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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/filemon/@/nlm/nlm_advlock.c |
/*- * Copyright (c) 2008 Isilon Inc http://www.isilon.com/ * Authors: Doug Rabson <dfr@rabson.org> * Developed with Red Inc: Alfred Perlstein <alfred@freebsd.org> * * 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 <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/nlm/nlm_advlock.c 216931 2011-01-03 20:37:31Z rmacklem $"); #include <sys/param.h> #include <sys/fcntl.h> #include <sys/jail.h> #include <sys/kernel.h> #include <sys/limits.h> #include <sys/lock.h> #include <sys/lockf.h> #include <sys/malloc.h> #include <sys/mbuf.h> #include <sys/mount.h> #include <sys/mutex.h> #include <sys/proc.h> #include <sys/socket.h> #include <sys/syslog.h> #include <sys/systm.h> #include <sys/unistd.h> #include <sys/vnode.h> #include <nfs/nfsproto.h> #include <nfsclient/nfs.h> #include <nfsclient/nfsmount.h> #include <nlm/nlm_prot.h> #include <nlm/nlm.h> /* * We need to keep track of the svid values used for F_FLOCK locks. */ struct nlm_file_svid { int ns_refs; /* thread count + 1 if active */ int ns_svid; /* on-the-wire SVID for this file */ struct ucred *ns_ucred; /* creds to use for lock recovery */ void *ns_id; /* local struct file pointer */ bool_t ns_active; /* TRUE if we own a lock */ LIST_ENTRY(nlm_file_svid) ns_link; }; LIST_HEAD(nlm_file_svid_list, nlm_file_svid); #define NLM_SVID_HASH_SIZE 256 struct nlm_file_svid_list nlm_file_svids[NLM_SVID_HASH_SIZE]; struct mtx nlm_svid_lock; static struct unrhdr *nlm_svid_allocator; static volatile u_int nlm_xid = 1; static int nlm_setlock(struct nlm_host *host, struct rpc_callextra *ext, rpcvers_t vers, struct timeval *timo, int retries, struct vnode *vp, int op, struct flock *fl, int flags, int svid, size_t fhlen, void *fh, off_t size, bool_t reclaim); static int nlm_clearlock(struct nlm_host *host, struct rpc_callextra *ext, rpcvers_t vers, struct timeval *timo, int retries, struct vnode *vp, int op, struct flock *fl, int flags, int svid, size_t fhlen, void *fh, off_t size); static int nlm_getlock(struct nlm_host *host, struct rpc_callextra *ext, rpcvers_t vers, struct timeval *timo, int retries, struct vnode *vp, int op, struct flock *fl, int flags, int svid, size_t fhlen, void *fh, off_t size); static int nlm_map_status(nlm4_stats stat); static struct nlm_file_svid *nlm_find_svid(void *id); static void nlm_free_svid(struct nlm_file_svid *nf); static int nlm_init_lock(struct flock *fl, int flags, int svid, rpcvers_t vers, size_t fhlen, void *fh, off_t size, struct nlm4_lock *lock, char oh_space[32]); static void nlm_client_init(void *dummy) { int i; mtx_init(&nlm_svid_lock, "NLM svid lock", NULL, MTX_DEF); nlm_svid_allocator = new_unrhdr(PID_MAX + 2, INT_MAX, &nlm_svid_lock); for (i = 0; i < NLM_SVID_HASH_SIZE; i++) LIST_INIT(&nlm_file_svids[i]); } SYSINIT(nlm_client_init, SI_SUB_LOCK, SI_ORDER_FIRST, nlm_client_init, NULL); static int nlm_msg(struct thread *td, const char *server, const char *msg, int error) { struct proc *p; p = td ? td->td_proc : NULL; if (error) { tprintf(p, LOG_INFO, "nfs server %s: %s, error %d\n", server, msg, error); } else { tprintf(p, LOG_INFO, "nfs server %s: %s\n", server, msg); } return (0); } struct nlm_feedback_arg { bool_t nf_printed; struct nfsmount *nf_nmp; }; static void nlm_down(struct nlm_feedback_arg *nf, struct thread *td, const char *msg, int error) { struct nfsmount *nmp = nf->nf_nmp; if (nmp == NULL) return; mtx_lock(&nmp->nm_mtx); if (!(nmp->nm_state & NFSSTA_LOCKTIMEO)) { nmp->nm_state |= NFSSTA_LOCKTIMEO; mtx_unlock(&nmp->nm_mtx); vfs_event_signal(&nmp->nm_mountp->mnt_stat.f_fsid, VQ_NOTRESPLOCK, 0); } else { mtx_unlock(&nmp->nm_mtx); } nf->nf_printed = TRUE; nlm_msg(td, nmp->nm_mountp->mnt_stat.f_mntfromname, msg, error); } static void nlm_up(struct nlm_feedback_arg *nf, struct thread *td, const char *msg) { struct nfsmount *nmp = nf->nf_nmp; if (!nf->nf_printed) return; nlm_msg(td, nmp->nm_mountp->mnt_stat.f_mntfromname, msg, 0); mtx_lock(&nmp->nm_mtx); if (nmp->nm_state & NFSSTA_LOCKTIMEO) { nmp->nm_state &= ~NFSSTA_LOCKTIMEO; mtx_unlock(&nmp->nm_mtx); vfs_event_signal(&nmp->nm_mountp->mnt_stat.f_fsid, VQ_NOTRESPLOCK, 1); } else { mtx_unlock(&nmp->nm_mtx); } } static void nlm_feedback(int type, int proc, void *arg) { struct thread *td = curthread; struct nlm_feedback_arg *nf = (struct nlm_feedback_arg *) arg; switch (type) { case FEEDBACK_REXMIT2: case FEEDBACK_RECONNECT: nlm_down(nf, td, "lockd not responding", 0); break; case FEEDBACK_OK: nlm_up(nf, td, "lockd is alive again"); break; } } /* * nlm_advlock -- * NFS advisory byte-level locks. */ static int nlm_advlock_internal(struct vnode *vp, void *id, int op, struct flock *fl, int flags, bool_t reclaim, bool_t unlock_vp) { struct thread *td = curthread; struct nfsmount *nmp; off_t size; size_t fhlen; union nfsfh fh; struct sockaddr *sa; struct sockaddr_storage ss; char servername[MNAMELEN]; struct timeval timo; int retries; rpcvers_t vers; struct nlm_host *host; struct rpc_callextra ext; struct nlm_feedback_arg nf; AUTH *auth; struct ucred *cred; struct nlm_file_svid *ns; int svid; int error; int is_v3; ASSERT_VOP_LOCKED(vp, "nlm_advlock_1"); nmp = VFSTONFS(vp->v_mount); /* * Push any pending writes to the server and flush our cache * so that if we are contending with another machine for a * file, we get whatever they wrote and vice-versa. */ if (op == F_SETLK || op == F_UNLCK) nmp->nm_vinvalbuf(vp, V_SAVE, td, 1); strcpy(servername, nmp->nm_hostname); nmp->nm_getinfo(vp, fh.fh_bytes, &fhlen, &ss, &is_v3, &size, &timo); sa = (struct sockaddr *) &ss; if (is_v3 != 0) vers = NLM_VERS4; else vers = NLM_VERS; if (nmp->nm_flag & NFSMNT_SOFT) retries = nmp->nm_retry; else retries = INT_MAX; if (unlock_vp) VOP_UNLOCK(vp, 0); /* * We need to switch to mount-point creds so that we can send * packets from a privileged port. */ cred = td->td_ucred; td->td_ucred = vp->v_mount->mnt_cred; host = nlm_find_host_by_name(servername, sa, vers); auth = authunix_create(cred); memset(&ext, 0, sizeof(ext)); nf.nf_printed = FALSE; nf.nf_nmp = nmp; ext.rc_auth = auth; ext.rc_feedback = nlm_feedback; ext.rc_feedback_arg = &nf; ext.rc_timers = NULL; ns = NULL; if (flags & F_FLOCK) { ns = nlm_find_svid(id); KASSERT(fl->l_start == 0 && fl->l_len == 0, ("F_FLOCK lock requests must be whole-file locks")); if (!ns->ns_ucred) { /* * Remember the creds used for locking in case * we need to recover the lock later. */ ns->ns_ucred = crdup(cred); } svid = ns->ns_svid; } else if (flags & F_REMOTE) { /* * If we are recovering after a server restart or * trashing locks on a force unmount, use the same * svid as last time. */ svid = fl->l_pid; } else { svid = ((struct proc *) id)->p_pid; } switch(op) { case F_SETLK: if ((flags & (F_FLOCK|F_WAIT)) == (F_FLOCK|F_WAIT) && fl->l_type == F_WRLCK) { /* * The semantics for flock(2) require that any * shared lock on the file must be released * before an exclusive lock is granted. The * local locking code interprets this by * unlocking the file before sleeping on a * blocked exclusive lock request. We * approximate this by first attempting * non-blocking and if that fails, we unlock * the file and block. */ error = nlm_setlock(host, &ext, vers, &timo, retries, vp, F_SETLK, fl, flags & ~F_WAIT, svid, fhlen, &fh.fh_bytes, size, reclaim); if (error == EAGAIN) { fl->l_type = F_UNLCK; error = nlm_clearlock(host, &ext, vers, &timo, retries, vp, F_UNLCK, fl, flags, svid, fhlen, &fh.fh_bytes, size); fl->l_type = F_WRLCK; if (!error) { mtx_lock(&nlm_svid_lock); if (ns->ns_active) { ns->ns_refs--; ns->ns_active = FALSE; } mtx_unlock(&nlm_svid_lock); flags |= F_WAIT; error = nlm_setlock(host, &ext, vers, &timo, retries, vp, F_SETLK, fl, flags, svid, fhlen, &fh.fh_bytes, size, reclaim); } } } else { error = nlm_setlock(host, &ext, vers, &timo, retries, vp, op, fl, flags, svid, fhlen, &fh.fh_bytes, size, reclaim); } if (!error && ns) { mtx_lock(&nlm_svid_lock); if (!ns->ns_active) { /* * Add one to the reference count to * hold onto the SVID for the lifetime * of the lock. Note that since * F_FLOCK only supports whole-file * locks, there can only be one active * lock for this SVID. */ ns->ns_refs++; ns->ns_active = TRUE; } mtx_unlock(&nlm_svid_lock); } break; case F_UNLCK: error = nlm_clearlock(host, &ext, vers, &timo, retries, vp, op, fl, flags, svid, fhlen, &fh.fh_bytes, size); if (!error && ns) { mtx_lock(&nlm_svid_lock); if (ns->ns_active) { ns->ns_refs--; ns->ns_active = FALSE; } mtx_unlock(&nlm_svid_lock); } break; case F_GETLK: error = nlm_getlock(host, &ext, vers, &timo, retries, vp, op, fl, flags, svid, fhlen, &fh.fh_bytes, size); break; default: error = EINVAL; break; } if (ns) nlm_free_svid(ns); td->td_ucred = cred; AUTH_DESTROY(auth); nlm_host_release(host); return (error); } int nlm_advlock(struct vop_advlock_args *ap) { return (nlm_advlock_internal(ap->a_vp, ap->a_id, ap->a_op, ap->a_fl, ap->a_flags, FALSE, TRUE)); } /* * Set the creds of td to the creds of the given lock's owner. The new * creds reference count will be incremented via crhold. The caller is * responsible for calling crfree and restoring td's original creds. */ static void nlm_set_creds_for_lock(struct thread *td, struct flock *fl) { int i; struct nlm_file_svid *ns; struct proc *p; struct ucred *cred; cred = NULL; if (fl->l_pid > PID_MAX) { /* * If this was originally a F_FLOCK-style lock, we * recorded the creds used when it was originally * locked in the nlm_file_svid structure. */ mtx_lock(&nlm_svid_lock); for (i = 0; i < NLM_SVID_HASH_SIZE; i++) { for (ns = LIST_FIRST(&nlm_file_svids[i]); ns; ns = LIST_NEXT(ns, ns_link)) { if (ns->ns_svid == fl->l_pid) { cred = crhold(ns->ns_ucred); break; } } } mtx_unlock(&nlm_svid_lock); } else { /* * This lock is owned by a process. Get a reference to * the process creds. */ p = pfind(fl->l_pid); if (p) { cred = crhold(p->p_ucred); PROC_UNLOCK(p); } } /* * If we can't find a cred, fall back on the recovery * thread's cred. */ if (!cred) { cred = crhold(td->td_ucred); } td->td_ucred = cred; } static int nlm_reclaim_free_lock(struct vnode *vp, struct flock *fl, void *arg) { struct flock newfl; struct thread *td = curthread; struct ucred *oldcred; int error; newfl = *fl; newfl.l_type = F_UNLCK; oldcred = td->td_ucred; nlm_set_creds_for_lock(td, &newfl); error = nlm_advlock_internal(vp, NULL, F_UNLCK, &newfl, F_REMOTE, FALSE, FALSE); crfree(td->td_ucred); td->td_ucred = oldcred; return (error); } int nlm_reclaim(struct vop_reclaim_args *ap) { nlm_cancel_wait(ap->a_vp); lf_iteratelocks_vnode(ap->a_vp, nlm_reclaim_free_lock, NULL); return (0); } struct nlm_recovery_context { struct nlm_host *nr_host; /* host we are recovering */ int nr_state; /* remote NSM state for recovery */ }; static int nlm_client_recover_lock(struct vnode *vp, struct flock *fl, void *arg) { struct nlm_recovery_context *nr = (struct nlm_recovery_context *) arg; struct thread *td = curthread; struct ucred *oldcred; int state, error; /* * If the remote NSM state changes during recovery, the host * must have rebooted a second time. In that case, we must * restart the recovery. */ state = nlm_host_get_state(nr->nr_host); if (nr->nr_state != state) return (ERESTART); error = vn_lock(vp, LK_SHARED); if (error) return (error); oldcred = td->td_ucred; nlm_set_creds_for_lock(td, fl); error = nlm_advlock_internal(vp, NULL, F_SETLK, fl, F_REMOTE, TRUE, TRUE); crfree(td->td_ucred); td->td_ucred = oldcred; return (error); } void nlm_client_recovery(struct nlm_host *host) { struct nlm_recovery_context nr; int sysid, error; sysid = NLM_SYSID_CLIENT | nlm_host_get_sysid(host); do { nr.nr_host = host; nr.nr_state = nlm_host_get_state(host); error = lf_iteratelocks_sysid(sysid, nlm_client_recover_lock, &nr); } while (error == ERESTART); } static void nlm_convert_to_nlm_lock(struct nlm_lock *dst, struct nlm4_lock *src) { dst->caller_name = src->caller_name; dst->fh = src->fh; dst->oh = src->oh; dst->svid = src->svid; dst->l_offset = src->l_offset; dst->l_len = src->l_len; } static void nlm_convert_to_nlm4_holder(struct nlm4_holder *dst, struct nlm_holder *src) { dst->exclusive = src->exclusive; dst->svid = src->svid; dst->oh = src->oh; dst->l_offset = src->l_offset; dst->l_len = src->l_len; } static void nlm_convert_to_nlm4_res(struct nlm4_res *dst, struct nlm_res *src) { dst->cookie = src->cookie; dst->stat.stat = (enum nlm4_stats) src->stat.stat; } static enum clnt_stat nlm_test_rpc(rpcvers_t vers, nlm4_testargs *args, nlm4_testres *res, CLIENT *client, struct rpc_callextra *ext, struct timeval timo) { if (vers == NLM_VERS4) { return nlm4_test_4(args, res, client, ext, timo); } else { nlm_testargs args1; nlm_testres res1; enum clnt_stat stat; args1.cookie = args->cookie; args1.exclusive = args->exclusive; nlm_convert_to_nlm_lock(&args1.alock, &args->alock); memset(&res1, 0, sizeof(res1)); stat = nlm_test_1(&args1, &res1, client, ext, timo); if (stat == RPC_SUCCESS) { res->cookie = res1.cookie; res->stat.stat = (enum nlm4_stats) res1.stat.stat; if (res1.stat.stat == nlm_denied) nlm_convert_to_nlm4_holder( &res->stat.nlm4_testrply_u.holder, &res1.stat.nlm_testrply_u.holder); } return (stat); } } static enum clnt_stat nlm_lock_rpc(rpcvers_t vers, nlm4_lockargs *args, nlm4_res *res, CLIENT *client, struct rpc_callextra *ext, struct timeval timo) { if (vers == NLM_VERS4) { return nlm4_lock_4(args, res, client, ext, timo); } else { nlm_lockargs args1; nlm_res res1; enum clnt_stat stat; args1.cookie = args->cookie; args1.block = args->block; args1.exclusive = args->exclusive; nlm_convert_to_nlm_lock(&args1.alock, &args->alock); args1.reclaim = args->reclaim; args1.state = args->state; memset(&res1, 0, sizeof(res1)); stat = nlm_lock_1(&args1, &res1, client, ext, timo); if (stat == RPC_SUCCESS) { nlm_convert_to_nlm4_res(res, &res1); } return (stat); } } static enum clnt_stat nlm_cancel_rpc(rpcvers_t vers, nlm4_cancargs *args, nlm4_res *res, CLIENT *client, struct rpc_callextra *ext, struct timeval timo) { if (vers == NLM_VERS4) { return nlm4_cancel_4(args, res, client, ext, timo); } else { nlm_cancargs args1; nlm_res res1; enum clnt_stat stat; args1.cookie = args->cookie; args1.block = args->block; args1.exclusive = args->exclusive; nlm_convert_to_nlm_lock(&args1.alock, &args->alock); memset(&res1, 0, sizeof(res1)); stat = nlm_cancel_1(&args1, &res1, client, ext, timo); if (stat == RPC_SUCCESS) { nlm_convert_to_nlm4_res(res, &res1); } return (stat); } } static enum clnt_stat nlm_unlock_rpc(rpcvers_t vers, nlm4_unlockargs *args, nlm4_res *res, CLIENT *client, struct rpc_callextra *ext, struct timeval timo) { if (vers == NLM_VERS4) { return nlm4_unlock_4(args, res, client, ext, timo); } else { nlm_unlockargs args1; nlm_res res1; enum clnt_stat stat; args1.cookie = args->cookie; nlm_convert_to_nlm_lock(&args1.alock, &args->alock); memset(&res1, 0, sizeof(res1)); stat = nlm_unlock_1(&args1, &res1, client, ext, timo); if (stat == RPC_SUCCESS) { nlm_convert_to_nlm4_res(res, &res1); } return (stat); } } /* * Called after a lock request (set or clear) succeeded. We record the * details in the local lock manager. Note that since the remote * server has granted the lock, we can be sure that it doesn't * conflict with any other locks we have in the local lock manager. * * Since it is possible that host may also make NLM client requests to * our NLM server, we use a different sysid value to record our own * client locks. * * Note that since it is possible for us to receive replies from the * server in a different order than the locks were granted (e.g. if * many local threads are contending for the same lock), we must use a * blocking operation when registering with the local lock manager. * We expect that any actual wait will be rare and short hence we * ignore signals for this. */ static void nlm_record_lock(struct vnode *vp, int op, struct flock *fl, int svid, int sysid, off_t size) { struct vop_advlockasync_args a; struct flock newfl; int error; a.a_vp = vp; a.a_id = NULL; a.a_op = op; a.a_fl = &newfl; a.a_flags = F_REMOTE|F_WAIT|F_NOINTR; a.a_task = NULL; a.a_cookiep = NULL; newfl.l_start = fl->l_start; newfl.l_len = fl->l_len; newfl.l_type = fl->l_type; newfl.l_whence = fl->l_whence; newfl.l_pid = svid; newfl.l_sysid = NLM_SYSID_CLIENT | sysid; error = lf_advlockasync(&a, &vp->v_lockf, size); KASSERT(error == 0 || error == ENOENT, ("Failed to register NFS lock locally - error=%d", error)); } static int nlm_setlock(struct nlm_host *host, struct rpc_callextra *ext, rpcvers_t vers, struct timeval *timo, int retries, struct vnode *vp, int op, struct flock *fl, int flags, int svid, size_t fhlen, void *fh, off_t size, bool_t reclaim) { struct nlm4_lockargs args; char oh_space[32]; struct nlm4_res res; u_int xid; CLIENT *client; enum clnt_stat stat; int retry, block, exclusive; void *wait_handle = NULL; int error; memset(&args, 0, sizeof(args)); memset(&res, 0, sizeof(res)); block = (flags & F_WAIT) ? TRUE : FALSE; exclusive = (fl->l_type == F_WRLCK); error = nlm_init_lock(fl, flags, svid, vers, fhlen, fh, size, &args.alock, oh_space); if (error) return (error); args.block = block; args.exclusive = exclusive; args.reclaim = reclaim; args.state = nlm_nsm_state; retry = 5*hz; for (;;) { client = nlm_host_get_rpc(host, FALSE); if (!client) return (ENOLCK); /* XXX retry? */ if (block) wait_handle = nlm_register_wait_lock(&args.alock, vp); xid = atomic_fetchadd_int(&nlm_xid, 1); args.cookie.n_len = sizeof(xid); args.cookie.n_bytes = (char*) &xid; stat = nlm_lock_rpc(vers, &args, &res, client, ext, *timo); CLNT_RELEASE(client); if (stat != RPC_SUCCESS) { if (block) nlm_deregister_wait_lock(wait_handle); if (retries) { retries--; continue; } return (EINVAL); } /* * Free res.cookie. */ xdr_free((xdrproc_t) xdr_nlm4_res, &res); if (block && res.stat.stat != nlm4_blocked) nlm_deregister_wait_lock(wait_handle); if (res.stat.stat == nlm4_denied_grace_period) { /* * The server has recently rebooted and is * giving old clients a change to reclaim * their locks. Wait for a few seconds and try * again. */ error = tsleep(&args, PCATCH, "nlmgrace", retry); if (error && error != EWOULDBLOCK) return (error); retry = 2*retry; if (retry > 30*hz) retry = 30*hz; continue; } if (block && res.stat.stat == nlm4_blocked) { /* * The server should call us back with a * granted message when the lock succeeds. In * order to deal with broken servers, lost * granted messages and server reboots, we * will also re-try every few seconds. */ error = nlm_wait_lock(wait_handle, retry); if (error == EWOULDBLOCK) { retry = 2*retry; if (retry > 30*hz) retry = 30*hz; continue; } if (error) { /* * We need to call the server to * cancel our lock request. */ nlm4_cancargs cancel; memset(&cancel, 0, sizeof(cancel)); xid = atomic_fetchadd_int(&nlm_xid, 1); cancel.cookie.n_len = sizeof(xid); cancel.cookie.n_bytes = (char*) &xid; cancel.block = block; cancel.exclusive = exclusive; cancel.alock = args.alock; do { client = nlm_host_get_rpc(host, FALSE); if (!client) /* XXX retry? */ return (ENOLCK); stat = nlm_cancel_rpc(vers, &cancel, &res, client, ext, *timo); CLNT_RELEASE(client); if (stat != RPC_SUCCESS) { /* * We need to cope * with temporary * network partitions * as well as server * reboots. This means * we have to keep * trying to cancel * until the server * wakes up again. */ pause("nlmcancel", 10*hz); } } while (stat != RPC_SUCCESS); /* * Free res.cookie. */ xdr_free((xdrproc_t) xdr_nlm4_res, &res); switch (res.stat.stat) { case nlm_denied: /* * There was nothing * to cancel. We are * going to go ahead * and assume we got * the lock. */ error = 0; break; case nlm4_denied_grace_period: /* * The server has * recently rebooted - * treat this as a * successful * cancellation. */ break; case nlm4_granted: /* * We managed to * cancel. */ break; default: /* * Broken server * implementation - * can't really do * anything here. */ break; } } } else { error = nlm_map_status(res.stat.stat); } if (!error && !reclaim) { nlm_record_lock(vp, op, fl, args.alock.svid, nlm_host_get_sysid(host), size); nlm_host_monitor(host, 0); } return (error); } } static int nlm_clearlock(struct nlm_host *host, struct rpc_callextra *ext, rpcvers_t vers, struct timeval *timo, int retries, struct vnode *vp, int op, struct flock *fl, int flags, int svid, size_t fhlen, void *fh, off_t size) { struct nlm4_unlockargs args; char oh_space[32]; struct nlm4_res res; u_int xid; CLIENT *client; enum clnt_stat stat; int error; memset(&args, 0, sizeof(args)); memset(&res, 0, sizeof(res)); error = nlm_init_lock(fl, flags, svid, vers, fhlen, fh, size, &args.alock, oh_space); if (error) return (error); for (;;) { client = nlm_host_get_rpc(host, FALSE); if (!client) return (ENOLCK); /* XXX retry? */ xid = atomic_fetchadd_int(&nlm_xid, 1); args.cookie.n_len = sizeof(xid); args.cookie.n_bytes = (char*) &xid; stat = nlm_unlock_rpc(vers, &args, &res, client, ext, *timo); CLNT_RELEASE(client); if (stat != RPC_SUCCESS) { if (retries) { retries--; continue; } return (EINVAL); } /* * Free res.cookie. */ xdr_free((xdrproc_t) xdr_nlm4_res, &res); if (res.stat.stat == nlm4_denied_grace_period) { /* * The server has recently rebooted and is * giving old clients a change to reclaim * their locks. Wait for a few seconds and try * again. */ error = tsleep(&args, PCATCH, "nlmgrace", 5*hz); if (error && error != EWOULDBLOCK) return (error); continue; } /* * If we are being called via nlm_reclaim (which will * use the F_REMOTE flag), don't record the lock * operation in the local lock manager since the vnode * is going away. */ if (!(flags & F_REMOTE)) nlm_record_lock(vp, op, fl, args.alock.svid, nlm_host_get_sysid(host), size); return (0); } } static int nlm_getlock(struct nlm_host *host, struct rpc_callextra *ext, rpcvers_t vers, struct timeval *timo, int retries, struct vnode *vp, int op, struct flock *fl, int flags, int svid, size_t fhlen, void *fh, off_t size) { struct nlm4_testargs args; char oh_space[32]; struct nlm4_testres res; u_int xid; CLIENT *client; enum clnt_stat stat; int exclusive; int error; KASSERT(!(flags & F_FLOCK), ("unexpected F_FLOCK for F_GETLK")); memset(&args, 0, sizeof(args)); memset(&res, 0, sizeof(res)); exclusive = (fl->l_type == F_WRLCK); error = nlm_init_lock(fl, flags, svid, vers, fhlen, fh, size, &args.alock, oh_space); if (error) return (error); args.exclusive = exclusive; for (;;) { client = nlm_host_get_rpc(host, FALSE); if (!client) return (ENOLCK); /* XXX retry? */ xid = atomic_fetchadd_int(&nlm_xid, 1); args.cookie.n_len = sizeof(xid); args.cookie.n_bytes = (char*) &xid; stat = nlm_test_rpc(vers, &args, &res, client, ext, *timo); CLNT_RELEASE(client); if (stat != RPC_SUCCESS) { if (retries) { retries--; continue; } return (EINVAL); } if (res.stat.stat == nlm4_denied_grace_period) { /* * The server has recently rebooted and is * giving old clients a change to reclaim * their locks. Wait for a few seconds and try * again. */ xdr_free((xdrproc_t) xdr_nlm4_testres, &res); error = tsleep(&args, PCATCH, "nlmgrace", 5*hz); if (error && error != EWOULDBLOCK) return (error); continue; } if (res.stat.stat == nlm4_denied) { struct nlm4_holder *h = &res.stat.nlm4_testrply_u.holder; fl->l_start = h->l_offset; fl->l_len = h->l_len; fl->l_pid = h->svid; if (h->exclusive) fl->l_type = F_WRLCK; else fl->l_type = F_RDLCK; fl->l_whence = SEEK_SET; fl->l_sysid = 0; } else { fl->l_type = F_UNLCK; } xdr_free((xdrproc_t) xdr_nlm4_testres, &res); return (0); } } static int nlm_map_status(nlm4_stats stat) { switch (stat) { case nlm4_granted: return (0); case nlm4_denied: return (EAGAIN); case nlm4_denied_nolocks: return (ENOLCK); case nlm4_deadlck: return (EDEADLK); case nlm4_rofs: return (EROFS); case nlm4_stale_fh: return (ESTALE); case nlm4_fbig: return (EFBIG); case nlm4_failed: return (EACCES); default: return (EINVAL); } } static struct nlm_file_svid * nlm_find_svid(void *id) { struct nlm_file_svid *ns, *newns; int h; h = (((uintptr_t) id) >> 7) % NLM_SVID_HASH_SIZE; mtx_lock(&nlm_svid_lock); LIST_FOREACH(ns, &nlm_file_svids[h], ns_link) { if (ns->ns_id == id) { ns->ns_refs++; break; } } mtx_unlock(&nlm_svid_lock); if (!ns) { int svid = alloc_unr(nlm_svid_allocator); newns = malloc(sizeof(struct nlm_file_svid), M_NLM, M_WAITOK); newns->ns_refs = 1; newns->ns_id = id; newns->ns_svid = svid; newns->ns_ucred = NULL; newns->ns_active = FALSE; /* * We need to check for a race with some other * thread allocating a svid for this file. */ mtx_lock(&nlm_svid_lock); LIST_FOREACH(ns, &nlm_file_svids[h], ns_link) { if (ns->ns_id == id) { ns->ns_refs++; break; } } if (ns) { mtx_unlock(&nlm_svid_lock); free_unr(nlm_svid_allocator, newns->ns_svid); free(newns, M_NLM); } else { LIST_INSERT_HEAD(&nlm_file_svids[h], newns, ns_link); ns = newns; mtx_unlock(&nlm_svid_lock); } } return (ns); } static void nlm_free_svid(struct nlm_file_svid *ns) { mtx_lock(&nlm_svid_lock); ns->ns_refs--; if (!ns->ns_refs) { KASSERT(!ns->ns_active, ("Freeing active SVID")); LIST_REMOVE(ns, ns_link); mtx_unlock(&nlm_svid_lock); free_unr(nlm_svid_allocator, ns->ns_svid); if (ns->ns_ucred) crfree(ns->ns_ucred); free(ns, M_NLM); } else { mtx_unlock(&nlm_svid_lock); } } static int nlm_init_lock(struct flock *fl, int flags, int svid, rpcvers_t vers, size_t fhlen, void *fh, off_t size, struct nlm4_lock *lock, char oh_space[32]) { size_t oh_len; off_t start, len; if (fl->l_whence == SEEK_END) { if (size > OFF_MAX || (fl->l_start > 0 && size > OFF_MAX - fl->l_start)) return (EOVERFLOW); start = size + fl->l_start; } else if (fl->l_whence == SEEK_SET || fl->l_whence == SEEK_CUR) { start = fl->l_start; } else { return (EINVAL); } if (start < 0) return (EINVAL); if (fl->l_len < 0) { len = -fl->l_len; start -= len; if (start < 0) return (EINVAL); } else { len = fl->l_len; } if (vers == NLM_VERS) { /* * Enforce range limits on V1 locks */ if (start > 0xffffffffLL || len > 0xffffffffLL) return (EOVERFLOW); } snprintf(oh_space, 32, "%d@", svid); oh_len = strlen(oh_space); getcredhostname(NULL, oh_space + oh_len, 32 - oh_len); oh_len = strlen(oh_space); memset(lock, 0, sizeof(*lock)); lock->caller_name = prison0.pr_hostname; lock->fh.n_len = fhlen; lock->fh.n_bytes = fh; lock->oh.n_len = oh_len; lock->oh.n_bytes = oh_space; lock->svid = svid; lock->l_offset = start; lock->l_len = len; return (0); }