = VFSTONFS(mp); /* * First, if we have received a Read delegation for a file on a * read/write file system, just return it, because they aren't * useful, imho. */ if (dp != NULL && !NFSMNT_RDONLY(mp) && (dp->nfsdl_flags & NFSCLDL_READ)) { nfscl_trydelegreturn(dp, cred, nmp, p); free(dp, M_NFSCLDELEG); *dpp = NULL; return (0); } /* * Since a delegation might be added to the mount, * set NFSMNTP_DELEGISSUED now. If a delegation already * exagain ists, setting this flag is harmless. */ NFSLOCKMNT(nmp); nmp->nm_privflag |= NFSMNTP_DELEGISSUED; NFSUNLOCKMNT(nmp); /* Look for the correct deleg, based upon FH */ NFSLOCKCLSTATE(); tdp = nfscl_finddeleg(clp, nfhp, fhlen); if (tdp == NULL) { if (dp == NULL) { NFSUNLOCKCLSTATE(); return (NFSERR_BADSTATEID); } *dpp = NULL; TAILQ_INSERT_HEAD(&clp->nfsc_deleg, dp, nfsdl_list); LIST_INSERT_HEAD(NFSCLDELEGHASH(clp, nfhp, fhlen), dp, nfsdl_hash); dp->nfsdl_timestamp = NFSD_MONOSEC + 120; nfsstatsv1.cldelegates++; nfscl_delegcnt++; } else { /* * Delegation already exists, what do we do if a new one?? */ if (dp != NULL) { printf("Deleg already exists!\n"); free(dp, M_NFSCLDELEG); *dpp = NULL; } else { *dpp = tdp; } } NFSUNLOCKCLSTATE(); return (0); } /* * Find a delegation for this file handle. Return NULL upon failure. */ static struct nfscldeleg * nfscl_finddeleg(struct nfsclclient *clp, u_int8_t *fhp, int fhlen) { struct nfscldeleg *dp; LIST_FOREACH(dp, NFSCLDELEGHASH(clp, fhp, fhlen), nfsdl_hash) { if (dp->nfsdl_fhlen == fhlen && !NFSBCMP(dp->nfsdl_fh, fhp, fhlen)) break; } return (dp); } /* * Get a stateid for an I/O operation. First, look for an open and iff * found, return either a lockowner stateid or the open stateid. * If no Open is found, just return error and the special stateid of all zeros. */ int nfscl_getstateid(vnode_t vp, u_int8_t *nfhp, int fhlen, u_int32_t mode, int fords, struct ucred *cred, NFSPROC_T *p, nfsv4stateid_t *stateidp, void **lckpp) { struct nfsclclient *clp; struct nfsclopen *op = NULL, *top; struct nfsclopenhash *oph; struct nfscllockowner *lp; struct nfscldeleg *dp; struct nfsnode *np; struct nfsmount *nmp; struct nfscred ncr; u_int8_t own[NFSV4CL_LOCKNAMELEN], lockown[NFSV4CL_LOCKNAMELEN]; int error; bool done; *lckpp = NULL; /* * Initially, just set the special stateid of all zeros. * (Don't do this for a DS, since the special stateid can't be used.) */ if (fords == 0) { stateidp->seqid = 0; stateidp->other[0] = 0; stateidp->other[1] = 0; stateidp->other[2] = 0; } if (vnode_vtype(vp) != VREG) return (EISDIR); np = VTONFS(vp); nmp = VFSTONFS(vp->v_mount); /* * For "oneopenown" mounts, first check for a cached open in the * NFS vnode, that can be used as a stateid. This can only be * done if no delegations have been issued to the mount and no * byte range file locking has been done for the file. */ if (NFSHASNFSV4N(nmp) && NFSHASONEOPENOWN(nmp) && fords == 0) { NFSLOCKMNT(nmp); NFSLOCKNODE(np); if ((nmp->nm_privflag & NFSMNTP_DELEGISSUED) == 0 && (np->n_flag & NMIGHTBELOCKED) == 0 && np->n_openstateid != NULL) { stateidp->seqid = 0; stateidp->other[0] = np->n_openstateid->nfso_stateid.other[0]; stateidp->other[1] = np->n_openstateid->nfso_stateid.other[1]; stateidp->other[2] = np->n_openstateid->nfso_stateid.other[2]; NFSUNLOCKNODE(np); NFSUNLOCKMNT(nmp); return (0); } NFSUNLOCKNODE(np); NFSUNLOCKMNT(nmp); } NFSLOCKCLSTATE(); clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return (EACCES); } /* * Wait for recovery to complete. */ while ((clp->nfsc_flags & NFSCLFLAGS_RECVRINPROG)) (void) nfsmsleep(&clp->nfsc_flags, NFSCLSTATEMUTEXPTR, PZERO, "nfsrecvr", NULL); /* * First, look for a delegation. */ LIST_FOREACH(dp, NFSCLDELEGHASH(clp, nfhp, fhlen), nfsdl_hash) { if (dp->nfsdl_fhlen == fhlen && !NFSBCMP(nfhp, dp->nfsdl_fh, fhlen)) { if (!(mode & NFSV4OPEN_ACCESSWRITE) || (dp->nfsdl_flags & NFSCLDL_WRITE)) { if (NFSHASNFSV4N(nmp)) stateidp->seqid = 0; else stateidp->seqid = dp->nfsdl_stateid.seqid; stateidp->other[0] = dp->nfsdl_stateid.other[0]; stateidp->other[1] = dp->nfsdl_stateid.other[1]; stateidp->other[2] = dp->nfsdl_stateid.other[2]; if (!(np->n_flag & NDELEGRECALL)) { TAILQ_REMOVE(&clp->nfsc_deleg, dp, nfsdl_list); TAILQ_INSERT_HEAD(&clp->nfsc_deleg, dp, nfsdl_list); dp->nfsdl_timestamp = NFSD_MONOSEC + 120; dp->nfsdl_rwlock.nfslock_usecnt++; *lckpp = (void *)&dp->nfsdl_rwlock; } NFSUNLOCKCLSTATE(); return (0); } break; } } if (p != NULL) { /* * If p != NULL, we want to search the parentage tree * for a matching OpenOwner and use that. */ if (NFSHASONEOPENOWN(VFSTONFS(vp->v_mount))) nfscl_filllockowner(NULL, own, F_POSIX); else nfscl_filllockowner(p->td_proc, own, F_POSIX); nfscl_filllockowner(p->td_proc, lockown, F_POSIX); lp = NULL; error = nfscl_getopen(NULL, clp->nfsc_openhash, nfhp, fhlen, own, lockown, mode, &lp, &op); if (error == 0 && lp != NULL && fords == 0) { /* Don't return a lock stateid for a DS. */ if (NFSHASNFSV4N(nmp)) stateidp->seqid = 0; else stateidp->seqid = lp->nfsl_stateid.seqid; stateidp->other[0] = lp->nfsl_stateid.other[0]; stateidp->other[1] = lp->nfsl_stateid.other[1]; stateidp->other[2] = lp->nfsl_stateid.other[2]; NFSUNLOCKCLSTATE(); return (0); } } if (op == NULL) { /* If not found, just look for any OpenOwner that will work. */ top = NULL; done = false; oph = NFSCLOPENHASH(clp, nfhp, fhlen); LIST_FOREACH(op, oph, nfso_hash) { if (op->nfso_fhlen == fhlen && !NFSBCMP(op->nfso_fh, nfhp, fhlen)) { if (top == NULL && (op->nfso_mode & NFSV4OPEN_ACCESSWRITE) != 0 && (mode & NFSV4OPEN_ACCESSREAD) != 0) top = op; if ((mode & op->nfso_mode) == mode) { /* LRU order the hash list. */ LIST_REMOVE(op, nfso_hash); LIST_INSERT_HEAD(oph, op, nfso_hash); done = true; break; } } } if (!done) { NFSCL_DEBUG(2, "openmode top=%p\n", top); if (top == NULL || NFSHASOPENMODE(nmp)) { NFSUNLOCKCLSTATE(); return (ENOENT); } else op = top; } /* * For read aheads or write behinds, use the open cred. * A read ahead or write behind is indicated by p == NULL. */ if (p == NULL) memcpy(&ncr, &op->nfso_cred, sizeof(ncr)); } /* * No lock stateid, so return the open stateid. */ if (NFSHASNFSV4N(nmp)) stateidp->seqid = 0; else stateidp->seqid = op->nfso_stateid.seqid; stateidp->other[0] = op->nfso_stateid.other[0]; stateidp->other[1] = op->nfso_stateid.other[1]; stateidp->other[2] = op->nfso_stateid.other[2]; NFSUNLOCKCLSTATE(); if (p == NULL) newnfs_copycred(&ncr, cred); return (0); } /* * Search for a matching file, mode and, optionally, lockowner. */ static int nfscl_getopen(struct nfsclownerhead *ohp, struct nfsclopenhash *ohashp, u_int8_t *nfhp, int fhlen, u_int8_t *openown, u_int8_t *lockown, u_int32_t mode, struct nfscllockowner **lpp, struct nfsclopen **opp) { struct nfsclowner *owp; struct nfsclopen *op, *rop, *rop2; struct nfsclopenhash *oph; bool keep_looping; KASSERT(ohp == NULL || ohashp == NULL, ("nfscl_getopen: " "only one of ohp and ohashp can be set")); if (lpp != NULL) *lpp = NULL; /* * rop will be set to the open to be returned. There are three * variants of this, all for an open of the correct file: * 1 - A match of lockown. * 2 - A match of the openown, when no lockown match exists. * 3 - A match for any open, if no openown or lockown match exists. * Looking for #2 over #3 probably isn't necessary, but since * RFC3530 is vague w.r.t. the relationship between openowners and * lockowners, I think this is the safer way to go. */ rop = NULL; rop2 = NULL; keep_looping = true; /* Search the client list */ if (ohashp == NULL) { /* Search the local opens on the delegation. */ LIST_FOREACH(owp, ohp, nfsow_list) { /* and look for the correct open */ LIST_FOREACH(op, &owp->nfsow_open, nfso_list) { if (op->nfso_fhlen == fhlen && !NFSBCMP(op->nfso_fh, nfhp, fhlen) && (op->nfso_mode & mode) == mode) keep_looping = nfscl_checkown(owp, op, openown, lockown, lpp, &rop, &rop2); if (!keep_looping) break; } if (!keep_looping) break; } } else { /* Search for matching opens on the hash list. */ oph = &ohashp[NFSCLOPENHASHFUNC(nfhp, fhlen)]; LIST_FOREACH(op, oph, nfso_hash) { if (op->nfso_fhlen == fhlen && !NFSBCMP(op->nfso_fh, nfhp, fhlen) && (op->nfso_mode & mode) == mode) keep_looping = nfscl_checkown(op->nfso_own, op, openown, lockown, lpp, &rop, &rop2); if (!keep_looping) { /* LRU order the hash list. */ LIST_REMOVE(op, nfso_hash); LIST_INSERT_HEAD(oph, op, nfso_hash); break; } } } if (rop == NULL) rop = rop2; if (rop == NULL) return (EBADF); *opp = rop; return (0); } /* Check for an owner match. */ static bool nfscl_checkown(struct nfsclowner *owp, struct nfsclopen *op, uint8_t *openown, uint8_t *lockown, struct nfscllockowner **lpp, struct nfsclopen **ropp, struct nfsclopen **ropp2) { struct nfscllockowner *lp; bool keep_looping; keep_looping = true; if (lpp != NULL) { /* Now look for a matching lockowner. */ LIST_FOREACH(lp, &op->nfso_lock, nfsl_list) { if (!NFSBCMP(lp->nfsl_owner, lockown, NFSV4CL_LOCKNAMELEN)) { *lpp = lp; *ropp = op; return (false); } } } if (*ropp == NULL && !NFSBCMP(owp->nfsow_owner, openown, NFSV4CL_LOCKNAMELEN)) { *ropp = op; if (lpp == NULL) keep_looping = false; } if (*ropp2 == NULL) *ropp2 = op; return (keep_looping); } /* * Release use of an open owner. Called when open operations are done * with the open owner. */ void nfscl_ownerrelease(struct nfsmount *nmp, struct nfsclowner *owp, __unused int error, __unused int candelete, int unlocked) { if (owp == NULL) return; NFSLOCKCLSTATE(); if (unlocked == 0) { if (NFSHASONEOPENOWN(nmp)) nfsv4_relref(&owp->nfsow_rwlock); else nfscl_lockunlock(&owp->nfsow_rwlock); } nfscl_clrelease(owp->nfsow_clp); NFSUNLOCKCLSTATE(); } /* * Release use of an open structure under an open owner. */ void nfscl_openrelease(struct nfsmount *nmp, struct nfsclopen *op, int error, int candelete) { struct nfsclclient *clp; struct nfsclowner *owp; if (op == NULL) return; NFSLOCKCLSTATE(); owp = op->nfso_own; if (NFSHASONEOPENOWN(nmp)) nfsv4_relref(&owp->nfsow_rwlock); else nfscl_lockunlock(&owp->nfsow_rwlock); clp = owp->nfsow_clp; if (error && candelete && op->nfso_opencnt == 0) nfscl_freeopen(op, 0, true); nfscl_clrelease(clp); NFSUNLOCKCLSTATE(); } /* * Called to get a clientid structure. It will optionally lock the * client data structures to do the SetClientId/SetClientId_confirm, * but will release that lock and return the clientid with a reference * count on it. * If the "cred" argument is NULL, a new clientid should not be created. * If the "p" argument is NULL, a SetClientID/SetClientIDConfirm cannot * be done. * It always clpp with a reference count on it, unless returning an error. */ int nfscl_getcl(struct mount *mp, struct ucred *cred, NFSPROC_T *p, bool tryminvers, bool firstref, struct nfsclclient **clpp) { struct nfsclclient *clp; struct nfsclclient *newclp = NULL; struct nfsmount *nmp; char uuid[HOSTUUIDLEN]; int igotlock = 0, error, trystalecnt, clidinusedelay, i; u_int16_t idlen = 0; nmp = VFSTONFS(mp); if (cred != NULL) { getcredhostuuid(cred, uuid, sizeof uuid); idlen = strlen(uuid); if (idlen > 0) idlen += sizeof (u_int64_t); else idlen += sizeof (u_int64_t) + 16; /* 16 random bytes */ newclp = malloc( sizeof (struct nfsclclient) + idlen - 1, M_NFSCLCLIENT, M_WAITOK | M_ZERO); } NFSLOCKCLSTATE(); /* * If a forced dismount is already in progress, don't * allocate a new clientid and get out now. For the case where * clp != NULL, this is a harmless optimization. */ if (NFSCL_FORCEDISM(mp)) { NFSUNLOCKCLSTATE(); if (newclp != NULL) free(newclp, M_NFSCLCLIENT); return (EBADF); } clp = nmp->nm_clp; if (clp == NULL) { if (newclp == NULL) { NFSUNLOCKCLSTATE(); return (EACCES); } clp = newclp; clp->nfsc_idlen = idlen; LIST_INIT(&clp->nfsc_owner); TAILQ_INIT(&clp->nfsc_deleg); TAILQ_INIT(&clp->nfsc_layout); LIST_INIT(&clp->nfsc_devinfo); for (i = 0; i < NFSCLDELEGHASHSIZE; i++) LIST_INIT(&clp->nfsc_deleghash[i]); for (i = 0; i < NFSCLOPENHASHSIZE; i++) LIST_INIT(&clp->nfsc_openhash[i]); for (i = 0; i < NFSCLLAYOUTHASHSIZE; i++) LIST_INIT(&clp->nfsc_layouthash[i]); clp->nfsc_flags = NFSCLFLAGS_INITED; clp->nfsc_clientidrev = 1; clp->nfsc_cbident = nfscl_nextcbident(); nfscl_fillclid(nmp->nm_clval, uuid, clp->nfsc_id, clp->nfsc_idlen); LIST_INSERT_HEAD(&nfsclhead, clp, nfsc_list); nmp->nm_clp = clp; clp->nfsc_nmp = nmp; } else { if (newclp != NULL) free(newclp, M_NFSCLCLIENT); } while ((clp->nfsc_flags & NFSCLFLAGS_HASCLIENTID) == 0 && !igotlock && !NFSCL_FORCEDISM(mp)) igotlock = nfsv4_lock(&clp->nfsc_lock, 1, NULL, NFSCLSTATEMUTEXPTR, mp); if (igotlock == 0) { /* * Call nfsv4_lock() with "iwantlock == 0" on the firstref so * that it will wait for a pending exclusive lock request. * This gives the exclusive lock request priority over this * shared lock request. * An exclusive lock on nfsc_lock is used mainly for server * crash recoveries and delegation recalls. */ if (firstref) nfsv4_lock(&clp->nfsc_lock, 0, NULL, NFSCLSTATEMUTEXPTR, mp); nfsv4_getref(&clp->nfsc_lock, NULL, NFSCLSTATEMUTEXPTR, mp); } if (igotlock == 0 && NFSCL_FORCEDISM(mp)) { /* * Both nfsv4_lock() and nfsv4_getref() know to check * for NFSCL_FORCEDISM() and return without sleeping to * wait for the exclusive lock to be released, since it * might be held by nfscl_umount() and we need to get out * now for that case and not wait until nfscl_umount() * releases it. */ NFSUNLOCKCLSTATE(); return (EBADF); } NFSUNLOCKCLSTATE(); /* * If it needs a clientid, do the setclientid now. */ if ((clp->nfsc_flags & NFSCLFLAGS_HASCLIENTID) == 0) { if (!igotlock) panic("nfscl_clget"); if (p == NULL || cred == NULL) { NFSLOCKCLSTATE(); nfsv4_unlock(&clp->nfsc_lock, 0); NFSUNLOCKCLSTATE(); return (EACCES); } /* * If RFC3530 Sec. 14.2.33 is taken literally, * NFSERR_CLIDINUSE will be returned persistently for the * case where a new mount of the same file system is using * a different principal. In practice, NFSERR_CLIDINUSE is * only returned when there is outstanding unexpired state * on the clientid. As such, try for twice the lease * interval, if we know what that is. Otherwise, make a * wild ass guess. * The case of returning NFSERR_STALECLIENTID is far less * likely, but might occur if there is a significant delay * between doing the SetClientID and SetClientIDConfirm Ops, * such that the server throws away the clientid before * receiving the SetClientIDConfirm. */ if (clp->nfsc_renew > 0) clidinusedelay = NFSCL_LEASE(clp->nfsc_renew) * 2; else clidinusedelay = 120; trystalecnt = 3; do { error = nfsrpc_setclient(nmp, clp, 0, NULL, cred, p); if (error == NFSERR_STALECLIENTID || error == NFSERR_STALEDONTRECOVER || error == NFSERR_BADSESSION || error == NFSERR_CLIDINUSE) { (void) nfs_catnap(PZERO, error, "nfs_setcl"); } else if (error == NFSERR_MINORVERMISMATCH && tryminvers) { if (nmp->nm_minorvers > 0) nmp->nm_minorvers--; else tryminvers = false; } } while (((error == NFSERR_STALECLIENTID || error == NFSERR_BADSESSION || error == NFSERR_STALEDONTRECOVER) && --trystalecnt > 0) || (error == NFSERR_CLIDINUSE && --clidinusedelay > 0) || (error == NFSERR_MINORVERMISMATCH && tryminvers)); if (error) { NFSLOCKCLSTATE(); nfsv4_unlock(&clp->nfsc_lock, 0); NFSUNLOCKCLSTATE(); return (error); } clp->nfsc_flags |= NFSCLFLAGS_HASCLIENTID; } if (igotlock) { NFSLOCKCLSTATE(); nfsv4_unlock(&clp->nfsc_lock, 1); NFSUNLOCKCLSTATE(); } *clpp = clp; return (0); } /* * Get a reference to a clientid and return it, if valid. */ struct nfsclclient * nfscl_findcl(struct nfsmount *nmp) { struct nfsclclient *clp; clp = nmp->nm_clp; if (clp == NULL || !(clp->nfsc_flags & NFSCLFLAGS_HASCLIENTID)) return (NULL); return (clp); } /* * Release the clientid structure. It may be locked or reference counted. */ static void nfscl_clrelease(struct nfsclclient *clp) { if (clp->nfsc_lock.nfslock_lock & NFSV4LOCK_LOCK) nfsv4_unlock(&clp->nfsc_lock, 0); else nfsv4_relref(&clp->nfsc_lock); } /* * External call for nfscl_clrelease. */ void nfscl_clientrelease(struct nfsclclient *clp) { NFSLOCKCLSTATE(); if (clp->nfsc_lock.nfslock_lock & NFSV4LOCK_LOCK) nfsv4_unlock(&clp->nfsc_lock, 0); else nfsv4_relref(&clp->nfsc_lock); NFSUNLOCKCLSTATE(); } /* * Called when wanting to lock a byte region. */ int nfscl_getbytelock(vnode_t vp, u_int64_t off, u_int64_t len, short type, struct ucred *cred, NFSPROC_T *p, struct nfsclclient *rclp, int recovery, void *id, int flags, u_int8_t *rownp, u_int8_t *ropenownp, struct nfscllockowner **lpp, int *newonep, int *donelocallyp) { struct nfscllockowner *lp; struct nfsclopen *op; struct nfsclclient *clp; struct nfscllockowner *nlp; struct nfscllock *nlop, *otherlop; struct nfscldeleg *dp = NULL, *ldp = NULL; struct nfscllockownerhead *lhp = NULL; struct nfsnode *np; u_int8_t own[NFSV4CL_LOCKNAMELEN], *ownp, openown[NFSV4CL_LOCKNAMELEN]; u_int8_t *openownp; int error = 0, ret, donelocally = 0; u_int32_t mode; /* For Lock Ops, the open mode doesn't matter, so use 0 to match any. */ mode = 0; np = VTONFS(vp); *lpp = NULL; lp = NULL; *newonep = 0; *donelocallyp = 0; /* * Might need these, so MALLOC them now, to * avoid a tsleep() in MALLOC later. */ nlp = malloc( sizeof (struct nfscllockowner), M_NFSCLLOCKOWNER, M_WAITOK); otherlop = malloc( sizeof (struct nfscllock), M_NFSCLLOCK, M_WAITOK); nlop = malloc( sizeof (struct nfscllock), M_NFSCLLOCK, M_WAITOK); nlop->nfslo_type = type; nlop->nfslo_first = off; if (len == NFS64BITSSET) { nlop->nfslo_end = NFS64BITSSET; } else { nlop->nfslo_end = off + len; if (nlop->nfslo_end <= nlop->nfslo_first) error = NFSERR_INVAL; } if (!error) { if (recovery) clp = rclp; else error = nfscl_getcl(vp->v_mount, cred, p, false, true, &clp); } if (error) { free(nlp, M_NFSCLLOCKOWNER); free(otherlop, M_NFSCLLOCK); free(nlop, M_NFSCLLOCK); return (error); } op = NULL; if (recovery) { ownp = rownp; openownp = ropenownp; } else { nfscl_filllockowner(id, own, flags); ownp = own; if (NFSHASONEOPENOWN(VFSTONFS(vp->v_mount))) nfscl_filllockowner(NULL, openown, F_POSIX); else nfscl_filllockowner(p->td_proc, openown, F_POSIX); openownp = openown; } if (!recovery) { NFSLOCKCLSTATE(); /* * First, search for a delegation. If one exists for this file, * the lock can be done locally against it, so long as there * isn't a local lock conflict. */ ldp = dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); /* Just sanity check for correct type of delegation */ if (dp != NULL && ((dp->nfsdl_flags & (NFSCLDL_RECALL | NFSCLDL_DELEGRET)) != 0 || (type == F_WRLCK && (dp->nfsdl_flags & NFSCLDL_WRITE) == 0))) dp = NULL; } if (dp != NULL) { /* Now, find an open and maybe a lockowner. */ ret = nfscl_getopen(&dp->nfsdl_owner, NULL, np->n_fhp->nfh_fh, np->n_fhp->nfh_len, openownp, ownp, mode, NULL, &op); if (ret) ret = nfscl_getopen(NULL, clp->nfsc_openhash, np->n_fhp->nfh_fh, np->n_fhp->nfh_len, openownp, ownp, mode, NULL, &op); if (!ret) { lhp = &dp->nfsdl_lock; TAILQ_REMOVE(&clp->nfsc_deleg, dp, nfsdl_list); TAILQ_INSERT_HEAD(&clp->nfsc_deleg, dp, nfsdl_list); dp->nfsdl_timestamp = NFSD_MONOSEC + 120; donelocally = 1; } else { dp = NULL; } } if (!donelocally) { /* * Get the related Open and maybe lockowner. */ error = nfscl_getopen(NULL, clp->nfsc_openhash, np->n_fhp->nfh_fh, np->n_fhp->nfh_len, openownp, ownp, mode, &lp, &op); if (!error) lhp = &op->nfso_lock; } if (!error && !recovery) error = nfscl_localconflict(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len, nlop, ownp, ldp, NULL); if (error) { if (!recovery) { nfscl_clrelease(clp); NFSUNLOCKCLSTATE(); } free(nlp, M_NFSCLLOCKOWNER); free(otherlop, M_NFSCLLOCK); free(nlop, M_NFSCLLOCK); return (error); } /* * Ok, see if a lockowner exists and create one, as required. */ if (lp == NULL) LIST_FOREACH(lp, lhp, nfsl_list) { if (!NFSBCMP(lp->nfsl_owner, ownp, NFSV4CL_LOCKNAMELEN)) break; } if (lp == NULL) { NFSBCOPY(ownp, nlp->nfsl_owner, NFSV4CL_LOCKNAMELEN); if (recovery) NFSBCOPY(ropenownp, nlp->nfsl_openowner, NFSV4CL_LOCKNAMELEN); else NFSBCOPY(op->nfso_own->nfsow_owner, nlp->nfsl_openowner, NFSV4CL_LOCKNAMELEN); nlp->nfsl_seqid = 0; nlp->nfsl_lockflags = flags; nlp->nfsl_inprog = NULL; nfscl_lockinit(&nlp->nfsl_rwlock); LIST_INIT(&nlp->nfsl_lock); if (donelocally) { nlp->nfsl_open = NULL; nfsstatsv1.cllocallockowners++; } else { nlp->nfsl_open = op; nfsstatsv1.cllockowners++; } LIST_INSERT_HEAD(lhp, nlp, nfsl_list); lp = nlp; nlp = NULL; *newonep = 1; } /* * Now, update the byte ranges for locks. */ ret = nfscl_updatelock(lp, &nlop, &otherlop, donelocally); if (!ret) donelocally = 1; if (donelocally) { *donelocallyp = 1; if (!recovery) nfscl_clrelease(clp); } else { /* * Serial modifications on the lock owner for multiple threads * for the same process using a read/write lock. */ if (!recovery) nfscl_lockexcl(&lp->nfsl_rwlock, NFSCLSTATEMUTEXPTR); } if (!recovery) NFSUNLOCKCLSTATE(); if (nlp) free(nlp, M_NFSCLLOCKOWNER); if (nlop) free(nlop, M_NFSCLLOCK); if (otherlop) free(otherlop, M_NFSCLLOCK); *lpp = lp; return (0); } /* * Called to unlock a byte range, for LockU. */ int nfscl_relbytelock(vnode_t vp, u_int64_t off, u_int64_t len, __unused struct ucred *cred, NFSPROC_T *p, int callcnt, struct nfsclclient *clp, void *id, int flags, struct nfscllockowner **lpp, int *dorpcp) { struct nfscllockowner *lp; struct nfsclopen *op; struct nfscllock *nlop, *other_lop = NULL; struct nfscldeleg *dp; struct nfsnode *np; u_int8_t own[NFSV4CL_LOCKNAMELEN]; int ret = 0, fnd; np = VTONFS(vp); *lpp = NULL; *dorpcp = 0; /* * Might need these, so MALLOC them now, to * avoid a tsleep() in MALLOC later. */ nlop = malloc( sizeof (struct nfscllock), M_NFSCLLOCK, M_WAITOK); nlop->nfslo_type = F_UNLCK; nlop->nfslo_first = off; if (len == NFS64BITSSET) { nlop->nfslo_end = NFS64BITSSET; } else { nlop->nfslo_end = off + len; if (nlop->nfslo_end <= nlop->nfslo_first) { free(nlop, M_NFSCLLOCK); return (NFSERR_INVAL); } } if (callcnt == 0) { other_lop = malloc( sizeof (struct nfscllock), M_NFSCLLOCK, M_WAITOK); *other_lop = *nlop; } nfscl_filllockowner(id, own, flags); dp = NULL; NFSLOCKCLSTATE(); if (callcnt == 0) dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); /* * First, unlock any local regions on a delegation. */ if (dp != NULL) { /* Look for this lockowner. */ LIST_FOREACH(lp, &dp->nfsdl_lock, nfsl_list) { if (!NFSBCMP(lp->nfsl_owner, own, NFSV4CL_LOCKNAMELEN)) break; } if (lp != NULL) /* Use other_lop, so nlop is still available */ (void)nfscl_updatelock(lp, &other_lop, NULL, 1); } /* * Now, find a matching open/lockowner that hasn't already been done, * as marked by nfsl_inprog. */ lp = NULL; fnd = 0; LIST_FOREACH(op, NFSCLOPENHASH(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len), nfso_hash) { if (op->nfso_fhlen == np->n_fhp->nfh_len && !NFSBCMP(op->nfso_fh, np->n_fhp->nfh_fh, op->nfso_fhlen)) { LIST_FOREACH(lp, &op->nfso_lock, nfsl_list) { if (lp->nfsl_inprog == NULL && !NFSBCMP(lp->nfsl_owner, own, NFSV4CL_LOCKNAMELEN)) { fnd = 1; break; } } } if (fnd) break; } if (lp != NULL) { ret = nfscl_updatelock(lp, &nlop, NULL, 0); if (ret) *dorpcp = 1; /* * Serial modifications on the lock owner for multiple * threads for the same process using a read/write lock. */ lp->nfsl_inprog = p; nfscl_lockexcl(&lp->nfsl_rwlock, NFSCLSTATEMUTEXPTR); *lpp = lp; } NFSUNLOCKCLSTATE(); if (nlop) free(nlop, M_NFSCLLOCK); if (other_lop) free(other_lop, M_NFSCLLOCK); return (0); } /* * Release all lockowners marked in progess for this process and file. */ void nfscl_releasealllocks(struct nfsclclient *clp, vnode_t vp, NFSPROC_T *p, void *id, int flags) { struct nfsclopen *op; struct nfscllockowner *lp; struct nfsnode *np; u_int8_t own[NFSV4CL_LOCKNAMELEN]; np = VTONFS(vp); nfscl_filllockowner(id, own, flags); NFSLOCKCLSTATE(); LIST_FOREACH(op, NFSCLOPENHASH(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len), nfso_hash) { if (op->nfso_fhlen == np->n_fhp->nfh_len && !NFSBCMP(op->nfso_fh, np->n_fhp->nfh_fh, op->nfso_fhlen)) { LIST_FOREACH(lp, &op->nfso_lock, nfsl_list) { if (lp->nfsl_inprog == p && !NFSBCMP(lp->nfsl_owner, own, NFSV4CL_LOCKNAMELEN)) { lp->nfsl_inprog = NULL; nfscl_lockunlock(&lp->nfsl_rwlock); } } } } nfscl_clrelease(clp); NFSUNLOCKCLSTATE(); } /* * Called to find out if any bytes within the byte range specified are * write locked by the calling process. Used to determine if flushing * is required before a LockU. * If in doubt, return 1, so the flush will occur. */ int nfscl_checkwritelocked(vnode_t vp, struct flock *fl, struct ucred *cred, NFSPROC_T *p, void *id, int flags) { struct nfscllockowner *lp; struct nfsclopen *op; struct nfsclclient *clp; struct nfscllock *lop; struct nfscldeleg *dp; struct nfsnode *np; u_int64_t off, end; u_int8_t own[NFSV4CL_LOCKNAMELEN]; int error = 0; np = VTONFS(vp); switch (fl->l_whence) { case SEEK_SET: case SEEK_CUR: /* * Caller is responsible for adding any necessary offset * when SEEK_CUR is used. */ off = fl->l_start; break; case SEEK_END: off = np->n_size + fl->l_start; break; default: return (1); } if (fl->l_len != 0) { end = off + fl->l_len; if (end < off) return (1); } else { end = NFS64BITSSET; } error = nfscl_getcl(vp->v_mount, cred, p, false, true, &clp); if (error) return (1); nfscl_filllockowner(id, own, flags); NFSLOCKCLSTATE(); /* * First check the delegation locks. */ dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL) { LIST_FOREACH(lp, &dp->nfsdl_lock, nfsl_list) { if (!NFSBCMP(lp->nfsl_owner, own, NFSV4CL_LOCKNAMELEN)) break; } if (lp != NULL) { LIST_FOREACH(lop, &lp->nfsl_lock, nfslo_list) { if (lop->nfslo_first >= end) break; if (lop->nfslo_end <= off) continue; if (lop->nfslo_type == F_WRLCK) { nfscl_clrelease(clp); NFSUNLOCKCLSTATE(); return (1); } } } } /* * Now, check state against the server. */ LIST_FOREACH(op, NFSCLOPENHASH(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len), nfso_hash) { if (op->nfso_fhlen == np->n_fhp->nfh_len && !NFSBCMP(op->nfso_fh, np->n_fhp->nfh_fh, op->nfso_fhlen)) { LIST_FOREACH(lp, &op->nfso_lock, nfsl_list) { if (!NFSBCMP(lp->nfsl_owner, own, NFSV4CL_LOCKNAMELEN)) break; } if (lp != NULL) { LIST_FOREACH(lop, &lp->nfsl_lock, nfslo_list) { if (lop->nfslo_first >= end) break; if (lop->nfslo_end <= off) continue; if (lop->nfslo_type == F_WRLCK) { nfscl_clrelease(clp); NFSUNLOCKCLSTATE(); return (1); } } } } } nfscl_clrelease(clp); NFSUNLOCKCLSTATE(); return (0); } /* * Release a byte range lock owner structure. */ void nfscl_lockrelease(struct nfscllockowner *lp, int error, int candelete) { struct nfsclclient *clp; if (lp == NULL) return; NFSLOCKCLSTATE(); clp = lp->nfsl_open->nfso_own->nfsow_clp; if (error != 0 && candelete && (lp->nfsl_rwlock.nfslock_lock & NFSV4LOCK_WANTED) == 0) nfscl_freelockowner(lp, 0); else nfscl_lockunlock(&lp->nfsl_rwlock); nfscl_clrelease(clp); NFSUNLOCKCLSTATE(); } /* * Unlink the open structure. */ static void nfscl_unlinkopen(struct nfsclopen *op) { LIST_REMOVE(op, nfso_list); if (op->nfso_hash.le_prev != NULL) LIST_REMOVE(op, nfso_hash); } /* * Free up an open structure and any associated byte range lock structures. */ void nfscl_freeopen(struct nfsclopen *op, int local, bool unlink) { if (unlink) nfscl_unlinkopen(op); nfscl_freealllocks(&op->nfso_lock, local); free(op, M_NFSCLOPEN); if (local) nfsstatsv1.cllocalopens--; else nfsstatsv1.clopens--; } /* * Free up all lock owners and associated locks. */ static void nfscl_freealllocks(struct nfscllockownerhead *lhp, int local) { struct nfscllockowner *lp, *nlp; LIST_FOREACH_SAFE(lp, lhp, nfsl_list, nlp) { if ((lp->nfsl_rwlock.nfslock_lock & NFSV4LOCK_WANTED)) panic("nfscllckw"); nfscl_freelockowner(lp, local); } } /* * Called for an Open when NFSERR_EXPIRED is received from the server. * If there are no byte range locks nor a Share Deny lost, try to do a * fresh Open. Otherwise, free the open. */ static int nfscl_expireopen(struct nfsclclient *clp, struct nfsclopen *op, struct nfsmount *nmp, struct ucred *cred, NFSPROC_T *p) { struct nfscllockowner *lp; struct nfscldeleg *dp; int mustdelete = 0, error; /* * Look for any byte range lock(s). */ LIST_FOREACH(lp, &op->nfso_lock, nfsl_list) { if (!LIST_EMPTY(&lp->nfsl_lock)) { mustdelete = 1; break; } } /* * If no byte range lock(s) nor a Share deny, try to re-open. */ if (!mustdelete && (op->nfso_mode & NFSLCK_DENYBITS) == 0) { newnfs_copycred(&op->nfso_cred, cred); dp = NULL; error = nfsrpc_reopen(nmp, op->nfso_fh, op->nfso_fhlen, op->nfso_mode, op, &dp, cred, p); if (error) { mustdelete = 1; if (dp != NULL) { free(dp, M_NFSCLDELEG); dp = NULL; } } if (dp != NULL) nfscl_deleg(nmp->nm_mountp, clp, op->nfso_fh, op->nfso_fhlen, cred, p, &dp); } /* * If a byte range lock or Share deny or couldn't re-open, free it. */ if (mustdelete) nfscl_freeopen(op, 0, true); return (mustdelete); } /* * Free up an open owner structure. */ static void nfscl_freeopenowner(struct nfsclowner *owp, int local) { int owned; /* * Make sure the NFSCLSTATE mutex is held, to avoid races with * calls in nfscl_renewthread() that do not hold a reference * count on the nfsclclient and just the mutex. * The mutex will not be held for calls done with the exclusive * nfsclclient lock held, in particular, nfscl_hasexpired() * and nfscl_recalldeleg() might do this. */ owned = mtx_owned(NFSCLSTATEMUTEXPTR); if (owned == 0) NFSLOCKCLSTATE(); LIST_REMOVE(owp, nfsow_list); if (owned == 0) NFSUNLOCKCLSTATE(); free(owp, M_NFSCLOWNER); if (local) nfsstatsv1.cllocalopenowners--; else nfsstatsv1.clopenowners--; } /* * Free up a byte range lock owner structure. */ void nfscl_freelockowner(struct nfscllockowner *lp, int local) { struct nfscllock *lop, *nlop; int owned; /* * Make sure the NFSCLSTATE mutex is held, to avoid races with * calls in nfscl_renewthread() that do not hold a reference * count on the nfsclclient and just the mutex. * The mutex will not be held for calls done with the exclusive * nfsclclient lock held, in particular, nfscl_hasexpired() * and nfscl_recalldeleg() might do this. */ owned = mtx_owned(NFSCLSTATEMUTEXPTR); if (owned == 0) NFSLOCKCLSTATE(); LIST_REMOVE(lp, nfsl_list); if (owned == 0) NFSUNLOCKCLSTATE(); LIST_FOREACH_SAFE(lop, &lp->nfsl_lock, nfslo_list, nlop) { nfscl_freelock(lop, local); } free(lp, M_NFSCLLOCKOWNER); if (local) nfsstatsv1.cllocallockowners--; else nfsstatsv1.cllockowners--; } /* * Free up a byte range lock structure. */ void nfscl_freelock(struct nfscllock *lop, int local) { LIST_REMOVE(lop, nfslo_list); free(lop, M_NFSCLLOCK); if (local) nfsstatsv1.cllocallocks--; else nfsstatsv1.cllocks--; } /* * Clean out the state related to a delegation. */ static void nfscl_cleandeleg(struct nfscldeleg *dp) { struct nfsclowner *owp, *nowp; struct nfsclopen *op; LIST_FOREACH_SAFE(owp, &dp->nfsdl_owner, nfsow_list, nowp) { op = LIST_FIRST(&owp->nfsow_open); if (op != NULL) { if (LIST_NEXT(op, nfso_list) != NULL) panic("nfscleandel"); nfscl_freeopen(op, 1, true); } nfscl_freeopenowner(owp, 1); } nfscl_freealllocks(&dp->nfsdl_lock, 1); } /* * Free a delegation. */ static void nfscl_freedeleg(struct nfscldeleghead *hdp, struct nfscldeleg *dp, bool freeit) { TAILQ_REMOVE(hdp, dp, nfsdl_list); LIST_REMOVE(dp, nfsdl_hash); if (freeit) free(dp, M_NFSCLDELEG); nfsstatsv1.cldelegates--; nfscl_delegcnt--; } /* * Free up all state related to this client structure. */ static void nfscl_cleanclient(struct nfsclclient *clp) { struct nfsclowner *owp, *nowp; struct nfsclopen *op, *nop; struct nfscllayout *lyp, *nlyp; struct nfscldevinfo *dip, *ndip; TAILQ_FOREACH_SAFE(lyp, &clp->nfsc_layout, nfsly_list, nlyp) nfscl_freelayout(lyp); LIST_FOREACH_SAFE(dip, &clp->nfsc_devinfo, nfsdi_list, ndip) nfscl_freedevinfo(dip); /* Now, all the OpenOwners, etc. */ LIST_FOREACH_SAFE(owp, &clp->nfsc_owner, nfsow_list, nowp) { LIST_FOREACH_SAFE(op, &owp->nfsow_open, nfso_list, nop) { nfscl_freeopen(op, 0, true); } nfscl_freeopenowner(owp, 0); } } /* * Called when an NFSERR_EXPIRED is received from the server. */ static void nfscl_expireclient(struct nfsclclient *clp, struct nfsmount *nmp, struct ucred *cred, NFSPROC_T *p) { struct nfsclowner *owp, *nowp, *towp; struct nfsclopen *op, *nop, *top; struct nfscldeleg *dp, *ndp; int ret, printed = 0; /* * First, merge locally issued Opens into the list for the server. */ dp = TAILQ_FIRST(&clp->nfsc_deleg); while (dp != NULL) { ndp = TAILQ_NEXT(dp, nfsdl_list); owp = LIST_FIRST(&dp->nfsdl_owner); while (owp != NULL) { nowp = LIST_NEXT(owp, nfsow_list); op = LIST_FIRST(&owp->nfsow_open); if (op != NULL) { if (LIST_NEXT(op, nfso_list) != NULL) panic("nfsclexp"); LIST_FOREACH(towp, &clp->nfsc_owner, nfsow_list) { if (!NFSBCMP(towp->nfsow_owner, owp->nfsow_owner, NFSV4CL_LOCKNAMELEN)) break; } if (towp != NULL) { /* Merge opens in */ LIST_FOREACH(top, &towp->nfsow_open, nfso_list) { if (top->nfso_fhlen == op->nfso_fhlen && !NFSBCMP(top->nfso_fh, op->nfso_fh, op->nfso_fhlen)) { top->nfso_mode |= op->nfso_mode; top->nfso_opencnt += op->nfso_opencnt; break; } } if (top == NULL) { /* Just add the open to the owner list */ LIST_REMOVE(op, nfso_list); op->nfso_own = towp; LIST_INSERT_HEAD(&towp->nfsow_open, op, nfso_list); LIST_INSERT_HEAD(NFSCLOPENHASH(clp, op->nfso_fh, op->nfso_fhlen), op, nfso_hash); nfsstatsv1.cllocalopens--; nfsstatsv1.clopens++; } } else { /* Just add the openowner to the client list */ LIST_REMOVE(owp, nfsow_list); owp->nfsow_clp = clp; LIST_INSERT_HEAD(&clp->nfsc_owner, owp, nfsow_list); LIST_INSERT_HEAD(NFSCLOPENHASH(clp, op->nfso_fh, op->nfso_fhlen), op, nfso_hash); nfsstatsv1.cllocalopenowners--; nfsstatsv1.clopenowners++; nfsstatsv1.cllocalopens--; nfsstatsv1.clopens++; } } owp = nowp; } if (!printed && !LIST_EMPTY(&dp->nfsdl_lock)) { printed = 1; printf("nfsv4 expired locks lost\n"); } nfscl_cleandeleg(dp); nfscl_freedeleg(&clp->nfsc_deleg, dp, true); dp = ndp; } if (!TAILQ_EMPTY(&clp->nfsc_deleg)) panic("nfsclexp"); /* * Now, try and reopen against the server. */ LIST_FOREACH_SAFE(owp, &clp->nfsc_owner, nfsow_list, nowp) { owp->nfsow_seqid = 0; LIST_FOREACH_SAFE(op, &owp->nfsow_open, nfso_list, nop) { ret = nfscl_expireopen(clp, op, nmp, cred, p); if (ret && !printed) { printed = 1; printf("nfsv4 expired locks lost\n"); } } if (LIST_EMPTY(&owp->nfsow_open)) nfscl_freeopenowner(owp, 0); } } /* * This function must be called after the process represented by "own" has * exited. Must be called with CLSTATE lock held. */ static void nfscl_cleanup_common(struct nfsclclient *clp, u_int8_t *own) { struct nfsclowner *owp, *nowp; struct nfscllockowner *lp; struct nfscldeleg *dp; /* First, get rid of local locks on delegations. */ TAILQ_FOREACH(dp, &clp->nfsc_deleg, nfsdl_list) { LIST_FOREACH(lp, &dp->nfsdl_lock, nfsl_list) { if (!NFSBCMP(lp->nfsl_owner, own, NFSV4CL_LOCKNAMELEN)) { if ((lp->nfsl_rwlock.nfslock_lock & NFSV4LOCK_WANTED)) panic("nfscllckw"); nfscl_freelockowner(lp, 1); break; } } } owp = LIST_FIRST(&clp->nfsc_owner); while (owp != NULL) { nowp = LIST_NEXT(owp, nfsow_list); if (!NFSBCMP(owp->nfsow_owner, own, NFSV4CL_LOCKNAMELEN)) { /* * If there are children that haven't closed the * file descriptors yet, the opens will still be * here. For that case, let the renew thread clear * out the OpenOwner later. */ if (LIST_EMPTY(&owp->nfsow_open)) nfscl_freeopenowner(owp, 0); else owp->nfsow_defunct = 1; break; } owp = nowp; } } /* * Find open/lock owners for processes that have exited. */ static void nfscl_cleanupkext(struct nfsclclient *clp, struct nfscllockownerfhhead *lhp) { struct nfsclowner *owp, *nowp; struct nfsclopen *op; struct nfscllockowner *lp, *nlp; struct nfscldeleg *dp; uint8_t own[NFSV4CL_LOCKNAMELEN]; /* * All the pidhash locks must be acquired, since they are sx locks * and must be acquired before the mutexes. The pid(s) that will * be used aren't known yet, so all the locks need to be acquired. * Fortunately, this function is only performed once/sec. */ pidhash_slockall(); NFSLOCKCLSTATE(); LIST_FOREACH_SAFE(owp, &clp->nfsc_owner, nfsow_list, nowp) { LIST_FOREACH(op, &owp->nfsow_open, nfso_list) { LIST_FOREACH_SAFE(lp, &op->nfso_lock, nfsl_list, nlp) { if (LIST_EMPTY(&lp->nfsl_lock)) nfscl_emptylockowner(lp, lhp); } } if (nfscl_procdoesntexist(owp->nfsow_owner)) { memcpy(own, owp->nfsow_owner, NFSV4CL_LOCKNAMELEN); nfscl_cleanup_common(clp, own); } } /* * For the single open_owner case, these lock owners need to be * checked to see if they still exist separately. * This is because nfscl_procdoesntexist() never returns true for * the single open_owner so that the above doesn't ever call * nfscl_cleanup_common(). */ TAILQ_FOREACH(dp, &clp->nfsc_deleg, nfsdl_list) { LIST_FOREACH_SAFE(lp, &dp->nfsdl_lock, nfsl_list, nlp) { if (nfscl_procdoesntexist(lp->nfsl_owner)) { memcpy(own, lp->nfsl_owner, NFSV4CL_LOCKNAMELEN); nfscl_cleanup_common(clp, own); } } } NFSUNLOCKCLSTATE(); pidhash_sunlockall(); } /* * Take the empty lock owner and move it to the local lhp list if the * associated process no longer exists. */ static void nfscl_emptylockowner(struct nfscllockowner *lp, struct nfscllockownerfhhead *lhp) { struct nfscllockownerfh *lfhp, *mylfhp; struct nfscllockowner *nlp; int fnd_it; /* If not a Posix lock owner, just return. */ if ((lp->nfsl_lockflags & F_POSIX) == 0) return; fnd_it = 0; mylfhp = NULL; /* * First, search to see if this lock owner is already in the list. * If it is, then the associated process no longer exists. */ SLIST_FOREACH(lfhp, lhp, nfslfh_list) { if (lfhp->nfslfh_len == lp->nfsl_open->nfso_fhlen && !NFSBCMP(lfhp->nfslfh_fh, lp->nfsl_open->nfso_fh, lfhp->nfslfh_len)) mylfhp = lfhp; LIST_FOREACH(nlp, &lfhp->nfslfh_lock, nfsl_list) if (!NFSBCMP(nlp->nfsl_owner, lp->nfsl_owner, NFSV4CL_LOCKNAMELEN)) fnd_it = 1; } /* If not found, check if process still exists. */ if (fnd_it == 0 && nfscl_procdoesntexist(lp->nfsl_owner) == 0) return; /* Move the lock owner over to the local list. */ if (mylfhp == NULL) { mylfhp = malloc(sizeof(struct nfscllockownerfh), M_TEMP, M_NOWAIT); if (mylfhp == NULL) return; mylfhp->nfslfh_len = lp->nfsl_open->nfso_fhlen; NFSBCOPY(lp->nfsl_open->nfso_fh, mylfhp->nfslfh_fh, mylfhp->nfslfh_len); LIST_INIT(&mylfhp->nfslfh_lock); SLIST_INSERT_HEAD(lhp, mylfhp, nfslfh_list); } LIST_REMOVE(lp, nfsl_list); LIST_INSERT_HEAD(&mylfhp->nfslfh_lock, lp, nfsl_list); } static int fake_global; /* Used to force visibility of MNTK_UNMOUNTF */ /* * Called from nfs umount to free up the clientid. */ void nfscl_umount(struct nfsmount *nmp, NFSPROC_T *p, struct nfscldeleghead *dhp) { struct nfsclclient *clp; struct ucred *cred; int igotlock; /* * For the case that matters, this is the thread that set * MNTK_UNMOUNTF, so it will see it set. The code that follows is * done to ensure that any thread executing nfscl_getcl() after * this time, will see MNTK_UNMOUNTF set. nfscl_getcl() uses the * mutex for NFSLOCKCLSTATE(), so it is "m" for the following * explanation, courtesy of Alan Cox. * What follows is a snippet from Alan Cox's email at: * https://docs.FreeBSD.org/cgi/mid.cgi?BANLkTikR3d65zPHo9==08ZfJ2vmqZucEvw * * 1. Set MNTK_UNMOUNTF * 2. Acquire a standard FreeBSD mutex "m". * 3. Update some data structures. * 4. Release mutex "m". * * Then, other threads that acquire "m" after step 4 has occurred will * see MNTK_UNMOUNTF as set. But, other threads that beat thread X to * step 2 may or may not see MNTK_UNMOUNTF as set. */ NFSLOCKCLSTATE(); if ((nmp->nm_mountp->mnt_kern_flag & MNTK_UNMOUNTF) != 0) { fake_global++; NFSUNLOCKCLSTATE(); NFSLOCKCLSTATE(); } clp = nmp->nm_clp; if (clp != NULL) { if ((clp->nfsc_flags & NFSCLFLAGS_INITED) == 0) panic("nfscl umount"); /* * First, handshake with the nfscl renew thread, to terminate * it. */ clp->nfsc_flags |= NFSCLFLAGS_UMOUNT; while (clp->nfsc_flags & NFSCLFLAGS_HASTHREAD) (void)mtx_sleep(clp, NFSCLSTATEMUTEXPTR, PWAIT, "nfsclumnt", hz); /* * Now, get the exclusive lock on the client state, so * that no uses of the state are still in progress. */ do { igotlock = nfsv4_lock(&clp->nfsc_lock, 1, NULL, NFSCLSTATEMUTEXPTR, NULL); } while (!igotlock); NFSUNLOCKCLSTATE(); /* * Free up all the state. It will expire on the server, but * maybe we should do a SetClientId/SetClientIdConfirm so * the server throws it away? */ LIST_REMOVE(clp, nfsc_list); nfscl_delegreturnall(clp, p, dhp); cred = newnfs_getcred(); if (NFSHASNFSV4N(nmp)) { nfsrpc_destroysession(nmp, NULL, cred, p); nfsrpc_destroyclient(nmp, clp, cred, p); } else nfsrpc_setclient(nmp, clp, 0, NULL, cred, p); nfscl_cleanclient(clp); nmp->nm_clp = NULL; NFSFREECRED(cred); free(clp, M_NFSCLCLIENT); } else NFSUNLOCKCLSTATE(); } /* * This function is called when a server replies with NFSERR_STALECLIENTID * NFSERR_STALESTATEID or NFSERR_BADSESSION. It traverses the clientid lists, * doing Opens and Locks with reclaim. If these fail, it deletes the * corresponding state. */ static void nfscl_recover(struct nfsclclient *clp, bool *retokp, struct ucred *cred, NFSPROC_T *p) { struct nfsclowner *owp, *nowp; struct nfsclopen *op, *nop; struct nfscllockowner *lp, *nlp; struct nfscllock *lop, *nlop; struct nfscldeleg *dp, *ndp, *tdp; struct nfsmount *nmp; struct ucred *tcred; struct nfsclopenhead extra_open; struct nfscldeleghead extra_deleg; struct nfsreq *rep; u_int64_t len; u_int32_t delegtype = NFSV4OPEN_DELEGATEWRITE, mode; int i, igotlock = 0, error, trycnt, firstlock; struct nfscllayout *lyp, *nlyp; bool recovered_one; /* * First, lock the client structure, so everyone else will * block when trying to use state. */ NFSLOCKCLSTATE(); clp->nfsc_flags |= NFSCLFLAGS_RECVRINPROG; do { igotlock = nfsv4_lock(&clp->nfsc_lock, 1, NULL, NFSCLSTATEMUTEXPTR, NULL); } while (!igotlock); NFSUNLOCKCLSTATE(); nmp = clp->nfsc_nmp; if (nmp == NULL) panic("nfscl recover"); /* * For now, just get rid of all layouts. There may be a need * to do LayoutCommit Ops with reclaim == true later. */ TAILQ_FOREACH_SAFE(lyp, &clp->nfsc_layout, nfsly_list, nlyp) nfscl_freelayout(lyp); TAILQ_INIT(&clp->nfsc_layout); for (i = 0; i < NFSCLLAYOUTHASHSIZE; i++) LIST_INIT(&clp->nfsc_layouthash[i]); trycnt = 5; tcred = NULL; do { error = nfsrpc_setclient(nmp, clp, 1, retokp, cred, p); } while ((error == NFSERR_STALECLIENTID || error == NFSERR_BADSESSION || error == NFSERR_STALEDONTRECOVER) && --trycnt > 0); if (error) { NFSLOCKCLSTATE(); clp->nfsc_flags &= ~(NFSCLFLAGS_RECOVER | NFSCLFLAGS_RECVRINPROG); wakeup(&clp->nfsc_flags); nfsv4_unlock(&clp->nfsc_lock, 0); NFSUNLOCKCLSTATE(); return; } clp->nfsc_flags |= NFSCLFLAGS_HASCLIENTID; clp->nfsc_flags &= ~NFSCLFLAGS_RECOVER; /* * Mark requests already queued on the server, so that they don't * initiate another recovery cycle. Any requests already in the * queue that handle state information will have the old stale * clientid/stateid and will get a NFSERR_STALESTATEID, * NFSERR_STALECLIENTID or NFSERR_BADSESSION reply from the server. * This will be translated to NFSERR_STALEDONTRECOVER when * R_DONTRECOVER is set. */ NFSLOCKREQ(); TAILQ_FOREACH(rep, &nfsd_reqq, r_chain) { if (rep->r_nmp == nmp) rep->r_flags |= R_DONTRECOVER; } NFSUNLOCKREQ(); /* * If nfsrpc_setclient() returns *retokp == true, * no more recovery is needed. */ if (*retokp) goto out; /* * Now, mark all delegations "need reclaim". */ TAILQ_FOREACH(dp, &clp->nfsc_deleg, nfsdl_list) dp->nfsdl_flags |= NFSCLDL_NEEDRECLAIM; TAILQ_INIT(&extra_deleg); LIST_INIT(&extra_open); /* * Now traverse the state lists, doing Open and Lock Reclaims. */ tcred = newnfs_getcred(); recovered_one = false; owp = LIST_FIRST(&clp->nfsc_owner); while (owp != NULL) { nowp = LIST_NEXT(owp, nfsow_list); owp->nfsow_seqid = 0; op = LIST_FIRST(&owp->nfsow_open); while (op != NULL) { nop = LIST_NEXT(op, nfso_list); if (error != NFSERR_NOGRACE && error != NFSERR_BADSESSION) { /* Search for a delegation to reclaim with the open */ TAILQ_FOREACH(dp, &clp->nfsc_deleg, nfsdl_list) { if (!(dp->nfsdl_flags & NFSCLDL_NEEDRECLAIM)) continue; if ((dp->nfsdl_flags & NFSCLDL_WRITE)) { mode = NFSV4OPEN_ACCESSWRITE; delegtype = NFSV4OPEN_DELEGATEWRITE; } else { mode = NFSV4OPEN_ACCESSREAD; delegtype = NFSV4OPEN_DELEGATEREAD; } if ((op->nfso_mode & mode) == mode && op->nfso_fhlen == dp->nfsdl_fhlen && !NFSBCMP(op->nfso_fh, dp->nfsdl_fh, op->nfso_fhlen)) break; } ndp = dp; if (dp == NULL) delegtype = NFSV4OPEN_DELEGATENONE; newnfs_copycred(&op->nfso_cred, tcred); error = nfscl_tryopen(nmp, NULL, op->nfso_fh, op->nfso_fhlen, op->nfso_fh, op->nfso_fhlen, op->nfso_mode, op, NULL, 0, &ndp, 1, delegtype, tcred, p); if (!error) { recovered_one = true; /* Handle any replied delegation */ if (ndp != NULL && ((ndp->nfsdl_flags & NFSCLDL_WRITE) || NFSMNT_RDONLY(nmp->nm_mountp))) { if ((ndp->nfsdl_flags & NFSCLDL_WRITE)) mode = NFSV4OPEN_ACCESSWRITE; else mode = NFSV4OPEN_ACCESSREAD; TAILQ_FOREACH(dp, &clp->nfsc_deleg, nfsdl_list) { if (!(dp->nfsdl_flags & NFSCLDL_NEEDRECLAIM)) continue; if ((op->nfso_mode & mode) == mode && op->nfso_fhlen == dp->nfsdl_fhlen && !NFSBCMP(op->nfso_fh, dp->nfsdl_fh, op->nfso_fhlen)) { dp->nfsdl_stateid = ndp->nfsdl_stateid; dp->nfsdl_sizelimit = ndp->nfsdl_sizelimit; dp->nfsdl_ace = ndp->nfsdl_ace; dp->nfsdl_change = ndp->nfsdl_change; dp->nfsdl_flags &= ~NFSCLDL_NEEDRECLAIM; if ((ndp->nfsdl_flags & NFSCLDL_RECALL)) dp->nfsdl_flags |= NFSCLDL_RECALL; free(ndp, M_NFSCLDELEG); ndp = NULL; break; } } } if (ndp != NULL) TAILQ_INSERT_HEAD(&extra_deleg, ndp, nfsdl_list); /* and reclaim all byte range locks */ lp = LIST_FIRST(&op->nfso_lock); while (lp != NULL) { nlp = LIST_NEXT(lp, nfsl_list); lp->nfsl_seqid = 0; firstlock = 1; lop = LIST_FIRST(&lp->nfsl_lock); while (lop != NULL) { nlop = LIST_NEXT(lop, nfslo_list); if (lop->nfslo_end == NFS64BITSSET) len = NFS64BITSSET; else len = lop->nfslo_end - lop->nfslo_first; error = nfscl_trylock(nmp, NULL, op->nfso_fh, op->nfso_fhlen, lp, firstlock, 1, lop->nfslo_first, len, lop->nfslo_type, tcred, p); if (error != 0) nfscl_freelock(lop, 0); else firstlock = 0; lop = nlop; } /* If no locks, but a lockowner, just delete it. */ if (LIST_EMPTY(&lp->nfsl_lock)) nfscl_freelockowner(lp, 0); lp = nlp; } } else if (error == NFSERR_NOGRACE && !recovered_one && NFSHASNFSV4N(nmp)) { /* * For NFSv4.1/4.2, the NFSERR_EXPIRED case will * actually end up here, since the client will do * a recovery for NFSERR_BADSESSION, but will get * an NFSERR_NOGRACE reply for the first "reclaim" * attempt. * So, call nfscl_expireclient() to recover the * opens as best we can and then do a reclaim * complete and return. */ nfsrpc_reclaimcomplete(nmp, cred, p); nfscl_expireclient(clp, nmp, tcred, p); goto out; } } if (error != 0 && error != NFSERR_BADSESSION) nfscl_freeopen(op, 0, true); op = nop; } owp = nowp; } /* * Now, try and get any delegations not yet reclaimed by cobbling * to-gether an appropriate open. */ nowp = NULL; dp = TAILQ_FIRST(&clp->nfsc_deleg); while (dp != NULL) { ndp = TAILQ_NEXT(dp, nfsdl_list); if ((dp->nfsdl_flags & NFSCLDL_NEEDRECLAIM)) { if (nowp == NULL) { nowp = malloc( sizeof (struct nfsclowner), M_NFSCLOWNER, M_WAITOK); /* * Name must be as long an largest possible * NFSV4CL_LOCKNAMELEN. 12 for now. */ NFSBCOPY("RECLAIMDELEG", nowp->nfsow_owner, NFSV4CL_LOCKNAMELEN); LIST_INIT(&nowp->nfsow_open); nowp->nfsow_clp = clp; nowp->nfsow_seqid = 0; nowp->nfsow_defunct = 0; nfscl_lockinit(&nowp->nfsow_rwlock); } nop = NULL; if (error != NFSERR_NOGRACE && error != NFSERR_BADSESSION) { nop = malloc(sizeof (struct nfsclopen) + dp->nfsdl_fhlen - 1, M_NFSCLOPEN, M_WAITOK); nop->nfso_own = nowp; if ((dp->nfsdl_flags & NFSCLDL_WRITE)) { nop->nfso_mode = NFSV4OPEN_ACCESSWRITE; delegtype = NFSV4OPEN_DELEGATEWRITE; } else { nop->nfso_mode = NFSV4OPEN_ACCESSREAD; delegtype = NFSV4OPEN_DELEGATEREAD; } nop->nfso_opencnt = 0; nop->nfso_posixlock = 1; nop->nfso_fhlen = dp->nfsdl_fhlen; NFSBCOPY(dp->nfsdl_fh, nop->nfso_fh, dp->nfsdl_fhlen); LIST_INIT(&nop->nfso_lock); nop->nfso_stateid.seqid = 0; nop->nfso_stateid.other[0] = 0; nop->nfso_stateid.other[1] = 0; nop->nfso_stateid.other[2] = 0; newnfs_copycred(&dp->nfsdl_cred, tcred); newnfs_copyincred(tcred, &nop->nfso_cred); tdp = NULL; error = nfscl_tryopen(nmp, NULL, nop->nfso_fh, nop->nfso_fhlen, nop->nfso_fh, nop->nfso_fhlen, nop->nfso_mode, nop, NULL, 0, &tdp, 1, delegtype, tcred, p); if (tdp != NULL) { if ((tdp->nfsdl_flags & NFSCLDL_WRITE)) mode = NFSV4OPEN_ACCESSWRITE; else mode = NFSV4OPEN_ACCESSREAD; if ((nop->nfso_mode & mode) == mode && nop->nfso_fhlen == tdp->nfsdl_fhlen && !NFSBCMP(nop->nfso_fh, tdp->nfsdl_fh, nop->nfso_fhlen)) { dp->nfsdl_stateid = tdp->nfsdl_stateid; dp->nfsdl_sizelimit = tdp->nfsdl_sizelimit; dp->nfsdl_ace = tdp->nfsdl_ace; dp->nfsdl_change = tdp->nfsdl_change; dp->nfsdl_flags &= ~NFSCLDL_NEEDRECLAIM; if ((tdp->nfsdl_flags & NFSCLDL_RECALL)) dp->nfsdl_flags |= NFSCLDL_RECALL; free(tdp, M_NFSCLDELEG); } else { TAILQ_INSERT_HEAD(&extra_deleg, tdp, nfsdl_list); } } } if (error) { if (nop != NULL) free(nop, M_NFSCLOPEN); if (error == NFSERR_NOGRACE && !recovered_one && NFSHASNFSV4N(nmp)) { /* * For NFSv4.1/4.2, the NFSERR_EXPIRED case will * actually end up here, since the client will do * a recovery for NFSERR_BADSESSION, but will get * an NFSERR_NOGRACE reply for the first "reclaim" * attempt. * So, call nfscl_expireclient() to recover the * opens as best we can and then do a reclaim * complete and return. */ nfsrpc_reclaimcomplete(nmp, cred, p); nfscl_expireclient(clp, nmp, tcred, p); free(nowp, M_NFSCLOWNER); goto out; } /* * Couldn't reclaim it, so throw the state * away. Ouch!! */ nfscl_cleandeleg(dp); nfscl_freedeleg(&clp->nfsc_deleg, dp, true); } else { recovered_one = true; LIST_INSERT_HEAD(&extra_open, nop, nfso_list); } } dp = ndp; } /* * Now, get rid of extra Opens and Delegations. */ LIST_FOREACH_SAFE(op, &extra_open, nfso_list, nop) { do { newnfs_copycred(&op->nfso_cred, tcred); error = nfscl_tryclose(op, tcred, nmp, p, true); if (error == NFSERR_GRACE) (void) nfs_catnap(PZERO, error, "nfsexcls"); } while (error == NFSERR_GRACE); LIST_REMOVE(op, nfso_list); free(op, M_NFSCLOPEN); } if (nowp != NULL) free(nowp, M_NFSCLOWNER); TAILQ_FOREACH_SAFE(dp, &extra_deleg, nfsdl_list, ndp) { do { newnfs_copycred(&dp->nfsdl_cred, tcred); error = nfscl_trydelegreturn(dp, tcred, nmp, p); if (error == NFSERR_GRACE) (void) nfs_catnap(PZERO, error, "nfsexdlg"); } while (error == NFSERR_GRACE); TAILQ_REMOVE(&extra_deleg, dp, nfsdl_list); free(dp, M_NFSCLDELEG); } /* For NFSv4.1 or later, do a RECLAIM_COMPLETE. */ if (NFSHASNFSV4N(nmp)) (void)nfsrpc_reclaimcomplete(nmp, cred, p); out: NFSLOCKCLSTATE(); clp->nfsc_flags &= ~NFSCLFLAGS_RECVRINPROG; wakeup(&clp->nfsc_flags); nfsv4_unlock(&clp->nfsc_lock, 0); NFSUNLOCKCLSTATE(); if (tcred != NULL) NFSFREECRED(tcred); } /* * This function is called when a server replies with NFSERR_EXPIRED. * It deletes all state for the client and does a fresh SetClientId/confirm. * XXX Someday it should post a signal to the process(es) that hold the * state, so they know that lock state has been lost. */ int nfscl_hasexpired(struct nfsclclient *clp, u_int32_t clidrev, NFSPROC_T *p) { struct nfsmount *nmp; struct ucred *cred; int igotlock = 0, error, trycnt; /* * If the clientid has gone away or a new SetClientid has already * been done, just return ok. */ if (clp == NULL || clidrev != clp->nfsc_clientidrev) return (0); /* * First, lock the client structure, so everyone else will * block when trying to use state. Also, use NFSCLFLAGS_EXPIREIT so * that only one thread does the work. */ NFSLOCKCLSTATE(); clp->nfsc_flags |= NFSCLFLAGS_EXPIREIT; do { igotlock = nfsv4_lock(&clp->nfsc_lock, 1, NULL, NFSCLSTATEMUTEXPTR, NULL); } while (!igotlock && (clp->nfsc_flags & NFSCLFLAGS_EXPIREIT)); if ((clp->nfsc_flags & NFSCLFLAGS_EXPIREIT) == 0) { if (igotlock) nfsv4_unlock(&clp->nfsc_lock, 0); NFSUNLOCKCLSTATE(); return (0); } clp->nfsc_flags |= NFSCLFLAGS_RECVRINPROG; NFSUNLOCKCLSTATE(); nmp = clp->nfsc_nmp; if (nmp == NULL) panic("nfscl expired"); cred = newnfs_getcred(); trycnt = 5; do { error = nfsrpc_setclient(nmp, clp, 0, NULL, cred, p); } while ((error == NFSERR_STALECLIENTID || error == NFSERR_BADSESSION || error == NFSERR_STALEDONTRECOVER) && --trycnt > 0); if (error) { NFSLOCKCLSTATE(); clp->nfsc_flags &= ~NFSCLFLAGS_RECOVER; } else { /* * Expire the state for the client. */ nfscl_expireclient(clp, nmp, cred, p); NFSLOCKCLSTATE(); clp->nfsc_flags |= NFSCLFLAGS_HASCLIENTID; clp->nfsc_flags &= ~NFSCLFLAGS_RECOVER; } clp->nfsc_flags &= ~(NFSCLFLAGS_EXPIREIT | NFSCLFLAGS_RECVRINPROG); wakeup(&clp->nfsc_flags); nfsv4_unlock(&clp->nfsc_lock, 0); NFSUNLOCKCLSTATE(); NFSFREECRED(cred); return (error); } /* * This function inserts a lock in the list after insert_lop. */ static void nfscl_insertlock(struct nfscllockowner *lp, struct nfscllock *new_lop, struct nfscllock *insert_lop, int local) { if ((struct nfscllockowner *)insert_lop == lp) LIST_INSERT_HEAD(&lp->nfsl_lock, new_lop, nfslo_list); else LIST_INSERT_AFTER(insert_lop, new_lop, nfslo_list); if (local) nfsstatsv1.cllocallocks++; else nfsstatsv1.cllocks++; } /* * This function updates the locking for a lock owner and given file. It * maintains a list of lock ranges ordered on increasing file offset that * are NFSCLLOCK_READ or NFSCLLOCK_WRITE and non-overlapping (aka POSIX style). * It always adds new_lop to the list and sometimes uses the one pointed * at by other_lopp. * Returns 1 if the locks were modified, 0 otherwise. */ static int nfscl_updatelock(struct nfscllockowner *lp, struct nfscllock **new_lopp, struct nfscllock **other_lopp, int local) { struct nfscllock *new_lop = *new_lopp; struct nfscllock *lop, *tlop, *ilop; struct nfscllock *other_lop; int unlock = 0, modified = 0; u_int64_t tmp; /* * Work down the list until the lock is merged. */ if (new_lop->nfslo_type == F_UNLCK) unlock = 1; ilop = (struct nfscllock *)lp; lop = LIST_FIRST(&lp->nfsl_lock); while (lop != NULL) { /* * Only check locks for this file that aren't before the start of * new lock's range. */ if (lop->nfslo_end >= new_lop->nfslo_first) { if (new_lop->nfslo_end < lop->nfslo_first) { /* * If the new lock ends before the start of the * current lock's range, no merge, just insert * the new lock. */ break; } if (new_lop->nfslo_type == lop->nfslo_type || (new_lop->nfslo_first <= lop->nfslo_first && new_lop->nfslo_end >= lop->nfslo_end)) { /* * This lock can be absorbed by the new lock/unlock. * This happens when it covers the entire range * of the old lock or is contiguous * with the old lock and is of the same type or an * unlock. */ if (new_lop->nfslo_type != lop->nfslo_type || new_lop->nfslo_first != lop->nfslo_first || new_lop->nfslo_end != lop->nfslo_end) modified = 1; if (lop->nfslo_first < new_lop->nfslo_first) new_lop->nfslo_first = lop->nfslo_first; if (lop->nfslo_end > new_lop->nfslo_end) new_lop->nfslo_end = lop->nfslo_end; tlop = lop; lop = LIST_NEXT(lop, nfslo_list); nfscl_freelock(tlop, local); continue; } /* * All these cases are for contiguous locks that are not the * same type, so they can't be merged. */ if (new_lop->nfslo_first <= lop->nfslo_first) { /* * This case is where the new lock overlaps with the * first part of the old lock. Move the start of the * old lock to just past the end of the new lock. The * new lock will be inserted in front of the old, since * ilop hasn't been updated. (We are done now.) */ if (lop->nfslo_first != new_lop->nfslo_end) { lop->nfslo_first = new_lop->nfslo_end; modified = 1; } break; } if (new_lop->nfslo_end >= lop->nfslo_end) { /* * This case is where the new lock overlaps with the * end of the old lock's range. Move the old lock's * end to just before the new lock's first and insert * the new lock after the old lock. * Might not be done yet, since the new lock could * overlap further locks with higher ranges. */ if (lop->nfslo_end != new_lop->nfslo_first) { lop->nfslo_end = new_lop->nfslo_first; modified = 1; } ilop = lop; lop = LIST_NEXT(lop, nfslo_list); continue; } /* * The final case is where the new lock's range is in the * middle of the current lock's and splits the current lock * up. Use *other_lopp to handle the second part of the * split old lock range. (We are done now.) * For unlock, we use new_lop as other_lop and tmp, since * other_lop and new_lop are the same for this case. * We noted the unlock case above, so we don't need * new_lop->nfslo_type any longer. */ tmp = new_lop->nfslo_first; if (unlock) { other_lop = new_lop; *new_lopp = NULL; } else { other_lop = *other_lopp; *other_lopp = NULL; } other_lop->nfslo_first = new_lop->nfslo_end; other_lop->nfslo_end = lop->nfslo_end; other_lop->nfslo_type = lop->nfslo_type; lop->nfslo_end = tmp; nfscl_insertlock(lp, other_lop, lop, local); ilop = lop; modified = 1; break; } ilop = lop; lop = LIST_NEXT(lop, nfslo_list); if (lop == NULL) break; } /* * Insert the new lock in the list at the appropriate place. */ if (!unlock) { nfscl_insertlock(lp, new_lop, ilop, local); *new_lopp = NULL; modified = 1; } return (modified); } /* * This function must be run as a kernel thread. * It does Renew Ops and recovery, when required. */ void nfscl_renewthread(struct nfsclclient *clp, NFSPROC_T *p) { struct nfsclowner *owp, *nowp; struct nfsclopen *op; struct nfscllockowner *lp, *nlp; struct nfscldeleghead dh; struct nfscldeleg *dp, *ndp; struct ucred *cred; u_int32_t clidrev; int error, cbpathdown, islept, igotlock, ret, clearok; uint32_t recover_done_time = 0; time_t mytime; static time_t prevsec = 0; struct nfscllockownerfh *lfhp, *nlfhp; struct nfscllockownerfhhead lfh; struct nfscllayout *lyp, *nlyp; struct nfscldevinfo *dip, *ndip; struct nfscllayouthead rlh; struct nfsclrecalllayout *recallp; struct nfsclds *dsp; bool retok; struct mount *mp; vnode_t vp; cred = newnfs_getcred(); NFSLOCKCLSTATE(); clp->nfsc_flags |= NFSCLFLAGS_HASTHREAD; mp = clp->nfsc_nmp->nm_mountp; NFSUNLOCKCLSTATE(); for(;;) { newnfs_setroot(cred); cbpathdown = 0; if (clp->nfsc_flags & NFSCLFLAGS_RECOVER) { /* * Only allow one full recover within 1/2 of the lease * duration (nfsc_renew). * retok is value/result. If passed in set to true, * it indicates only a CreateSession operation should * be attempted. * If it is returned true, it indicates that the * recovery only required a CreateSession. */ retok = true; if (recover_done_time < NFSD_MONOSEC) { recover_done_time = NFSD_MONOSEC + clp->nfsc_renew; retok = false; } NFSCL_DEBUG(1, "Doing recovery, only " "createsession=%d\n", retok); nfscl_recover(clp, &retok, cred, p); } if (clp->nfsc_expire <= NFSD_MONOSEC && (clp->nfsc_flags & NFSCLFLAGS_HASCLIENTID)) { clp->nfsc_expire = NFSD_MONOSEC + clp->nfsc_renew; clidrev = clp->nfsc_clientidrev; error = nfsrpc_renew(clp, NULL, cred, p); if (error == NFSERR_CBPATHDOWN) cbpathdown = 1; else if (error == NFSERR_STALECLIENTID) { NFSLOCKCLSTATE(); clp->nfsc_flags |= NFSCLFLAGS_RECOVER; NFSUNLOCKCLSTATE(); } else if (error == NFSERR_EXPIRED) (void) nfscl_hasexpired(clp, clidrev, p); } checkdsrenew: if (NFSHASNFSV4N(clp->nfsc_nmp)) { /* Do renews for any DS sessions. */ NFSLOCKMNT(clp->nfsc_nmp); /* Skip first entry, since the MDS is handled above. */ dsp = TAILQ_FIRST(&clp->nfsc_nmp->nm_sess); if (dsp != NULL) dsp = TAILQ_NEXT(dsp, nfsclds_list); while (dsp != NULL) { if (dsp->nfsclds_expire <= NFSD_MONOSEC && dsp->nfsclds_sess.nfsess_defunct == 0) { dsp->nfsclds_expire = NFSD_MONOSEC + clp->nfsc_renew; NFSUNLOCKMNT(clp->nfsc_nmp); (void)nfsrpc_renew(clp, dsp, cred, p); goto checkdsrenew; } dsp = TAILQ_NEXT(dsp, nfsclds_list); } NFSUNLOCKMNT(clp->nfsc_nmp); } TAILQ_INIT(&dh); NFSLOCKCLSTATE(); if (cbpathdown) /* It's a Total Recall! */ nfscl_totalrecall(clp); /* * Now, handle defunct owners. */ LIST_FOREACH_SAFE(owp, &clp->nfsc_owner, nfsow_list, nowp) { if (LIST_EMPTY(&owp->nfsow_open)) { if (owp->nfsow_defunct != 0) nfscl_freeopenowner(owp, 0); } } /* * Do the recall on any delegations. To avoid trouble, always * come back up here after having slept. */ igotlock = 0; tryagain: dp = TAILQ_FIRST(&clp->nfsc_deleg); while (dp != NULL) { ndp = TAILQ_NEXT(dp, nfsdl_list); if ((dp->nfsdl_flags & NFSCLDL_RECALL)) { /* * Wait for outstanding I/O ops to be done. */ if (dp->nfsdl_rwlock.nfslock_usecnt > 0) { if (igotlock) { nfsv4_unlock(&clp->nfsc_lock, 0); igotlock = 0; } dp->nfsdl_rwlock.nfslock_lock |= NFSV4LOCK_WANTED; msleep(&dp->nfsdl_rwlock, NFSCLSTATEMUTEXPTR, PVFS, "nfscld", 5 * hz); if (NFSCL_FORCEDISM(mp)) goto terminate; goto tryagain; } while (!igotlock) { igotlock = nfsv4_lock(&clp->nfsc_lock, 1, &islept, NFSCLSTATEMUTEXPTR, mp); if (igotlock == 0 && NFSCL_FORCEDISM(mp)) goto terminate; if (islept) goto tryagain; } NFSUNLOCKCLSTATE(); newnfs_copycred(&dp->nfsdl_cred, cred); ret = nfscl_recalldeleg(clp, clp->nfsc_nmp, dp, NULL, cred, p, 1, &vp); if (!ret) { nfscl_cleandeleg(dp); TAILQ_REMOVE(&clp->nfsc_deleg, dp, nfsdl_list); LIST_REMOVE(dp, nfsdl_hash); TAILQ_INSERT_HEAD(&dh, dp, nfsdl_list); nfscl_delegcnt--; nfsstatsv1.cldelegates--; } NFSLOCKCLSTATE(); /* * The nfsc_lock must be released before doing * vrele(), since it might call nfs_inactive(). * For the unlikely case where the vnode failed * to be acquired by nfscl_recalldeleg(), a * VOP_RECLAIM() should be in progress and it * will return the delegation. */ nfsv4_unlock(&clp->nfsc_lock, 0); igotlock = 0; if (vp != NULL) { NFSUNLOCKCLSTATE(); vrele(vp); NFSLOCKCLSTATE(); } goto tryagain; } dp = ndp; } /* * Clear out old delegations, if we are above the high water * mark. Only clear out ones with no state related to them. * The tailq list is in LRU order. */ dp = TAILQ_LAST(&clp->nfsc_deleg, nfscldeleghead); while (nfscl_delegcnt > nfscl_deleghighwater && dp != NULL) { ndp = TAILQ_PREV(dp, nfscldeleghead, nfsdl_list); if (dp->nfsdl_rwlock.nfslock_usecnt == 0 && dp->nfsdl_rwlock.nfslock_lock == 0 && dp->nfsdl_timestamp < NFSD_MONOSEC && (dp->nfsdl_flags & (NFSCLDL_RECALL | NFSCLDL_ZAPPED | NFSCLDL_NEEDRECLAIM | NFSCLDL_DELEGRET)) == 0) { clearok = 1; LIST_FOREACH(owp, &dp->nfsdl_owner, nfsow_list) { op = LIST_FIRST(&owp->nfsow_open); if (op != NULL) { clearok = 0; break; } } if (clearok) { LIST_FOREACH(lp, &dp->nfsdl_lock, nfsl_list) { if (!LIST_EMPTY(&lp->nfsl_lock)) { clearok = 0; break; } } } if (clearok) { TAILQ_REMOVE(&clp->nfsc_deleg, dp, nfsdl_list); LIST_REMOVE(dp, nfsdl_hash); TAILQ_INSERT_HEAD(&dh, dp, nfsdl_list); nfscl_delegcnt--; nfsstatsv1.cldelegates--; } } dp = ndp; } if (igotlock) nfsv4_unlock(&clp->nfsc_lock, 0); /* * Do the recall on any layouts. To avoid trouble, always * come back up here after having slept. */ TAILQ_INIT(&rlh); tryagain2: TAILQ_FOREACH_SAFE(lyp, &clp->nfsc_layout, nfsly_list, nlyp) { if ((lyp->nfsly_flags & NFSLY_RECALL) != 0) { /* * Wait for outstanding I/O ops to be done. */ if (lyp->nfsly_lock.nfslock_usecnt > 0 || (lyp->nfsly_lock.nfslock_lock & NFSV4LOCK_LOCK) != 0) { lyp->nfsly_lock.nfslock_lock |= NFSV4LOCK_WANTED; msleep(&lyp->nfsly_lock.nfslock_lock, NFSCLSTATEMUTEXPTR, PVFS, "nfslyp", 5 * hz); if (NFSCL_FORCEDISM(mp)) goto terminate; goto tryagain2; } /* Move the layout to the recall list. */ TAILQ_REMOVE(&clp->nfsc_layout, lyp, nfsly_list); LIST_REMOVE(lyp, nfsly_hash); TAILQ_INSERT_HEAD(&rlh, lyp, nfsly_list); /* Handle any layout commits. */ if (!NFSHASNOLAYOUTCOMMIT(clp->nfsc_nmp) && (lyp->nfsly_flags & NFSLY_WRITTEN) != 0) { lyp->nfsly_flags &= ~NFSLY_WRITTEN; NFSUNLOCKCLSTATE(); NFSCL_DEBUG(3, "do layoutcommit\n"); nfscl_dolayoutcommit(clp->nfsc_nmp, lyp, cred, p); NFSLOCKCLSTATE(); goto tryagain2; } } } /* Now, look for stale layouts. */ lyp = TAILQ_LAST(&clp->nfsc_layout, nfscllayouthead); while (lyp != NULL) { nlyp = TAILQ_PREV(lyp, nfscllayouthead, nfsly_list); if (lyp->nfsly_timestamp < NFSD_MONOSEC && (lyp->nfsly_flags & (NFSLY_RECALL | NFSLY_RETONCLOSE)) == 0 && lyp->nfsly_lock.nfslock_usecnt == 0 && lyp->nfsly_lock.nfslock_lock == 0) { NFSCL_DEBUG(4, "ret stale lay=%d\n", nfscl_layoutcnt); recallp = malloc(sizeof(*recallp), M_NFSLAYRECALL, M_NOWAIT); if (recallp == NULL) break; (void)nfscl_layoutrecall(NFSLAYOUTRETURN_FILE, lyp, NFSLAYOUTIOMODE_ANY, 0, UINT64_MAX, lyp->nfsly_stateid.seqid, 0, 0, NULL, recallp); } lyp = nlyp; } /* * Free up any unreferenced device info structures. */ LIST_FOREACH_SAFE(dip, &clp->nfsc_devinfo, nfsdi_list, ndip) { if (dip->nfsdi_layoutrefs == 0 && dip->nfsdi_refcnt == 0) { NFSCL_DEBUG(4, "freeing devinfo\n"); LIST_REMOVE(dip, nfsdi_list); nfscl_freedevinfo(dip); } } NFSUNLOCKCLSTATE(); /* Do layout return(s), as required. */ TAILQ_FOREACH_SAFE(lyp, &rlh, nfsly_list, nlyp) { TAILQ_REMOVE(&rlh, lyp, nfsly_list); NFSCL_DEBUG(4, "ret layout\n"); nfscl_layoutreturn(clp->nfsc_nmp, lyp, cred, p); if ((lyp->nfsly_flags & NFSLY_RETONCLOSE) != 0) { NFSLOCKCLSTATE(); lyp->nfsly_flags |= NFSLY_RETURNED; wakeup(lyp); NFSUNLOCKCLSTATE(); } else nfscl_freelayout(lyp); } /* * Delegreturn any delegations cleaned out or recalled. */ TAILQ_FOREACH_SAFE(dp, &dh, nfsdl_list, ndp) { newnfs_copycred(&dp->nfsdl_cred, cred); (void) nfscl_trydelegreturn(dp, cred, clp->nfsc_nmp, p); TAILQ_REMOVE(&dh, dp, nfsdl_list); free(dp, M_NFSCLDELEG); } SLIST_INIT(&lfh); /* * Call nfscl_cleanupkext() once per second to check for * open/lock owners where the process has exited. */ mytime = NFSD_MONOSEC; if (prevsec != mytime) { prevsec = mytime; nfscl_cleanupkext(clp, &lfh); } /* * Do a ReleaseLockOwner for all lock owners where the * associated process no longer exists, as found by * nfscl_cleanupkext(). */ newnfs_setroot(cred); SLIST_FOREACH_SAFE(lfhp, &lfh, nfslfh_list, nlfhp) { LIST_FOREACH_SAFE(lp, &lfhp->nfslfh_lock, nfsl_list, nlp) { (void)nfsrpc_rellockown(clp->nfsc_nmp, lp, lfhp->nfslfh_fh, lfhp->nfslfh_len, cred, p); nfscl_freelockowner(lp, 0); } free(lfhp, M_TEMP); } SLIST_INIT(&lfh); NFSLOCKCLSTATE(); if ((clp->nfsc_flags & NFSCLFLAGS_RECOVER) == 0) (void)mtx_sleep(clp, NFSCLSTATEMUTEXPTR, PWAIT, "nfscl", hz); terminate: if (clp->nfsc_flags & NFSCLFLAGS_UMOUNT) { clp->nfsc_flags &= ~NFSCLFLAGS_HASTHREAD; NFSUNLOCKCLSTATE(); NFSFREECRED(cred); wakeup((caddr_t)clp); return; } NFSUNLOCKCLSTATE(); } } /* * Initiate state recovery. Called when NFSERR_STALECLIENTID, * NFSERR_STALESTATEID or NFSERR_BADSESSION is received. */ void nfscl_initiate_recovery(struct nfsclclient *clp) { if (clp == NULL) return; NFSLOCKCLSTATE(); clp->nfsc_flags |= NFSCLFLAGS_RECOVER; NFSUNLOCKCLSTATE(); wakeup((caddr_t)clp); } /* * Dump out the state stuff for debugging. */ void nfscl_dumpstate(struct nfsmount *nmp, int openowner, int opens, int lockowner, int locks) { struct nfsclclient *clp; struct nfsclowner *owp; struct nfsclopen *op; struct nfscllockowner *lp; struct nfscllock *lop; struct nfscldeleg *dp; clp = nmp->nm_clp; if (clp == NULL) { printf("nfscl dumpstate NULL clp\n"); return; } NFSLOCKCLSTATE(); TAILQ_FOREACH(dp, &clp->nfsc_deleg, nfsdl_list) { LIST_FOREACH(owp, &dp->nfsdl_owner, nfsow_list) { if (openowner && !LIST_EMPTY(&owp->nfsow_open)) printf("owner=0x%x 0x%x 0x%x 0x%x seqid=%d\n", owp->nfsow_owner[0], owp->nfsow_owner[1], owp->nfsow_owner[2], owp->nfsow_owner[3], owp->nfsow_seqid); LIST_FOREACH(op, &owp->nfsow_open, nfso_list) { if (opens) printf("open st=0x%x 0x%x 0x%x cnt=%d fh12=0x%x\n", op->nfso_stateid.other[0], op->nfso_stateid.other[1], op->nfso_stateid.other[2], op->nfso_opencnt, op->nfso_fh[12]); LIST_FOREACH(lp, &op->nfso_lock, nfsl_list) { if (lockowner) printf("lckown=0x%x 0x%x 0x%x 0x%x seqid=%d st=0x%x 0x%x 0x%x\n", lp->nfsl_owner[0], lp->nfsl_owner[1], lp->nfsl_owner[2], lp->nfsl_owner[3], lp->nfsl_seqid, lp->nfsl_stateid.other[0], lp->nfsl_stateid.other[1], lp->nfsl_stateid.other[2]); LIST_FOREACH(lop, &lp->nfsl_lock, nfslo_list) { if (locks) #ifdef __FreeBSD__ printf("lck typ=%d fst=%ju end=%ju\n", lop->nfslo_type, (intmax_t)lop->nfslo_first, (intmax_t)lop->nfslo_end); #else printf("lck typ=%d fst=%qd end=%qd\n", lop->nfslo_type, lop->nfslo_first, lop->nfslo_end); #endif } } } } } LIST_FOREACH(owp, &clp->nfsc_owner, nfsow_list) { if (openowner && !LIST_EMPTY(&owp->nfsow_open)) printf("owner=0x%x 0x%x 0x%x 0x%x seqid=%d\n", owp->nfsow_owner[0], owp->nfsow_owner[1], owp->nfsow_owner[2], owp->nfsow_owner[3], owp->nfsow_seqid); LIST_FOREACH(op, &owp->nfsow_open, nfso_list) { if (opens) printf("open st=0x%x 0x%x 0x%x cnt=%d fh12=0x%x\n", op->nfso_stateid.other[0], op->nfso_stateid.other[1], op->nfso_stateid.other[2], op->nfso_opencnt, op->nfso_fh[12]); LIST_FOREACH(lp, &op->nfso_lock, nfsl_list) { if (lockowner) printf("lckown=0x%x 0x%x 0x%x 0x%x seqid=%d st=0x%x 0x%x 0x%x\n", lp->nfsl_owner[0], lp->nfsl_owner[1], lp->nfsl_owner[2], lp->nfsl_owner[3], lp->nfsl_seqid, lp->nfsl_stateid.other[0], lp->nfsl_stateid.other[1], lp->nfsl_stateid.other[2]); LIST_FOREACH(lop, &lp->nfsl_lock, nfslo_list) { if (locks) #ifdef __FreeBSD__ printf("lck typ=%d fst=%ju end=%ju\n", lop->nfslo_type, (intmax_t)lop->nfslo_first, (intmax_t)lop->nfslo_end); #else printf("lck typ=%d fst=%qd end=%qd\n", lop->nfslo_type, lop->nfslo_first, lop->nfslo_end); #endif } } } } NFSUNLOCKCLSTATE(); } /* * Check for duplicate open owners and opens. * (Only used as a diagnostic aid.) */ void nfscl_dupopen(vnode_t vp, int dupopens) { struct nfsclclient *clp; struct nfsclowner *owp, *owp2; struct nfsclopen *op, *op2; struct nfsfh *nfhp; clp = VFSTONFS(vp->v_mount)->nm_clp; if (clp == NULL) { printf("nfscl dupopen NULL clp\n"); return; } nfhp = VTONFS(vp)->n_fhp; NFSLOCKCLSTATE(); /* * First, search for duplicate owners. * These should never happen! */ LIST_FOREACH(owp2, &clp->nfsc_owner, nfsow_list) { LIST_FOREACH(owp, &clp->nfsc_owner, nfsow_list) { if (owp != owp2 && !NFSBCMP(owp->nfsow_owner, owp2->nfsow_owner, NFSV4CL_LOCKNAMELEN)) { NFSUNLOCKCLSTATE(); printf("DUP OWNER\n"); nfscl_dumpstate(VFSTONFS(vp->v_mount), 1, 1, 0, 0); return; } } } /* * Now, search for duplicate stateids. * These shouldn't happen, either. */ LIST_FOREACH(owp2, &clp->nfsc_owner, nfsow_list) { LIST_FOREACH(op2, &owp2->nfsow_open, nfso_list) { LIST_FOREACH(owp, &clp->nfsc_owner, nfsow_list) { LIST_FOREACH(op, &owp->nfsow_open, nfso_list) { if (op != op2 && (op->nfso_stateid.other[0] != 0 || op->nfso_stateid.other[1] != 0 || op->nfso_stateid.other[2] != 0) && op->nfso_stateid.other[0] == op2->nfso_stateid.other[0] && op->nfso_stateid.other[1] == op2->nfso_stateid.other[1] && op->nfso_stateid.other[2] == op2->nfso_stateid.other[2]) { NFSUNLOCKCLSTATE(); printf("DUP STATEID\n"); nfscl_dumpstate(VFSTONFS(vp->v_mount), 1, 1, 0, 0); return; } } } } } /* * Now search for duplicate opens. * Duplicate opens for the same owner * should never occur. Other duplicates are * possible and are checked for if "dupopens" * is true. */ LIST_FOREACH(owp2, &clp->nfsc_owner, nfsow_list) { LIST_FOREACH(op2, &owp2->nfsow_open, nfso_list) { if (nfhp->nfh_len == op2->nfso_fhlen && !NFSBCMP(nfhp->nfh_fh, op2->nfso_fh, nfhp->nfh_len)) { LIST_FOREACH(owp, &clp->nfsc_owner, nfsow_list) { LIST_FOREACH(op, &owp->nfsow_open, nfso_list) { if (op != op2 && nfhp->nfh_len == op->nfso_fhlen && !NFSBCMP(nfhp->nfh_fh, op->nfso_fh, nfhp->nfh_len) && (!NFSBCMP(op->nfso_own->nfsow_owner, op2->nfso_own->nfsow_owner, NFSV4CL_LOCKNAMELEN) || dupopens)) { if (!NFSBCMP(op->nfso_own->nfsow_owner, op2->nfso_own->nfsow_owner, NFSV4CL_LOCKNAMELEN)) { NFSUNLOCKCLSTATE(); printf("BADDUP OPEN\n"); } else { NFSUNLOCKCLSTATE(); printf("DUP OPEN\n"); } nfscl_dumpstate(VFSTONFS(vp->v_mount), 1, 1, 0, 0); return; } } } } } } NFSUNLOCKCLSTATE(); } /* * During close, find an open that needs to be dereferenced and * dereference it. If there are no more opens for this file, * log a message to that effect. * Opens aren't actually Close'd until VOP_INACTIVE() is performed * on the file's vnode. * This is the safe way, since it is difficult to identify * which open the close is for and I/O can be performed after the * close(2) system call when a file is mmap'd. * If it returns 0 for success, there will be a referenced * clp returned via clpp. */ int nfscl_getclose(vnode_t vp, struct nfsclclient **clpp) { struct nfsclclient *clp; struct nfsclowner *owp; struct nfsclopen *op; struct nfscldeleg *dp; struct nfsfh *nfhp; int error, notdecr; error = nfscl_getcl(vp->v_mount, NULL, NULL, false, true, &clp); if (error) return (error); *clpp = clp; nfhp = VTONFS(vp)->n_fhp; notdecr = 1; NFSLOCKCLSTATE(); /* * First, look for one under a delegation that was locally issued * and just decrement the opencnt for it. Since all my Opens against * the server are DENY_NONE, I don't see a problem with hanging * onto them. (It is much easier to use one of the extant Opens * that I already have on the server when a Delegation is recalled * than to do fresh Opens.) Someday, I might need to rethink this, but. */ dp = nfscl_finddeleg(clp, nfhp->nfh_fh, nfhp->nfh_len); if (dp != NULL) { LIST_FOREACH(owp, &dp->nfsdl_owner, nfsow_list) { op = LIST_FIRST(&owp->nfsow_open); if (op != NULL) { /* * Since a delegation is for a file, there * should never be more than one open for * each openowner. */ if (LIST_NEXT(op, nfso_list) != NULL) panic("nfscdeleg opens"); if (notdecr && op->nfso_opencnt > 0) { notdecr = 0; op->nfso_opencnt--; break; } } } } /* Now process the opens against the server. */ LIST_FOREACH(op, NFSCLOPENHASH(clp, nfhp->nfh_fh, nfhp->nfh_len), nfso_hash) { if (op->nfso_fhlen == nfhp->nfh_len && !NFSBCMP(op->nfso_fh, nfhp->nfh_fh, nfhp->nfh_len)) { /* Found an open, decrement cnt if possible */ if (notdecr && op->nfso_opencnt > 0) { notdecr = 0; op->nfso_opencnt--; } /* * There are more opens, so just return. */ if (op->nfso_opencnt > 0) { NFSUNLOCKCLSTATE(); return (0); } } } NFSUNLOCKCLSTATE(); if (notdecr) printf("nfscl: never fnd open\n"); return (0); } int nfscl_doclose(vnode_t vp, struct nfsclclient **clpp, NFSPROC_T *p) { struct nfsclclient *clp; struct nfsmount *nmp; struct nfsclowner *owp, *nowp; struct nfsclopen *op, *nop; struct nfsclopenhead delayed; struct nfscldeleg *dp; struct nfsfh *nfhp; struct nfsclrecalllayout *recallp; struct nfscllayout *lyp; int error; error = nfscl_getcl(vp->v_mount, NULL, NULL, false, true, &clp); if (error) return (error); *clpp = clp; nmp = VFSTONFS(vp->v_mount); nfhp = VTONFS(vp)->n_fhp; recallp = malloc(sizeof(*recallp), M_NFSLAYRECALL, M_WAITOK); NFSLOCKCLSTATE(); /* * First get rid of the local Open structures, which should be no * longer in use. */ dp = nfscl_finddeleg(clp, nfhp->nfh_fh, nfhp->nfh_len); if (dp != NULL) { LIST_FOREACH_SAFE(owp, &dp->nfsdl_owner, nfsow_list, nowp) { op = LIST_FIRST(&owp->nfsow_open); if (op != NULL) { KASSERT((op->nfso_opencnt == 0), ("nfscl: bad open cnt on deleg")); nfscl_freeopen(op, 1, true); } nfscl_freeopenowner(owp, 1); } } /* Return any layouts marked return on close. */ nfscl_retoncloselayout(vp, clp, nfhp->nfh_fh, nfhp->nfh_len, &recallp, &lyp); /* Now process the opens against the server. */ LIST_INIT(&delayed); lookformore: LIST_FOREACH(op, NFSCLOPENHASH(clp, nfhp->nfh_fh, nfhp->nfh_len), nfso_hash) { if (op->nfso_fhlen == nfhp->nfh_len && !NFSBCMP(op->nfso_fh, nfhp->nfh_fh, nfhp->nfh_len)) { /* Found an open, close it. */ #ifdef DIAGNOSTIC KASSERT((op->nfso_opencnt == 0), ("nfscl: bad open cnt on server (%d)", op->nfso_opencnt)); #endif NFSUNLOCKCLSTATE(); if (NFSHASNFSV4N(nmp)) error = nfsrpc_doclose(nmp, op, p, false, true); else error = nfsrpc_doclose(nmp, op, p, true, true); NFSLOCKCLSTATE(); if (error == NFSERR_DELAY) { nfscl_unlinkopen(op); op->nfso_own = NULL; LIST_INSERT_HEAD(&delayed, op, nfso_list); } goto lookformore; } } nfscl_clrelease(clp); /* Now, wait for any layout that is returned upon close. */ if (lyp != NULL) { while ((lyp->nfsly_flags & NFSLY_RETURNED) == 0) { if (NFSCL_FORCEDISM(nmp->nm_mountp)) { lyp = NULL; break; } msleep(lyp, NFSCLSTATEMUTEXPTR, PZERO, "nfslroc", hz); } if (lyp != NULL) nfscl_freelayout(lyp); } NFSUNLOCKCLSTATE(); /* * recallp has been set NULL by nfscl_retoncloselayout() if it was * used by the function, but calling free() with a NULL pointer is ok. */ free(recallp, M_NFSLAYRECALL); /* Now, loop retrying the delayed closes. */ LIST_FOREACH_SAFE(op, &delayed, nfso_list, nop) { nfsrpc_doclose(nmp, op, p, true, false); LIST_REMOVE(op, nfso_list); nfscl_freeopen(op, 0, false); } return (0); } /* * Return all delegations on this client. * (Must be called with client sleep lock.) */ static void nfscl_delegreturnall(struct nfsclclient *clp, NFSPROC_T *p, struct nfscldeleghead *dhp) { struct nfscldeleg *dp, *ndp; struct ucred *cred; cred = newnfs_getcred(); TAILQ_FOREACH_SAFE(dp, &clp->nfsc_deleg, nfsdl_list, ndp) { nfscl_cleandeleg(dp); (void) nfscl_trydelegreturn(dp, cred, clp->nfsc_nmp, p); if (dhp != NULL) { nfscl_freedeleg(&clp->nfsc_deleg, dp, false); TAILQ_INSERT_HEAD(dhp, dp, nfsdl_list); } else nfscl_freedeleg(&clp->nfsc_deleg, dp, true); } NFSFREECRED(cred); } /* * Return any delegation for this vp. */ void nfscl_delegreturnvp(vnode_t vp, NFSPROC_T *p) { struct nfsclclient *clp; struct nfscldeleg *dp; struct ucred *cred; struct nfsnode *np; struct nfsmount *nmp; nmp = VFSTONFS(vp->v_mount); NFSLOCKMNT(nmp); if ((nmp->nm_privflag & NFSMNTP_DELEGISSUED) == 0) { NFSUNLOCKMNT(nmp); return; } NFSUNLOCKMNT(nmp); np = VTONFS(vp); cred = newnfs_getcred(); dp = NULL; NFSLOCKCLSTATE(); clp = nmp->nm_clp; if (clp != NULL) dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL) { nfscl_cleandeleg(dp); nfscl_freedeleg(&clp->nfsc_deleg, dp, false); NFSUNLOCKCLSTATE(); newnfs_copycred(&dp->nfsdl_cred, cred); nfscl_trydelegreturn(dp, cred, clp->nfsc_nmp, p); free(dp, M_NFSCLDELEG); } else NFSUNLOCKCLSTATE(); NFSFREECRED(cred); } /* * Do a callback RPC. */ void nfscl_docb(struct nfsrv_descript *nd, NFSPROC_T *p) { int clist, gotseq_ok, i, j, k, op, rcalls; u_int32_t *tl; struct nfsclclient *clp; struct nfscldeleg *dp = NULL; int numops, taglen = -1, error = 0, trunc __unused; u_int32_t minorvers = 0, retops = 0, *retopsp = NULL, *repp, cbident; u_char tag[NFSV4_SMALLSTR + 1], *tagstr; vnode_t vp = NULL; struct nfsnode *np; struct vattr va; struct nfsfh *nfhp; mount_t mp; nfsattrbit_t attrbits, rattrbits; nfsv4stateid_t stateid; uint32_t seqid, slotid = 0, highslot, cachethis __unused; uint8_t sessionid[NFSX_V4SESSIONID]; struct mbuf *rep; struct nfscllayout *lyp; uint64_t filesid[2], len, off; int changed, gotone, laytype, recalltype; uint32_t iomode; struct nfsclrecalllayout *recallp = NULL; struct nfsclsession *tsep; gotseq_ok = 0; nfsrvd_rephead(nd); NFSM_DISSECT(tl, u_int32_t *, NFSX_UNSIGNED); taglen = fxdr_unsigned(int, *tl); if (taglen < 0 || taglen > NFSV4_OPAQUELIMIT) { error = EBADRPC; taglen = -1; goto nfsmout; } if (taglen <= NFSV4_SMALLSTR) tagstr = tag; else tagstr = malloc(taglen + 1, M_TEMP, M_WAITOK); error = nfsrv_mtostr(nd, tagstr, taglen); if (error) { if (taglen > NFSV4_SMALLSTR) free(tagstr, M_TEMP); taglen = -1; goto nfsmout; } (void) nfsm_strtom(nd, tag, taglen); if (taglen > NFSV4_SMALLSTR) { free(tagstr, M_TEMP); } NFSM_BUILD(retopsp, u_int32_t *, NFSX_UNSIGNED); NFSM_DISSECT(tl, u_int32_t *, 3 * NFSX_UNSIGNED); minorvers = fxdr_unsigned(u_int32_t, *tl++); if (minorvers != NFSV4_MINORVERSION && minorvers != NFSV41_MINORVERSION && minorvers != NFSV42_MINORVERSION) nd->nd_repstat = NFSERR_MINORVERMISMATCH; cbident = fxdr_unsigned(u_int32_t, *tl++); if (nd->nd_repstat) numops = 0; else numops = fxdr_unsigned(int, *tl); /* * Loop around doing the sub ops. */ for (i = 0; i < numops; i++) { NFSM_DISSECT(tl, u_int32_t *, NFSX_UNSIGNED); NFSM_BUILD(repp, u_int32_t *, 2 * NFSX_UNSIGNED); *repp++ = *tl; op = fxdr_unsigned(int, *tl); nd->nd_procnum = op; if (i == 0 && op != NFSV4OP_CBSEQUENCE && minorvers != NFSV4_MINORVERSION) { nd->nd_repstat = NFSERR_OPNOTINSESS; *repp = nfscl_errmap(nd, minorvers); retops++; break; } if (op < NFSV4OP_CBGETATTR || (op > NFSV4OP_CBRECALL && minorvers == NFSV4_MINORVERSION) || (op > NFSV4OP_CBNOTIFYDEVID && minorvers == NFSV41_MINORVERSION) || (op > NFSV4OP_CBOFFLOAD && minorvers == NFSV42_MINORVERSION)) { nd->nd_repstat = NFSERR_OPILLEGAL; *repp = nfscl_errmap(nd, minorvers); retops++; break; } if (op < NFSV42_CBNOPS) nfsstatsv1.cbrpccnt[nd->nd_procnum]++; switch (op) { case NFSV4OP_CBGETATTR: NFSCL_DEBUG(4, "cbgetattr\n"); mp = NULL; vp = NULL; error = nfsm_getfh(nd, &nfhp); if (!error) error = nfsrv_getattrbits(nd, &attrbits, NULL, NULL); if (!error) { mp = nfscl_getmnt(minorvers, sessionid, cbident, &clp); if (mp == NULL) error = NFSERR_SERVERFAULT; } if (!error) { error = nfscl_ngetreopen(mp, nfhp->nfh_fh, nfhp->nfh_len, p, &np); if (!error) vp = NFSTOV(np); } if (!error) { NFSZERO_ATTRBIT(&rattrbits); NFSLOCKCLSTATE(); dp = nfscl_finddeleg(clp, nfhp->nfh_fh, nfhp->nfh_len); if (dp != NULL) { if (NFSISSET_ATTRBIT(&attrbits, NFSATTRBIT_SIZE)) { if (vp != NULL) va.va_size = np->n_size; else va.va_size = dp->nfsdl_size; NFSSETBIT_ATTRBIT(&rattrbits, NFSATTRBIT_SIZE); } if (NFSISSET_ATTRBIT(&attrbits, NFSATTRBIT_CHANGE)) { va.va_filerev = dp->nfsdl_change; if (vp == NULL || (np->n_flag & NDELEGMOD)) va.va_filerev++; NFSSETBIT_ATTRBIT(&rattrbits, NFSATTRBIT_CHANGE); } } else error = NFSERR_SERVERFAULT; NFSUNLOCKCLSTATE(); } if (vp != NULL) vrele(vp); if (mp != NULL) vfs_unbusy(mp); if (nfhp != NULL) free(nfhp, M_NFSFH); if (!error) (void) nfsv4_fillattr(nd, NULL, NULL, NULL, &va, NULL, 0, &rattrbits, NULL, p, 0, 0, 0, 0, (uint64_t)0, NULL); break; case NFSV4OP_CBRECALL: NFSCL_DEBUG(4, "cbrecall\n"); NFSM_DISSECT(tl, u_int32_t *, NFSX_STATEID + NFSX_UNSIGNED); stateid.seqid = *tl++; NFSBCOPY((caddr_t)tl, (caddr_t)stateid.other, NFSX_STATEIDOTHER); tl += (NFSX_STATEIDOTHER / NFSX_UNSIGNED); trunc = fxdr_unsigned(int, *tl); error = nfsm_getfh(nd, &nfhp); if (!error) { NFSLOCKCLSTATE(); if (minorvers == NFSV4_MINORVERSION) clp = nfscl_getclnt(cbident); else clp = nfscl_getclntsess(sessionid); if (clp != NULL) { dp = nfscl_finddeleg(clp, nfhp->nfh_fh, nfhp->nfh_len); if (dp != NULL && (dp->nfsdl_flags & NFSCLDL_DELEGRET) == 0) { dp->nfsdl_flags |= NFSCLDL_RECALL; wakeup((caddr_t)clp); } } else { error = NFSERR_SERVERFAULT; } NFSUNLOCKCLSTATE(); } if (nfhp != NULL) free(nfhp, M_NFSFH); break; case NFSV4OP_CBLAYOUTRECALL: NFSCL_DEBUG(4, "cblayrec\n"); nfhp = NULL; NFSM_DISSECT(tl, uint32_t *, 4 * NFSX_UNSIGNED); laytype = fxdr_unsigned(int, *tl++); iomode = fxdr_unsigned(uint32_t, *tl++); if (newnfs_true == *tl++) changed = 1; else changed = 0; recalltype = fxdr_unsigned(int, *tl); NFSCL_DEBUG(4, "layt=%d iom=%d ch=%d rectyp=%d\n", laytype, iomode, changed, recalltype); recallp = malloc(sizeof(*recallp), M_NFSLAYRECALL, M_WAITOK); if (laytype != NFSLAYOUT_NFSV4_1_FILES && laytype != NFSLAYOUT_FLEXFILE) error = NFSERR_NOMATCHLAYOUT; else if (recalltype == NFSLAYOUTRETURN_FILE) { error = nfsm_getfh(nd, &nfhp); NFSCL_DEBUG(4, "retfile getfh=%d\n", error); if (error != 0) goto nfsmout; NFSM_DISSECT(tl, u_int32_t *, 2 * NFSX_HYPER + NFSX_STATEID); off = fxdr_hyper(tl); tl += 2; len = fxdr_hyper(tl); tl += 2; stateid.seqid = fxdr_unsigned(uint32_t, *tl++); NFSBCOPY(tl, stateid.other, NFSX_STATEIDOTHER); if (minorvers == NFSV4_MINORVERSION) error = NFSERR_NOTSUPP; NFSCL_DEBUG(4, "off=%ju len=%ju sq=%u err=%d\n", (uintmax_t)off, (uintmax_t)len, stateid.seqid, error); if (error == 0) { NFSLOCKCLSTATE(); clp = nfscl_getclntsess(sessionid); NFSCL_DEBUG(4, "cbly clp=%p\n", clp); if (clp != NULL) { lyp = nfscl_findlayout(clp, nfhp->nfh_fh, nfhp->nfh_len); NFSCL_DEBUG(4, "cblyp=%p\n", lyp); if (lyp != NULL && (lyp->nfsly_flags & (NFSLY_FILES | NFSLY_FLEXFILE)) != 0 && !NFSBCMP(stateid.other, lyp->nfsly_stateid.other, NFSX_STATEIDOTHER)) { error = nfscl_layoutrecall( recalltype, lyp, iomode, off, len, stateid.seqid, 0, 0, NULL, recallp); if (error == 0 && stateid.seqid > lyp->nfsly_stateid.seqid) lyp->nfsly_stateid.seqid = stateid.seqid; recallp = NULL; wakeup(clp); NFSCL_DEBUG(4, "aft layrcal=%d " "layseqid=%d\n", error, lyp->nfsly_stateid.seqid); } else error = NFSERR_NOMATCHLAYOUT; } else error = NFSERR_NOMATCHLAYOUT; NFSUNLOCKCLSTATE(); } free(nfhp, M_NFSFH); } else if (recalltype == NFSLAYOUTRETURN_FSID) { NFSM_DISSECT(tl, uint32_t *, 2 * NFSX_HYPER); filesid[0] = fxdr_hyper(tl); tl += 2; filesid[1] = fxdr_hyper(tl); tl += 2; gotone = 0; NFSLOCKCLSTATE(); clp = nfscl_getclntsess(sessionid); if (clp != NULL) { TAILQ_FOREACH(lyp, &clp->nfsc_layout, nfsly_list) { if (lyp->nfsly_filesid[0] == filesid[0] && lyp->nfsly_filesid[1] == filesid[1]) { error = nfscl_layoutrecall( recalltype, lyp, iomode, 0, UINT64_MAX, lyp->nfsly_stateid.seqid, 0, 0, NULL, recallp); recallp = NULL; gotone = 1; } } if (gotone != 0) wakeup(clp); else error = NFSERR_NOMATCHLAYOUT; } else error = NFSERR_NOMATCHLAYOUT; NFSUNLOCKCLSTATE(); } else if (recalltype == NFSLAYOUTRETURN_ALL) { gotone = 0; NFSLOCKCLSTATE(); clp = nfscl_getclntsess(sessionid); if (clp != NULL) { TAILQ_FOREACH(lyp, &clp->nfsc_layout, nfsly_list) { error = nfscl_layoutrecall( recalltype, lyp, iomode, 0, UINT64_MAX, lyp->nfsly_stateid.seqid, 0, 0, NULL, recallp); recallp = NULL; gotone = 1; } if (gotone != 0) wakeup(clp); else error = NFSERR_NOMATCHLAYOUT; } else error = NFSERR_NOMATCHLAYOUT; NFSUNLOCKCLSTATE(); } else error = NFSERR_NOMATCHLAYOUT; if (recallp != NULL) { free(recallp, M_NFSLAYRECALL); recallp = NULL; } break; case NFSV4OP_CBSEQUENCE: if (i != 0) { error = NFSERR_SEQUENCEPOS; break; } NFSM_DISSECT(tl, uint32_t *, NFSX_V4SESSIONID + 5 * NFSX_UNSIGNED); bcopy(tl, sessionid, NFSX_V4SESSIONID); tl += NFSX_V4SESSIONID / NFSX_UNSIGNED; seqid = fxdr_unsigned(uint32_t, *tl++); slotid = fxdr_unsigned(uint32_t, *tl++); highslot = fxdr_unsigned(uint32_t, *tl++); cachethis = *tl++; /* Throw away the referring call stuff. */ clist = fxdr_unsigned(int, *tl); for (j = 0; j < clist; j++) { NFSM_DISSECT(tl, uint32_t *, NFSX_V4SESSIONID + NFSX_UNSIGNED); tl += NFSX_V4SESSIONID / NFSX_UNSIGNED; rcalls = fxdr_unsigned(int, *tl); for (k = 0; k < rcalls; k++) { NFSM_DISSECT(tl, uint32_t *, 2 * NFSX_UNSIGNED); } } NFSLOCKCLSTATE(); clp = nfscl_getclntsess(sessionid); if (clp == NULL) error = NFSERR_SERVERFAULT; if (error == 0) { tsep = nfsmnt_mdssession(clp->nfsc_nmp); error = nfsv4_seqsession(seqid, slotid, highslot, tsep->nfsess_cbslots, &rep, tsep->nfsess_backslots); } NFSUNLOCKCLSTATE(); if (error == 0 || error == NFSERR_REPLYFROMCACHE) { gotseq_ok = 1; if (rep != NULL) { /* * Handle a reply for a retried * callback. The reply will be * re-inserted in the session cache * by the nfsv4_seqsess_cacherep() call * after out: */ KASSERT(error == NFSERR_REPLYFROMCACHE, ("cbsequence: non-NULL rep")); NFSCL_DEBUG(4, "Got cbretry\n"); m_freem(nd->nd_mreq); nd->nd_mreq = rep; rep = NULL; goto out; } NFSM_BUILD(tl, uint32_t *, NFSX_V4SESSIONID + 4 * NFSX_UNSIGNED); bcopy(sessionid, tl, NFSX_V4SESSIONID); tl += NFSX_V4SESSIONID / NFSX_UNSIGNED; *tl++ = txdr_unsigned(seqid); *tl++ = txdr_unsigned(slotid); *tl++ = txdr_unsigned(NFSV4_CBSLOTS - 1); *tl = txdr_unsigned(NFSV4_CBSLOTS - 1); } break; default: if (i == 0 && minorvers != NFSV4_MINORVERSION) error = NFSERR_OPNOTINSESS; else { NFSCL_DEBUG(1, "unsupp callback %d\n", op); error = NFSERR_NOTSUPP; } break; } if (error) { if (error == EBADRPC || error == NFSERR_BADXDR) { nd->nd_repstat = NFSERR_BADXDR; } else { nd->nd_repstat = error; } error = 0; } retops++; if (nd->nd_repstat) { *repp = nfscl_errmap(nd, minorvers); break; } else *repp = 0; /* NFS4_OK */ } nfsmout: if (recallp != NULL) free(recallp, M_NFSLAYRECALL); if (error) { if (error == EBADRPC || error == NFSERR_BADXDR) nd->nd_repstat = NFSERR_BADXDR; else printf("nfsv4 comperr1=%d\n", error); } if (taglen == -1) { NFSM_BUILD(tl, u_int32_t *, 2 * NFSX_UNSIGNED); *tl++ = 0; *tl = 0; } else { *retopsp = txdr_unsigned(retops); } *nd->nd_errp = nfscl_errmap(nd, minorvers); out: if (gotseq_ok != 0) { rep = m_copym(nd->nd_mreq, 0, M_COPYALL, M_WAITOK); NFSLOCKCLSTATE(); clp = nfscl_getclntsess(sessionid); if (clp != NULL) { tsep = nfsmnt_mdssession(clp->nfsc_nmp); nfsv4_seqsess_cacherep(slotid, tsep->nfsess_cbslots, NFSERR_OK, &rep); NFSUNLOCKCLSTATE(); } else { NFSUNLOCKCLSTATE(); m_freem(rep); } } } /* * Generate the next cbident value. Basically just increment a static value * and then check that it isn't already in the list, if it has wrapped around. */ static u_int32_t nfscl_nextcbident(void) { struct nfsclclient *clp; int matched; static u_int32_t nextcbident = 0; static int haswrapped = 0; nextcbident++; if (nextcbident == 0) haswrapped = 1; if (haswrapped) { /* * Search the clientid list for one already using this cbident. */ do { matched = 0; NFSLOCKCLSTATE(); LIST_FOREACH(clp, &nfsclhead, nfsc_list) { if (clp->nfsc_cbident == nextcbident) { matched = 1; break; } } NFSUNLOCKCLSTATE(); if (matched == 1) nextcbident++; } while (matched); } return (nextcbident); } /* * Get the mount point related to a given cbident or session and busy it. */ static mount_t nfscl_getmnt(int minorvers, uint8_t *sessionid, u_int32_t cbident, struct nfsclclient **clpp) { struct nfsclclient *clp; mount_t mp; int error; struct nfsclsession *tsep; *clpp = NULL; NFSLOCKCLSTATE(); LIST_FOREACH(clp, &nfsclhead, nfsc_list) { tsep = nfsmnt_mdssession(clp->nfsc_nmp); if (minorvers == NFSV4_MINORVERSION) { if (clp->nfsc_cbident == cbident) break; } else if (!NFSBCMP(tsep->nfsess_sessionid, sessionid, NFSX_V4SESSIONID)) break; } if (clp == NULL) { NFSUNLOCKCLSTATE(); return (NULL); } mp = clp->nfsc_nmp->nm_mountp; vfs_ref(mp); NFSUNLOCKCLSTATE(); error = vfs_busy(mp, 0); vfs_rel(mp); if (error != 0) return (NULL); *clpp = clp; return (mp); } /* * Get the clientid pointer related to a given cbident. */ static struct nfsclclient * nfscl_getclnt(u_int32_t cbident) { struct nfsclclient *clp; LIST_FOREACH(clp, &nfsclhead, nfsc_list) if (clp->nfsc_cbident == cbident) break; return (clp); } /* * Get the clientid pointer related to a given sessionid. */ static struct nfsclclient * nfscl_getclntsess(uint8_t *sessionid) { struct nfsclclient *clp; struct nfsclsession *tsep; LIST_FOREACH(clp, &nfsclhead, nfsc_list) { tsep = nfsmnt_mdssession(clp->nfsc_nmp); if (!NFSBCMP(tsep->nfsess_sessionid, sessionid, NFSX_V4SESSIONID)) break; } return (clp); } /* * Search for a lock conflict locally on the client. A conflict occurs if * - not same owner and overlapping byte range and at least one of them is * a write lock or this is an unlock. */ static int nfscl_localconflict(struct nfsclclient *clp, u_int8_t *fhp, int fhlen, struct nfscllock *nlop, u_int8_t *own, struct nfscldeleg *dp, struct nfscllock **lopp) { struct nfsclopen *op; int ret; if (dp != NULL) { ret = nfscl_checkconflict(&dp->nfsdl_lock, nlop, own, lopp); if (ret) return (ret); } LIST_FOREACH(op, NFSCLOPENHASH(clp, fhp, fhlen), nfso_hash) { if (op->nfso_fhlen == fhlen && !NFSBCMP(op->nfso_fh, fhp, fhlen)) { ret = nfscl_checkconflict(&op->nfso_lock, nlop, own, lopp); if (ret) return (ret); } } return (0); } static int nfscl_checkconflict(struct nfscllockownerhead *lhp, struct nfscllock *nlop, u_int8_t *own, struct nfscllock **lopp) { struct nfscllockowner *lp; struct nfscllock *lop; LIST_FOREACH(lp, lhp, nfsl_list) { if (NFSBCMP(lp->nfsl_owner, own, NFSV4CL_LOCKNAMELEN)) { LIST_FOREACH(lop, &lp->nfsl_lock, nfslo_list) { if (lop->nfslo_first >= nlop->nfslo_end) break; if (lop->nfslo_end <= nlop->nfslo_first) continue; if (lop->nfslo_type == F_WRLCK || nlop->nfslo_type == F_WRLCK || nlop->nfslo_type == F_UNLCK) { if (lopp != NULL) *lopp = lop; return (NFSERR_DENIED); } } } } return (0); } /* * Check for a local conflicting lock. */ int nfscl_lockt(vnode_t vp, struct nfsclclient *clp, u_int64_t off, u_int64_t len, struct flock *fl, NFSPROC_T *p, void *id, int flags) { struct nfscllock *lop, nlck; struct nfscldeleg *dp; struct nfsnode *np; u_int8_t own[NFSV4CL_LOCKNAMELEN]; int error; nlck.nfslo_type = fl->l_type; nlck.nfslo_first = off; if (len == NFS64BITSSET) { nlck.nfslo_end = NFS64BITSSET; } else { nlck.nfslo_end = off + len; if (nlck.nfslo_end <= nlck.nfslo_first) return (NFSERR_INVAL); } np = VTONFS(vp); nfscl_filllockowner(id, own, flags); NFSLOCKCLSTATE(); dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); error = nfscl_localconflict(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len, &nlck, own, dp, &lop); if (error != 0) { fl->l_whence = SEEK_SET; fl->l_start = lop->nfslo_first; if (lop->nfslo_end == NFS64BITSSET) fl->l_len = 0; else fl->l_len = lop->nfslo_end - lop->nfslo_first; fl->l_pid = (pid_t)0; fl->l_type = lop->nfslo_type; error = -1; /* no RPC required */ } else if (dp != NULL && ((dp->nfsdl_flags & NFSCLDL_WRITE) || fl->l_type == F_RDLCK)) { /* * The delegation ensures that there isn't a conflicting * lock on the server, so return -1 to indicate an RPC * isn't required. */ fl->l_type = F_UNLCK; error = -1; } NFSUNLOCKCLSTATE(); return (error); } /* * Handle Recall of a delegation. * The clp must be exclusive locked when this is called. */ static int nfscl_recalldeleg(struct nfsclclient *clp, struct nfsmount *nmp, struct nfscldeleg *dp, vnode_t vp, struct ucred *cred, NFSPROC_T *p, int called_from_renewthread, vnode_t *vpp) { struct nfsclowner *owp, *lowp, *nowp; struct nfsclopen *op, *lop; struct nfscllockowner *lp; struct nfscllock *lckp; struct nfsnode *np; int error = 0, ret; if (vp == NULL) { KASSERT(vpp != NULL, ("nfscl_recalldeleg: vpp NULL")); *vpp = NULL; /* * First, get a vnode for the file. This is needed to do RPCs. */ ret = nfscl_ngetreopen(nmp->nm_mountp, dp->nfsdl_fh, dp->nfsdl_fhlen, p, &np); if (ret) { /* * File isn't open, so nothing to move over to the * server. */ return (0); } vp = NFSTOV(np); *vpp = vp; } else { np = VTONFS(vp); } dp->nfsdl_flags &= ~NFSCLDL_MODTIMESET; /* * Ok, if it's a write delegation, flush data to the server, so * that close/open consistency is retained. */ ret = 0; NFSLOCKNODE(np); if ((dp->nfsdl_flags & NFSCLDL_WRITE) && (np->n_flag & NMODIFIED)) { np->n_flag |= NDELEGRECALL; NFSUNLOCKNODE(np); ret = ncl_flush(vp, MNT_WAIT, p, 1, called_from_renewthread); NFSLOCKNODE(np); np->n_flag &= ~NDELEGRECALL; } NFSINVALATTRCACHE(np); NFSUNLOCKNODE(np); if (ret == EIO && called_from_renewthread != 0) { /* * If the flush failed with EIO for the renew thread, * return now, so that the dirty buffer will be flushed * later. */ return (ret); } /* * Now, for each openowner with opens issued locally, move them * over to state against the server. */ LIST_FOREACH(lowp, &dp->nfsdl_owner, nfsow_list) { lop = LIST_FIRST(&lowp->nfsow_open); if (lop != NULL) { if (LIST_NEXT(lop, nfso_list) != NULL) panic("nfsdlg mult opens"); /* * Look for the same openowner against the server. */ LIST_FOREACH(owp, &clp->nfsc_owner, nfsow_list) { if (!NFSBCMP(lowp->nfsow_owner, owp->nfsow_owner, NFSV4CL_LOCKNAMELEN)) { newnfs_copycred(&dp->nfsdl_cred, cred); ret = nfscl_moveopen(vp, clp, nmp, lop, owp, dp, cred, p); if (ret == NFSERR_STALECLIENTID || ret == NFSERR_STALEDONTRECOVER || ret == NFSERR_BADSESSION) return (ret); if (ret) { nfscl_freeopen(lop, 1, true); if (!error) error = ret; } break; } } /* * If no openowner found, create one and get an open * for it. */ if (owp == NULL) { nowp = malloc( sizeof (struct nfsclowner), M_NFSCLOWNER, M_WAITOK); nfscl_newopen(clp, NULL, &owp, &nowp, &op, NULL, lowp->nfsow_owner, dp->nfsdl_fh, dp->nfsdl_fhlen, NULL, NULL); newnfs_copycred(&dp->nfsdl_cred, cred); ret = nfscl_moveopen(vp, clp, nmp, lop, owp, dp, cred, p); if (ret) { nfscl_freeopenowner(owp, 0); if (ret == NFSERR_STALECLIENTID || ret == NFSERR_STALEDONTRECOVER || ret == NFSERR_BADSESSION) return (ret); if (ret) { nfscl_freeopen(lop, 1, true); if (!error) error = ret; } } } } } /* * Now, get byte range locks for any locks done locally. */ LIST_FOREACH(lp, &dp->nfsdl_lock, nfsl_list) { LIST_FOREACH(lckp, &lp->nfsl_lock, nfslo_list) { newnfs_copycred(&dp->nfsdl_cred, cred); ret = nfscl_relock(vp, clp, nmp, lp, lckp, cred, p); if (ret == NFSERR_STALESTATEID || ret == NFSERR_STALEDONTRECOVER || ret == NFSERR_STALECLIENTID || ret == NFSERR_BADSESSION) return (ret); if (ret && !error) error = ret; } } return (error); } /* * Move a locally issued open over to an owner on the state list. * SIDE EFFECT: If it needs to sleep (do an rpc), it unlocks clstate and * returns with it unlocked. */ static int nfscl_moveopen(vnode_t vp, struct nfsclclient *clp, struct nfsmount *nmp, struct nfsclopen *lop, struct nfsclowner *owp, struct nfscldeleg *dp, struct ucred *cred, NFSPROC_T *p) { struct nfsclopen *op, *nop; struct nfscldeleg *ndp; struct nfsnode *np; int error = 0, newone; /* * First, look for an appropriate open, If found, just increment the * opencnt in it. */ LIST_FOREACH(op, &owp->nfsow_open, nfso_list) { if ((op->nfso_mode & lop->nfso_mode) == lop->nfso_mode && op->nfso_fhlen == lop->nfso_fhlen && !NFSBCMP(op->nfso_fh, lop->nfso_fh, op->nfso_fhlen)) { op->nfso_opencnt += lop->nfso_opencnt; nfscl_freeopen(lop, 1, true); return (0); } } /* No appropriate open, so we have to do one against the server. */ np = VTONFS(vp); nop = malloc(sizeof (struct nfsclopen) + lop->nfso_fhlen - 1, M_NFSCLOPEN, M_WAITOK); nop->nfso_hash.le_prev = NULL; newone = 0; nfscl_newopen(clp, NULL, &owp, NULL, &op, &nop, owp->nfsow_owner, lop->nfso_fh, lop->nfso_fhlen, cred, &newone); ndp = dp; error = nfscl_tryopen(nmp, vp, np->n_v4->n4_data, np->n_v4->n4_fhlen, lop->nfso_fh, lop->nfso_fhlen, lop->nfso_mode, op, NFS4NODENAME(np->n_v4), np->n_v4->n4_namelen, &ndp, 0, 0, cred, p); if (error) { if (newone) nfscl_freeopen(op, 0, true); } else { op->nfso_mode |= lop->nfso_mode; op->nfso_opencnt += lop->nfso_opencnt; nfscl_freeopen(lop, 1, true); } if (nop != NULL) free(nop, M_NFSCLOPEN); if (ndp != NULL) { /* * What should I do with the returned delegation, since the * delegation is being recalled? For now, just printf and * through it away. */ printf("Moveopen returned deleg\n"); free(ndp, M_NFSCLDELEG); } return (error); } /* * Recall all delegations on this client. */ static void nfscl_totalrecall(struct nfsclclient *clp) { struct nfscldeleg *dp; TAILQ_FOREACH(dp, &clp->nfsc_deleg, nfsdl_list) { if ((dp->nfsdl_flags & NFSCLDL_DELEGRET) == 0) dp->nfsdl_flags |= NFSCLDL_RECALL; } } /* * Relock byte ranges. Called for delegation recall and state expiry. */ static int nfscl_relock(vnode_t vp, struct nfsclclient *clp, struct nfsmount *nmp, struct nfscllockowner *lp, struct nfscllock *lop, struct ucred *cred, NFSPROC_T *p) { struct nfscllockowner *nlp; struct nfsfh *nfhp; struct nfsnode *np; u_int64_t off, len; int error, newone, donelocally; if (NFSHASNFSV4N(nmp) && NFSHASONEOPENOWN(nmp)) { np = VTONFS(vp); NFSLOCKNODE(np); np->n_flag |= NMIGHTBELOCKED; NFSUNLOCKNODE(np); } off = lop->nfslo_first; len = lop->nfslo_end - lop->nfslo_first; error = nfscl_getbytelock(vp, off, len, lop->nfslo_type, cred, p, clp, 1, NULL, lp->nfsl_lockflags, lp->nfsl_owner, lp->nfsl_openowner, &nlp, &newone, &donelocally); if (error || donelocally) return (error); nfhp = VTONFS(vp)->n_fhp; error = nfscl_trylock(nmp, vp, nfhp->nfh_fh, nfhp->nfh_len, nlp, newone, 0, off, len, lop->nfslo_type, cred, p); if (error) nfscl_freelockowner(nlp, 0); return (error); } /* * Called to re-open a file. Basically get a vnode for the file handle * and then call nfsrpc_openrpc() to do the rest. */ static int nfsrpc_reopen(struct nfsmount *nmp, u_int8_t *fhp, int fhlen, u_int32_t mode, struct nfsclopen *op, struct nfscldeleg **dpp, struct ucred *cred, NFSPROC_T *p) { struct nfsnode *np; vnode_t vp; int error; error = nfscl_ngetreopen(nmp->nm_mountp, fhp, fhlen, p, &np); if (error) return (error); vp = NFSTOV(np); if (np->n_v4 != NULL) { error = nfscl_tryopen(nmp, vp, np->n_v4->n4_data, np->n_v4->n4_fhlen, fhp, fhlen, mode, op, NFS4NODENAME(np->n_v4), np->n_v4->n4_namelen, dpp, 0, 0, cred, p); } else { error = EINVAL; } vrele(vp); return (error); } /* * Try an open against the server. Just call nfsrpc_openrpc(), retrying while * NFSERR_DELAY. Also, try system credentials, if the passed in credentials * fail. */ static int nfscl_tryopen(struct nfsmount *nmp, vnode_t vp, u_int8_t *fhp, int fhlen, u_int8_t *newfhp, int newfhlen, u_int32_t mode, struct nfsclopen *op, u_int8_t *name, int namelen, struct nfscldeleg **ndpp, int reclaim, u_int32_t delegtype, struct ucred *cred, NFSPROC_T *p) { int error; do { error = nfsrpc_openrpc(nmp, vp, fhp, fhlen, newfhp, newfhlen, mode, op, name, namelen, ndpp, reclaim, delegtype, cred, p, 0, 0); if (error == NFSERR_DELAY) (void) nfs_catnap(PZERO, error, "nfstryop"); } while (error == NFSERR_DELAY); if (error == EAUTH || error == EACCES) { /* Try again using system credentials */ newnfs_setroot(cred); do { error = nfsrpc_openrpc(nmp, vp, fhp, fhlen, newfhp, newfhlen, mode, op, name, namelen, ndpp, reclaim, delegtype, cred, p, 1, 0); if (error == NFSERR_DELAY) (void) nfs_catnap(PZERO, error, "nfstryop"); } while (error == NFSERR_DELAY); } return (error); } /* * Try a byte range lock. Just loop on nfsrpc_lock() while it returns * NFSERR_DELAY. Also, retry with system credentials, if the provided * cred don't work. */ static int nfscl_trylock(struct nfsmount *nmp, vnode_t vp, u_int8_t *fhp, int fhlen, struct nfscllockowner *nlp, int newone, int reclaim, u_int64_t off, u_int64_t len, short type, struct ucred *cred, NFSPROC_T *p) { struct nfsrv_descript nfsd, *nd = &nfsd; int error; do { error = nfsrpc_lock(nd, nmp, vp, fhp, fhlen, nlp, newone, reclaim, off, len, type, cred, p, 0); if (!error && nd->nd_repstat == NFSERR_DELAY) (void) nfs_catnap(PZERO, (int)nd->nd_repstat, "nfstrylck"); } while (!error && nd->nd_repstat == NFSERR_DELAY); if (!error) error = nd->nd_repstat; if (error == EAUTH || error == EACCES) { /* Try again using root credentials */ newnfs_setroot(cred); do { error = nfsrpc_lock(nd, nmp, vp, fhp, fhlen, nlp, newone, reclaim, off, len, type, cred, p, 1); if (!error && nd->nd_repstat == NFSERR_DELAY) (void) nfs_catnap(PZERO, (int)nd->nd_repstat, "nfstrylck"); } while (!error && nd->nd_repstat == NFSERR_DELAY); if (!error) error = nd->nd_repstat; } return (error); } /* * Try a delegreturn against the server. Just call nfsrpc_delegreturn(), * retrying while NFSERR_DELAY. Also, try system credentials, if the passed in * credentials fail. */ static int nfscl_trydelegreturn(struct nfscldeleg *dp, struct ucred *cred, struct nfsmount *nmp, NFSPROC_T *p) { int error; do { error = nfsrpc_delegreturn(dp, cred, nmp, p, 0); if (error == NFSERR_DELAY) (void) nfs_catnap(PZERO, error, "nfstrydp"); } while (error == NFSERR_DELAY); if (error == EAUTH || error == EACCES) { /* Try again using system credentials */ newnfs_setroot(cred); do { error = nfsrpc_delegreturn(dp, cred, nmp, p, 1); if (error == NFSERR_DELAY) (void) nfs_catnap(PZERO, error, "nfstrydp"); } while (error == NFSERR_DELAY); } return (error); } /* * Try a close against the server. Just call nfsrpc_closerpc(), * retrying while NFSERR_DELAY. Also, try system credentials, if the passed in * credentials fail. */ int nfscl_tryclose(struct nfsclopen *op, struct ucred *cred, struct nfsmount *nmp, NFSPROC_T *p, bool loop_on_delayed) { struct nfsrv_descript nfsd, *nd = &nfsd; int error; do { error = nfsrpc_closerpc(nd, nmp, op, cred, p, 0); if (loop_on_delayed && error == NFSERR_DELAY) (void) nfs_catnap(PZERO, error, "nfstrycl"); } while (loop_on_delayed && error == NFSERR_DELAY); if (error == EAUTH || error == EACCES) { /* Try again using system credentials */ newnfs_setroot(cred); do { error = nfsrpc_closerpc(nd, nmp, op, cred, p, 1); if (loop_on_delayed && error == NFSERR_DELAY) (void) nfs_catnap(PZERO, error, "nfstrycl"); } while (loop_on_delayed && error == NFSERR_DELAY); } return (error); } /* * Decide if a delegation on a file permits close without flushing writes * to the server. This might be a big performance win in some environments. * (Not useful until the client does caching on local stable storage.) */ int nfscl_mustflush(vnode_t vp) { struct nfsclclient *clp; struct nfscldeleg *dp; struct nfsnode *np; struct nfsmount *nmp; np = VTONFS(vp); nmp = VFSTONFS(vp->v_mount); if (!NFSHASNFSV4(nmp)) return (1); NFSLOCKMNT(nmp); if ((nmp->nm_privflag & NFSMNTP_DELEGISSUED) == 0) { NFSUNLOCKMNT(nmp); return (1); } NFSUNLOCKMNT(nmp); NFSLOCKCLSTATE(); clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return (1); } dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL && (dp->nfsdl_flags & (NFSCLDL_WRITE | NFSCLDL_RECALL | NFSCLDL_DELEGRET)) == NFSCLDL_WRITE && (dp->nfsdl_sizelimit >= np->n_size || !NFSHASSTRICT3530(nmp))) { NFSUNLOCKCLSTATE(); return (0); } NFSUNLOCKCLSTATE(); return (1); } /* * See if a (write) delegation exists for this file. */ int nfscl_nodeleg(vnode_t vp, int writedeleg) { struct nfsclclient *clp; struct nfscldeleg *dp; struct nfsnode *np; struct nfsmount *nmp; np = VTONFS(vp); nmp = VFSTONFS(vp->v_mount); if (!NFSHASNFSV4(nmp)) return (1); NFSLOCKMNT(nmp); if ((nmp->nm_privflag & NFSMNTP_DELEGISSUED) == 0) { NFSUNLOCKMNT(nmp); return (1); } NFSUNLOCKMNT(nmp); NFSLOCKCLSTATE(); clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return (1); } dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL && (dp->nfsdl_flags & (NFSCLDL_RECALL | NFSCLDL_DELEGRET)) == 0 && (writedeleg == 0 || (dp->nfsdl_flags & NFSCLDL_WRITE) == NFSCLDL_WRITE)) { NFSUNLOCKCLSTATE(); return (0); } NFSUNLOCKCLSTATE(); return (1); } /* * Look for an associated delegation that should be DelegReturned. */ int nfscl_removedeleg(vnode_t vp, NFSPROC_T *p, nfsv4stateid_t *stp) { struct nfsclclient *clp; struct nfscldeleg *dp; struct nfsclowner *owp; struct nfscllockowner *lp; struct nfsmount *nmp; struct mount *mp; struct ucred *cred; struct nfsnode *np; int igotlock = 0, triedrecall = 0, needsrecall, retcnt = 0, islept; nmp = VFSTONFS(vp->v_mount); if (NFSHASPNFS(nmp)) return (retcnt); NFSLOCKMNT(nmp); if ((nmp->nm_privflag & NFSMNTP_DELEGISSUED) == 0) { NFSUNLOCKMNT(nmp); return (retcnt); } NFSUNLOCKMNT(nmp); np = VTONFS(vp); mp = nmp->nm_mountp; NFSLOCKCLSTATE(); /* * Loop around waiting for: * - outstanding I/O operations on delegations to complete * - for a delegation on vp that has state, lock the client and * do a recall * - return delegation with no state */ while (1) { clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return (retcnt); } dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL) { /* * Wait for outstanding I/O ops to be done. */ if (dp->nfsdl_rwlock.nfslock_usecnt > 0) { if (igotlock) { nfsv4_unlock(&clp->nfsc_lock, 0); igotlock = 0; } dp->nfsdl_rwlock.nfslock_lock |= NFSV4LOCK_WANTED; msleep(&dp->nfsdl_rwlock, NFSCLSTATEMUTEXPTR, PZERO, "nfscld", hz); if (NFSCL_FORCEDISM(mp)) { dp->nfsdl_flags &= ~NFSCLDL_DELEGRET; NFSUNLOCKCLSTATE(); return (0); } continue; } needsrecall = 0; LIST_FOREACH(owp, &dp->nfsdl_owner, nfsow_list) { if (!LIST_EMPTY(&owp->nfsow_open)) { needsrecall = 1; break; } } if (!needsrecall) { LIST_FOREACH(lp, &dp->nfsdl_lock, nfsl_list) { if (!LIST_EMPTY(&lp->nfsl_lock)) { needsrecall = 1; break; } } } if (needsrecall && !triedrecall) { dp->nfsdl_flags |= NFSCLDL_DELEGRET; islept = 0; while (!igotlock) { igotlock = nfsv4_lock(&clp->nfsc_lock, 1, &islept, NFSCLSTATEMUTEXPTR, mp); if (NFSCL_FORCEDISM(mp)) { dp->nfsdl_flags &= ~NFSCLDL_DELEGRET; if (igotlock) nfsv4_unlock(&clp->nfsc_lock, 0); NFSUNLOCKCLSTATE(); return (0); } if (islept) break; } if (islept) continue; NFSUNLOCKCLSTATE(); cred = newnfs_getcred(); newnfs_copycred(&dp->nfsdl_cred, cred); nfscl_recalldeleg(clp, nmp, dp, vp, cred, p, 0, NULL); NFSFREECRED(cred); triedrecall = 1; NFSLOCKCLSTATE(); nfsv4_unlock(&clp->nfsc_lock, 0); igotlock = 0; continue; } *stp = dp->nfsdl_stateid; retcnt = 1; nfscl_cleandeleg(dp); nfscl_freedeleg(&clp->nfsc_deleg, dp, true); } if (igotlock) nfsv4_unlock(&clp->nfsc_lock, 0); NFSUNLOCKCLSTATE(); return (retcnt); } } /* * Look for associated delegation(s) that should be DelegReturned. */ int nfscl_renamedeleg(vnode_t fvp, nfsv4stateid_t *fstp, int *gotfdp, vnode_t tvp, nfsv4stateid_t *tstp, int *gottdp, NFSPROC_T *p) { struct nfsclclient *clp; struct nfscldeleg *dp; struct nfsclowner *owp; struct nfscllockowner *lp; struct nfsmount *nmp; struct mount *mp; struct ucred *cred; struct nfsnode *np; int igotlock = 0, triedrecall = 0, needsrecall, retcnt = 0, islept; nmp = VFSTONFS(fvp->v_mount); *gotfdp = 0; *gottdp = 0; if (NFSHASPNFS(nmp)) return (retcnt); NFSLOCKMNT(nmp); if ((nmp->nm_privflag & NFSMNTP_DELEGISSUED) == 0) { NFSUNLOCKMNT(nmp); return (retcnt); } NFSUNLOCKMNT(nmp); mp = nmp->nm_mountp; NFSLOCKCLSTATE(); /* * Loop around waiting for: * - outstanding I/O operations on delegations to complete * - for a delegation on fvp that has state, lock the client and * do a recall * - return delegation(s) with no state. */ while (1) { clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return (retcnt); } np = VTONFS(fvp); dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL && *gotfdp == 0) { /* * Wait for outstanding I/O ops to be done. */ if (dp->nfsdl_rwlock.nfslock_usecnt > 0) { if (igotlock) { nfsv4_unlock(&clp->nfsc_lock, 0); igotlock = 0; } dp->nfsdl_rwlock.nfslock_lock |= NFSV4LOCK_WANTED; msleep(&dp->nfsdl_rwlock, NFSCLSTATEMUTEXPTR, PZERO, "nfscld", hz); if (NFSCL_FORCEDISM(mp)) { dp->nfsdl_flags &= ~NFSCLDL_DELEGRET; NFSUNLOCKCLSTATE(); *gotfdp = 0; *gottdp = 0; return (0); } continue; } needsrecall = 0; LIST_FOREACH(owp, &dp->nfsdl_owner, nfsow_list) { if (!LIST_EMPTY(&owp->nfsow_open)) { needsrecall = 1; break; } } if (!needsrecall) { LIST_FOREACH(lp, &dp->nfsdl_lock, nfsl_list) { if (!LIST_EMPTY(&lp->nfsl_lock)) { needsrecall = 1; break; } } } if (needsrecall && !triedrecall) { dp->nfsdl_flags |= NFSCLDL_DELEGRET; islept = 0; while (!igotlock) { igotlock = nfsv4_lock(&clp->nfsc_lock, 1, &islept, NFSCLSTATEMUTEXPTR, mp); if (NFSCL_FORCEDISM(mp)) { dp->nfsdl_flags &= ~NFSCLDL_DELEGRET; if (igotlock) nfsv4_unlock(&clp->nfsc_lock, 0); NFSUNLOCKCLSTATE(); *gotfdp = 0; *gottdp = 0; return (0); } if (islept) break; } if (islept) continue; NFSUNLOCKCLSTATE(); cred = newnfs_getcred(); newnfs_copycred(&dp->nfsdl_cred, cred); nfscl_recalldeleg(clp, nmp, dp, fvp, cred, p, 0, NULL); NFSFREECRED(cred); triedrecall = 1; NFSLOCKCLSTATE(); nfsv4_unlock(&clp->nfsc_lock, 0); igotlock = 0; continue; } *fstp = dp->nfsdl_stateid; retcnt++; *gotfdp = 1; nfscl_cleandeleg(dp); nfscl_freedeleg(&clp->nfsc_deleg, dp, true); } if (igotlock) { nfsv4_unlock(&clp->nfsc_lock, 0); igotlock = 0; } if (tvp != NULL) { np = VTONFS(tvp); dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL && *gottdp == 0) { /* * Wait for outstanding I/O ops to be done. */ if (dp->nfsdl_rwlock.nfslock_usecnt > 0) { dp->nfsdl_rwlock.nfslock_lock |= NFSV4LOCK_WANTED; msleep(&dp->nfsdl_rwlock, NFSCLSTATEMUTEXPTR, PZERO, "nfscld", hz); if (NFSCL_FORCEDISM(mp)) { NFSUNLOCKCLSTATE(); *gotfdp = 0; *gottdp = 0; return (0); } continue; } LIST_FOREACH(owp, &dp->nfsdl_owner, nfsow_list) { if (!LIST_EMPTY(&owp->nfsow_open)) { NFSUNLOCKCLSTATE(); return (retcnt); } } LIST_FOREACH(lp, &dp->nfsdl_lock, nfsl_list) { if (!LIST_EMPTY(&lp->nfsl_lock)) { NFSUNLOCKCLSTATE(); return (retcnt); } } *tstp = dp->nfsdl_stateid; retcnt++; *gottdp = 1; nfscl_cleandeleg(dp); nfscl_freedeleg(&clp->nfsc_deleg, dp, true); } } NFSUNLOCKCLSTATE(); return (retcnt); } } /* * Get a reference on the clientid associated with the mount point. * Return 1 if success, 0 otherwise. */ int nfscl_getref(struct nfsmount *nmp) { struct nfsclclient *clp; int ret; NFSLOCKCLSTATE(); clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return (0); } nfsv4_getref(&clp->nfsc_lock, NULL, NFSCLSTATEMUTEXPTR, nmp->nm_mountp); ret = 1; if (NFSCL_FORCEDISM(nmp->nm_mountp)) ret = 0; NFSUNLOCKCLSTATE(); return (ret); } /* * Release a reference on a clientid acquired with the above call. */ void nfscl_relref(struct nfsmount *nmp) { struct nfsclclient *clp; NFSLOCKCLSTATE(); clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return; } nfsv4_relref(&clp->nfsc_lock); NFSUNLOCKCLSTATE(); } /* * Save the size attribute in the delegation, since the nfsnode * is going away. */ void nfscl_reclaimnode(vnode_t vp) { struct nfsclclient *clp; struct nfscldeleg *dp; struct nfsnode *np = VTONFS(vp); struct nfsmount *nmp; nmp = VFSTONFS(vp->v_mount); if (!NFSHASNFSV4(nmp)) return; NFSLOCKCLSTATE(); clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return; } dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL && (dp->nfsdl_flags & NFSCLDL_WRITE)) dp->nfsdl_size = np->n_size; NFSUNLOCKCLSTATE(); } /* * Get the saved size attribute in the delegation, since it is a * newly allocated nfsnode. */ void nfscl_newnode(vnode_t vp) { struct nfsclclient *clp; struct nfscldeleg *dp; struct nfsnode *np = VTONFS(vp); struct nfsmount *nmp; nmp = VFSTONFS(vp->v_mount); if (!NFSHASNFSV4(nmp)) return; NFSLOCKCLSTATE(); clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return; } dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL && (dp->nfsdl_flags & NFSCLDL_WRITE)) np->n_size = dp->nfsdl_size; NFSUNLOCKCLSTATE(); } /* * If there is a valid write delegation for this file, set the modtime * to the local clock time. */ void nfscl_delegmodtime(vnode_t vp) { struct nfsclclient *clp; struct nfscldeleg *dp; struct nfsnode *np = VTONFS(vp); struct nfsmount *nmp; nmp = VFSTONFS(vp->v_mount); if (!NFSHASNFSV4(nmp)) return; NFSLOCKMNT(nmp); if ((nmp->nm_privflag & NFSMNTP_DELEGISSUED) == 0) { NFSUNLOCKMNT(nmp); return; } NFSUNLOCKMNT(nmp); NFSLOCKCLSTATE(); clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return; } dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL && (dp->nfsdl_flags & NFSCLDL_WRITE)) { nanotime(&dp->nfsdl_modtime); dp->nfsdl_flags |= NFSCLDL_MODTIMESET; } NFSUNLOCKCLSTATE(); } /* * If there is a valid write delegation for this file with a modtime set, * put that modtime in mtime. */ void nfscl_deleggetmodtime(vnode_t vp, struct timespec *mtime) { struct nfsclclient *clp; struct nfscldeleg *dp; struct nfsnode *np = VTONFS(vp); struct nfsmount *nmp; nmp = VFSTONFS(vp->v_mount); if (!NFSHASNFSV4(nmp)) return; NFSLOCKMNT(nmp); if ((nmp->nm_privflag & NFSMNTP_DELEGISSUED) == 0) { NFSUNLOCKMNT(nmp); return; } NFSUNLOCKMNT(nmp); NFSLOCKCLSTATE(); clp = nfscl_findcl(nmp); if (clp == NULL) { NFSUNLOCKCLSTATE(); return; } dp = nfscl_finddeleg(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (dp != NULL && (dp->nfsdl_flags & (NFSCLDL_WRITE | NFSCLDL_MODTIMESET)) == (NFSCLDL_WRITE | NFSCLDL_MODTIMESET)) *mtime = dp->nfsdl_modtime; NFSUNLOCKCLSTATE(); } static int nfscl_errmap(struct nfsrv_descript *nd, u_int32_t minorvers) { short *defaulterrp, *errp; if (!nd->nd_repstat) return (0); if (nd->nd_procnum == NFSPROC_NOOP) return (txdr_unsigned(nd->nd_repstat & 0xffff)); if (nd->nd_repstat == EBADRPC) return (txdr_unsigned(NFSERR_BADXDR)); if (nd->nd_repstat == NFSERR_MINORVERMISMATCH || nd->nd_repstat == NFSERR_OPILLEGAL) return (txdr_unsigned(nd->nd_repstat)); if (nd->nd_repstat >= NFSERR_BADIOMODE && nd->nd_repstat < 20000 && minorvers > NFSV4_MINORVERSION) { /* NFSv4.n error. */ return (txdr_unsigned(nd->nd_repstat)); } if (nd->nd_procnum < NFSV4OP_CBNOPS) errp = defaulterrp = nfscl_cberrmap[nd->nd_procnum]; else return (txdr_unsigned(nd->nd_repstat)); while (*++errp) if (*errp == (short)nd->nd_repstat) return (txdr_unsigned(nd->nd_repstat)); return (txdr_unsigned(*defaulterrp)); } /* * Called to find/add a layout to a client. * This function returns the layout with a refcnt (shared lock) upon * success (returns 0) or with no lock/refcnt on the layout when an * error is returned. * If a layout is passed in via lypp, it is locked (exclusively locked). */ int nfscl_layout(struct nfsmount *nmp, vnode_t vp, u_int8_t *fhp, int fhlen, nfsv4stateid_t *stateidp, int layouttype, int retonclose, struct nfsclflayouthead *fhlp, struct nfscllayout **lypp, struct ucred *cred, NFSPROC_T *p) { struct nfsclclient *clp; struct nfscllayout *lyp, *tlyp; struct nfsclflayout *flp; struct nfsnode *np = VTONFS(vp); mount_t mp; int layout_passed_in; mp = nmp->nm_mountp; layout_passed_in = 1; tlyp = NULL; lyp = *lypp; if (lyp == NULL) { layout_passed_in = 0; tlyp = malloc(sizeof(*tlyp) + fhlen - 1, M_NFSLAYOUT, M_WAITOK | M_ZERO); } NFSLOCKCLSTATE(); clp = nmp->nm_clp; if (clp == NULL) { if (layout_passed_in != 0) nfsv4_unlock(&lyp->nfsly_lock, 0); NFSUNLOCKCLSTATE(); if (tlyp != NULL) free(tlyp, M_NFSLAYOUT); return (EPERM); } if (lyp == NULL) { /* * Although no lyp was passed in, another thread might have * allocated one. If one is found, just increment it's ref * count and return it. */ lyp = nfscl_findlayout(clp, fhp, fhlen); if (lyp == NULL) { lyp = tlyp; tlyp = NULL; lyp->nfsly_stateid.seqid = stateidp->seqid; lyp->nfsly_stateid.other[0] = stateidp->other[0]; lyp->nfsly_stateid.other[1] = stateidp->other[1]; lyp->nfsly_stateid.other[2] = stateidp->other[2]; lyp->nfsly_lastbyte = 0; LIST_INIT(&lyp->nfsly_flayread); LIST_INIT(&lyp->nfsly_flayrw); LIST_INIT(&lyp->nfsly_recall); lyp->nfsly_filesid[0] = np->n_vattr.na_filesid[0]; lyp->nfsly_filesid[1] = np->n_vattr.na_filesid[1]; lyp->nfsly_clp = clp; if (layouttype == NFSLAYOUT_FLEXFILE) lyp->nfsly_flags = NFSLY_FLEXFILE; else lyp->nfsly_flags = NFSLY_FILES; if (retonclose != 0) lyp->nfsly_flags |= NFSLY_RETONCLOSE; lyp->nfsly_fhlen = fhlen; NFSBCOPY(fhp, lyp->nfsly_fh, fhlen); TAILQ_INSERT_HEAD(&clp->nfsc_layout, lyp, nfsly_list); LIST_INSERT_HEAD(NFSCLLAYOUTHASH(clp, fhp, fhlen), lyp, nfsly_hash); lyp->nfsly_timestamp = NFSD_MONOSEC + 120; nfscl_layoutcnt++; nfsstatsv1.cllayouts++; } else { if (retonclose != 0) lyp->nfsly_flags |= NFSLY_RETONCLOSE; if (stateidp->seqid > lyp->nfsly_stateid.seqid) lyp->nfsly_stateid.seqid = stateidp->seqid; TAILQ_REMOVE(&clp->nfsc_layout, lyp, nfsly_list); TAILQ_INSERT_HEAD(&clp->nfsc_layout, lyp, nfsly_list); lyp->nfsly_timestamp = NFSD_MONOSEC + 120; } nfsv4_getref(&lyp->nfsly_lock, NULL, NFSCLSTATEMUTEXPTR, mp); if (NFSCL_FORCEDISM(mp)) { NFSUNLOCKCLSTATE(); if (tlyp != NULL) free(tlyp, M_NFSLAYOUT); return (EPERM); } *lypp = lyp; } else if (stateidp->seqid > lyp->nfsly_stateid.seqid) lyp->nfsly_stateid.seqid = stateidp->seqid; /* Merge the new list of File Layouts into the list. */ flp = LIST_FIRST(fhlp); if (flp != NULL) { if (flp->nfsfl_iomode == NFSLAYOUTIOMODE_READ) nfscl_mergeflayouts(&lyp->nfsly_flayread, fhlp); else nfscl_mergeflayouts(&lyp->nfsly_flayrw, fhlp); } if (layout_passed_in != 0) nfsv4_unlock(&lyp->nfsly_lock, 1); NFSUNLOCKCLSTATE(); if (tlyp != NULL) free(tlyp, M_NFSLAYOUT); return (0); } /* * Search for a layout by MDS file handle. * If one is found, it is returned with a refcnt (shared lock) iff * retflpp returned non-NULL and locked (exclusive locked) iff retflpp is * returned NULL. */ struct nfscllayout * nfscl_getlayout(struct nfsclclient *clp, uint8_t *fhp, int fhlen, uint64_t off, uint32_t rwaccess, struct nfsclflayout **retflpp, int *recalledp) { struct nfscllayout *lyp; mount_t mp; int error, igotlock; mp = clp->nfsc_nmp->nm_mountp; *recalledp = 0; *retflpp = NULL; NFSLOCKCLSTATE(); lyp = nfscl_findlayout(clp, fhp, fhlen); if (lyp != NULL) { if ((lyp->nfsly_flags & NFSLY_RECALL) == 0) { TAILQ_REMOVE(&clp->nfsc_layout, lyp, nfsly_list); TAILQ_INSERT_HEAD(&clp->nfsc_layout, lyp, nfsly_list); lyp->nfsly_timestamp = NFSD_MONOSEC + 120; error = nfscl_findlayoutforio(lyp, off, rwaccess, retflpp); if (error == 0) nfsv4_getref(&lyp->nfsly_lock, NULL, NFSCLSTATEMUTEXPTR, mp); else { do { igotlock = nfsv4_lock(&lyp->nfsly_lock, 1, NULL, NFSCLSTATEMUTEXPTR, mp); } while (igotlock == 0 && !NFSCL_FORCEDISM(mp)); *retflpp = NULL; } if (NFSCL_FORCEDISM(mp)) { lyp = NULL; *recalledp = 1; } } else { lyp = NULL; *recalledp = 1; } } NFSUNLOCKCLSTATE(); return (lyp); } /* * Search for a layout by MDS file handle. If one is found, mark in to be * recalled, if it already marked "return on close". */ static void nfscl_retoncloselayout(vnode_t vp, struct nfsclclient *clp, uint8_t *fhp, int fhlen, struct nfsclrecalllayout **recallpp, struct nfscllayout **lypp) { struct nfscllayout *lyp; uint32_t iomode; *lypp = NULL; if (vp->v_type != VREG || !NFSHASPNFS(VFSTONFS(vp->v_mount)) || nfscl_enablecallb == 0 || nfs_numnfscbd == 0 || (VTONFS(vp)->n_flag & NNOLAYOUT) != 0) return; lyp = nfscl_findlayout(clp, fhp, fhlen); if (lyp != NULL && (lyp->nfsly_flags & NFSLY_RETONCLOSE) != 0) { if ((lyp->nfsly_flags & NFSLY_RECALL) == 0) { iomode = 0; if (!LIST_EMPTY(&lyp->nfsly_flayread)) iomode |= NFSLAYOUTIOMODE_READ; if (!LIST_EMPTY(&lyp->nfsly_flayrw)) iomode |= NFSLAYOUTIOMODE_RW; nfscl_layoutrecall(NFSLAYOUTRETURN_FILE, lyp, iomode, 0, UINT64_MAX, lyp->nfsly_stateid.seqid, 0, 0, NULL, *recallpp); NFSCL_DEBUG(4, "retoncls recall iomode=%d\n", iomode); *recallpp = NULL; } /* Now, wake up renew thread to do LayoutReturn. */ wakeup(clp); *lypp = lyp; } } /* * Mark the layout to be recalled and with an error. * Also, disable the dsp from further use. */ void nfscl_dserr(uint32_t op, uint32_t stat, struct nfscldevinfo *dp, struct nfscllayout *lyp, struct nfsclds *dsp) { struct nfsclrecalllayout *recallp; uint32_t iomode; printf("DS being disabled, error=%d\n", stat); /* Set up the return of the layout. */ recallp = malloc(sizeof(*recallp), M_NFSLAYRECALL, M_WAITOK); iomode = 0; NFSLOCKCLSTATE(); if ((lyp->nfsly_flags & NFSLY_RECALL) == 0) { if (!LIST_EMPTY(&lyp->nfsly_flayread)) iomode |= NFSLAYOUTIOMODE_READ; if (!LIST_EMPTY(&lyp->nfsly_flayrw)) iomode |= NFSLAYOUTIOMODE_RW; (void)nfscl_layoutrecall(NFSLAYOUTRETURN_FILE, lyp, iomode, 0, UINT64_MAX, lyp->nfsly_stateid.seqid, stat, op, dp->nfsdi_deviceid, recallp); NFSUNLOCKCLSTATE(); NFSCL_DEBUG(4, "nfscl_dserr recall iomode=%d\n", iomode); } else { NFSUNLOCKCLSTATE(); free(recallp, M_NFSLAYRECALL); } /* And shut the TCP connection down. */ nfscl_cancelreqs(dsp); } /* * Cancel all RPCs for this "dsp" by closing the connection. * Also, mark the session as defunct. * If NFSCLDS_SAMECONN is set, the connection is shared with other DSs and * cannot be shut down. */ void nfscl_cancelreqs(struct nfsclds *dsp) { struct __rpc_client *cl; static int non_event; NFSLOCKDS(dsp); if ((dsp->nfsclds_flags & (NFSCLDS_CLOSED | NFSCLDS_SAMECONN)) == 0 && dsp->nfsclds_sockp != NULL && dsp->nfsclds_sockp->nr_client != NULL) { dsp->nfsclds_flags |= NFSCLDS_CLOSED; cl = dsp->nfsclds_sockp->nr_client; dsp->nfsclds_sess.nfsess_defunct = 1; NFSUNLOCKDS(dsp); CLNT_CLOSE(cl); /* * This 1sec sleep is done to reduce the number of reconnect * attempts made on the DS while it has failed. */ tsleep(&non_event, PVFS, "ndscls", hz); return; } NFSUNLOCKDS(dsp); } /* * Dereference a layout. */ void nfscl_rellayout(struct nfscllayout *lyp, int exclocked) { NFSLOCKCLSTATE(); if (exclocked != 0) nfsv4_unlock(&lyp->nfsly_lock, 0); else nfsv4_relref(&lyp->nfsly_lock); NFSUNLOCKCLSTATE(); } /* * Search for a devinfo by deviceid. If one is found, return it after * acquiring a reference count on it. */ struct nfscldevinfo * nfscl_getdevinfo(struct nfsclclient *clp, uint8_t *deviceid, struct nfscldevinfo *dip) { NFSLOCKCLSTATE(); if (dip == NULL) dip = nfscl_finddevinfo(clp, deviceid); if (dip != NULL) dip->nfsdi_refcnt++; NFSUNLOCKCLSTATE(); return (dip); } /* * Dereference a devinfo structure. */ static void nfscl_reldevinfo_locked(struct nfscldevinfo *dip) { dip->nfsdi_refcnt--; if (dip->nfsdi_refcnt == 0) wakeup(&dip->nfsdi_refcnt); } /* * Dereference a devinfo structure. */ void nfscl_reldevinfo(struct nfscldevinfo *dip) { NFSLOCKCLSTATE(); nfscl_reldevinfo_locked(dip); NFSUNLOCKCLSTATE(); } /* * Find a layout for this file handle. Return NULL upon failure. */ static struct nfscllayout * nfscl_findlayout(struct nfsclclient *clp, u_int8_t *fhp, int fhlen) { struct nfscllayout *lyp; LIST_FOREACH(lyp, NFSCLLAYOUTHASH(clp, fhp, fhlen), nfsly_hash) if (lyp->nfsly_fhlen == fhlen && !NFSBCMP(lyp->nfsly_fh, fhp, fhlen)) break; return (lyp); } /* * Find a devinfo for this deviceid. Return NULL upon failure. */ static struct nfscldevinfo * nfscl_finddevinfo(struct nfsclclient *clp, uint8_t *deviceid) { struct nfscldevinfo *dip; LIST_FOREACH(dip, &clp->nfsc_devinfo, nfsdi_list) if (NFSBCMP(dip->nfsdi_deviceid, deviceid, NFSX_V4DEVICEID) == 0) break; return (dip); } /* * Merge the new file layout list into the main one, maintaining it in * increasing offset order. */ static void nfscl_mergeflayouts(struct nfsclflayouthead *fhlp, struct nfsclflayouthead *newfhlp) { struct nfsclflayout *flp, *nflp, *prevflp, *tflp; flp = LIST_FIRST(fhlp); prevflp = NULL; LIST_FOREACH_SAFE(nflp, newfhlp, nfsfl_list, tflp) { while (flp != NULL && flp->nfsfl_off < nflp->nfsfl_off) { prevflp = flp; flp = LIST_NEXT(flp, nfsfl_list); } if (prevflp == NULL) LIST_INSERT_HEAD(fhlp, nflp, nfsfl_list); else LIST_INSERT_AFTER(prevflp, nflp, nfsfl_list); prevflp = nflp; } } /* * Add this nfscldevinfo to the client, if it doesn't already exist. * This function consumes the structure pointed at by dip, if not NULL. */ int nfscl_adddevinfo(struct nfsmount *nmp, struct nfscldevinfo *dip, int ind, struct nfsclflayout *flp) { struct nfsclclient *clp; struct nfscldevinfo *tdip; uint8_t *dev; NFSLOCKCLSTATE(); clp = nmp->nm_clp; if (clp == NULL) { NFSUNLOCKCLSTATE(); if (dip != NULL) free(dip, M_NFSDEVINFO); return (ENODEV); } if ((flp->nfsfl_flags & NFSFL_FILE) != 0) dev = flp->nfsfl_dev; else dev = flp->nfsfl_ffm[ind].dev; tdip = nfscl_finddevinfo(clp, dev); if (tdip != NULL) { tdip->nfsdi_layoutrefs++; if ((flp->nfsfl_flags & NFSFL_FILE) != 0) flp->nfsfl_devp = tdip; else flp->nfsfl_ffm[ind].devp = tdip; nfscl_reldevinfo_locked(tdip); NFSUNLOCKCLSTATE(); if (dip != NULL) free(dip, M_NFSDEVINFO); return (0); } if (dip != NULL) { LIST_INSERT_HEAD(&clp->nfsc_devinfo, dip, nfsdi_list); dip->nfsdi_layoutrefs = 1; if ((flp->nfsfl_flags & NFSFL_FILE) != 0) flp->nfsfl_devp = dip; else flp->nfsfl_ffm[ind].devp = dip; } NFSUNLOCKCLSTATE(); if (dip == NULL) return (ENODEV); return (0); } /* * Free up a layout structure and associated file layout structure(s). */ void nfscl_freelayout(struct nfscllayout *layp) { struct nfsclflayout *flp, *nflp; struct nfsclrecalllayout *rp, *nrp; LIST_FOREACH_SAFE(flp, &layp->nfsly_flayread, nfsfl_list, nflp) { LIST_REMOVE(flp, nfsfl_list); nfscl_freeflayout(flp); } LIST_FOREACH_SAFE(flp, &layp->nfsly_flayrw, nfsfl_list, nflp) { LIST_REMOVE(flp, nfsfl_list); nfscl_freeflayout(flp); } LIST_FOREACH_SAFE(rp, &layp->nfsly_recall, nfsrecly_list, nrp) { LIST_REMOVE(rp, nfsrecly_list); free(rp, M_NFSLAYRECALL); } nfscl_layoutcnt--; nfsstatsv1.cllayouts--; free(layp, M_NFSLAYOUT); } /* * Free up a file layout structure. */ void nfscl_freeflayout(struct nfsclflayout *flp) { int i, j; if ((flp->nfsfl_flags & NFSFL_FILE) != 0) { for (i = 0; i < flp->nfsfl_fhcnt; i++) free(flp->nfsfl_fh[i], M_NFSFH); if (flp->nfsfl_devp != NULL) flp->nfsfl_devp->nfsdi_layoutrefs--; } if ((flp->nfsfl_flags & NFSFL_FLEXFILE) != 0) for (i = 0; i < flp->nfsfl_mirrorcnt; i++) { for (j = 0; j < flp->nfsfl_ffm[i].fhcnt; j++) free(flp->nfsfl_ffm[i].fh[j], M_NFSFH); if (flp->nfsfl_ffm[i].devp != NULL) flp->nfsfl_ffm[i].devp->nfsdi_layoutrefs--; } free(flp, M_NFSFLAYOUT); } /* * Free up a file layout devinfo structure. */ void nfscl_freedevinfo(struct nfscldevinfo *dip) { free(dip, M_NFSDEVINFO); } /* * Mark any layouts that match as recalled. */ static int nfscl_layoutrecall(int recalltype, struct nfscllayout *lyp, uint32_t iomode, uint64_t off, uint64_t len, uint32_t stateseqid, uint32_t stat, uint32_t op, char *devid, struct nfsclrecalllayout *recallp) { struct nfsclrecalllayout *rp, *orp; recallp->nfsrecly_recalltype = recalltype; recallp->nfsrecly_iomode = iomode; recallp->nfsrecly_stateseqid = stateseqid; recallp->nfsrecly_off = off; recallp->nfsrecly_len = len; recallp->nfsrecly_stat = stat; recallp->nfsrecly_op = op; if (devid != NULL) NFSBCOPY(devid, recallp->nfsrecly_devid, NFSX_V4DEVICEID); /* * Order the list as file returns first, followed by fsid and any * returns, both in increasing stateseqid order. * Note that the seqids wrap around, so 1 is after 0xffffffff. * (I'm not sure this is correct because I find RFC5661 confusing * on this, but hopefully it will work ok.) */ orp = NULL; LIST_FOREACH(rp, &lyp->nfsly_recall, nfsrecly_list) { orp = rp; if ((recalltype == NFSLAYOUTRETURN_FILE && (rp->nfsrecly_recalltype != NFSLAYOUTRETURN_FILE || nfscl_seq(stateseqid, rp->nfsrecly_stateseqid) != 0)) || (recalltype != NFSLAYOUTRETURN_FILE && rp->nfsrecly_recalltype != NFSLAYOUTRETURN_FILE && nfscl_seq(stateseqid, rp->nfsrecly_stateseqid) != 0)) { LIST_INSERT_BEFORE(rp, recallp, nfsrecly_list); break; } /* * Put any error return on all the file returns that will * preceed this one. */ if (rp->nfsrecly_recalltype == NFSLAYOUTRETURN_FILE && stat != 0 && rp->nfsrecly_stat == 0) { rp->nfsrecly_stat = stat; rp->nfsrecly_op = op; if (devid != NULL) NFSBCOPY(devid, rp->nfsrecly_devid, NFSX_V4DEVICEID); } } if (rp == NULL) { if (orp == NULL) LIST_INSERT_HEAD(&lyp->nfsly_recall, recallp, nfsrecly_list); else LIST_INSERT_AFTER(orp, recallp, nfsrecly_list); } lyp->nfsly_flags |= NFSLY_RECALL; wakeup(lyp->nfsly_clp); return (0); } /* * Compare the two seqids for ordering. The trick is that the seqids can * wrap around from 0xffffffff->0, so check for the cases where one * has wrapped around. * Return 1 if seqid1 comes before seqid2, 0 otherwise. */ static int nfscl_seq(uint32_t seqid1, uint32_t seqid2) { if (seqid2 > seqid1 && (seqid2 - seqid1) >= 0x7fffffff) /* seqid2 has wrapped around. */ return (0); if (seqid1 > seqid2 && (seqid1 - seqid2) >= 0x7fffffff) /* seqid1 has wrapped around. */ return (1); if (seqid1 <= seqid2) return (1); return (0); } /* * Do a layout return for each of the recalls. */ static void nfscl_layoutreturn(struct nfsmount *nmp, struct nfscllayout *lyp, struct ucred *cred, NFSPROC_T *p) { struct nfsclrecalllayout *rp; nfsv4stateid_t stateid; int layouttype; NFSBCOPY(lyp->nfsly_stateid.other, stateid.other, NFSX_STATEIDOTHER); stateid.seqid = lyp->nfsly_stateid.seqid; if ((lyp->nfsly_flags & NFSLY_FILES) != 0) layouttype = NFSLAYOUT_NFSV4_1_FILES; else layouttype = NFSLAYOUT_FLEXFILE; LIST_FOREACH(rp, &lyp->nfsly_recall, nfsrecly_list) { (void)nfsrpc_layoutreturn(nmp, lyp->nfsly_fh, lyp->nfsly_fhlen, 0, layouttype, rp->nfsrecly_iomode, rp->nfsrecly_recalltype, rp->nfsrecly_off, rp->nfsrecly_len, &stateid, cred, p, rp->nfsrecly_stat, rp->nfsrecly_op, rp->nfsrecly_devid); } } /* * Do the layout commit for a file layout. */ static void nfscl_dolayoutcommit(struct nfsmount *nmp, struct nfscllayout *lyp, struct ucred *cred, NFSPROC_T *p) { struct nfsclflayout *flp; uint64_t len; int error, layouttype; if ((lyp->nfsly_flags & NFSLY_FILES) != 0) layouttype = NFSLAYOUT_NFSV4_1_FILES; else layouttype = NFSLAYOUT_FLEXFILE; LIST_FOREACH(flp, &lyp->nfsly_flayrw, nfsfl_list) { if (layouttype == NFSLAYOUT_FLEXFILE && (flp->nfsfl_fflags & NFSFLEXFLAG_NO_LAYOUTCOMMIT) != 0) { NFSCL_DEBUG(4, "Flex file: no layoutcommit\n"); /* If not supported, don't bother doing it. */ NFSLOCKMNT(nmp); nmp->nm_state |= NFSSTA_NOLAYOUTCOMMIT; NFSUNLOCKMNT(nmp); break; } else if (flp->nfsfl_off <= lyp->nfsly_lastbyte) { len = flp->nfsfl_end - flp->nfsfl_off; error = nfsrpc_layoutcommit(nmp, lyp->nfsly_fh, lyp->nfsly_fhlen, 0, flp->nfsfl_off, len, lyp->nfsly_lastbyte, &lyp->nfsly_stateid, layouttype, cred, p, NULL); NFSCL_DEBUG(4, "layoutcommit err=%d\n", error); if (error == NFSERR_NOTSUPP) { /* If not supported, don't bother doing it. */ NFSLOCKMNT(nmp); nmp->nm_state |= NFSSTA_NOLAYOUTCOMMIT; NFSUNLOCKMNT(nmp); break; } } } } /* * Commit all layouts for a file (vnode). */ int nfscl_layoutcommit(vnode_t vp, NFSPROC_T *p) { struct nfsclclient *clp; struct nfscllayout *lyp; struct nfsnode *np = VTONFS(vp); mount_t mp; struct nfsmount *nmp; mp = vp->v_mount; nmp = VFSTONFS(mp); if (NFSHASNOLAYOUTCOMMIT(nmp)) return (0); NFSLOCKCLSTATE(); clp = nmp->nm_clp; if (clp == NULL) { NFSUNLOCKCLSTATE(); return (EPERM); } lyp = nfscl_findlayout(clp, np->n_fhp->nfh_fh, np->n_fhp->nfh_len); if (lyp == NULL) { NFSUNLOCKCLSTATE(); return (EPERM); } nfsv4_getref(&lyp->nfsly_lock, NULL, NFSCLSTATEMUTEXPTR, mp); if (NFSCL_FORCEDISM(mp)) { NFSUNLOCKCLSTATE(); return (EPERM); } tryagain: if ((lyp->nfsly_flags & NFSLY_WRITTEN) != 0) { lyp->nfsly_flags &= ~NFSLY_WRITTEN; NFSUNLOCKCLSTATE(); NFSCL_DEBUG(4, "do layoutcommit2\n"); nfscl_dolayoutcommit(clp->nfsc_nmp, lyp, NFSPROCCRED(p), p); NFSLOCKCLSTATE(); goto tryagain; } nfsv4_relref(&lyp->nfsly_lock); NFSUNLOCKCLSTATE(); return (0); }