HardenedBSD/sys/fs/nfsclient/nfs_clstate.c
Rick Macklem bb53f071e8 nfscl: Add support for read delegations and atomic upgrade
For NFSv4.1/4.2, an atomic upgrade of a delegation from a
read delegation to a write delegation is allowed and can
result in significantly improved performance.
This patch adds this upgrade to the NFSv4.1/4.2 client and
enables use of read delegations.

For a test case of building a FreeBSD kernel (sources and
output objects) over a NFSv4.2 mount, these changes reduced
the elapsed time by 30% and included a reduction of 80% for
RPC counts when delegations were enabled.  As such, with this
patch there are at least certain cases where enabling
delegations seems to be worth the increased complexity they
bring.

This patch should only affect the NFSv4.1/4.2 behaviour
when delegations are enabled, which is not the default.

MFC after:	1 month
2024-06-12 16:41:12 -07:00

5887 lines
159 KiB
C

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