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4022 4023 4024 4025 4026 4027 4028 4029 4030 4031 4032 4033 4034 4035 4036 4037 4038 4039 4040 4041 4042 4043 4044 4045 4046 4047 4048 4049 4050 4051 4052 4053 4054 4055 4056 4057 4058 4059 4060 4061 4062 4063 4064 4065 4066 4067 4068 4069 4070 4071 4072 4073 4074 4075 4076 4077 4078 4079 4080 4081 4082 4083 4084 4085 4086 4087 4088 4089 4090 4091 4092 4093 4094 4095 4096 4097 4098 4099 4100 4101 4102 4103 4104 4105 4106 4107 4108 4109 4110 4111 4112 4113 4114 4115 4116 4117 4118 4119 4120 4121 4122 4123 4124 4125 4126 4127 4128 4129 4130 4131 4132 4133 4134 4135 4136 4137 4138 4139 4140 4141 4142 4143 4144 4145 | /* * Copyright (c) 2001 The Regents of the University of Michigan. * All rights reserved. * * Kendrick Smith <kmsmith@umich.edu> * Andy Adamson <kandros@umich.edu> * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #include <linux/file.h> #include <linux/smp_lock.h> #include <linux/namei.h> #include <linux/swap.h> #include <linux/sunrpc/svcauth_gss.h> #include <linux/sunrpc/clnt.h> #include "xdr4.h" #include "vfs.h" #define NFSDDBG_FACILITY NFSDDBG_PROC /* Globals */ static time_t lease_time = 90; /* default lease time */ static time_t user_lease_time = 90; static time_t boot_time; static u32 current_ownerid = 1; static u32 current_fileid = 1; static u32 current_delegid = 1; static u32 nfs4_init; static stateid_t zerostateid; /* bits all 0 */ static stateid_t onestateid; /* bits all 1 */ static u64 current_sessionid = 1; #define ZERO_STATEID(stateid) (!memcmp((stateid), &zerostateid, sizeof(stateid_t))) #define ONE_STATEID(stateid) (!memcmp((stateid), &onestateid, sizeof(stateid_t))) /* forward declarations */ static struct nfs4_stateid * find_stateid(stateid_t *stid, int flags); static struct nfs4_delegation * find_delegation_stateid(struct inode *ino, stateid_t *stid); static char user_recovery_dirname[PATH_MAX] = "/var/lib/nfs/v4recovery"; static void nfs4_set_recdir(char *recdir); /* Locking: */ /* Currently used for almost all code touching nfsv4 state: */ static DEFINE_MUTEX(client_mutex); /* * Currently used for the del_recall_lru and file hash table. In an * effort to decrease the scope of the client_mutex, this spinlock may * eventually cover more: */ static DEFINE_SPINLOCK(recall_lock); static struct kmem_cache *stateowner_slab = NULL; static struct kmem_cache *file_slab = NULL; static struct kmem_cache *stateid_slab = NULL; static struct kmem_cache *deleg_slab = NULL; void nfs4_lock_state(void) { mutex_lock(&client_mutex); } void nfs4_unlock_state(void) { mutex_unlock(&client_mutex); } static inline u32 opaque_hashval(const void *ptr, int nbytes) { unsigned char *cptr = (unsigned char *) ptr; u32 x = 0; while (nbytes--) { x *= 37; x += *cptr++; } return x; } static struct list_head del_recall_lru; static inline void put_nfs4_file(struct nfs4_file *fi) { if (atomic_dec_and_lock(&fi->fi_ref, &recall_lock)) { list_del(&fi->fi_hash); spin_unlock(&recall_lock); iput(fi->fi_inode); kmem_cache_free(file_slab, fi); } } static inline void get_nfs4_file(struct nfs4_file *fi) { atomic_inc(&fi->fi_ref); } static int num_delegations; unsigned int max_delegations; /* * Open owner state (share locks) */ /* hash tables for nfs4_stateowner */ #define OWNER_HASH_BITS 8 #define OWNER_HASH_SIZE (1 << OWNER_HASH_BITS) #define OWNER_HASH_MASK (OWNER_HASH_SIZE - 1) #define ownerid_hashval(id) \ ((id) & OWNER_HASH_MASK) #define ownerstr_hashval(clientid, ownername) \ (((clientid) + opaque_hashval((ownername.data), (ownername.len))) & OWNER_HASH_MASK) static struct list_head ownerid_hashtbl[OWNER_HASH_SIZE]; static struct list_head ownerstr_hashtbl[OWNER_HASH_SIZE]; /* hash table for nfs4_file */ #define FILE_HASH_BITS 8 #define FILE_HASH_SIZE (1 << FILE_HASH_BITS) #define FILE_HASH_MASK (FILE_HASH_SIZE - 1) /* hash table for (open)nfs4_stateid */ #define STATEID_HASH_BITS 10 #define STATEID_HASH_SIZE (1 << STATEID_HASH_BITS) #define STATEID_HASH_MASK (STATEID_HASH_SIZE - 1) #define file_hashval(x) \ hash_ptr(x, FILE_HASH_BITS) #define stateid_hashval(owner_id, file_id) \ (((owner_id) + (file_id)) & STATEID_HASH_MASK) static struct list_head file_hashtbl[FILE_HASH_SIZE]; static struct list_head stateid_hashtbl[STATEID_HASH_SIZE]; static struct nfs4_delegation * alloc_init_deleg(struct nfs4_client *clp, struct nfs4_stateid *stp, struct svc_fh *current_fh, u32 type) { struct nfs4_delegation *dp; struct nfs4_file *fp = stp->st_file; struct nfs4_cb_conn *cb = &stp->st_stateowner->so_client->cl_cb_conn; dprintk("NFSD alloc_init_deleg\n"); if (fp->fi_had_conflict) return NULL; if (num_delegations > max_delegations) return NULL; dp = kmem_cache_alloc(deleg_slab, GFP_KERNEL); if (dp == NULL) return dp; num_delegations++; INIT_LIST_HEAD(&dp->dl_perfile); INIT_LIST_HEAD(&dp->dl_perclnt); INIT_LIST_HEAD(&dp->dl_recall_lru); dp->dl_client = clp; get_nfs4_file(fp); dp->dl_file = fp; dp->dl_flock = NULL; get_file(stp->st_vfs_file); dp->dl_vfs_file = stp->st_vfs_file; dp->dl_type = type; dp->dl_ident = cb->cb_ident; dp->dl_stateid.si_boot = get_seconds(); dp->dl_stateid.si_stateownerid = current_delegid++; dp->dl_stateid.si_fileid = 0; dp->dl_stateid.si_generation = 0; fh_copy_shallow(&dp->dl_fh, ¤t_fh->fh_handle); dp->dl_time = 0; atomic_set(&dp->dl_count, 1); list_add(&dp->dl_perfile, &fp->fi_delegations); list_add(&dp->dl_perclnt, &clp->cl_delegations); return dp; } void nfs4_put_delegation(struct nfs4_delegation *dp) { if (atomic_dec_and_test(&dp->dl_count)) { dprintk("NFSD: freeing dp %p\n",dp); put_nfs4_file(dp->dl_file); kmem_cache_free(deleg_slab, dp); num_delegations--; } } /* Remove the associated file_lock first, then remove the delegation. * lease_modify() is called to remove the FS_LEASE file_lock from * the i_flock list, eventually calling nfsd's lock_manager * fl_release_callback. */ static void nfs4_close_delegation(struct nfs4_delegation *dp) { struct file *filp = dp->dl_vfs_file; dprintk("NFSD: close_delegation dp %p\n",dp); dp->dl_vfs_file = NULL; /* The following nfsd_close may not actually close the file, * but we want to remove the lease in any case. */ if (dp->dl_flock) vfs_setlease(filp, F_UNLCK, &dp->dl_flock); nfsd_close(filp); } /* Called under the state lock. */ static void unhash_delegation(struct nfs4_delegation *dp) { list_del_init(&dp->dl_perfile); list_del_init(&dp->dl_perclnt); spin_lock(&recall_lock); list_del_init(&dp->dl_recall_lru); spin_unlock(&recall_lock); nfs4_close_delegation(dp); nfs4_put_delegation(dp); } /* * SETCLIENTID state */ /* Hash tables for nfs4_clientid state */ #define CLIENT_HASH_BITS 4 #define CLIENT_HASH_SIZE (1 << CLIENT_HASH_BITS) #define CLIENT_HASH_MASK (CLIENT_HASH_SIZE - 1) #define clientid_hashval(id) \ ((id) & CLIENT_HASH_MASK) #define clientstr_hashval(name) \ (opaque_hashval((name), 8) & CLIENT_HASH_MASK) /* * reclaim_str_hashtbl[] holds known client info from previous reset/reboot * used in reboot/reset lease grace period processing * * conf_id_hashtbl[], and conf_str_hashtbl[] hold confirmed * setclientid_confirmed info. * * unconf_str_hastbl[] and unconf_id_hashtbl[] hold unconfirmed * setclientid info. * * client_lru holds client queue ordered by nfs4_client.cl_time * for lease renewal. * * close_lru holds (open) stateowner queue ordered by nfs4_stateowner.so_time * for last close replay. */ static struct list_head reclaim_str_hashtbl[CLIENT_HASH_SIZE]; static int reclaim_str_hashtbl_size = 0; static struct list_head conf_id_hashtbl[CLIENT_HASH_SIZE]; static struct list_head conf_str_hashtbl[CLIENT_HASH_SIZE]; static struct list_head unconf_str_hashtbl[CLIENT_HASH_SIZE]; static struct list_head unconf_id_hashtbl[CLIENT_HASH_SIZE]; static struct list_head client_lru; static struct list_head close_lru; static void unhash_generic_stateid(struct nfs4_stateid *stp) { list_del(&stp->st_hash); list_del(&stp->st_perfile); list_del(&stp->st_perstateowner); } static void free_generic_stateid(struct nfs4_stateid *stp) { put_nfs4_file(stp->st_file); kmem_cache_free(stateid_slab, stp); } static void release_lock_stateid(struct nfs4_stateid *stp) { unhash_generic_stateid(stp); locks_remove_posix(stp->st_vfs_file, (fl_owner_t)stp->st_stateowner); free_generic_stateid(stp); } static void unhash_lockowner(struct nfs4_stateowner *sop) { struct nfs4_stateid *stp; list_del(&sop->so_idhash); list_del(&sop->so_strhash); list_del(&sop->so_perstateid); while (!list_empty(&sop->so_stateids)) { stp = list_first_entry(&sop->so_stateids, struct nfs4_stateid, st_perstateowner); release_lock_stateid(stp); } } static void release_lockowner(struct nfs4_stateowner *sop) { unhash_lockowner(sop); nfs4_put_stateowner(sop); } static void release_stateid_lockowners(struct nfs4_stateid *open_stp) { struct nfs4_stateowner *lock_sop; while (!list_empty(&open_stp->st_lockowners)) { lock_sop = list_entry(open_stp->st_lockowners.next, struct nfs4_stateowner, so_perstateid); /* list_del(&open_stp->st_lockowners); */ BUG_ON(lock_sop->so_is_open_owner); release_lockowner(lock_sop); } } static void release_open_stateid(struct nfs4_stateid *stp) { unhash_generic_stateid(stp); release_stateid_lockowners(stp); nfsd_close(stp->st_vfs_file); free_generic_stateid(stp); } static void unhash_openowner(struct nfs4_stateowner *sop) { struct nfs4_stateid *stp; list_del(&sop->so_idhash); list_del(&sop->so_strhash); list_del(&sop->so_perclient); list_del(&sop->so_perstateid); /* XXX: necessary? */ while (!list_empty(&sop->so_stateids)) { stp = list_first_entry(&sop->so_stateids, struct nfs4_stateid, st_perstateowner); release_open_stateid(stp); } } static void release_openowner(struct nfs4_stateowner *sop) { unhash_openowner(sop); list_del(&sop->so_close_lru); nfs4_put_stateowner(sop); } static DEFINE_SPINLOCK(sessionid_lock); #define SESSION_HASH_SIZE 512 static struct list_head sessionid_hashtbl[SESSION_HASH_SIZE]; static inline int hash_sessionid(struct nfs4_sessionid *sessionid) { struct nfsd4_sessionid *sid = (struct nfsd4_sessionid *)sessionid; return sid->sequence % SESSION_HASH_SIZE; } static inline void dump_sessionid(const char *fn, struct nfs4_sessionid *sessionid) { u32 *ptr = (u32 *)(&sessionid->data[0]); dprintk("%s: %u:%u:%u:%u\n", fn, ptr[0], ptr[1], ptr[2], ptr[3]); } static void gen_sessionid(struct nfsd4_session *ses) { struct nfs4_client *clp = ses->se_client; struct nfsd4_sessionid *sid; sid = (struct nfsd4_sessionid *)ses->se_sessionid.data; sid->clientid = clp->cl_clientid; sid->sequence = current_sessionid++; sid->reserved = 0; } /* * The protocol defines ca_maxresponssize_cached to include the size of * the rpc header, but all we need to cache is the data starting after * the end of the initial SEQUENCE operation--the rest we regenerate * each time. Therefore we can advertise a ca_maxresponssize_cached * value that is the number of bytes in our cache plus a few additional * bytes. In order to stay on the safe side, and not promise more than * we can cache, those additional bytes must be the minimum possible: 24 * bytes of rpc header (xid through accept state, with AUTH_NULL * verifier), 12 for the compound header (with zero-length tag), and 44 * for the SEQUENCE op response: */ #define NFSD_MIN_HDR_SEQ_SZ (24 + 12 + 44) /* * Give the client the number of ca_maxresponsesize_cached slots it * requests, of size bounded by NFSD_SLOT_CACHE_SIZE, * NFSD_MAX_MEM_PER_SESSION, and nfsd_drc_max_mem. Do not allow more * than NFSD_MAX_SLOTS_PER_SESSION. * * If we run out of reserved DRC memory we should (up to a point) * re-negotiate active sessions and reduce their slot usage to make * rooom for new connections. For now we just fail the create session. */ static int set_forechannel_drc_size(struct nfsd4_channel_attrs *fchan) { int mem, size = fchan->maxresp_cached; if (fchan->maxreqs < 1) return nfserr_inval; if (size < NFSD_MIN_HDR_SEQ_SZ) size = NFSD_MIN_HDR_SEQ_SZ; size -= NFSD_MIN_HDR_SEQ_SZ; if (size > NFSD_SLOT_CACHE_SIZE) size = NFSD_SLOT_CACHE_SIZE; /* bound the maxreqs by NFSD_MAX_MEM_PER_SESSION */ mem = fchan->maxreqs * size; if (mem > NFSD_MAX_MEM_PER_SESSION) { fchan->maxreqs = NFSD_MAX_MEM_PER_SESSION / size; if (fchan->maxreqs > NFSD_MAX_SLOTS_PER_SESSION) fchan->maxreqs = NFSD_MAX_SLOTS_PER_SESSION; mem = fchan->maxreqs * size; } spin_lock(&nfsd_drc_lock); /* bound the total session drc memory ussage */ if (mem + nfsd_drc_mem_used > nfsd_drc_max_mem) { fchan->maxreqs = (nfsd_drc_max_mem - nfsd_drc_mem_used) / size; mem = fchan->maxreqs * size; } nfsd_drc_mem_used += mem; spin_unlock(&nfsd_drc_lock); if (fchan->maxreqs == 0) return nfserr_serverfault; fchan->maxresp_cached = size + NFSD_MIN_HDR_SEQ_SZ; return 0; } /* * fchan holds the client values on input, and the server values on output * sv_max_mesg is the maximum payload plus one page for overhead. */ static int init_forechannel_attrs(struct svc_rqst *rqstp, struct nfsd4_channel_attrs *session_fchan, struct nfsd4_channel_attrs *fchan) { int status = 0; __u32 maxcount = nfsd_serv->sv_max_mesg; /* headerpadsz set to zero in encode routine */ /* Use the client's max request and max response size if possible */ if (fchan->maxreq_sz > maxcount) fchan->maxreq_sz = maxcount; session_fchan->maxreq_sz = fchan->maxreq_sz; if (fchan->maxresp_sz > maxcount) fchan->maxresp_sz = maxcount; session_fchan->maxresp_sz = fchan->maxresp_sz; /* Use the client's maxops if possible */ if (fchan->maxops > NFSD_MAX_OPS_PER_COMPOUND) fchan->maxops = NFSD_MAX_OPS_PER_COMPOUND; session_fchan->maxops = fchan->maxops; /* FIXME: Error means no more DRC pages so the server should * recover pages from existing sessions. For now fail session * creation. */ status = set_forechannel_drc_size(fchan); session_fchan->maxresp_cached = fchan->maxresp_cached; session_fchan->maxreqs = fchan->maxreqs; dprintk("%s status %d\n", __func__, status); return status; } static void free_session_slots(struct nfsd4_session *ses) { int i; for (i = 0; i < ses->se_fchannel.maxreqs; i++) kfree(ses->se_slots[i]); } /* * We don't actually need to cache the rpc and session headers, so we * can allocate a little less for each slot: */ static inline int slot_bytes(struct nfsd4_channel_attrs *ca) { return ca->maxresp_cached - NFSD_MIN_HDR_SEQ_SZ; } static int alloc_init_session(struct svc_rqst *rqstp, struct nfs4_client *clp, struct nfsd4_create_session *cses) { struct nfsd4_session *new, tmp; struct nfsd4_slot *sp; int idx, slotsize, cachesize, i; int status; memset(&tmp, 0, sizeof(tmp)); /* FIXME: For now, we just accept the client back channel attributes. */ tmp.se_bchannel = cses->back_channel; status = init_forechannel_attrs(rqstp, &tmp.se_fchannel, &cses->fore_channel); if (status) goto out; BUILD_BUG_ON(NFSD_MAX_SLOTS_PER_SESSION * sizeof(struct nfsd4_slot) + sizeof(struct nfsd4_session) > PAGE_SIZE); status = nfserr_serverfault; /* allocate struct nfsd4_session and slot table pointers in one piece */ slotsize = tmp.se_fchannel.maxreqs * sizeof(struct nfsd4_slot *); new = kzalloc(sizeof(*new) + slotsize, GFP_KERNEL); if (!new) goto out; memcpy(new, &tmp, sizeof(*new)); /* allocate each struct nfsd4_slot and data cache in one piece */ cachesize = slot_bytes(&new->se_fchannel); for (i = 0; i < new->se_fchannel.maxreqs; i++) { sp = kzalloc(sizeof(*sp) + cachesize, GFP_KERNEL); if (!sp) goto out_free; new->se_slots[i] = sp; } new->se_client = clp; gen_sessionid(new); idx = hash_sessionid(&new->se_sessionid); memcpy(clp->cl_sessionid.data, new->se_sessionid.data, NFS4_MAX_SESSIONID_LEN); new->se_flags = cses->flags; kref_init(&new->se_ref); spin_lock(&sessionid_lock); list_add(&new->se_hash, &sessionid_hashtbl[idx]); list_add(&new->se_perclnt, &clp->cl_sessions); spin_unlock(&sessionid_lock); status = nfs_ok; out: return status; out_free: free_session_slots(new); kfree(new); goto out; } /* caller must hold sessionid_lock */ static struct nfsd4_session * find_in_sessionid_hashtbl(struct nfs4_sessionid *sessionid) { struct nfsd4_session *elem; int idx; dump_sessionid(__func__, sessionid); idx = hash_sessionid(sessionid); dprintk("%s: idx is %d\n", __func__, idx); /* Search in the appropriate list */ list_for_each_entry(elem, &sessionid_hashtbl[idx], se_hash) { dump_sessionid("list traversal", &elem->se_sessionid); if (!memcmp(elem->se_sessionid.data, sessionid->data, NFS4_MAX_SESSIONID_LEN)) { return elem; } } dprintk("%s: session not found\n", __func__); return NULL; } /* caller must hold sessionid_lock */ static void unhash_session(struct nfsd4_session *ses) { list_del(&ses->se_hash); list_del(&ses->se_perclnt); } static void release_session(struct nfsd4_session *ses) { spin_lock(&sessionid_lock); unhash_session(ses); spin_unlock(&sessionid_lock); nfsd4_put_session(ses); } void free_session(struct kref *kref) { struct nfsd4_session *ses; int mem; ses = container_of(kref, struct nfsd4_session, se_ref); spin_lock(&nfsd_drc_lock); mem = ses->se_fchannel.maxreqs * slot_bytes(&ses->se_fchannel); nfsd_drc_mem_used -= mem; spin_unlock(&nfsd_drc_lock); free_session_slots(ses); kfree(ses); } static inline void renew_client(struct nfs4_client *clp) { /* * Move client to the end to the LRU list. */ dprintk("renewing client (clientid %08x/%08x)\n", clp->cl_clientid.cl_boot, clp->cl_clientid.cl_id); list_move_tail(&clp->cl_lru, &client_lru); clp->cl_time = get_seconds(); } /* SETCLIENTID and SETCLIENTID_CONFIRM Helper functions */ static int STALE_CLIENTID(clientid_t *clid) { if (clid->cl_boot == boot_time) return 0; dprintk("NFSD stale clientid (%08x/%08x) boot_time %08lx\n", clid->cl_boot, clid->cl_id, boot_time); return 1; } /* * XXX Should we use a slab cache ? * This type of memory management is somewhat inefficient, but we use it * anyway since SETCLIENTID is not a common operation. */ static struct nfs4_client *alloc_client(struct xdr_netobj name) { struct nfs4_client *clp; clp = kzalloc(sizeof(struct nfs4_client), GFP_KERNEL); if (clp == NULL) return NULL; clp->cl_name.data = kmalloc(name.len, GFP_KERNEL); if (clp->cl_name.data == NULL) { kfree(clp); return NULL; } memcpy(clp->cl_name.data, name.data, name.len); clp->cl_name.len = name.len; return clp; } static void shutdown_callback_client(struct nfs4_client *clp) { struct rpc_clnt *clnt = clp->cl_cb_conn.cb_client; if (clnt) { /* * Callback threads take a reference on the client, so there * should be no outstanding callbacks at this point. */ clp->cl_cb_conn.cb_client = NULL; rpc_shutdown_client(clnt); } } static inline void free_client(struct nfs4_client *clp) { shutdown_callback_client(clp); if (clp->cl_cb_xprt) svc_xprt_put(clp->cl_cb_xprt); if (clp->cl_cred.cr_group_info) put_group_info(clp->cl_cred.cr_group_info); kfree(clp->cl_principal); kfree(clp->cl_name.data); kfree(clp); } void put_nfs4_client(struct nfs4_client *clp) { if (atomic_dec_and_test(&clp->cl_count)) free_client(clp); } static void expire_client(struct nfs4_client *clp) { struct nfs4_stateowner *sop; struct nfs4_delegation *dp; struct list_head reaplist; dprintk("NFSD: expire_client cl_count %d\n", atomic_read(&clp->cl_count)); INIT_LIST_HEAD(&reaplist); spin_lock(&recall_lock); while (!list_empty(&clp->cl_delegations)) { dp = list_entry(clp->cl_delegations.next, struct nfs4_delegation, dl_perclnt); dprintk("NFSD: expire client. dp %p, fp %p\n", dp, dp->dl_flock); list_del_init(&dp->dl_perclnt); list_move(&dp->dl_recall_lru, &reaplist); } spin_unlock(&recall_lock); while (!list_empty(&reaplist)) { dp = list_entry(reaplist.next, struct nfs4_delegation, dl_recall_lru); list_del_init(&dp->dl_recall_lru); unhash_delegation(dp); } list_del(&clp->cl_idhash); list_del(&clp->cl_strhash); list_del(&clp->cl_lru); while (!list_empty(&clp->cl_openowners)) { sop = list_entry(clp->cl_openowners.next, struct nfs4_stateowner, so_perclient); release_openowner(sop); } while (!list_empty(&clp->cl_sessions)) { struct nfsd4_session *ses; ses = list_entry(clp->cl_sessions.next, struct nfsd4_session, se_perclnt); release_session(ses); } put_nfs4_client(clp); } static void copy_verf(struct nfs4_client *target, nfs4_verifier *source) { memcpy(target->cl_verifier.data, source->data, sizeof(target->cl_verifier.data)); } static void copy_clid(struct nfs4_client *target, struct nfs4_client *source) { target->cl_clientid.cl_boot = source->cl_clientid.cl_boot; target->cl_clientid.cl_id = source->cl_clientid.cl_id; } static void copy_cred(struct svc_cred *target, struct svc_cred *source) { target->cr_uid = source->cr_uid; target->cr_gid = source->cr_gid; target->cr_group_info = source->cr_group_info; get_group_info(target->cr_group_info); } static int same_name(const char *n1, const char *n2) { return 0 == memcmp(n1, n2, HEXDIR_LEN); } static int same_verf(nfs4_verifier *v1, nfs4_verifier *v2) { return 0 == memcmp(v1->data, v2->data, sizeof(v1->data)); } static int same_clid(clientid_t *cl1, clientid_t *cl2) { return (cl1->cl_boot == cl2->cl_boot) && (cl1->cl_id == cl2->cl_id); } /* XXX what about NGROUP */ static int same_creds(struct svc_cred *cr1, struct svc_cred *cr2) { return cr1->cr_uid == cr2->cr_uid; } static void gen_clid(struct nfs4_client *clp) { static u32 current_clientid = 1; clp->cl_clientid.cl_boot = boot_time; clp->cl_clientid.cl_id = current_clientid++; } static void gen_confirm(struct nfs4_client *clp) { static u32 i; u32 *p; p = (u32 *)clp->cl_confirm.data; *p++ = get_seconds(); *p++ = i++; } static struct nfs4_client *create_client(struct xdr_netobj name, char *recdir, struct svc_rqst *rqstp, nfs4_verifier *verf) { struct nfs4_client *clp; struct sockaddr *sa = svc_addr(rqstp); char *princ; clp = alloc_client(name); if (clp == NULL) return NULL; princ = svc_gss_principal(rqstp); if (princ) { clp->cl_principal = kstrdup(princ, GFP_KERNEL); if (clp->cl_principal == NULL) { free_client(clp); return NULL; } } memcpy(clp->cl_recdir, recdir, HEXDIR_LEN); atomic_set(&clp->cl_count, 1); atomic_set(&clp->cl_cb_conn.cb_set, 0); INIT_LIST_HEAD(&clp->cl_idhash); INIT_LIST_HEAD(&clp->cl_strhash); INIT_LIST_HEAD(&clp->cl_openowners); INIT_LIST_HEAD(&clp->cl_delegations); INIT_LIST_HEAD(&clp->cl_sessions); INIT_LIST_HEAD(&clp->cl_lru); clear_bit(0, &clp->cl_cb_slot_busy); rpc_init_wait_queue(&clp->cl_cb_waitq, "Backchannel slot table"); copy_verf(clp, verf); rpc_copy_addr((struct sockaddr *) &clp->cl_addr, sa); clp->cl_flavor = rqstp->rq_flavor; copy_cred(&clp->cl_cred, &rqstp->rq_cred); gen_confirm(clp); return clp; } static int check_name(struct xdr_netobj name) { if (name.len == 0) return 0; if (name.len > NFS4_OPAQUE_LIMIT) { dprintk("NFSD: check_name: name too long(%d)!\n", name.len); return 0; } return 1; } static void add_to_unconfirmed(struct nfs4_client *clp, unsigned int strhashval) { unsigned int idhashval; list_add(&clp->cl_strhash, &unconf_str_hashtbl[strhashval]); idhashval = clientid_hashval(clp->cl_clientid.cl_id); list_add(&clp->cl_idhash, &unconf_id_hashtbl[idhashval]); list_add_tail(&clp->cl_lru, &client_lru); clp->cl_time = get_seconds(); } static void move_to_confirmed(struct nfs4_client *clp) { unsigned int idhashval = clientid_hashval(clp->cl_clientid.cl_id); unsigned int strhashval; dprintk("NFSD: move_to_confirm nfs4_client %p\n", clp); list_del_init(&clp->cl_strhash); list_move(&clp->cl_idhash, &conf_id_hashtbl[idhashval]); strhashval = clientstr_hashval(clp->cl_recdir); list_add(&clp->cl_strhash, &conf_str_hashtbl[strhashval]); renew_client(clp); } static struct nfs4_client * find_confirmed_client(clientid_t *clid) { struct nfs4_client *clp; unsigned int idhashval = clientid_hashval(clid->cl_id); list_for_each_entry(clp, &conf_id_hashtbl[idhashval], cl_idhash) { if (same_clid(&clp->cl_clientid, clid)) return clp; } return NULL; } static struct nfs4_client * find_unconfirmed_client(clientid_t *clid) { struct nfs4_client *clp; unsigned int idhashval = clientid_hashval(clid->cl_id); list_for_each_entry(clp, &unconf_id_hashtbl[idhashval], cl_idhash) { if (same_clid(&clp->cl_clientid, clid)) return clp; } return NULL; } /* * Return 1 iff clp's clientid establishment method matches the use_exchange_id * parameter. Matching is based on the fact the at least one of the * EXCHGID4_FLAG_USE_{NON_PNFS,PNFS_MDS,PNFS_DS} flags must be set for v4.1 * * FIXME: we need to unify the clientid namespaces for nfsv4.x * and correctly deal with client upgrade/downgrade in EXCHANGE_ID * and SET_CLIENTID{,_CONFIRM} */ static inline int match_clientid_establishment(struct nfs4_client *clp, bool use_exchange_id) { bool has_exchange_flags = (clp->cl_exchange_flags != 0); return use_exchange_id == has_exchange_flags; } static struct nfs4_client * find_confirmed_client_by_str(const char *dname, unsigned int hashval, bool use_exchange_id) { struct nfs4_client *clp; list_for_each_entry(clp, &conf_str_hashtbl[hashval], cl_strhash) { if (same_name(clp->cl_recdir, dname) && match_clientid_establishment(clp, use_exchange_id)) return clp; } return NULL; } static struct nfs4_client * find_unconfirmed_client_by_str(const char *dname, unsigned int hashval, bool use_exchange_id) { struct nfs4_client *clp; list_for_each_entry(clp, &unconf_str_hashtbl[hashval], cl_strhash) { if (same_name(clp->cl_recdir, dname) && match_clientid_establishment(clp, use_exchange_id)) return clp; } return NULL; } static void gen_callback(struct nfs4_client *clp, struct nfsd4_setclientid *se, u32 scopeid) { struct nfs4_cb_conn *cb = &clp->cl_cb_conn; unsigned short expected_family; /* Currently, we only support tcp and tcp6 for the callback channel */ if (se->se_callback_netid_len == 3 && !memcmp(se->se_callback_netid_val, "tcp", 3)) expected_family = AF_INET; else if (se->se_callback_netid_len == 4 && !memcmp(se->se_callback_netid_val, "tcp6", 4)) expected_family = AF_INET6; else goto out_err; cb->cb_addrlen = rpc_uaddr2sockaddr(se->se_callback_addr_val, se->se_callback_addr_len, (struct sockaddr *) &cb->cb_addr, sizeof(cb->cb_addr)); if (!cb->cb_addrlen || cb->cb_addr.ss_family != expected_family) goto out_err; if (cb->cb_addr.ss_family == AF_INET6) ((struct sockaddr_in6 *) &cb->cb_addr)->sin6_scope_id = scopeid; cb->cb_minorversion = 0; cb->cb_prog = se->se_callback_prog; cb->cb_ident = se->se_callback_ident; return; out_err: cb->cb_addr.ss_family = AF_UNSPEC; cb->cb_addrlen = 0; dprintk(KERN_INFO "NFSD: this client (clientid %08x/%08x) " "will not receive delegations\n", clp->cl_clientid.cl_boot, clp->cl_clientid.cl_id); return; } /* * Cache a reply. nfsd4_check_drc_limit() has bounded the cache size. */ void nfsd4_store_cache_entry(struct nfsd4_compoundres *resp) { struct nfsd4_slot *slot = resp->cstate.slot; unsigned int base; dprintk("--> %s slot %p\n", __func__, slot); slot->sl_opcnt = resp->opcnt; slot->sl_status = resp->cstate.status; if (nfsd4_not_cached(resp)) { slot->sl_datalen = 0; return; } slot->sl_datalen = (char *)resp->p - (char *)resp->cstate.datap; base = (char *)resp->cstate.datap - (char *)resp->xbuf->head[0].iov_base; if (read_bytes_from_xdr_buf(resp->xbuf, base, slot->sl_data, slot->sl_datalen)) WARN("%s: sessions DRC could not cache compound\n", __func__); return; } /* * Encode the replay sequence operation from the slot values. * If cachethis is FALSE encode the uncached rep error on the next * operation which sets resp->p and increments resp->opcnt for * nfs4svc_encode_compoundres. * */ static __be32 nfsd4_enc_sequence_replay(struct nfsd4_compoundargs *args, struct nfsd4_compoundres *resp) { struct nfsd4_op *op; struct nfsd4_slot *slot = resp->cstate.slot; dprintk("--> %s resp->opcnt %d cachethis %u \n", __func__, resp->opcnt, resp->cstate.slot->sl_cachethis); /* Encode the replayed sequence operation */ op = &args->ops[resp->opcnt - 1]; nfsd4_encode_operation(resp, op); /* Return nfserr_retry_uncached_rep in next operation. */ if (args->opcnt > 1 && slot->sl_cachethis == 0) { op = &args->ops[resp->opcnt++]; op->status = nfserr_retry_uncached_rep; nfsd4_encode_operation(resp, op); } return op->status; } /* * The sequence operation is not cached because we can use the slot and * session values. */ __be32 nfsd4_replay_cache_entry(struct nfsd4_compoundres *resp, struct nfsd4_sequence *seq) { struct nfsd4_slot *slot = resp->cstate.slot; __be32 status; dprintk("--> %s slot %p\n", __func__, slot); /* Either returns 0 or nfserr_retry_uncached */ status = nfsd4_enc_sequence_replay(resp->rqstp->rq_argp, resp); if (status == nfserr_retry_uncached_rep) return status; /* The sequence operation has been encoded, cstate->datap set. */ memcpy(resp->cstate.datap, slot->sl_data, slot->sl_datalen); resp->opcnt = slot->sl_opcnt; resp->p = resp->cstate.datap + XDR_QUADLEN(slot->sl_datalen); status = slot->sl_status; return status; } /* * Set the exchange_id flags returned by the server. */ static void nfsd4_set_ex_flags(struct nfs4_client *new, struct nfsd4_exchange_id *clid) { /* pNFS is not supported */ new->cl_exchange_flags |= EXCHGID4_FLAG_USE_NON_PNFS; /* Referrals are supported, Migration is not. */ new->cl_exchange_flags |= EXCHGID4_FLAG_SUPP_MOVED_REFER; /* set the wire flags to return to client. */ clid->flags = new->cl_exchange_flags; } __be32 nfsd4_exchange_id(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_exchange_id *exid) { struct nfs4_client *unconf, *conf, *new; int status; unsigned int strhashval; char dname[HEXDIR_LEN]; char addr_str[INET6_ADDRSTRLEN]; nfs4_verifier verf = exid->verifier; struct sockaddr *sa = svc_addr(rqstp); rpc_ntop(sa, addr_str, sizeof(addr_str)); dprintk("%s rqstp=%p exid=%p clname.len=%u clname.data=%p " "ip_addr=%s flags %x, spa_how %d\n", __func__, rqstp, exid, exid->clname.len, exid->clname.data, addr_str, exid->flags, exid->spa_how); if (!check_name(exid->clname) || (exid->flags & ~EXCHGID4_FLAG_MASK_A)) return nfserr_inval; /* Currently only support SP4_NONE */ switch (exid->spa_how) { case SP4_NONE: break; case SP4_SSV: return nfserr_encr_alg_unsupp; default: BUG(); /* checked by xdr code */ case SP4_MACH_CRED: return nfserr_serverfault; /* no excuse :-/ */ } status = nfs4_make_rec_clidname(dname, &exid->clname); if (status) goto error; strhashval = clientstr_hashval(dname); nfs4_lock_state(); status = nfs_ok; conf = find_confirmed_client_by_str(dname, strhashval, true); if (conf) { if (!same_verf(&verf, &conf->cl_verifier)) { /* 18.35.4 case 8 */ if (exid->flags & EXCHGID4_FLAG_UPD_CONFIRMED_REC_A) { status = nfserr_not_same; goto out; } /* Client reboot: destroy old state */ expire_client(conf); goto out_new; } if (!same_creds(&conf->cl_cred, &rqstp->rq_cred)) { /* 18.35.4 case 9 */ if (exid->flags & EXCHGID4_FLAG_UPD_CONFIRMED_REC_A) { status = nfserr_perm; goto out; } expire_client(conf); goto out_new; } /* * Set bit when the owner id and verifier map to an already * confirmed client id (18.35.3). */ exid->flags |= EXCHGID4_FLAG_CONFIRMED_R; /* * Falling into 18.35.4 case 2, possible router replay. * Leave confirmed record intact and return same result. */ copy_verf(conf, &verf); new = conf; goto out_copy; } /* 18.35.4 case 7 */ if (exid->flags & EXCHGID4_FLAG_UPD_CONFIRMED_REC_A) { status = nfserr_noent; goto out; } unconf = find_unconfirmed_client_by_str(dname, strhashval, true); if (unconf) { /* * Possible retry or client restart. Per 18.35.4 case 4, * a new unconfirmed record should be generated regardless * of whether any properties have changed. */ expire_client(unconf); } out_new: /* Normal case */ new = create_client(exid->clname, dname, rqstp, &verf); if (new == NULL) { status = nfserr_serverfault; goto out; } gen_clid(new); add_to_unconfirmed(new, strhashval); out_copy: exid->clientid.cl_boot = new->cl_clientid.cl_boot; exid->clientid.cl_id = new->cl_clientid.cl_id; exid->seqid = 1; nfsd4_set_ex_flags(new, exid); dprintk("nfsd4_exchange_id seqid %d flags %x\n", new->cl_cs_slot.sl_seqid, new->cl_exchange_flags); status = nfs_ok; out: nfs4_unlock_state(); error: dprintk("nfsd4_exchange_id returns %d\n", ntohl(status)); return status; } static int check_slot_seqid(u32 seqid, u32 slot_seqid, int slot_inuse) { dprintk("%s enter. seqid %d slot_seqid %d\n", __func__, seqid, slot_seqid); /* The slot is in use, and no response has been sent. */ if (slot_inuse) { if (seqid == slot_seqid) return nfserr_jukebox; else return nfserr_seq_misordered; } /* Normal */ if (likely(seqid == slot_seqid + 1)) return nfs_ok; /* Replay */ if (seqid == slot_seqid) return nfserr_replay_cache; /* Wraparound */ if (seqid == 1 && (slot_seqid + 1) == 0) return nfs_ok; /* Misordered replay or misordered new request */ return nfserr_seq_misordered; } /* * Cache the create session result into the create session single DRC * slot cache by saving the xdr structure. sl_seqid has been set. * Do this for solo or embedded create session operations. */ static void nfsd4_cache_create_session(struct nfsd4_create_session *cr_ses, struct nfsd4_clid_slot *slot, int nfserr) { slot->sl_status = nfserr; memcpy(&slot->sl_cr_ses, cr_ses, sizeof(*cr_ses)); } static __be32 nfsd4_replay_create_session(struct nfsd4_create_session *cr_ses, struct nfsd4_clid_slot *slot) { memcpy(cr_ses, &slot->sl_cr_ses, sizeof(*cr_ses)); return slot->sl_status; } __be32 nfsd4_create_session(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_create_session *cr_ses) { struct sockaddr *sa = svc_addr(rqstp); struct nfs4_client *conf, *unconf; struct nfsd4_clid_slot *cs_slot = NULL; int status = 0; nfs4_lock_state(); unconf = find_unconfirmed_client(&cr_ses->clientid); conf = find_confirmed_client(&cr_ses->clientid); if (conf) { cs_slot = &conf->cl_cs_slot; status = check_slot_seqid(cr_ses->seqid, cs_slot->sl_seqid, 0); if (status == nfserr_replay_cache) { dprintk("Got a create_session replay! seqid= %d\n", cs_slot->sl_seqid); /* Return the cached reply status */ status = nfsd4_replay_create_session(cr_ses, cs_slot); goto out; } else if (cr_ses->seqid != cs_slot->sl_seqid + 1) { status = nfserr_seq_misordered; dprintk("Sequence misordered!\n"); dprintk("Expected seqid= %d but got seqid= %d\n", cs_slot->sl_seqid, cr_ses->seqid); goto out; } cs_slot->sl_seqid++; } else if (unconf) { if (!same_creds(&unconf->cl_cred, &rqstp->rq_cred) || !rpc_cmp_addr(sa, (struct sockaddr *) &unconf->cl_addr)) { status = nfserr_clid_inuse; goto out; } cs_slot = &unconf->cl_cs_slot; status = check_slot_seqid(cr_ses->seqid, cs_slot->sl_seqid, 0); if (status) { /* an unconfirmed replay returns misordered */ status = nfserr_seq_misordered; goto out_cache; } cs_slot->sl_seqid++; /* from 0 to 1 */ move_to_confirmed(unconf); /* * We do not support RDMA or persistent sessions */ cr_ses->flags &= ~SESSION4_PERSIST; cr_ses->flags &= ~SESSION4_RDMA; if (cr_ses->flags & SESSION4_BACK_CHAN) { unconf->cl_cb_xprt = rqstp->rq_xprt; svc_xprt_get(unconf->cl_cb_xprt); rpc_copy_addr( (struct sockaddr *)&unconf->cl_cb_conn.cb_addr, sa); unconf->cl_cb_conn.cb_addrlen = svc_addr_len(sa); unconf->cl_cb_conn.cb_minorversion = cstate->minorversion; unconf->cl_cb_conn.cb_prog = cr_ses->callback_prog; unconf->cl_cb_seq_nr = 1; nfsd4_probe_callback(unconf); } conf = unconf; } else { status = nfserr_stale_clientid; goto out; } status = alloc_init_session(rqstp, conf, cr_ses); if (status) goto out; memcpy(cr_ses->sessionid.data, conf->cl_sessionid.data, NFS4_MAX_SESSIONID_LEN); cr_ses->seqid = cs_slot->sl_seqid; out_cache: /* cache solo and embedded create sessions under the state lock */ nfsd4_cache_create_session(cr_ses, cs_slot, status); out: nfs4_unlock_state(); dprintk("%s returns %d\n", __func__, ntohl(status)); return status; } __be32 nfsd4_destroy_session(struct svc_rqst *r, struct nfsd4_compound_state *cstate, struct nfsd4_destroy_session *sessionid) { struct nfsd4_session *ses; u32 status = nfserr_badsession; /* Notes: * - The confirmed nfs4_client->cl_sessionid holds destroyed sessinid * - Should we return nfserr_back_chan_busy if waiting for * callbacks on to-be-destroyed session? * - Do we need to clear any callback info from previous session? */ dump_sessionid(__func__, &sessionid->sessionid); spin_lock(&sessionid_lock); ses = find_in_sessionid_hashtbl(&sessionid->sessionid); if (!ses) { spin_unlock(&sessionid_lock); goto out; } unhash_session(ses); spin_unlock(&sessionid_lock); /* wait for callbacks */ shutdown_callback_client(ses->se_client); nfsd4_put_session(ses); status = nfs_ok; out: dprintk("%s returns %d\n", __func__, ntohl(status)); return status; } __be32 nfsd4_sequence(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_sequence *seq) { struct nfsd4_compoundres *resp = rqstp->rq_resp; struct nfsd4_session *session; struct nfsd4_slot *slot; int status; if (resp->opcnt != 1) return nfserr_sequence_pos; spin_lock(&sessionid_lock); status = nfserr_badsession; session = find_in_sessionid_hashtbl(&seq->sessionid); if (!session) goto out; status = nfserr_badslot; if (seq->slotid >= session->se_fchannel.maxreqs) goto out; slot = session->se_slots[seq->slotid]; dprintk("%s: slotid %d\n", __func__, seq->slotid); /* We do not negotiate the number of slots yet, so set the * maxslots to the session maxreqs which is used to encode * sr_highest_slotid and the sr_target_slot id to maxslots */ seq->maxslots = session->se_fchannel.maxreqs; status = check_slot_seqid(seq->seqid, slot->sl_seqid, slot->sl_inuse); if (status == nfserr_replay_cache) { cstate->slot = slot; cstate->session = session; /* Return the cached reply status and set cstate->status * for nfsd4_proc_compound processing */ status = nfsd4_replay_cache_entry(resp, seq); cstate->status = nfserr_replay_cache; goto out; } if (status) goto out; /* Success! bump slot seqid */ slot->sl_inuse = true; slot->sl_seqid = seq->seqid; slot->sl_cachethis = seq->cachethis; cstate->slot = slot; cstate->session = session; /* Hold a session reference until done processing the compound: * nfsd4_put_session called only if the cstate slot is set. */ nfsd4_get_session(session); out: spin_unlock(&sessionid_lock); /* Renew the clientid on success and on replay */ if (cstate->session) { nfs4_lock_state(); renew_client(session->se_client); nfs4_unlock_state(); } dprintk("%s: return %d\n", __func__, ntohl(status)); return status; } __be32 nfsd4_setclientid(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_setclientid *setclid) { struct sockaddr *sa = svc_addr(rqstp); struct xdr_netobj clname = { .len = setclid->se_namelen, .data = setclid->se_name, }; nfs4_verifier clverifier = setclid->se_verf; unsigned int strhashval; struct nfs4_client *conf, *unconf, *new; __be32 status; char dname[HEXDIR_LEN]; if (!check_name(clname)) return nfserr_inval; status = nfs4_make_rec_clidname(dname, &clname); if (status) return status; /* * XXX The Duplicate Request Cache (DRC) has been checked (??) * We get here on a DRC miss. */ strhashval = clientstr_hashval(dname); nfs4_lock_state(); conf = find_confirmed_client_by_str(dname, strhashval, false); if (conf) { /* RFC 3530 14.2.33 CASE 0: */ status = nfserr_clid_inuse; if (!same_creds(&conf->cl_cred, &rqstp->rq_cred)) { char addr_str[INET6_ADDRSTRLEN]; rpc_ntop((struct sockaddr *) &conf->cl_addr, addr_str, sizeof(addr_str)); dprintk("NFSD: setclientid: string in use by client " "at %s\n", addr_str); goto out; } } /* * section 14.2.33 of RFC 3530 (under the heading "IMPLEMENTATION") * has a description of SETCLIENTID request processing consisting * of 5 bullet points, labeled as CASE0 - CASE4 below. */ unconf = find_unconfirmed_client_by_str(dname, strhashval, false); status = nfserr_resource; if (!conf) { /* * RFC 3530 14.2.33 CASE 4: * placed first, because it is the normal case */ if (unconf) expire_client(unconf); new = create_client(clname, dname, rqstp, &clverifier); if (new == NULL) goto out; gen_clid(new); } else if (same_verf(&conf->cl_verifier, &clverifier)) { /* * RFC 3530 14.2.33 CASE 1: * probable callback update */ if (unconf) { /* Note this is removing unconfirmed {*x***}, * which is stronger than RFC recommended {vxc**}. * This has the advantage that there is at most * one {*x***} in either list at any time. */ expire_client(unconf); } new = create_client(clname, dname, rqstp, &clverifier); if (new == NULL) goto out; copy_clid(new, conf); } else if (!unconf) { /* * RFC 3530 14.2.33 CASE 2: * probable client reboot; state will be removed if * confirmed. */ new = create_client(clname, dname, rqstp, &clverifier); if (new == NULL) goto out; gen_clid(new); } else { /* * RFC 3530 14.2.33 CASE 3: * probable client reboot; state will be removed if * confirmed. */ expire_client(unconf); new = create_client(clname, dname, rqstp, &clverifier); if (new == NULL) goto out; gen_clid(new); } gen_callback(new, setclid, rpc_get_scope_id(sa)); add_to_unconfirmed(new, strhashval); setclid->se_clientid.cl_boot = new->cl_clientid.cl_boot; setclid->se_clientid.cl_id = new->cl_clientid.cl_id; memcpy(setclid->se_confirm.data, new->cl_confirm.data, sizeof(setclid->se_confirm.data)); status = nfs_ok; out: nfs4_unlock_state(); return status; } /* * Section 14.2.34 of RFC 3530 (under the heading "IMPLEMENTATION") has * a description of SETCLIENTID_CONFIRM request processing consisting of 4 * bullets, labeled as CASE1 - CASE4 below. */ __be32 nfsd4_setclientid_confirm(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_setclientid_confirm *setclientid_confirm) { struct sockaddr *sa = svc_addr(rqstp); struct nfs4_client *conf, *unconf; nfs4_verifier confirm = setclientid_confirm->sc_confirm; clientid_t * clid = &setclientid_confirm->sc_clientid; __be32 status; if (STALE_CLIENTID(clid)) return nfserr_stale_clientid; /* * XXX The Duplicate Request Cache (DRC) has been checked (??) * We get here on a DRC miss. */ nfs4_lock_state(); conf = find_confirmed_client(clid); unconf = find_unconfirmed_client(clid); status = nfserr_clid_inuse; if (conf && !rpc_cmp_addr((struct sockaddr *) &conf->cl_addr, sa)) goto out; if (unconf && !rpc_cmp_addr((struct sockaddr *) &unconf->cl_addr, sa)) goto out; /* * section 14.2.34 of RFC 3530 has a description of * SETCLIENTID_CONFIRM request processing consisting * of 4 bullet points, labeled as CASE1 - CASE4 below. */ if (conf && unconf && same_verf(&confirm, &unconf->cl_confirm)) { /* * RFC 3530 14.2.34 CASE 1: * callback update */ if (!same_creds(&conf->cl_cred, &unconf->cl_cred)) status = nfserr_clid_inuse; else { /* XXX: We just turn off callbacks until we can handle * change request correctly. */ atomic_set(&conf->cl_cb_conn.cb_set, 0); expire_client(unconf); status = nfs_ok; } } else if (conf && !unconf) { /* * RFC 3530 14.2.34 CASE 2: * probable retransmitted request; play it safe and * do nothing. */ if (!same_creds(&conf->cl_cred, &rqstp->rq_cred)) status = nfserr_clid_inuse; else status = nfs_ok; } else if (!conf && unconf && same_verf(&unconf->cl_confirm, &confirm)) { /* * RFC 3530 14.2.34 CASE 3: * Normal case; new or rebooted client: */ if (!same_creds(&unconf->cl_cred, &rqstp->rq_cred)) { status = nfserr_clid_inuse; } else { unsigned int hash = clientstr_hashval(unconf->cl_recdir); conf = find_confirmed_client_by_str(unconf->cl_recdir, hash, false); if (conf) { nfsd4_remove_clid_dir(conf); expire_client(conf); } move_to_confirmed(unconf); conf = unconf; nfsd4_probe_callback(conf); status = nfs_ok; } } else if ((!conf || (conf && !same_verf(&conf->cl_confirm, &confirm))) && (!unconf || (unconf && !same_verf(&unconf->cl_confirm, &confirm)))) { /* * RFC 3530 14.2.34 CASE 4: * Client probably hasn't noticed that we rebooted yet. */ status = nfserr_stale_clientid; } else { /* check that we have hit one of the cases...*/ status = nfserr_clid_inuse; } out: nfs4_unlock_state(); return status; } /* OPEN Share state helper functions */ static inline struct nfs4_file * alloc_init_file(struct inode *ino) { struct nfs4_file *fp; unsigned int hashval = file_hashval(ino); fp = kmem_cache_alloc(file_slab, GFP_KERNEL); if (fp) { atomic_set(&fp->fi_ref, 1); INIT_LIST_HEAD(&fp->fi_hash); INIT_LIST_HEAD(&fp->fi_stateids); INIT_LIST_HEAD(&fp->fi_delegations); spin_lock(&recall_lock); list_add(&fp->fi_hash, &file_hashtbl[hashval]); spin_unlock(&recall_lock); fp->fi_inode = igrab(ino); fp->fi_id = current_fileid++; fp->fi_had_conflict = false; return fp; } return NULL; } static void nfsd4_free_slab(struct kmem_cache **slab) { if (*slab == NULL) return; kmem_cache_destroy(*slab); *slab = NULL; } void nfsd4_free_slabs(void) { nfsd4_free_slab(&stateowner_slab); nfsd4_free_slab(&file_slab); nfsd4_free_slab(&stateid_slab); nfsd4_free_slab(&deleg_slab); } static int nfsd4_init_slabs(void) { stateowner_slab = kmem_cache_create("nfsd4_stateowners", sizeof(struct nfs4_stateowner), 0, 0, NULL); if (stateowner_slab == NULL) goto out_nomem; file_slab = kmem_cache_create("nfsd4_files", sizeof(struct nfs4_file), 0, 0, NULL); if (file_slab == NULL) goto out_nomem; stateid_slab = kmem_cache_create("nfsd4_stateids", sizeof(struct nfs4_stateid), 0, 0, NULL); if (stateid_slab == NULL) goto out_nomem; deleg_slab = kmem_cache_create("nfsd4_delegations", sizeof(struct nfs4_delegation), 0, 0, NULL); if (deleg_slab == NULL) goto out_nomem; return 0; out_nomem: nfsd4_free_slabs(); dprintk("nfsd4: out of memory while initializing nfsv4\n"); return -ENOMEM; } void nfs4_free_stateowner(struct kref *kref) { struct nfs4_stateowner *sop = container_of(kref, struct nfs4_stateowner, so_ref); kfree(sop->so_owner.data); kmem_cache_free(stateowner_slab, sop); } static inline struct nfs4_stateowner * alloc_stateowner(struct xdr_netobj *owner) { struct nfs4_stateowner *sop; if ((sop = kmem_cache_alloc(stateowner_slab, GFP_KERNEL))) { if ((sop->so_owner.data = kmalloc(owner->len, GFP_KERNEL))) { memcpy(sop->so_owner.data, owner->data, owner->len); sop->so_owner.len = owner->len; kref_init(&sop->so_ref); return sop; } kmem_cache_free(stateowner_slab, sop); } return NULL; } static struct nfs4_stateowner * alloc_init_open_stateowner(unsigned int strhashval, struct nfs4_client *clp, struct nfsd4_open *open) { struct nfs4_stateowner *sop; struct nfs4_replay *rp; unsigned int idhashval; if (!(sop = alloc_stateowner(&open->op_owner))) return NULL; idhashval = ownerid_hashval(current_ownerid); INIT_LIST_HEAD(&sop->so_idhash); INIT_LIST_HEAD(&sop->so_strhash); INIT_LIST_HEAD(&sop->so_perclient); INIT_LIST_HEAD(&sop->so_stateids); INIT_LIST_HEAD(&sop->so_perstateid); /* not used */ INIT_LIST_HEAD(&sop->so_close_lru); sop->so_time = 0; list_add(&sop->so_idhash, &ownerid_hashtbl[idhashval]); list_add(&sop->so_strhash, &ownerstr_hashtbl[strhashval]); list_add(&sop->so_perclient, &clp->cl_openowners); sop->so_is_open_owner = 1; sop->so_id = current_ownerid++; sop->so_client = clp; sop->so_seqid = open->op_seqid; sop->so_confirmed = 0; rp = &sop->so_replay; rp->rp_status = nfserr_serverfault; rp->rp_buflen = 0; rp->rp_buf = rp->rp_ibuf; return sop; } static inline void init_stateid(struct nfs4_stateid *stp, struct nfs4_file *fp, struct nfsd4_open *open) { struct nfs4_stateowner *sop = open->op_stateowner; unsigned int hashval = stateid_hashval(sop->so_id, fp->fi_id); INIT_LIST_HEAD(&stp->st_hash); INIT_LIST_HEAD(&stp->st_perstateowner); INIT_LIST_HEAD(&stp->st_lockowners); INIT_LIST_HEAD(&stp->st_perfile); list_add(&stp->st_hash, &stateid_hashtbl[hashval]); list_add(&stp->st_perstateowner, &sop->so_stateids); list_add(&stp->st_perfile, &fp->fi_stateids); stp->st_stateowner = sop; get_nfs4_file(fp); stp->st_file = fp; stp->st_stateid.si_boot = get_seconds(); stp->st_stateid.si_stateownerid = sop->so_id; stp->st_stateid.si_fileid = fp->fi_id; stp->st_stateid.si_generation = 0; stp->st_access_bmap = 0; stp->st_deny_bmap = 0; __set_bit(open->op_share_access & ~NFS4_SHARE_WANT_MASK, &stp->st_access_bmap); __set_bit(open->op_share_deny, &stp->st_deny_bmap); stp->st_openstp = NULL; } static void move_to_close_lru(struct nfs4_stateowner *sop) { dprintk("NFSD: move_to_close_lru nfs4_stateowner %p\n", sop); list_move_tail(&sop->so_close_lru, &close_lru); sop->so_time = get_seconds(); } static int same_owner_str(struct nfs4_stateowner *sop, struct xdr_netobj *owner, clientid_t *clid) { return (sop->so_owner.len == owner->len) && 0 == memcmp(sop->so_owner.data, owner->data, owner->len) && (sop->so_client->cl_clientid.cl_id == clid->cl_id); } static struct nfs4_stateowner * find_openstateowner_str(unsigned int hashval, struct nfsd4_open *open) { struct nfs4_stateowner *so = NULL; list_for_each_entry(so, &ownerstr_hashtbl[hashval], so_strhash) { if (same_owner_str(so, &open->op_owner, &open->op_clientid)) return so; } return NULL; } /* search file_hashtbl[] for file */ static struct nfs4_file * find_file(struct inode *ino) { unsigned int hashval = file_hashval(ino); struct nfs4_file *fp; spin_lock(&recall_lock); list_for_each_entry(fp, &file_hashtbl[hashval], fi_hash) { if (fp->fi_inode == ino) { get_nfs4_file(fp); spin_unlock(&recall_lock); return fp; } } spin_unlock(&recall_lock); return NULL; } static inline int access_valid(u32 x, u32 minorversion) { if ((x & NFS4_SHARE_ACCESS_MASK) < NFS4_SHARE_ACCESS_READ) return 0; if ((x & NFS4_SHARE_ACCESS_MASK) > NFS4_SHARE_ACCESS_BOTH) return 0; x &= ~NFS4_SHARE_ACCESS_MASK; if (minorversion && x) { if ((x & NFS4_SHARE_WANT_MASK) > NFS4_SHARE_WANT_CANCEL) return 0; if ((x & NFS4_SHARE_WHEN_MASK) > NFS4_SHARE_PUSH_DELEG_WHEN_UNCONTENDED) return 0; x &= ~(NFS4_SHARE_WANT_MASK | NFS4_SHARE_WHEN_MASK); } if (x) return 0; return 1; } static inline int deny_valid(u32 x) { /* Note: unlike access bits, deny bits may be zero. */ return x <= NFS4_SHARE_DENY_BOTH; } /* * We store the NONE, READ, WRITE, and BOTH bits separately in the * st_{access,deny}_bmap field of the stateid, in order to track not * only what share bits are currently in force, but also what * combinations of share bits previous opens have used. This allows us * to enforce the recommendation of rfc 3530 14.2.19 that the server * return an error if the client attempt to downgrade to a combination * of share bits not explicable by closing some of its previous opens. * * XXX: This enforcement is actually incomplete, since we don't keep * track of access/deny bit combinations; so, e.g., we allow: * * OPEN allow read, deny write * OPEN allow both, deny none * DOWNGRADE allow read, deny none * * which we should reject. */ static void set_access(unsigned int *access, unsigned long bmap) { int i; *access = 0; for (i = 1; i < 4; i++) { if (test_bit(i, &bmap)) *access |= i; } } static void set_deny(unsigned int *deny, unsigned long bmap) { int i; *deny = 0; for (i = 0; i < 4; i++) { if (test_bit(i, &bmap)) *deny |= i ; } } static int test_share(struct nfs4_stateid *stp, struct nfsd4_open *open) { unsigned int access, deny; set_access(&access, stp->st_access_bmap); set_deny(&deny, stp->st_deny_bmap); if ((access & open->op_share_deny) || (deny & open->op_share_access)) return 0; return 1; } /* * Called to check deny when READ with all zero stateid or * WRITE with all zero or all one stateid */ static __be32 nfs4_share_conflict(struct svc_fh *current_fh, unsigned int deny_type) { struct inode *ino = current_fh->fh_dentry->d_inode; struct nfs4_file *fp; struct nfs4_stateid *stp; __be32 ret; dprintk("NFSD: nfs4_share_conflict\n"); fp = find_file(ino); if (!fp) return nfs_ok; ret = nfserr_locked; /* Search for conflicting share reservations */ list_for_each_entry(stp, &fp->fi_stateids, st_perfile) { if (test_bit(deny_type, &stp->st_deny_bmap) || test_bit(NFS4_SHARE_DENY_BOTH, &stp->st_deny_bmap)) goto out; } ret = nfs_ok; out: put_nfs4_file(fp); return ret; } static inline void nfs4_file_downgrade(struct file *filp, unsigned int share_access) { if (share_access & NFS4_SHARE_ACCESS_WRITE) { drop_file_write_access(filp); spin_lock(&filp->f_lock); filp->f_mode = (filp->f_mode | FMODE_READ) & ~FMODE_WRITE; spin_unlock(&filp->f_lock); } } /* * Spawn a thread to perform a recall on the delegation represented * by the lease (file_lock) * * Called from break_lease() with lock_kernel() held. * Note: we assume break_lease will only call this *once* for any given * lease. */ static void nfsd_break_deleg_cb(struct file_lock *fl) { struct nfs4_delegation *dp = (struct nfs4_delegation *)fl->fl_owner; dprintk("NFSD nfsd_break_deleg_cb: dp %p fl %p\n",dp,fl); if (!dp) return; /* We're assuming the state code never drops its reference * without first removing the lease. Since we're in this lease * callback (and since the lease code is serialized by the kernel * lock) we know the server hasn't removed the lease yet, we know * it's safe to take a reference: */ atomic_inc(&dp->dl_count); atomic_inc(&dp->dl_client->cl_count); spin_lock(&recall_lock); list_add_tail(&dp->dl_recall_lru, &del_recall_lru); spin_unlock(&recall_lock); /* only place dl_time is set. protected by lock_kernel*/ dp->dl_time = get_seconds(); /* * We don't want the locks code to timeout the lease for us; * we'll remove it ourself if the delegation isn't returned * in time. */ fl->fl_break_time = 0; dp->dl_file->fi_had_conflict = true; nfsd4_cb_recall(dp); } /* * The file_lock is being reapd. * * Called by locks_free_lock() with lock_kernel() held. */ static void nfsd_release_deleg_cb(struct file_lock *fl) { struct nfs4_delegation *dp = (struct nfs4_delegation *)fl->fl_owner; dprintk("NFSD nfsd_release_deleg_cb: fl %p dp %p dl_count %d\n", fl,dp, atomic_read(&dp->dl_count)); if (!(fl->fl_flags & FL_LEASE) || !dp) return; dp->dl_flock = NULL; } /* * Set the delegation file_lock back pointer. * * Called from setlease() with lock_kernel() held. */ static void nfsd_copy_lock_deleg_cb(struct file_lock *new, struct file_lock *fl) { struct nfs4_delegation *dp = (struct nfs4_delegation *)new->fl_owner; dprintk("NFSD: nfsd_copy_lock_deleg_cb: new fl %p dp %p\n", new, dp); if (!dp) return; dp->dl_flock = new; } /* * Called from setlease() with lock_kernel() held */ static int nfsd_same_client_deleg_cb(struct file_lock *onlist, struct file_lock *try) { struct nfs4_delegation *onlistd = (struct nfs4_delegation *)onlist->fl_owner; struct nfs4_delegation *tryd = (struct nfs4_delegation *)try->fl_owner; if (onlist->fl_lmops != try->fl_lmops) return 0; return onlistd->dl_client == tryd->dl_client; } static int nfsd_change_deleg_cb(struct file_lock **onlist, int arg) { if (arg & F_UNLCK) return lease_modify(onlist, arg); else return -EAGAIN; } static const struct lock_manager_operations nfsd_lease_mng_ops = { .fl_break = nfsd_break_deleg_cb, .fl_release_private = nfsd_release_deleg_cb, .fl_copy_lock = nfsd_copy_lock_deleg_cb, .fl_mylease = nfsd_same_client_deleg_cb, .fl_change = nfsd_change_deleg_cb, }; __be32 nfsd4_process_open1(struct nfsd4_compound_state *cstate, struct nfsd4_open *open) { clientid_t *clientid = &open->op_clientid; struct nfs4_client *clp = NULL; unsigned int strhashval; struct nfs4_stateowner *sop = NULL; if (!check_name(open->op_owner)) return nfserr_inval; if (STALE_CLIENTID(&open->op_clientid)) return nfserr_stale_clientid; strhashval = ownerstr_hashval(clientid->cl_id, open->op_owner); sop = find_openstateowner_str(strhashval, open); open->op_stateowner = sop; if (!sop) { /* Make sure the client's lease hasn't expired. */ clp = find_confirmed_client(clientid); if (clp == NULL) return nfserr_expired; goto renew; } /* When sessions are used, skip open sequenceid processing */ if (nfsd4_has_session(cstate)) goto renew; if (!sop->so_confirmed) { /* Replace unconfirmed owners without checking for replay. */ clp = sop->so_client; release_openowner(sop); open->op_stateowner = NULL; goto renew; } if (open->op_seqid == sop->so_seqid - 1) { if (sop->so_replay.rp_buflen) return nfserr_replay_me; /* The original OPEN failed so spectacularly * that we don't even have replay data saved! * Therefore, we have no choice but to continue * processing this OPEN; presumably, we'll * fail again for the same reason. */ dprintk("nfsd4_process_open1: replay with no replay cache\n"); goto renew; } if (open->op_seqid != sop->so_seqid) return nfserr_bad_seqid; renew: if (open->op_stateowner == NULL) { sop = alloc_init_open_stateowner(strhashval, clp, open); if (sop == NULL) return nfserr_resource; open->op_stateowner = sop; } list_del_init(&sop->so_close_lru); renew_client(sop->so_client); return nfs_ok; } static inline __be32 nfs4_check_delegmode(struct nfs4_delegation *dp, int flags) { if ((flags & WR_STATE) && (dp->dl_type == NFS4_OPEN_DELEGATE_READ)) return nfserr_openmode; else return nfs_ok; } static struct nfs4_delegation * find_delegation_file(struct nfs4_file *fp, stateid_t *stid) { struct nfs4_delegation *dp; list_for_each_entry(dp, &fp->fi_delegations, dl_perfile) { if (dp->dl_stateid.si_stateownerid == stid->si_stateownerid) return dp; } return NULL; } static __be32 nfs4_check_deleg(struct nfs4_file *fp, struct nfsd4_open *open, struct nfs4_delegation **dp) { int flags; __be32 status = nfserr_bad_stateid; *dp = find_delegation_file(fp, &open->op_delegate_stateid); if (*dp == NULL) goto out; flags = open->op_share_access == NFS4_SHARE_ACCESS_READ ? RD_STATE : WR_STATE; status = nfs4_check_delegmode(*dp, flags); if (status) *dp = NULL; out: if (open->op_claim_type != NFS4_OPEN_CLAIM_DELEGATE_CUR) return nfs_ok; if (status) return status; open->op_stateowner->so_confirmed = 1; return nfs_ok; } static __be32 nfs4_check_open(struct nfs4_file *fp, struct nfsd4_open *open, struct nfs4_stateid **stpp) { struct nfs4_stateid *local; __be32 status = nfserr_share_denied; struct nfs4_stateowner *sop = open->op_stateowner; list_for_each_entry(local, &fp->fi_stateids, st_perfile) { /* ignore lock owners */ if (local->st_stateowner->so_is_open_owner == 0) continue; /* remember if we have seen this open owner */ if (local->st_stateowner == sop) *stpp = local; /* check for conflicting share reservations */ if (!test_share(local, open)) goto out; } status = 0; out: return status; } static inline struct nfs4_stateid * nfs4_alloc_stateid(void) { return kmem_cache_alloc(stateid_slab, GFP_KERNEL); } static __be32 nfs4_new_open(struct svc_rqst *rqstp, struct nfs4_stateid **stpp, struct nfs4_delegation *dp, struct svc_fh *cur_fh, int flags) { struct nfs4_stateid *stp; stp = nfs4_alloc_stateid(); if (stp == NULL) return nfserr_resource; if (dp) { get_file(dp->dl_vfs_file); stp->st_vfs_file = dp->dl_vfs_file; } else { __be32 status; status = nfsd_open(rqstp, cur_fh, S_IFREG, flags, &stp->st_vfs_file); if (status) { if (status == nfserr_dropit) status = nfserr_jukebox; kmem_cache_free(stateid_slab, stp); return status; } } *stpp = stp; return 0; } static inline __be32 nfsd4_truncate(struct svc_rqst *rqstp, struct svc_fh *fh, struct nfsd4_open *open) { struct iattr iattr = { .ia_valid = ATTR_SIZE, .ia_size = 0, }; if (!open->op_truncate) return 0; if (!(open->op_share_access & NFS4_SHARE_ACCESS_WRITE)) return nfserr_inval; return nfsd_setattr(rqstp, fh, &iattr, 0, (time_t)0); } static __be32 nfs4_upgrade_open(struct svc_rqst *rqstp, struct svc_fh *cur_fh, struct nfs4_stateid *stp, struct nfsd4_open *open) { struct file *filp = stp->st_vfs_file; struct inode *inode = filp->f_path.dentry->d_inode; unsigned int share_access, new_writer; __be32 status; set_access(&share_access, stp->st_access_bmap); new_writer = (~share_access) & open->op_share_access & NFS4_SHARE_ACCESS_WRITE; if (new_writer) { int err = get_write_access(inode); if (err) return nfserrno(err); err = mnt_want_write(cur_fh->fh_export->ex_path.mnt); if (err) return nfserrno(err); file_take_write(filp); } status = nfsd4_truncate(rqstp, cur_fh, open); if (status) { if (new_writer) put_write_access(inode); return status; } /* remember the open */ filp->f_mode |= open->op_share_access; __set_bit(open->op_share_access, &stp->st_access_bmap); __set_bit(open->op_share_deny, &stp->st_deny_bmap); return nfs_ok; } static void nfs4_set_claim_prev(struct nfsd4_open *open) { open->op_stateowner->so_confirmed = 1; open->op_stateowner->so_client->cl_firststate = 1; } /* * Attempt to hand out a delegation. */ static void nfs4_open_delegation(struct svc_fh *fh, struct nfsd4_open *open, struct nfs4_stateid *stp) { struct nfs4_delegation *dp; struct nfs4_stateowner *sop = stp->st_stateowner; struct nfs4_cb_conn *cb = &sop->so_client->cl_cb_conn; struct file_lock fl, *flp = &fl; int status, flag = 0; flag = NFS4_OPEN_DELEGATE_NONE; open->op_recall = 0; switch (open->op_claim_type) { case NFS4_OPEN_CLAIM_PREVIOUS: if (!atomic_read(&cb->cb_set)) open->op_recall = 1; flag = open->op_delegate_type; if (flag == NFS4_OPEN_DELEGATE_NONE) goto out; break; case NFS4_OPEN_CLAIM_NULL: /* Let's not give out any delegations till everyone's * had the chance to reclaim theirs.... */ if (locks_in_grace()) goto out; if (!atomic_read(&cb->cb_set) || !sop->so_confirmed) goto out; if (open->op_share_access & NFS4_SHARE_ACCESS_WRITE) flag = NFS4_OPEN_DELEGATE_WRITE; else flag = NFS4_OPEN_DELEGATE_READ; break; default: goto out; } dp = alloc_init_deleg(sop->so_client, stp, fh, flag); if (dp == NULL) { flag = NFS4_OPEN_DELEGATE_NONE; goto out; } locks_init_lock(&fl); fl.fl_lmops = &nfsd_lease_mng_ops; fl.fl_flags = FL_LEASE; fl.fl_type = flag == NFS4_OPEN_DELEGATE_READ? F_RDLCK: F_WRLCK; fl.fl_end = OFFSET_MAX; fl.fl_owner = (fl_owner_t)dp; fl.fl_file = stp->st_vfs_file; fl.fl_pid = current->tgid; /* vfs_setlease checks to see if delegation should be handed out. * the lock_manager callbacks fl_mylease and fl_change are used */ if ((status = vfs_setlease(stp->st_vfs_file, fl.fl_type, &flp))) { dprintk("NFSD: setlease failed [%d], no delegation\n", status); unhash_delegation(dp); flag = NFS4_OPEN_DELEGATE_NONE; goto out; } memcpy(&open->op_delegate_stateid, &dp->dl_stateid, sizeof(dp->dl_stateid)); dprintk("NFSD: delegation stateid=" STATEID_FMT "\n", STATEID_VAL(&dp->dl_stateid)); out: if (open->op_claim_type == NFS4_OPEN_CLAIM_PREVIOUS && flag == NFS4_OPEN_DELEGATE_NONE && open->op_delegate_type != NFS4_OPEN_DELEGATE_NONE) dprintk("NFSD: WARNING: refusing delegation reclaim\n"); open->op_delegate_type = flag; } /* * called with nfs4_lock_state() held. */ __be32 nfsd4_process_open2(struct svc_rqst *rqstp, struct svc_fh *current_fh, struct nfsd4_open *open) { struct nfsd4_compoundres *resp = rqstp->rq_resp; struct nfs4_file *fp = NULL; struct inode *ino = current_fh->fh_dentry->d_inode; struct nfs4_stateid *stp = NULL; struct nfs4_delegation *dp = NULL; __be32 status; status = nfserr_inval; if (!access_valid(open->op_share_access, resp->cstate.minorversion) || !deny_valid(open->op_share_deny)) goto out; /* * Lookup file; if found, lookup stateid and check open request, * and check for delegations in the process of being recalled. * If not found, create the nfs4_file struct */ fp = find_file(ino); if (fp) { if ((status = nfs4_check_open(fp, open, &stp))) goto out; status = nfs4_check_deleg(fp, open, &dp); if (status) goto out; } else { status = nfserr_bad_stateid; if (open->op_claim_type == NFS4_OPEN_CLAIM_DELEGATE_CUR) goto out; status = nfserr_resource; fp = alloc_init_file(ino); if (fp == NULL) goto out; } /* * OPEN the file, or upgrade an existing OPEN. * If truncate fails, the OPEN fails. */ if (stp) { /* Stateid was found, this is an OPEN upgrade */ status = nfs4_upgrade_open(rqstp, current_fh, stp, open); if (status) goto out; update_stateid(&stp->st_stateid); } else { /* Stateid was not found, this is a new OPEN */ int flags = 0; if (open->op_share_access & NFS4_SHARE_ACCESS_READ) flags |= NFSD_MAY_READ; if (open->op_share_access & NFS4_SHARE_ACCESS_WRITE) flags |= NFSD_MAY_WRITE; status = nfs4_new_open(rqstp, &stp, dp, current_fh, flags); if (status) goto out; init_stateid(stp, fp, open); status = nfsd4_truncate(rqstp, current_fh, open); if (status) { release_open_stateid(stp); goto out; } if (nfsd4_has_session(&resp->cstate)) update_stateid(&stp->st_stateid); } memcpy(&open->op_stateid, &stp->st_stateid, sizeof(stateid_t)); if (nfsd4_has_session(&resp->cstate)) open->op_stateowner->so_confirmed = 1; /* * Attempt to hand out a delegation. No error return, because the * OPEN succeeds even if we fail. */ nfs4_open_delegation(current_fh, open, stp); status = nfs_ok; dprintk("%s: stateid=" STATEID_FMT "\n", __func__, STATEID_VAL(&stp->st_stateid)); out: if (fp) put_nfs4_file(fp); if (status == 0 && open->op_claim_type == NFS4_OPEN_CLAIM_PREVIOUS) nfs4_set_claim_prev(open); /* * To finish the open response, we just need to set the rflags. */ open->op_rflags = NFS4_OPEN_RESULT_LOCKTYPE_POSIX; if (!open->op_stateowner->so_confirmed && !nfsd4_has_session(&resp->cstate)) open->op_rflags |= NFS4_OPEN_RESULT_CONFIRM; return status; } __be32 nfsd4_renew(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, clientid_t *clid) { struct nfs4_client *clp; __be32 status; nfs4_lock_state(); dprintk("process_renew(%08x/%08x): starting\n", clid->cl_boot, clid->cl_id); status = nfserr_stale_clientid; if (STALE_CLIENTID(clid)) goto out; clp = find_confirmed_client(clid); status = nfserr_expired; if (clp == NULL) { /* We assume the client took too long to RENEW. */ dprintk("nfsd4_renew: clientid not found!\n"); goto out; } renew_client(clp); status = nfserr_cb_path_down; if (!list_empty(&clp->cl_delegations) && !atomic_read(&clp->cl_cb_conn.cb_set)) goto out; status = nfs_ok; out: nfs4_unlock_state(); return status; } struct lock_manager nfsd4_manager = { }; static void nfsd4_end_grace(void) { dprintk("NFSD: end of grace period\n"); nfsd4_recdir_purge_old(); locks_end_grace(&nfsd4_manager); } static time_t nfs4_laundromat(void) { struct nfs4_client *clp; struct nfs4_stateowner *sop; struct nfs4_delegation *dp; struct list_head *pos, *next, reaplist; time_t cutoff = get_seconds() - NFSD_LEASE_TIME; time_t t, clientid_val = NFSD_LEASE_TIME; time_t u, test_val = NFSD_LEASE_TIME; nfs4_lock_state(); dprintk("NFSD: laundromat service - starting\n"); if (locks_in_grace()) nfsd4_end_grace(); list_for_each_safe(pos, next, &client_lru) { clp = list_entry(pos, struct nfs4_client, cl_lru); if (time_after((unsigned long)clp->cl_time, (unsigned long)cutoff)) { t = clp->cl_time - cutoff; if (clientid_val > t) clientid_val = t; break; } dprintk("NFSD: purging unused client (clientid %08x)\n", clp->cl_clientid.cl_id); nfsd4_remove_clid_dir(clp); expire_client(clp); } INIT_LIST_HEAD(&reaplist); spin_lock(&recall_lock); list_for_each_safe(pos, next, &del_recall_lru) { dp = list_entry (pos, struct nfs4_delegation, dl_recall_lru); if (time_after((unsigned long)dp->dl_time, (unsigned long)cutoff)) { u = dp->dl_time - cutoff; if (test_val > u) test_val = u; break; } dprintk("NFSD: purging unused delegation dp %p, fp %p\n", dp, dp->dl_flock); list_move(&dp->dl_recall_lru, &reaplist); } spin_unlock(&recall_lock); list_for_each_safe(pos, next, &reaplist) { dp = list_entry (pos, struct nfs4_delegation, dl_recall_lru); list_del_init(&dp->dl_recall_lru); unhash_delegation(dp); } test_val = NFSD_LEASE_TIME; list_for_each_safe(pos, next, &close_lru) { sop = list_entry(pos, struct nfs4_stateowner, so_close_lru); if (time_after((unsigned long)sop->so_time, (unsigned long)cutoff)) { u = sop->so_time - cutoff; if (test_val > u) test_val = u; break; } dprintk("NFSD: purging unused open stateowner (so_id %d)\n", sop->so_id); release_openowner(sop); } if (clientid_val < NFSD_LAUNDROMAT_MINTIMEOUT) clientid_val = NFSD_LAUNDROMAT_MINTIMEOUT; nfs4_unlock_state(); return clientid_val; } static struct workqueue_struct *laundry_wq; static void laundromat_main(struct work_struct *); static DECLARE_DELAYED_WORK(laundromat_work, laundromat_main); static void laundromat_main(struct work_struct *not_used) { time_t t; t = nfs4_laundromat(); dprintk("NFSD: laundromat_main - sleeping for %ld seconds\n", t); queue_delayed_work(laundry_wq, &laundromat_work, t*HZ); } static struct nfs4_stateowner * search_close_lru(u32 st_id, int flags) { struct nfs4_stateowner *local = NULL; if (flags & CLOSE_STATE) { list_for_each_entry(local, &close_lru, so_close_lru) { if (local->so_id == st_id) return local; } } return NULL; } static inline int nfs4_check_fh(struct svc_fh *fhp, struct nfs4_stateid *stp) { return fhp->fh_dentry->d_inode != stp->st_vfs_file->f_path.dentry->d_inode; } static int STALE_STATEID(stateid_t *stateid) { if (time_after((unsigned long)boot_time, (unsigned long)stateid->si_boot)) { dprintk("NFSD: stale stateid " STATEID_FMT "!\n", STATEID_VAL(stateid)); return 1; } return 0; } static int EXPIRED_STATEID(stateid_t *stateid) { if (time_before((unsigned long)boot_time, ((unsigned long)stateid->si_boot)) && time_before((unsigned long)(stateid->si_boot + lease_time), get_seconds())) { dprintk("NFSD: expired stateid " STATEID_FMT "!\n", STATEID_VAL(stateid)); return 1; } return 0; } static __be32 stateid_error_map(stateid_t *stateid) { if (STALE_STATEID(stateid)) return nfserr_stale_stateid; if (EXPIRED_STATEID(stateid)) return nfserr_expired; dprintk("NFSD: bad stateid " STATEID_FMT "!\n", STATEID_VAL(stateid)); return nfserr_bad_stateid; } static inline int access_permit_read(unsigned long access_bmap) { return test_bit(NFS4_SHARE_ACCESS_READ, &access_bmap) || test_bit(NFS4_SHARE_ACCESS_BOTH, &access_bmap) || test_bit(NFS4_SHARE_ACCESS_WRITE, &access_bmap); } static inline int access_permit_write(unsigned long access_bmap) { return test_bit(NFS4_SHARE_ACCESS_WRITE, &access_bmap) || test_bit(NFS4_SHARE_ACCESS_BOTH, &access_bmap); } static __be32 nfs4_check_openmode(struct nfs4_stateid *stp, int flags) { __be32 status = nfserr_openmode; if ((flags & WR_STATE) && (!access_permit_write(stp->st_access_bmap))) goto out; if ((flags & RD_STATE) && (!access_permit_read(stp->st_access_bmap))) goto out; status = nfs_ok; out: return status; } static inline __be32 check_special_stateids(svc_fh *current_fh, stateid_t *stateid, int flags) { if (ONE_STATEID(stateid) && (flags & RD_STATE)) return nfs_ok; else if (locks_in_grace()) { /* Answer in remaining cases depends on existance of * conflicting state; so we must wait out the grace period. */ return nfserr_grace; } else if (flags & WR_STATE) return nfs4_share_conflict(current_fh, NFS4_SHARE_DENY_WRITE); else /* (flags & RD_STATE) && ZERO_STATEID(stateid) */ return nfs4_share_conflict(current_fh, NFS4_SHARE_DENY_READ); } /* * Allow READ/WRITE during grace period on recovered state only for files * that are not able to provide mandatory locking. */ static inline int grace_disallows_io(struct inode *inode) { return locks_in_grace() && mandatory_lock(inode); } static int check_stateid_generation(stateid_t *in, stateid_t *ref, int flags) { /* * When sessions are used the stateid generation number is ignored * when it is zero. */ if ((flags & HAS_SESSION) && in->si_generation == 0) goto out; /* If the client sends us a stateid from the future, it's buggy: */ if (in->si_generation > ref->si_generation) return nfserr_bad_stateid; /* * The following, however, can happen. For example, if the * client sends an open and some IO at the same time, the open * may bump si_generation while the IO is still in flight. * Thanks to hard links and renames, the client never knows what * file an open will affect. So it could avoid that situation * only by serializing all opens and IO from the same open * owner. To recover from the old_stateid error, the client * will just have to retry the IO: */ if (in->si_generation < ref->si_generation) return nfserr_old_stateid; out: return nfs_ok; } static int is_delegation_stateid(stateid_t *stateid) { return stateid->si_fileid == 0; } /* * Checks for stateid operations */ __be32 nfs4_preprocess_stateid_op(struct nfsd4_compound_state *cstate, stateid_t *stateid, int flags, struct file **filpp) { struct nfs4_stateid *stp = NULL; struct nfs4_delegation *dp = NULL; struct svc_fh *current_fh = &cstate->current_fh; struct inode *ino = current_fh->fh_dentry->d_inode; __be32 status; if (filpp) *filpp = NULL; if (grace_disallows_io(ino)) return nfserr_grace; if (nfsd4_has_session(cstate)) flags |= HAS_SESSION; if (ZERO_STATEID(stateid) || ONE_STATEID(stateid)) return check_special_stateids(current_fh, stateid, flags); status = nfserr_stale_stateid; if (STALE_STATEID(stateid)) goto out; status = nfserr_bad_stateid; if (is_delegation_stateid(stateid)) { dp = find_delegation_stateid(ino, stateid); if (!dp) { status = stateid_error_map(stateid); goto out; } status = check_stateid_generation(stateid, &dp->dl_stateid, flags); if (status) goto out; status = nfs4_check_delegmode(dp, flags); if (status) goto out; renew_client(dp->dl_client); if (filpp) *filpp = dp->dl_vfs_file; } else { /* open or lock stateid */ stp = find_stateid(stateid, flags); if (!stp) { status = stateid_error_map(stateid); goto out; } if (nfs4_check_fh(current_fh, stp)) goto out; if (!stp->st_stateowner->so_confirmed) goto out; status = check_stateid_generation(stateid, &stp->st_stateid, flags); if (status) goto out; status = nfs4_check_openmode(stp, flags); if (status) goto out; renew_client(stp->st_stateowner->so_client); if (filpp) *filpp = stp->st_vfs_file; } status = nfs_ok; out: return status; } static inline int setlkflg (int type) { return (type == NFS4_READW_LT || type == NFS4_READ_LT) ? RD_STATE : WR_STATE; } /* * Checks for sequence id mutating operations. */ static __be32 nfs4_preprocess_seqid_op(struct nfsd4_compound_state *cstate, u32 seqid, stateid_t *stateid, int flags, struct nfs4_stateowner **sopp, struct nfs4_stateid **stpp, struct nfsd4_lock *lock) { struct nfs4_stateid *stp; struct nfs4_stateowner *sop; struct svc_fh *current_fh = &cstate->current_fh; __be32 status; dprintk("NFSD: %s: seqid=%d stateid = " STATEID_FMT "\n", __func__, seqid, STATEID_VAL(stateid)); *stpp = NULL; *sopp = NULL; if (ZERO_STATEID(stateid) || ONE_STATEID(stateid)) { dprintk("NFSD: preprocess_seqid_op: magic stateid!\n"); return nfserr_bad_stateid; } if (STALE_STATEID(stateid)) return nfserr_stale_stateid; if (nfsd4_has_session(cstate)) flags |= HAS_SESSION; /* * We return BAD_STATEID if filehandle doesn't match stateid, * the confirmed flag is incorrecly set, or the generation * number is incorrect. */ stp = find_stateid(stateid, flags); if (stp == NULL) { /* * Also, we should make sure this isn't just the result of * a replayed close: */ sop = search_close_lru(stateid->si_stateownerid, flags); if (sop == NULL) return stateid_error_map(stateid); *sopp = sop; goto check_replay; } *stpp = stp; *sopp = sop = stp->st_stateowner; if (lock) { clientid_t *lockclid = &lock->v.new.clientid; struct nfs4_client *clp = sop->so_client; int lkflg = 0; __be32 status; lkflg = setlkflg(lock->lk_type); if (lock->lk_is_new) { if (!sop->so_is_open_owner) return nfserr_bad_stateid; if (!(flags & HAS_SESSION) && !same_clid(&clp->cl_clientid, lockclid)) return nfserr_bad_stateid; /* stp is the open stateid */ status = nfs4_check_openmode(stp, lkflg); if (status) return status; } else { /* stp is the lock stateid */ status = nfs4_check_openmode(stp->st_openstp, lkflg); if (status) return status; } } if (nfs4_check_fh(current_fh, stp)) { dprintk("NFSD: preprocess_seqid_op: fh-stateid mismatch!\n"); return nfserr_bad_stateid; } /* * We now validate the seqid and stateid generation numbers. * For the moment, we ignore the possibility of * generation number wraparound. */ if (!(flags & HAS_SESSION) && seqid != sop->so_seqid) goto check_replay; if (sop->so_confirmed && flags & CONFIRM) { dprintk("NFSD: preprocess_seqid_op: expected" " unconfirmed stateowner!\n"); return nfserr_bad_stateid; } if (!sop->so_confirmed && !(flags & CONFIRM)) { dprintk("NFSD: preprocess_seqid_op: stateowner not" " confirmed yet!\n"); return nfserr_bad_stateid; } status = check_stateid_generation(stateid, &stp->st_stateid, flags); if (status) return status; renew_client(sop->so_client); return nfs_ok; check_replay: if (seqid == sop->so_seqid - 1) { dprintk("NFSD: preprocess_seqid_op: retransmission?\n"); /* indicate replay to calling function */ return nfserr_replay_me; } dprintk("NFSD: preprocess_seqid_op: bad seqid (expected %d, got %d)\n", sop->so_seqid, seqid); *sopp = NULL; return nfserr_bad_seqid; } __be32 nfsd4_open_confirm(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_open_confirm *oc) { __be32 status; struct nfs4_stateowner *sop; struct nfs4_stateid *stp; dprintk("NFSD: nfsd4_open_confirm on file %.*s\n", (int)cstate->current_fh.fh_dentry->d_name.len, cstate->current_fh.fh_dentry->d_name.name); status = fh_verify(rqstp, &cstate->current_fh, S_IFREG, 0); if (status) return status; nfs4_lock_state(); if ((status = nfs4_preprocess_seqid_op(cstate, oc->oc_seqid, &oc->oc_req_stateid, CONFIRM | OPEN_STATE, &oc->oc_stateowner, &stp, NULL))) goto out; sop = oc->oc_stateowner; sop->so_confirmed = 1; update_stateid(&stp->st_stateid); memcpy(&oc->oc_resp_stateid, &stp->st_stateid, sizeof(stateid_t)); dprintk("NFSD: %s: success, seqid=%d stateid=" STATEID_FMT "\n", __func__, oc->oc_seqid, STATEID_VAL(&stp->st_stateid)); nfsd4_create_clid_dir(sop->so_client); out: if (oc->oc_stateowner) { nfs4_get_stateowner(oc->oc_stateowner); cstate->replay_owner = oc->oc_stateowner; } nfs4_unlock_state(); return status; } /* * unset all bits in union bitmap (bmap) that * do not exist in share (from successful OPEN_DOWNGRADE) */ static void reset_union_bmap_access(unsigned long access, unsigned long *bmap) { int i; for (i = 1; i < 4; i++) { if ((i & access) != i) __clear_bit(i, bmap); } } static void reset_union_bmap_deny(unsigned long deny, unsigned long *bmap) { int i; for (i = 0; i < 4; i++) { if ((i & deny) != i) __clear_bit(i, bmap); } } __be32 nfsd4_open_downgrade(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_open_downgrade *od) { __be32 status; struct nfs4_stateid *stp; unsigned int share_access; dprintk("NFSD: nfsd4_open_downgrade on file %.*s\n", (int)cstate->current_fh.fh_dentry->d_name.len, cstate->current_fh.fh_dentry->d_name.name); if (!access_valid(od->od_share_access, cstate->minorversion) || !deny_valid(od->od_share_deny)) return nfserr_inval; nfs4_lock_state(); if ((status = nfs4_preprocess_seqid_op(cstate, od->od_seqid, &od->od_stateid, OPEN_STATE, &od->od_stateowner, &stp, NULL))) goto out; status = nfserr_inval; if (!test_bit(od->od_share_access, &stp->st_access_bmap)) { dprintk("NFSD:access not a subset current bitmap: 0x%lx, input access=%08x\n", stp->st_access_bmap, od->od_share_access); goto out; } if (!test_bit(od->od_share_deny, &stp->st_deny_bmap)) { dprintk("NFSD:deny not a subset current bitmap: 0x%lx, input deny=%08x\n", stp->st_deny_bmap, od->od_share_deny); goto out; } set_access(&share_access, stp->st_access_bmap); nfs4_file_downgrade(stp->st_vfs_file, share_access & ~od->od_share_access); reset_union_bmap_access(od->od_share_access, &stp->st_access_bmap); reset_union_bmap_deny(od->od_share_deny, &stp->st_deny_bmap); update_stateid(&stp->st_stateid); memcpy(&od->od_stateid, &stp->st_stateid, sizeof(stateid_t)); status = nfs_ok; out: if (od->od_stateowner) { nfs4_get_stateowner(od->od_stateowner); cstate->replay_owner = od->od_stateowner; } nfs4_unlock_state(); return status; } /* * nfs4_unlock_state() called after encode */ __be32 nfsd4_close(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_close *close) { __be32 status; struct nfs4_stateid *stp; dprintk("NFSD: nfsd4_close on file %.*s\n", (int)cstate->current_fh.fh_dentry->d_name.len, cstate->current_fh.fh_dentry->d_name.name); nfs4_lock_state(); /* check close_lru for replay */ if ((status = nfs4_preprocess_seqid_op(cstate, close->cl_seqid, &close->cl_stateid, OPEN_STATE | CLOSE_STATE, &close->cl_stateowner, &stp, NULL))) goto out; status = nfs_ok; update_stateid(&stp->st_stateid); memcpy(&close->cl_stateid, &stp->st_stateid, sizeof(stateid_t)); /* release_stateid() calls nfsd_close() if needed */ release_open_stateid(stp); /* place unused nfs4_stateowners on so_close_lru list to be * released by the laundromat service after the lease period * to enable us to handle CLOSE replay */ if (list_empty(&close->cl_stateowner->so_stateids)) move_to_close_lru(close->cl_stateowner); out: if (close->cl_stateowner) { nfs4_get_stateowner(close->cl_stateowner); cstate->replay_owner = close->cl_stateowner; } nfs4_unlock_state(); return status; } __be32 nfsd4_delegreturn(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_delegreturn *dr) { struct nfs4_delegation *dp; stateid_t *stateid = &dr->dr_stateid; struct inode *inode; __be32 status; int flags = 0; if ((status = fh_verify(rqstp, &cstate->current_fh, S_IFREG, 0))) return status; inode = cstate->current_fh.fh_dentry->d_inode; if (nfsd4_has_session(cstate)) flags |= HAS_SESSION; nfs4_lock_state(); status = nfserr_bad_stateid; if (ZERO_STATEID(stateid) || ONE_STATEID(stateid)) goto out; status = nfserr_stale_stateid; if (STALE_STATEID(stateid)) goto out; status = nfserr_bad_stateid; if (!is_delegation_stateid(stateid)) goto out; dp = find_delegation_stateid(inode, stateid); if (!dp) { status = stateid_error_map(stateid); goto out; } status = check_stateid_generation(stateid, &dp->dl_stateid, flags); if (status) goto out; renew_client(dp->dl_client); unhash_delegation(dp); out: nfs4_unlock_state(); return status; } /* * Lock owner state (byte-range locks) */ #define LOFF_OVERFLOW(start, len) ((u64)(len) > ~(u64)(start)) #define LOCK_HASH_BITS 8 #define LOCK_HASH_SIZE (1 << LOCK_HASH_BITS) #define LOCK_HASH_MASK (LOCK_HASH_SIZE - 1) static inline u64 end_offset(u64 start, u64 len) { u64 end; end = start + len; return end >= start ? end: NFS4_MAX_UINT64; } /* last octet in a range */ static inline u64 last_byte_offset(u64 start, u64 len) { u64 end; BUG_ON(!len); end = start + len; return end > start ? end - 1: NFS4_MAX_UINT64; } #define lockownerid_hashval(id) \ ((id) & LOCK_HASH_MASK) static inline unsigned int lock_ownerstr_hashval(struct inode *inode, u32 cl_id, struct xdr_netobj *ownername) { return (file_hashval(inode) + cl_id + opaque_hashval(ownername->data, ownername->len)) & LOCK_HASH_MASK; } static struct list_head lock_ownerid_hashtbl[LOCK_HASH_SIZE]; static struct list_head lock_ownerstr_hashtbl[LOCK_HASH_SIZE]; static struct list_head lockstateid_hashtbl[STATEID_HASH_SIZE]; static struct nfs4_stateid * find_stateid(stateid_t *stid, int flags) { struct nfs4_stateid *local; u32 st_id = stid->si_stateownerid; u32 f_id = stid->si_fileid; unsigned int hashval; dprintk("NFSD: find_stateid flags 0x%x\n",flags); if (flags & (LOCK_STATE | RD_STATE | WR_STATE)) { hashval = stateid_hashval(st_id, f_id); list_for_each_entry(local, &lockstateid_hashtbl[hashval], st_hash) { if ((local->st_stateid.si_stateownerid == st_id) && (local->st_stateid.si_fileid == f_id)) return local; } } if (flags & (OPEN_STATE | RD_STATE | WR_STATE)) { hashval = stateid_hashval(st_id, f_id); list_for_each_entry(local, &stateid_hashtbl[hashval], st_hash) { if ((local->st_stateid.si_stateownerid == st_id) && (local->st_stateid.si_fileid == f_id)) return local; } } return NULL; } static struct nfs4_delegation * find_delegation_stateid(struct inode *ino, stateid_t *stid) { struct nfs4_file *fp; struct nfs4_delegation *dl; dprintk("NFSD: %s: stateid=" STATEID_FMT "\n", __func__, STATEID_VAL(stid)); fp = find_file(ino); if (!fp) return NULL; dl = find_delegation_file(fp, stid); put_nfs4_file(fp); return dl; } /* * TODO: Linux file offsets are _signed_ 64-bit quantities, which means that * we can't properly handle lock requests that go beyond the (2^63 - 1)-th * byte, because of sign extension problems. Since NFSv4 calls for 64-bit * locking, this prevents us from being completely protocol-compliant. The * real solution to this problem is to start using unsigned file offsets in * the VFS, but this is a very deep change! */ static inline void nfs4_transform_lock_offset(struct file_lock *lock) { if (lock->fl_start < 0) lock->fl_start = OFFSET_MAX; if (lock->fl_end < 0) lock->fl_end = OFFSET_MAX; } /* Hack!: For now, we're defining this just so we can use a pointer to it * as a unique cookie to identify our (NFSv4's) posix locks. */ static const struct lock_manager_operations nfsd_posix_mng_ops = { }; static inline void nfs4_set_lock_denied(struct file_lock *fl, struct nfsd4_lock_denied *deny) { struct nfs4_stateowner *sop; unsigned int hval; if (fl->fl_lmops == &nfsd_posix_mng_ops) { sop = (struct nfs4_stateowner *) fl->fl_owner; hval = lockownerid_hashval(sop->so_id); kref_get(&sop->so_ref); deny->ld_sop = sop; deny->ld_clientid = sop->so_client->cl_clientid; } else { deny->ld_sop = NULL; deny->ld_clientid.cl_boot = 0; deny->ld_clientid.cl_id = 0; } deny->ld_start = fl->fl_start; deny->ld_length = NFS4_MAX_UINT64; if (fl->fl_end != NFS4_MAX_UINT64) deny->ld_length = fl->fl_end - fl->fl_start + 1; deny->ld_type = NFS4_READ_LT; if (fl->fl_type != F_RDLCK) deny->ld_type = NFS4_WRITE_LT; } static struct nfs4_stateowner * find_lockstateowner_str(struct inode *inode, clientid_t *clid, struct xdr_netobj *owner) { unsigned int hashval = lock_ownerstr_hashval(inode, clid->cl_id, owner); struct nfs4_stateowner *op; list_for_each_entry(op, &lock_ownerstr_hashtbl[hashval], so_strhash) { if (same_owner_str(op, owner, clid)) return op; } return NULL; } /* * Alloc a lock owner structure. * Called in nfsd4_lock - therefore, OPEN and OPEN_CONFIRM (if needed) has * occured. * * strhashval = lock_ownerstr_hashval */ static struct nfs4_stateowner * alloc_init_lock_stateowner(unsigned int strhashval, struct nfs4_client *clp, struct nfs4_stateid *open_stp, struct nfsd4_lock *lock) { struct nfs4_stateowner *sop; struct nfs4_replay *rp; unsigned int idhashval; if (!(sop = alloc_stateowner(&lock->lk_new_owner))) return NULL; idhashval = lockownerid_hashval(current_ownerid); INIT_LIST_HEAD(&sop->so_idhash); INIT_LIST_HEAD(&sop->so_strhash); INIT_LIST_HEAD(&sop->so_perclient); INIT_LIST_HEAD(&sop->so_stateids); INIT_LIST_HEAD(&sop->so_perstateid); INIT_LIST_HEAD(&sop->so_close_lru); /* not used */ sop->so_time = 0; list_add(&sop->so_idhash, &lock_ownerid_hashtbl[idhashval]); list_add(&sop->so_strhash, &lock_ownerstr_hashtbl[strhashval]); list_add(&sop->so_perstateid, &open_stp->st_lockowners); sop->so_is_open_owner = 0; sop->so_id = current_ownerid++; sop->so_client = clp; /* It is the openowner seqid that will be incremented in encode in the * case of new lockowners; so increment the lock seqid manually: */ sop->so_seqid = lock->lk_new_lock_seqid + 1; sop->so_confirmed = 1; rp = &sop->so_replay; rp->rp_status = nfserr_serverfault; rp->rp_buflen = 0; rp->rp_buf = rp->rp_ibuf; return sop; } static struct nfs4_stateid * alloc_init_lock_stateid(struct nfs4_stateowner *sop, struct nfs4_file *fp, struct nfs4_stateid *open_stp) { struct nfs4_stateid *stp; unsigned int hashval = stateid_hashval(sop->so_id, fp->fi_id); stp = nfs4_alloc_stateid(); if (stp == NULL) goto out; INIT_LIST_HEAD(&stp->st_hash); INIT_LIST_HEAD(&stp->st_perfile); INIT_LIST_HEAD(&stp->st_perstateowner); INIT_LIST_HEAD(&stp->st_lockowners); /* not used */ list_add(&stp->st_hash, &lockstateid_hashtbl[hashval]); list_add(&stp->st_perfile, &fp->fi_stateids); list_add(&stp->st_perstateowner, &sop->so_stateids); stp->st_stateowner = sop; get_nfs4_file(fp); stp->st_file = fp; stp->st_stateid.si_boot = get_seconds(); stp->st_stateid.si_stateownerid = sop->so_id; stp->st_stateid.si_fileid = fp->fi_id; stp->st_stateid.si_generation = 0; stp->st_vfs_file = open_stp->st_vfs_file; /* FIXME refcount?? */ stp->st_access_bmap = open_stp->st_access_bmap; stp->st_deny_bmap = open_stp->st_deny_bmap; stp->st_openstp = open_stp; out: return stp; } static int check_lock_length(u64 offset, u64 length) { return ((length == 0) || ((length != NFS4_MAX_UINT64) && LOFF_OVERFLOW(offset, length))); } /* * LOCK operation */ __be32 nfsd4_lock(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_lock *lock) { struct nfs4_stateowner *open_sop = NULL; struct nfs4_stateowner *lock_sop = NULL; struct nfs4_stateid *lock_stp; struct file *filp; struct file_lock file_lock; struct file_lock conflock; __be32 status = 0; unsigned int strhashval; unsigned int cmd; int err; dprintk("NFSD: nfsd4_lock: start=%Ld length=%Ld\n", (long long) lock->lk_offset, (long long) lock->lk_length); if (check_lock_length(lock->lk_offset, lock->lk_length)) return nfserr_inval; if ((status = fh_verify(rqstp, &cstate->current_fh, S_IFREG, NFSD_MAY_LOCK))) { dprintk("NFSD: nfsd4_lock: permission denied!\n"); return status; } nfs4_lock_state(); if (lock->lk_is_new) { /* * Client indicates that this is a new lockowner. * Use open owner and open stateid to create lock owner and * lock stateid. */ struct nfs4_stateid *open_stp = NULL; struct nfs4_file *fp; status = nfserr_stale_clientid; if (!nfsd4_has_session(cstate) && STALE_CLIENTID(&lock->lk_new_clientid)) goto out; /* validate and update open stateid and open seqid */ status = nfs4_preprocess_seqid_op(cstate, lock->lk_new_open_seqid, &lock->lk_new_open_stateid, OPEN_STATE, &lock->lk_replay_owner, &open_stp, lock); if (status) goto out; open_sop = lock->lk_replay_owner; /* create lockowner and lock stateid */ fp = open_stp->st_file; strhashval = lock_ownerstr_hashval(fp->fi_inode, open_sop->so_client->cl_clientid.cl_id, &lock->v.new.owner); /* XXX: Do we need to check for duplicate stateowners on * the same file, or should they just be allowed (and * create new stateids)? */ status = nfserr_resource; lock_sop = alloc_init_lock_stateowner(strhashval, open_sop->so_client, open_stp, lock); if (lock_sop == NULL) goto out; lock_stp = alloc_init_lock_stateid(lock_sop, fp, open_stp); if (lock_stp == NULL) goto out; } else { /* lock (lock owner + lock stateid) already exists */ status = nfs4_preprocess_seqid_op(cstate, lock->lk_old_lock_seqid, &lock->lk_old_lock_stateid, LOCK_STATE, &lock->lk_replay_owner, &lock_stp, lock); if (status) goto out; lock_sop = lock->lk_replay_owner; } /* lock->lk_replay_owner and lock_stp have been created or found */ filp = lock_stp->st_vfs_file; status = nfserr_grace; if (locks_in_grace() && !lock->lk_reclaim) goto out; status = nfserr_no_grace; if (!locks_in_grace() && lock->lk_reclaim) goto out; locks_init_lock(&file_lock); switch (lock->lk_type) { case NFS4_READ_LT: case NFS4_READW_LT: file_lock.fl_type = F_RDLCK; cmd = F_SETLK; break; case NFS4_WRITE_LT: case NFS4_WRITEW_LT: file_lock.fl_type = F_WRLCK; cmd = F_SETLK; break; default: status = nfserr_inval; goto out; } file_lock.fl_owner = (fl_owner_t)lock_sop; file_lock.fl_pid = current->tgid; file_lock.fl_file = filp; file_lock.fl_flags = FL_POSIX; file_lock.fl_lmops = &nfsd_posix_mng_ops; file_lock.fl_start = lock->lk_offset; file_lock.fl_end = last_byte_offset(lock->lk_offset, lock->lk_length); nfs4_transform_lock_offset(&file_lock); /* * Try to lock the file in the VFS. * Note: locks.c uses the BKL to protect the inode's lock list. */ err = vfs_lock_file(filp, cmd, &file_lock, &conflock); switch (-err) { case 0: /* success! */ update_stateid(&lock_stp->st_stateid); memcpy(&lock->lk_resp_stateid, &lock_stp->st_stateid, sizeof(stateid_t)); status = 0; break; case (EAGAIN): /* conflock holds conflicting lock */ status = nfserr_denied; dprintk("NFSD: nfsd4_lock: conflicting lock found!\n"); nfs4_set_lock_denied(&conflock, &lock->lk_denied); break; case (EDEADLK): status = nfserr_deadlock; break; default: dprintk("NFSD: nfsd4_lock: vfs_lock_file() failed! status %d\n",err); status = nfserr_resource; break; } out: if (status && lock->lk_is_new && lock_sop) release_lockowner(lock_sop); if (lock->lk_replay_owner) { nfs4_get_stateowner(lock->lk_replay_owner); cstate->replay_owner = lock->lk_replay_owner; } nfs4_unlock_state(); return status; } /* * The NFSv4 spec allows a client to do a LOCKT without holding an OPEN, * so we do a temporary open here just to get an open file to pass to * vfs_test_lock. (Arguably perhaps test_lock should be done with an * inode operation.) */ static int nfsd_test_lock(struct svc_rqst *rqstp, struct svc_fh *fhp, struct file_lock *lock) { struct file *file; int err; err = nfsd_open(rqstp, fhp, S_IFREG, NFSD_MAY_READ, &file); if (err) return err; err = vfs_test_lock(file, lock); nfsd_close(file); return err; } /* * LOCKT operation */ __be32 nfsd4_lockt(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_lockt *lockt) { struct inode *inode; struct file_lock file_lock; int error; __be32 status; if (locks_in_grace()) return nfserr_grace; if (check_lock_length(lockt->lt_offset, lockt->lt_length)) return nfserr_inval; lockt->lt_stateowner = NULL; nfs4_lock_state(); status = nfserr_stale_clientid; if (!nfsd4_has_session(cstate) && STALE_CLIENTID(&lockt->lt_clientid)) goto out; if ((status = fh_verify(rqstp, &cstate->current_fh, S_IFREG, 0))) { dprintk("NFSD: nfsd4_lockt: fh_verify() failed!\n"); if (status == nfserr_symlink) status = nfserr_inval; goto out; } inode = cstate->current_fh.fh_dentry->d_inode; locks_init_lock(&file_lock); switch (lockt->lt_type) { case NFS4_READ_LT: case NFS4_READW_LT: file_lock.fl_type = F_RDLCK; break; case NFS4_WRITE_LT: case NFS4_WRITEW_LT: file_lock.fl_type = F_WRLCK; break; default: dprintk("NFSD: nfs4_lockt: bad lock type!\n"); status = nfserr_inval; goto out; } lockt->lt_stateowner = find_lockstateowner_str(inode, &lockt->lt_clientid, &lockt->lt_owner); if (lockt->lt_stateowner) file_lock.fl_owner = (fl_owner_t)lockt->lt_stateowner; file_lock.fl_pid = current->tgid; file_lock.fl_flags = FL_POSIX; file_lock.fl_start = lockt->lt_offset; file_lock.fl_end = last_byte_offset(lockt->lt_offset, lockt->lt_length); nfs4_transform_lock_offset(&file_lock); status = nfs_ok; error = nfsd_test_lock(rqstp, &cstate->current_fh, &file_lock); if (error) { status = nfserrno(error); goto out; } if (file_lock.fl_type != F_UNLCK) { status = nfserr_denied; nfs4_set_lock_denied(&file_lock, &lockt->lt_denied); } out: nfs4_unlock_state(); return status; } __be32 nfsd4_locku(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_locku *locku) { struct nfs4_stateid *stp; struct file *filp = NULL; struct file_lock file_lock; __be32 status; int err; dprintk("NFSD: nfsd4_locku: start=%Ld length=%Ld\n", (long long) locku->lu_offset, (long long) locku->lu_length); if (check_lock_length(locku->lu_offset, locku->lu_length)) return nfserr_inval; nfs4_lock_state(); if ((status = nfs4_preprocess_seqid_op(cstate, locku->lu_seqid, &locku->lu_stateid, LOCK_STATE, &locku->lu_stateowner, &stp, NULL))) goto out; filp = stp->st_vfs_file; BUG_ON(!filp); locks_init_lock(&file_lock); file_lock.fl_type = F_UNLCK; file_lock.fl_owner = (fl_owner_t) locku->lu_stateowner; file_lock.fl_pid = current->tgid; file_lock.fl_file = filp; file_lock.fl_flags = FL_POSIX; file_lock.fl_lmops = &nfsd_posix_mng_ops; file_lock.fl_start = locku->lu_offset; file_lock.fl_end = last_byte_offset(locku->lu_offset, locku->lu_length); nfs4_transform_lock_offset(&file_lock); /* * Try to unlock the file in the VFS. */ err = vfs_lock_file(filp, F_SETLK, &file_lock, NULL); if (err) { dprintk("NFSD: nfs4_locku: vfs_lock_file failed!\n"); goto out_nfserr; } /* * OK, unlock succeeded; the only thing left to do is update the stateid. */ update_stateid(&stp->st_stateid); memcpy(&locku->lu_stateid, &stp->st_stateid, sizeof(stateid_t)); out: if (locku->lu_stateowner) { nfs4_get_stateowner(locku->lu_stateowner); cstate->replay_owner = locku->lu_stateowner; } nfs4_unlock_state(); return status; out_nfserr: status = nfserrno(err); goto out; } /* * returns * 1: locks held by lockowner * 0: no locks held by lockowner */ static int check_for_locks(struct file *filp, struct nfs4_stateowner *lowner) { struct file_lock **flpp; struct inode *inode = filp->f_path.dentry->d_inode; int status = 0; lock_kernel(); for (flpp = &inode->i_flock; *flpp != NULL; flpp = &(*flpp)->fl_next) { if ((*flpp)->fl_owner == (fl_owner_t)lowner) { status = 1; goto out; } } out: unlock_kernel(); return status; } __be32 nfsd4_release_lockowner(struct svc_rqst *rqstp, struct nfsd4_compound_state *cstate, struct nfsd4_release_lockowner *rlockowner) { clientid_t *clid = &rlockowner->rl_clientid; struct nfs4_stateowner *sop; struct nfs4_stateid *stp; struct xdr_netobj *owner = &rlockowner->rl_owner; struct list_head matches; int i; __be32 status; dprintk("nfsd4_release_lockowner clientid: (%08x/%08x):\n", clid->cl_boot, clid->cl_id); /* XXX check for lease expiration */ status = nfserr_stale_clientid; if (STALE_CLIENTID(clid)) return status; nfs4_lock_state(); status = nfserr_locks_held; /* XXX: we're doing a linear search through all the lockowners. * Yipes! For now we'll just hope clients aren't really using * release_lockowner much, but eventually we have to fix these * data structures. */ INIT_LIST_HEAD(&matches); for (i = 0; i < LOCK_HASH_SIZE; i++) { list_for_each_entry(sop, &lock_ownerid_hashtbl[i], so_idhash) { if (!same_owner_str(sop, owner, clid)) continue; list_for_each_entry(stp, &sop->so_stateids, st_perstateowner) { if (check_for_locks(stp->st_vfs_file, sop)) goto out; /* Note: so_perclient unused for lockowners, * so it's OK to fool with here. */ list_add(&sop->so_perclient, &matches); } } } /* Clients probably won't expect us to return with some (but not all) * of the lockowner state released; so don't release any until all * have been checked. */ status = nfs_ok; while (!list_empty(&matches)) { sop = list_entry(matches.next, struct nfs4_stateowner, so_perclient); /* unhash_stateowner deletes so_perclient only * for openowners. */ list_del(&sop->so_perclient); release_lockowner(sop); } out: nfs4_unlock_state(); return status; } static inline struct nfs4_client_reclaim * alloc_reclaim(void) { return kmalloc(sizeof(struct nfs4_client_reclaim), GFP_KERNEL); } int nfs4_has_reclaimed_state(const char *name, bool use_exchange_id) { unsigned int strhashval = clientstr_hashval(name); struct nfs4_client *clp; clp = find_confirmed_client_by_str(name, strhashval, use_exchange_id); return clp ? 1 : 0; } /* * failure => all reset bets are off, nfserr_no_grace... */ int nfs4_client_to_reclaim(const char *name) { unsigned int strhashval; struct nfs4_client_reclaim *crp = NULL; dprintk("NFSD nfs4_client_to_reclaim NAME: %.*s\n", HEXDIR_LEN, name); crp = alloc_reclaim(); if (!crp) return 0; strhashval = clientstr_hashval(name); INIT_LIST_HEAD(&crp->cr_strhash); list_add(&crp->cr_strhash, &reclaim_str_hashtbl[strhashval]); memcpy(crp->cr_recdir, name, HEXDIR_LEN); reclaim_str_hashtbl_size++; return 1; } static void nfs4_release_reclaim(void) { struct nfs4_client_reclaim *crp = NULL; int i; for (i = 0; i < CLIENT_HASH_SIZE; i++) { while (!list_empty(&reclaim_str_hashtbl[i])) { crp = list_entry(reclaim_str_hashtbl[i].next, struct nfs4_client_reclaim, cr_strhash); list_del(&crp->cr_strhash); kfree(crp); reclaim_str_hashtbl_size--; } } BUG_ON(reclaim_str_hashtbl_size); } /* * called from OPEN, CLAIM_PREVIOUS with a new clientid. */ static struct nfs4_client_reclaim * nfs4_find_reclaim_client(clientid_t *clid) { unsigned int strhashval; struct nfs4_client *clp; struct nfs4_client_reclaim *crp = NULL; /* find clientid in conf_id_hashtbl */ clp = find_confirmed_client(clid); if (clp == NULL) return NULL; dprintk("NFSD: nfs4_find_reclaim_client for %.*s with recdir %s\n", clp->cl_name.len, clp->cl_name.data, clp->cl_recdir); /* find clp->cl_name in reclaim_str_hashtbl */ strhashval = clientstr_hashval(clp->cl_recdir); list_for_each_entry(crp, &reclaim_str_hashtbl[strhashval], cr_strhash) { if (same_name(crp->cr_recdir, clp->cl_recdir)) { return crp; } } return NULL; } /* * Called from OPEN. Look for clientid in reclaim list. */ __be32 nfs4_check_open_reclaim(clientid_t *clid) { return nfs4_find_reclaim_client(clid) ? nfs_ok : nfserr_reclaim_bad; } /* initialization to perform at module load time: */ int nfs4_state_init(void) { int i, status; status = nfsd4_init_slabs(); if (status) return status; for (i = 0; i < CLIENT_HASH_SIZE; i++) { INIT_LIST_HEAD(&conf_id_hashtbl[i]); INIT_LIST_HEAD(&conf_str_hashtbl[i]); INIT_LIST_HEAD(&unconf_str_hashtbl[i]); INIT_LIST_HEAD(&unconf_id_hashtbl[i]); INIT_LIST_HEAD(&reclaim_str_hashtbl[i]); } for (i = 0; i < SESSION_HASH_SIZE; i++) INIT_LIST_HEAD(&sessionid_hashtbl[i]); for (i = 0; i < FILE_HASH_SIZE; i++) { INIT_LIST_HEAD(&file_hashtbl[i]); } for (i = 0; i < OWNER_HASH_SIZE; i++) { INIT_LIST_HEAD(&ownerstr_hashtbl[i]); INIT_LIST_HEAD(&ownerid_hashtbl[i]); } for (i = 0; i < STATEID_HASH_SIZE; i++) { INIT_LIST_HEAD(&stateid_hashtbl[i]); INIT_LIST_HEAD(&lockstateid_hashtbl[i]); } for (i = 0; i < LOCK_HASH_SIZE; i++) { INIT_LIST_HEAD(&lock_ownerid_hashtbl[i]); INIT_LIST_HEAD(&lock_ownerstr_hashtbl[i]); } memset(&onestateid, ~0, sizeof(stateid_t)); INIT_LIST_HEAD(&close_lru); INIT_LIST_HEAD(&client_lru); INIT_LIST_HEAD(&del_recall_lru); reclaim_str_hashtbl_size = 0; return 0; } static void nfsd4_load_reboot_recovery_data(void) { int status; nfs4_lock_state(); nfsd4_init_recdir(user_recovery_dirname); status = nfsd4_recdir_load(); nfs4_unlock_state(); if (status) printk("NFSD: Failure reading reboot recovery data\n"); } unsigned long get_nfs4_grace_period(void) { return max(user_lease_time, lease_time) * HZ; } /* * Since the lifetime of a delegation isn't limited to that of an open, a * client may quite reasonably hang on to a delegation as long as it has * the inode cached. This becomes an obvious problem the first time a * client's inode cache approaches the size of the server's total memory. * * For now we avoid this problem by imposing a hard limit on the number * of delegations, which varies according to the server's memory size. */ static void set_max_delegations(void) { /* * Allow at most 4 delegations per megabyte of RAM. Quick * estimates suggest that in the worst case (where every delegation * is for a different inode), a delegation could take about 1.5K, * giving a worst case usage of about 6% of memory. */ max_delegations = nr_free_buffer_pages() >> (20 - 2 - PAGE_SHIFT); } /* initialization to perform when the nfsd service is started: */ static int __nfs4_state_start(void) { unsigned long grace_time; boot_time = get_seconds(); grace_time = get_nfs4_grace_period(); lease_time = user_lease_time; locks_start_grace(&nfsd4_manager); printk(KERN_INFO "NFSD: starting %ld-second grace period\n", grace_time/HZ); laundry_wq = create_singlethread_workqueue("nfsd4"); if (laundry_wq == NULL) return -ENOMEM; queue_delayed_work(laundry_wq, &laundromat_work, grace_time); set_max_delegations(); return set_callback_cred(); } int nfs4_state_start(void) { int ret; if (nfs4_init) return 0; nfsd4_load_reboot_recovery_data(); ret = __nfs4_state_start(); if (ret) return ret; nfs4_init = 1; return 0; } time_t nfs4_lease_time(void) { return lease_time; } static void __nfs4_state_shutdown(void) { int i; struct nfs4_client *clp = NULL; struct nfs4_delegation *dp = NULL; struct list_head *pos, *next, reaplist; for (i = 0; i < CLIENT_HASH_SIZE; i++) { while (!list_empty(&conf_id_hashtbl[i])) { clp = list_entry(conf_id_hashtbl[i].next, struct nfs4_client, cl_idhash); expire_client(clp); } while (!list_empty(&unconf_str_hashtbl[i])) { clp = list_entry(unconf_str_hashtbl[i].next, struct nfs4_client, cl_strhash); expire_client(clp); } } INIT_LIST_HEAD(&reaplist); spin_lock(&recall_lock); list_for_each_safe(pos, next, &del_recall_lru) { dp = list_entry (pos, struct nfs4_delegation, dl_recall_lru); list_move(&dp->dl_recall_lru, &reaplist); } spin_unlock(&recall_lock); list_for_each_safe(pos, next, &reaplist) { dp = list_entry (pos, struct nfs4_delegation, dl_recall_lru); list_del_init(&dp->dl_recall_lru); unhash_delegation(dp); } nfsd4_shutdown_recdir(); nfs4_init = 0; } void nfs4_state_shutdown(void) { cancel_rearming_delayed_workqueue(laundry_wq, &laundromat_work); destroy_workqueue(laundry_wq); locks_end_grace(&nfsd4_manager); nfs4_lock_state(); nfs4_release_reclaim(); __nfs4_state_shutdown(); nfs4_unlock_state(); } /* * user_recovery_dirname is protected by the nfsd_mutex since it's only * accessed when nfsd is starting. */ static void nfs4_set_recdir(char *recdir) { strcpy(user_recovery_dirname, recdir); } /* * Change the NFSv4 recovery directory to recdir. */ int nfs4_reset_recoverydir(char *recdir) { int status; struct path path; status = kern_path(recdir, LOOKUP_FOLLOW, &path); if (status) return status; status = -ENOTDIR; if (S_ISDIR(path.dentry->d_inode->i_mode)) { nfs4_set_recdir(recdir); status = 0; } path_put(&path); return status; } char * nfs4_recoverydir(void) { return user_recovery_dirname; } /* * Called when leasetime is changed. * * The only way the protocol gives us to handle on-the-fly lease changes is to * simulate a reboot. Instead of doing that, we just wait till the next time * we start to register any changes in lease time. If the administrator * really wants to change the lease time *now*, they can go ahead and bring * nfsd down and then back up again after changing the lease time. * * user_lease_time is protected by nfsd_mutex since it's only really accessed * when nfsd is starting */ void nfs4_reset_lease(time_t leasetime) { user_lease_time = leasetime; } |