f8dc06303b
If a pNFS server's DS runs out of disk space, it replies NFSERR_NOSPC to the client doing writing. For the Linux client, it then sends a LayoutError RPC to the MDS server to tell it about the error and keeps retrying, doing repeated LayoutGets to the MDS and Write RPCs to the DS. The Linux client is "stuck" until disk space on the DS is free'd up unless a subsequent LayoutGet request is sent a NFSERR_NOSPC reply. The looping problem still occurs for NFSv4.1 mounts, but no fix for this is known at this time. This patch changes the pNFS MDS server to reply to LayoutGet operations with NFSERR_NOSPC once a LayoutError reports the problem, until the DS has available space. This keeps the Linux NFSv4.2 from looping. Found during recent testing because of issues w.r.t. a DS being out of space found during a recent IEFT NFSv4 working group testing event. MFC after: 2 weeks
416 lines
13 KiB
C
416 lines
13 KiB
C
/*-
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* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
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*
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* Copyright (c) 2009 Rick Macklem, University of Guelph
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* $FreeBSD$
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*/
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#ifndef _NFS_NFSRVSTATE_H_
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#define _NFS_NFSRVSTATE_H_
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#if defined(_KERNEL) || defined(KERNEL)
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/*
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* Definitions for NFS V4 server state handling.
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*/
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/*
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* List heads for nfsclient, nfsstate and nfslockfile.
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* (Some systems seem to like to dynamically size these things, but I
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* don't see any point in doing so for these ones.)
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*/
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LIST_HEAD(nfsclienthashhead, nfsclient);
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LIST_HEAD(nfsstatehead, nfsstate);
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LIST_HEAD(nfslockhead, nfslock);
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LIST_HEAD(nfslockhashhead, nfslockfile);
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LIST_HEAD(nfssessionhead, nfsdsession);
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LIST_HEAD(nfssessionhashhead, nfsdsession);
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TAILQ_HEAD(nfslayouthead, nfslayout);
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SLIST_HEAD(nfsdsdirhead, nfsdsdir);
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TAILQ_HEAD(nfsdevicehead, nfsdevice);
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LIST_HEAD(nfsdontlisthead, nfsdontlist);
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/*
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* List head for nfsusrgrp.
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*/
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TAILQ_HEAD(nfsuserhashhead, nfsusrgrp);
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#define NFSCLIENTHASH(id) \
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(&nfsclienthash[(id).lval[1] % nfsrv_clienthashsize])
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#define NFSSTATEHASH(clp, id) \
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(&((clp)->lc_stateid[(id).other[2] % nfsrv_statehashsize]))
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#define NFSUSERHASH(id) \
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(&nfsuserhash[(id) % nfsrv_lughashsize])
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#define NFSUSERNAMEHASH(p, l) \
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(&nfsusernamehash[((l)>=4?(*(p)+*((p)+1)+*((p)+2)+*((p)+3)):*(p)) \
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% nfsrv_lughashsize])
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#define NFSGROUPHASH(id) \
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(&nfsgrouphash[(id) % nfsrv_lughashsize])
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#define NFSGROUPNAMEHASH(p, l) \
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(&nfsgroupnamehash[((l)>=4?(*(p)+*((p)+1)+*((p)+2)+*((p)+3)):*(p)) \
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% nfsrv_lughashsize])
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struct nfssessionhash {
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struct mtx mtx;
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struct nfssessionhashhead list;
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};
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#define NFSSESSIONHASH(f) \
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(&nfssessionhash[nfsrv_hashsessionid(f) % nfsrv_sessionhashsize])
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struct nfslayouthash {
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struct mtx mtx;
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struct nfslayouthead list;
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};
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#define NFSLAYOUTHASH(f) \
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(&nfslayouthash[nfsrv_hashfh(f) % nfsrv_layouthashsize])
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/*
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* Client server structure for V4. It is doubly linked into two lists.
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* The first is a hash table based on the clientid and the second is a
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* list of all clients maintained in LRU order.
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* The actual size malloc'd is large enough to accommodate the id string.
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*/
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struct nfsclient {
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LIST_ENTRY(nfsclient) lc_hash; /* Clientid hash list */
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struct nfsstatehead *lc_stateid; /* Stateid hash */
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struct nfsstatehead lc_open; /* Open owner list */
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struct nfsstatehead lc_deleg; /* Delegations */
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struct nfsstatehead lc_olddeleg; /* and old delegations */
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struct nfssessionhead lc_session; /* List of NFSv4.1 sessions */
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time_t lc_expiry; /* Expiry time (sec) */
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time_t lc_delegtime; /* Old deleg expiry (sec) */
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nfsquad_t lc_clientid; /* 64 bit clientid */
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nfsquad_t lc_confirm; /* 64 bit confirm value */
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u_int32_t lc_program; /* RPC Program # */
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u_int32_t lc_callback; /* Callback id */
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u_int32_t lc_stateindex; /* Current state index# */
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u_int32_t lc_statemaxindex; /* Max state index# */
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u_int32_t lc_cbref; /* Cnt of callbacks */
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uid_t lc_uid; /* User credential */
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gid_t lc_gid;
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u_int16_t lc_idlen; /* Client ID and len */
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u_int16_t lc_namelen; /* plus GSS principal and len */
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u_char *lc_name;
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struct nfssockreq lc_req; /* Callback info */
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u_int32_t lc_flags; /* LCL_ flag bits */
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u_char lc_verf[NFSX_VERF]; /* client verifier */
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u_char lc_id[1]; /* Malloc'd correct size */
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};
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#define CLOPS_CONFIRM 0x0001
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#define CLOPS_RENEW 0x0002
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#define CLOPS_RENEWOP 0x0004
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/*
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* Structure for NFSv4.1 Layouts.
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* Malloc'd to correct size for the lay_xdr.
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*/
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struct nfslayout {
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TAILQ_ENTRY(nfslayout) lay_list;
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nfsv4stateid_t lay_stateid;
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nfsquad_t lay_clientid;
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fhandle_t lay_fh;
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char lay_deviceid[NFSX_V4DEVICEID];
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fsid_t lay_fsid;
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uint32_t lay_layoutlen;
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uint16_t lay_mirrorcnt;
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uint16_t lay_trycnt;
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uint16_t lay_type;
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uint16_t lay_flags;
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uint32_t lay_xdr[0];
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};
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/* Flags for lay_flags. */
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#define NFSLAY_READ 0x0001
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#define NFSLAY_RW 0x0002
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#define NFSLAY_RECALL 0x0004
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#define NFSLAY_RETURNED 0x0008
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#define NFSLAY_CALLB 0x0010
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#define NFSLAY_NOSPC 0x0020
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/*
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* Structure for an NFSv4.1 session.
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* Locking rules for this structure.
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* To add/delete one of these structures from the lists, you must lock
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* both: NFSLOCKSTATE() and NFSLOCKSESSION(session hashhead) in that order.
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* To traverse the lists looking for one of these, you must hold one
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* of these two locks.
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* The exception is if the thread holds the exclusive root sleep lock.
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* In this case, all other nfsd threads are blocked, so locking the
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* mutexes isn't required.
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* When manipulating sess_refcnt, NFSLOCKSTATE() must be locked.
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* When manipulating the fields withinsess_cbsess except nfsess_xprt,
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* sess_cbsess.nfsess_mtx must be locked.
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* When manipulating sess_slots and sess_cbsess.nfsess_xprt,
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* NFSLOCKSESSION(session hashhead) must be locked.
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*/
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struct nfsdsession {
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uint64_t sess_refcnt; /* Reference count. */
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LIST_ENTRY(nfsdsession) sess_hash; /* Hash list of sessions. */
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LIST_ENTRY(nfsdsession) sess_list; /* List of client sessions. */
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struct nfsslot sess_slots[NFSV4_SLOTS];
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struct nfsclient *sess_clp; /* Associated clientid. */
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uint32_t sess_crflags;
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uint32_t sess_cbprogram;
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uint32_t sess_maxreq;
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uint32_t sess_maxresp;
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uint32_t sess_maxrespcached;
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uint32_t sess_maxops;
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uint32_t sess_maxslots;
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uint32_t sess_cbmaxreq;
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uint32_t sess_cbmaxresp;
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uint32_t sess_cbmaxrespcached;
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uint32_t sess_cbmaxops;
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uint8_t sess_sessionid[NFSX_V4SESSIONID];
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struct nfsclsession sess_cbsess; /* Callback session. */
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};
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/*
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* Nfs state structure. I couldn't resist overloading this one, since
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* it makes cleanup, etc. simpler. These structures are used in four ways:
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* - open_owner structures chained off of nfsclient
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* - open file structures chained off an open_owner structure
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* - lock_owner structures chained off an open file structure
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* - delegated file structures chained off of nfsclient and nfslockfile
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* - the ls_list field is used for the chain it is in
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* - the ls_head structure is used to chain off the sibling structure
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* (it is a union between an nfsstate and nfslock structure head)
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* If it is a lockowner stateid, nfslock structures hang off it.
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* For the open file and lockowner cases, it is in the hash table in
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* nfsclient for stateid.
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*/
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struct nfsstate {
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LIST_ENTRY(nfsstate) ls_hash; /* Hash list entry */
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LIST_ENTRY(nfsstate) ls_list; /* List of opens/delegs */
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LIST_ENTRY(nfsstate) ls_file; /* Opens/Delegs for a file */
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union {
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struct nfsstatehead open; /* Opens list */
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struct nfslockhead lock; /* Locks list */
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} ls_head;
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nfsv4stateid_t ls_stateid; /* The state id */
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u_int32_t ls_seq; /* seq id */
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uid_t ls_uid; /* uid of locker */
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u_int32_t ls_flags; /* Type of lock, etc. */
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union {
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struct nfsstate *openowner; /* Open only */
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u_int32_t opentolockseq; /* Lock call only */
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u_int32_t noopens; /* Openowner only */
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struct {
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u_quad_t filerev; /* Delegations only */
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time_t expiry;
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time_t limit;
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u_int64_t compref;
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time_t last;
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} deleg;
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} ls_un;
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struct nfslockfile *ls_lfp; /* Back pointer */
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struct nfsrvcache *ls_op; /* Op cache reference */
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struct nfsclient *ls_clp; /* Back pointer */
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u_short ls_ownerlen; /* Length of ls_owner */
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u_char ls_owner[1]; /* malloc'd the correct size */
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};
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#define ls_lock ls_head.lock
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#define ls_open ls_head.open
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#define ls_opentolockseq ls_un.opentolockseq
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#define ls_openowner ls_un.openowner
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#define ls_openstp ls_un.openowner
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#define ls_noopens ls_un.noopens
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#define ls_filerev ls_un.deleg.filerev
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#define ls_delegtime ls_un.deleg.expiry
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#define ls_delegtimelimit ls_un.deleg.limit
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#define ls_compref ls_un.deleg.compref
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#define ls_lastrecall ls_un.deleg.last
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/*
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* Nfs lock structure.
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* This structure is chained off of the nfsstate (the lockowner) and
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* nfslockfile (the file) structures, for the file and owner it
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* refers to. It holds flags and a byte range.
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* It also has back pointers to the associated lock_owner and lockfile.
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*/
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struct nfslock {
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LIST_ENTRY(nfslock) lo_lckowner;
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LIST_ENTRY(nfslock) lo_lckfile;
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struct nfsstate *lo_stp;
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struct nfslockfile *lo_lfp;
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u_int64_t lo_first;
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u_int64_t lo_end;
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u_int32_t lo_flags;
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};
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/*
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* Structure used to return a conflicting lock. (Must be large
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* enough for the largest lock owner we can have.)
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*/
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struct nfslockconflict {
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nfsquad_t cl_clientid;
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u_int64_t cl_first;
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u_int64_t cl_end;
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u_int32_t cl_flags;
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u_short cl_ownerlen;
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u_char cl_owner[NFSV4_OPAQUELIMIT];
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};
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/*
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* This structure is used to keep track of local locks that might need
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* to be rolled back.
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*/
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struct nfsrollback {
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LIST_ENTRY(nfsrollback) rlck_list;
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uint64_t rlck_first;
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uint64_t rlck_end;
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int rlck_type;
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};
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/*
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* This structure refers to a file for which lock(s) and/or open(s) exist.
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* Searched via hash table on file handle or found via the back pointer from an
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* open or lock owner.
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*/
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struct nfslockfile {
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LIST_HEAD(, nfsstate) lf_open; /* Open list */
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LIST_HEAD(, nfsstate) lf_deleg; /* Delegation list */
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LIST_HEAD(, nfslock) lf_lock; /* Lock list */
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LIST_HEAD(, nfslock) lf_locallock; /* Local lock list */
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LIST_HEAD(, nfsrollback) lf_rollback; /* Local lock rollback list */
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LIST_ENTRY(nfslockfile) lf_hash; /* Hash list entry */
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fhandle_t lf_fh; /* The file handle */
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struct nfsv4lock lf_locallock_lck; /* serialize local locking */
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int lf_usecount; /* Ref count for locking */
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};
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/*
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* This structure is malloc'd an chained off hash lists for user/group
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* names.
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*/
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struct nfsusrgrp {
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TAILQ_ENTRY(nfsusrgrp) lug_numhash; /* Hash by id# */
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TAILQ_ENTRY(nfsusrgrp) lug_namehash; /* and by name */
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time_t lug_expiry; /* Expiry time in sec */
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union {
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uid_t un_uid; /* id# */
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gid_t un_gid;
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} lug_un;
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struct ucred *lug_cred; /* Cred. with groups list */
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int lug_namelen; /* Name length */
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u_char lug_name[1]; /* malloc'd correct length */
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};
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#define lug_uid lug_un.un_uid
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#define lug_gid lug_un.un_gid
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/*
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* These structures are used for the stable storage restart stuff.
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*/
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/*
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* Record at beginning of file.
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*/
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struct nfsf_rec {
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u_int32_t lease; /* Lease duration */
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u_int32_t numboots; /* Number of boottimes */
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};
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void nfsrv_cleanclient(struct nfsclient *, NFSPROC_T *);
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void nfsrv_freedeleglist(struct nfsstatehead *);
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/*
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* This structure is used to create the list of device info entries for
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* a GetDeviceInfo operation and stores the DS server info.
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* The nfsdev_addrandhost field has the fully qualified host domain name
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* followed by the network address in XDR.
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* It is allocated with nfsrv_dsdirsize nfsdev_dsdir[] entries.
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*/
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struct nfsdevice {
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TAILQ_ENTRY(nfsdevice) nfsdev_list;
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vnode_t nfsdev_dvp;
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struct nfsmount *nfsdev_nmp;
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char nfsdev_deviceid[NFSX_V4DEVICEID];
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uint16_t nfsdev_hostnamelen;
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uint16_t nfsdev_fileaddrlen;
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uint16_t nfsdev_flexaddrlen;
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uint16_t nfsdev_mdsisset;
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char *nfsdev_fileaddr;
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char *nfsdev_flexaddr;
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char *nfsdev_host;
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fsid_t nfsdev_mdsfsid;
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uint32_t nfsdev_nextdir;
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bool nfsdev_nospc;
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vnode_t nfsdev_dsdir[0];
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};
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/*
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* This structure holds the va_size, va_filerev, va_atime, va_mtime and
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* va_bytes for the DS file and is stored in the metadata file's extended
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* attribute pnfsd.dsattr.
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* opnfsdsattr was missing the va_bytes field and, as such, it was updated.
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*/
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struct opnfsdsattr {
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uint64_t dsa_filerev;
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uint64_t dsa_size;
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struct timespec dsa_atime;
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struct timespec dsa_mtime;
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};
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struct pnfsdsattr {
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uint64_t dsa_filerev;
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uint64_t dsa_size;
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struct timespec dsa_atime;
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struct timespec dsa_mtime;
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uint64_t dsa_bytes;
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};
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/*
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* This structure is a list element for a list the pNFS server uses to
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* mark that the recovery of a mirror file is in progress.
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*/
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struct nfsdontlist {
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LIST_ENTRY(nfsdontlist) nfsmr_list;
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uint32_t nfsmr_flags;
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fhandle_t nfsmr_fh;
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};
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/* nfsmr_flags bits. */
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#define NFSMR_DONTLAYOUT 0x00000001
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#endif /* defined(_KERNEL) || defined(KERNEL) */
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/*
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* This structure holds the information about the DS file and is stored
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* in the metadata file's extended attribute called pnfsd.dsfile.
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*/
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#define PNFS_FILENAME_LEN (2 * sizeof(fhandle_t))
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struct pnfsdsfile {
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fhandle_t dsf_fh;
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uint32_t dsf_dir;
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union {
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struct sockaddr_in sin;
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struct sockaddr_in6 sin6;
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} dsf_nam;
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char dsf_filename[PNFS_FILENAME_LEN + 1];
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};
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#define dsf_sin dsf_nam.sin
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#define dsf_sin6 dsf_nam.sin6
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#endif /* _NFS_NFSRVSTATE_H_ */
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