freebsd-dev/sys/nfs/nfs.h

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/*
* Copyright (c) 1989, 1993
* The Regents of the University of California. All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Rick Macklem at The University of Guelph.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS 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 REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)nfs.h 8.1 (Berkeley) 6/10/93
* $Id: nfs.h,v 1.8 1994/11/02 00:11:00 wollman Exp $
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*/
#ifndef _NFS_NFS_H_
#define _NFS_NFS_H_
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/*
* Tunable constants for nfs
*/
#define NFS_MAXIOVEC 34
#define NFS_HZ 25 /* Ticks per second for NFS timeouts */
#define NFS_TIMEO (1*NFS_HZ) /* Default timeout = 1 second */
#define NFS_MINTIMEO (1*NFS_HZ) /* Min timeout to use */
#define NFS_MAXTIMEO (60*NFS_HZ) /* Max timeout to backoff to */
#define NFS_MINIDEMTIMEO (5*NFS_HZ) /* Min timeout for non-idempotent ops*/
#define NFS_MAXREXMIT 100 /* Stop counting after this many */
#define NFS_MAXWINDOW 1024 /* Max number of outstanding requests */
#define NFS_RETRANS 10 /* Num of retrans for soft mounts */
#define NFS_MAXGRPS 16 /* Max. size of groups list */
#ifndef NFS_MINATTRTIMO
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#define NFS_MINATTRTIMO 5 /* Attribute cache timeout in sec */
#endif
#ifndef NFS_MAXATTRTIMO
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#define NFS_MAXATTRTIMO 60
#endif
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#define NFS_WSIZE 8192 /* Def. write data size <= 8192 */
#define NFS_RSIZE 8192 /* Def. read data size <= 8192 */
#define NFS_DEFRAHEAD 1 /* Def. read ahead # blocks */
#define NFS_MAXRAHEAD 4 /* Max. read ahead # blocks */
#define NFS_MAXREADDIR NFS_MAXDATA /* Max. size of directory read */
#define NFS_MAXUIDHASH 64 /* Max. # of hashed uid entries/mp */
#define NFS_MAXASYNCDAEMON 20 /* Max. number async_daemons runable */
#define NFS_DIRBLKSIZ 1024 /* Size of an NFS directory block */
#define NMOD(a) ((a) % nfs_asyncdaemons)
/*
* Set the attribute timeout based on how recently the file has been modified.
*/
#define NFS_ATTRTIMEO(np) \
((((np)->n_flag & NMODIFIED) || \
(time.tv_sec - (np)->n_mtime) / 10 < NFS_MINATTRTIMO) ? NFS_MINATTRTIMO : \
((time.tv_sec - (np)->n_mtime) / 10 > NFS_MAXATTRTIMO ? NFS_MAXATTRTIMO : \
(time.tv_sec - (np)->n_mtime) / 10))
/*
* Structures for the nfssvc(2) syscall. Not that anyone but nfsd and mount_nfs
* should ever try and use it.
*/
struct nfsd_args {
int sock; /* Socket to serve */
caddr_t name; /* Client address for connection based sockets */
int namelen; /* Length of name */
};
struct nfsd_srvargs {
struct nfsd *nsd_nfsd; /* Pointer to in kernel nfsd struct */
uid_t nsd_uid; /* Effective uid mapped to cred */
u_long nsd_haddr; /* Ip address of client */
struct ucred nsd_cr; /* Cred. uid maps to */
int nsd_authlen; /* Length of auth string (ret) */
char *nsd_authstr; /* Auth string (ret) */
};
struct nfsd_cargs {
char *ncd_dirp; /* Mount dir path */
uid_t ncd_authuid; /* Effective uid */
int ncd_authtype; /* Type of authenticator */
int ncd_authlen; /* Length of authenticator string */
char *ncd_authstr; /* Authenticator string */
};
/*
* Stats structure
*/
struct nfsstats {
int attrcache_hits;
int attrcache_misses;
int lookupcache_hits;
int lookupcache_misses;
int direofcache_hits;
int direofcache_misses;
int biocache_reads;
int read_bios;
int read_physios;
int biocache_writes;
int write_bios;
int write_physios;
int biocache_readlinks;
int readlink_bios;
int biocache_readdirs;
int readdir_bios;
int rpccnt[NFS_NPROCS];
int rpcretries;
int srvrpccnt[NFS_NPROCS];
int srvrpc_errs;
int srv_errs;
int rpcrequests;
int rpctimeouts;
int rpcunexpected;
int rpcinvalid;
int srvcache_inproghits;
int srvcache_idemdonehits;
int srvcache_nonidemdonehits;
int srvcache_misses;
int srvnqnfs_leases;
int srvnqnfs_maxleases;
int srvnqnfs_getleases;
};
/*
* Flags for nfssvc() system call.
*/
#define NFSSVC_BIOD 0x002
#define NFSSVC_NFSD 0x004
#define NFSSVC_ADDSOCK 0x008
#define NFSSVC_AUTHIN 0x010
#define NFSSVC_GOTAUTH 0x040
#define NFSSVC_AUTHINFAIL 0x080
#define NFSSVC_MNTD 0x100
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/*
* fs.nfs sysctl(3) identifiers
*/
#define NFS_NFSSTATS 1 /* struct: struct nfsstats */
#define FS_NFS_NAMES { \
{ 0, 0 }, \
{ "nfsstats", CTLTYPE_STRUCT }, \
}
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/*
* The set of signals the interrupt an I/O in progress for NFSMNT_INT mounts.
* What should be in this set is open to debate, but I believe that since
* I/O system calls on ufs are never interrupted by signals the set should
* be minimal. My reasoning is that many current programs that use signals
* such as SIGALRM will not expect file I/O system calls to be interrupted
* by them and break.
*/
#ifdef KERNEL
struct uio; struct buf; struct vattr; struct nameidata; /* XXX */
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#define NFSINT_SIGMASK (sigmask(SIGINT)|sigmask(SIGTERM)|sigmask(SIGKILL)| \
sigmask(SIGHUP)|sigmask(SIGQUIT))
/*
* Socket errors ignored for connectionless sockets??
* For now, ignore them all
*/
#define NFSIGNORE_SOERROR(s, e) \
((e) != EINTR && (e) != ERESTART && (e) != EWOULDBLOCK && \
((s) & PR_CONNREQUIRED) == 0)
/*
* Nfs outstanding request list element
*/
struct nfsreq {
TAILQ_ENTRY(nfsreq) r_chain;
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struct mbuf *r_mreq;
struct mbuf *r_mrep;
struct mbuf *r_md;
caddr_t r_dpos;
struct nfsmount *r_nmp;
struct vnode *r_vp;
u_long r_xid;
int r_flags; /* flags on request, see below */
int r_retry; /* max retransmission count */
int r_rexmit; /* current retrans count */
int r_timer; /* tick counter on reply */
int r_procnum; /* NFS procedure number */
int r_rtt; /* RTT for rpc */
struct proc *r_procp; /* Proc that did I/O system call */
};
/*
* Queue head for nfsreq's
*/
TAILQ_HEAD(, nfsreq) nfs_reqq;
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/* Flag values for r_flags */
#define R_TIMING 0x01 /* timing request (in mntp) */
#define R_SENT 0x02 /* request has been sent */
#define R_SOFTTERM 0x04 /* soft mnt, too many retries */
#define R_INTR 0x08 /* intr mnt, signal pending */
#define R_SOCKERR 0x10 /* Fatal error on socket */
#define R_TPRINTFMSG 0x20 /* Did a tprintf msg. */
#define R_MUSTRESEND 0x40 /* Must resend request */
#define R_GETONEREP 0x80 /* Probe for one reply only */
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extern struct nfsstats nfsstats;
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/*
* A list of nfssvc_sock structures is maintained with all the sockets
* that require service by the nfsd.
* The nfsuid structs hang off of the nfssvc_sock structs in both lru
* and uid hash lists.
*/
#define NUIDHASHSIZ 32
#define NUIDHASH(sock, uid) \
(&(sock)->ns_uidhashtbl[(uid) & (sock)->ns_uidhash])
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/*
* Network address hash list element
*/
union nethostaddr {
u_long had_inetaddr;
struct mbuf *had_nam;
};
struct nfsuid {
TAILQ_ENTRY(nfsuid) nu_lru; /* LRU chain */
LIST_ENTRY(nfsuid) nu_hash; /* Hash list */
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int nu_flag; /* Flags */
uid_t nu_uid; /* Uid mapped by this entry */
union nethostaddr nu_haddr; /* Host addr. for dgram sockets */
struct ucred nu_cr; /* Cred uid mapped to */
};
#define nu_inetaddr nu_haddr.had_inetaddr
#define nu_nam nu_haddr.had_nam
/* Bits for nu_flag */
#define NU_INETADDR 0x1
struct nfssvc_sock {
TAILQ_ENTRY(nfssvc_sock) ns_chain; /* List of all nfssvc_sock's */
TAILQ_HEAD(, nfsuid) ns_uidlruhead;
LIST_HEAD(, nfsuid) *ns_uidhashtbl;
u_long ns_uidhash;
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int ns_flag;
u_long ns_sref;
struct file *ns_fp;
struct socket *ns_so;
int ns_solock;
struct mbuf *ns_nam;
int ns_cc;
struct mbuf *ns_raw;
struct mbuf *ns_rawend;
int ns_reclen;
struct mbuf *ns_rec;
struct mbuf *ns_recend;
int ns_numuids;
};
/* Bits for "ns_flag" */
#define SLP_VALID 0x01
#define SLP_DOREC 0x02
#define SLP_NEEDQ 0x04
#define SLP_DISCONN 0x08
#define SLP_GETSTREAM 0x10
#define SLP_ALLFLAGS 0xff
TAILQ_HEAD(, nfssvc_sock) nfssvc_sockhead;
int nfssvc_sockhead_flag;
#define SLP_INIT 0x01
#define SLP_WANTINIT 0x02
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/*
* One of these structures is allocated for each nfsd.
*/
struct nfsd {
TAILQ_ENTRY(nfsd) nd_chain; /* List of all nfsd's */
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int nd_flag; /* NFSD_ flags */
struct nfssvc_sock *nd_slp; /* Current socket */
struct mbuf *nd_nam; /* Client addr for datagram req. */
struct mbuf *nd_mrep; /* Req. mbuf list */
struct mbuf *nd_md;
caddr_t nd_dpos; /* Position in list */
int nd_procnum; /* RPC procedure number */
u_long nd_retxid; /* RPC xid */
int nd_repstat; /* Reply status value */
struct ucred nd_cr; /* Credentials for req. */
int nd_nqlflag; /* Leasing flag */
u_long nd_duration; /* Lease duration */
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int nd_authlen; /* Authenticator len */
u_char nd_authstr[RPCAUTH_MAXSIZ]; /* Authenticator data */
struct proc *nd_procp; /* Proc ptr */
};
/* Bits for "nd_flag" */
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#define NFSD_WAITING 0x01
#define NFSD_REQINPROG 0x02
#define NFSD_NEEDAUTH 0x04
#define NFSD_AUTHFAIL 0x08
TAILQ_HEAD(, nfsd) nfsd_head;
int nfsd_head_flag;
#define NFSD_CHECKSLP 0x01
int nfs_reply __P((struct nfsreq *));
int nfs_getreq __P((struct nfsd *,int));
int nfs_send __P((struct socket *,struct mbuf *,struct mbuf *,struct nfsreq *));
int nfs_rephead __P((int,struct nfsd *,int,int,u_quad_t *,struct mbuf **,struct mbuf **,caddr_t *));
int nfs_sndlock __P((int *,struct nfsreq *));
int nfs_disct __P((struct mbuf **,caddr_t *,int,int,caddr_t *));
int nfs_vinvalbuf __P((struct vnode *,int,struct ucred *,struct proc *,int));
int nfs_readrpc __P((struct vnode *,struct uio *,struct ucred *));
int nfs_writerpc __P((struct vnode *,struct uio *,struct ucred *,int));
int nfs_readdirrpc __P((register struct vnode *,struct uio *,struct ucred *));
int nfs_asyncio __P((struct buf *,struct ucred *));
int nfs_doio __P((struct buf *,struct ucred *,struct proc *));
int nfs_readlinkrpc __P((struct vnode *,struct uio *,struct ucred *));
int nfs_sigintr __P((struct nfsmount *,struct nfsreq *r,struct proc *));
int nfs_readdirlookrpc __P((struct vnode *,register struct uio *,struct ucred *));
int nfsm_disct __P((struct mbuf **,caddr_t *,int,int,caddr_t *));
int nfsrv_fhtovp __P((fhandle_t *,int,struct vnode **,struct ucred *,struct nfssvc_sock *,struct mbuf *,int *));
int nfsrv_access __P((struct vnode *,int,struct ucred *,int,struct proc *));
int netaddr_match __P((int,union nethostaddr *,struct mbuf *));
int nfs_request __P((struct vnode *,struct mbuf *,int,struct proc *,struct ucred *,struct mbuf **,struct mbuf **,caddr_t *));
int nfs_loadattrcache __P((struct vnode **,struct mbuf **,caddr_t *,struct vattr *));
int nfs_namei __P((struct nameidata *,fhandle_t *,int,struct nfssvc_sock *,struct mbuf *,struct mbuf **,caddr_t *,struct proc *));
void nfsm_adj __P((struct mbuf *,int,int));
int nfsm_mbuftouio __P((struct mbuf **,struct uio *,int,caddr_t *));
void nfsrv_initcache __P((void));
int nfs_rcvlock __P((struct nfsreq *));
int nfs_getauth __P((struct nfsmount *,struct nfsreq *,struct ucred *,int *,char **,int *));
int nfs_msg __P((struct proc *,char *,char *));
int nfs_adv __P((struct mbuf **,caddr_t *,int,int));
int nfsrv_getstream __P((struct nfssvc_sock *,int));
void nfs_nhinit __P((void));
void nfs_timer __P((void*));
struct nfsnodehashhead * nfs_hash __P((nfsv2fh_t *));
int nfssvc_iod __P((struct proc *));
int nfssvc_nfsd __P((struct nfsd_srvargs *,caddr_t,struct proc *));
int nfssvc_addsock __P((struct file *,struct mbuf *));
int nfsrv_dorec __P((struct nfssvc_sock *,struct nfsd *));
int nfsrv_getcache __P((struct mbuf *,struct nfsd *,struct mbuf **));
void nfsrv_updatecache __P((struct mbuf *,struct nfsd *,int,struct mbuf *));
int mountnfs __P((struct nfs_args *,struct mount *,struct mbuf *,char *,char *,struct vnode **));
int nfs_connect __P((struct nfsmount *,struct nfsreq *));
int nfs_getattrcache __P((struct vnode *,struct vattr *));
int nfsm_strtmbuf __P((struct mbuf **,char **,char *,long));
int nfs_bioread __P((struct vnode *,struct uio *,int,struct ucred *));
int nfsm_uiotombuf __P((struct uio *,struct mbuf **,int,caddr_t *));
void nfsrv_init __P((int));
int nfsrv_vput __P(( struct vnode * ));
int nfsrv_vrele __P(( struct vnode * ));
int nfsrv_vmio __P(( struct vnode * ));
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#endif /* KERNEL */
#endif