/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1983, 1984, 1985, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ #ifndef _NFS_RNODE_H #define _NFS_RNODE_H #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #ifdef __cplusplus extern "C" { #endif typedef enum nfs_access_type { NFS_ACCESS_UNKNOWN, NFS_ACCESS_ALLOWED, NFS_ACCESS_DENIED } nfs_access_type_t; typedef struct acache_hash { struct acache *next; /* next and prev must be first */ struct acache *prev; krwlock_t lock; } acache_hash_t; typedef struct acache { struct acache *next; /* next and prev must be first */ struct acache *prev; uint32_t known; uint32_t allowed; struct rnode *rnode; cred_t *cred; struct acache *list; struct acache_hash *hashq; } acache_t; #define NFS_FHANDLE_LEN 64 typedef struct nfs_fhandle { int fh_len; char fh_buf[NFS_FHANDLE_LEN]; } nfs_fhandle; typedef struct rddir_cache { lloff_t _cookie; /* cookie used to find this cache entry */ lloff_t _ncookie; /* cookie used to find the next cache entry */ char *entries; /* buffer containing dirent entries */ int eof; /* EOF reached after this request */ int entlen; /* size of dirent entries in buf */ int buflen; /* size of the buffer used to store entries */ int flags; /* control flags, see below */ kcondvar_t cv; /* cv for blocking */ int error; /* error from RPC operation */ kmutex_t lock; uint_t count; /* reference count */ avl_node_t tree; /* AVL tree links */ } rddir_cache; #define nfs_cookie _cookie._p._l #define nfs_ncookie _ncookie._p._l #define nfs3_cookie _cookie._f #define nfs3_ncookie _ncookie._f #define RDDIR 0x1 /* readdir operation in progress */ #define RDDIRWAIT 0x2 /* waiting on readdir in progress */ #define RDDIRREQ 0x4 /* a new readdir is required */ #define RDDIRCACHED 0x8 /* entry is in the cache */ #define HAVE_RDDIR_CACHE(rp) (avl_numnodes(&(rp)->r_dir) > 0) typedef struct symlink_cache { char *contents; /* contents of the symbolic link */ int len; /* length of the contents */ int size; /* size of the allocated buffer */ } symlink_cache; typedef struct commit { page_t *c_pages; /* list of pages to commit */ offset3 c_commbase; /* base offset to do commit from */ count3 c_commlen; /* len to commit */ kcondvar_t c_cv; /* condvar for waiting for commit */ } commit_t; /* * The various values for the commit states. These are stored in * the p_fsdata byte in the page struct. */ #define C_NOCOMMIT 0 /* no commit is required */ #define C_COMMIT 1 /* a commit is required so do it now */ #define C_DELAYCOMMIT 2 /* a commit is required, but can be delayed */ /* * The lock manager holds state making it possible for the client * and server to be out of sync. For example, if the response from * the server granting a lock request is lost, the server will think * the lock is granted and the client will think the lock is lost. * To deal with this, a list of processes for which the client is * not sure if the server holds a lock is attached to the rnode. * When such a process closes the rnode, an unlock request is sent * to the server to unlock the entire file. * * The list is kept as a singularly linked NULL terminated list. * Because it is only added to under extreme error conditions, the * list shouldn't get very big. DEBUG kernels print a console warning * when the number of entries on a list go beyond nfs_lmpl_high_water * an arbitrary number defined in nfs_add_locking_id() */ #define RLMPL_PID 1 #define RLMPL_OWNER 2 typedef struct lock_manager_pid_list { int lmpl_type; pid_t lmpl_pid; union { pid_t _pid; struct { int len; char *owner; } _own; } un; struct lock_manager_pid_list *lmpl_next; } lmpl_t; #define lmpl_opid un._pid #define lmpl_own_len un._own.len #define lmpl_owner un._own.owner /* * A homegrown reader/writer lock implementation. It addresses * two requirements not addressed by the system primitives. They * are that the `enter" operation is optionally interruptible and * that that they can be re`enter'ed by writers without deadlock. */ typedef struct nfs_rwlock { int count; int waiters; kthread_t *owner; kmutex_t lock; kcondvar_t cv; } nfs_rwlock_t; /* * The format of the hash bucket used to lookup rnodes from a file handle. */ typedef struct rhashq { struct rnode *r_hashf; struct rnode *r_hashb; krwlock_t r_lock; } rhashq_t; /* * Remote file information structure. * * The rnode is the "inode" for remote files. It contains all the * information necessary to handle remote file on the client side. * * Note on file sizes: we keep two file sizes in the rnode: the size * according to the client (r_size) and the size according to the server * (r_attr.va_size). They can differ because we modify r_size during a * write system call (nfs_rdwr), before the write request goes over the * wire (before the file is actually modified on the server). If an OTW * request occurs before the cached data is written to the server the file * size returned from the server (r_attr.va_size) may not match r_size. * r_size is the one we use, in general. r_attr.va_size is only used to * determine whether or not our cached data is valid. * * Each rnode has 3 locks associated with it (not including the rnode * hash table and free list locks): * * r_rwlock: Serializes nfs_write and nfs_setattr requests * and allows nfs_read requests to proceed in parallel. * Serializes reads/updates to directories. * * r_lkserlock: Serializes lock requests with map, write, and * readahead operations. * * r_statelock: Protects all fields in the rnode except for * those listed below. This lock is intented * to be held for relatively short periods of * time (not accross entire putpage operations, * for example). * * The following members are protected by the mutex rpfreelist_lock: * r_freef * r_freeb * * The following members are protected by the hash bucket rwlock: * r_hashf * r_hashb * * Note: r_modaddr is only accessed when the r_statelock mutex is held. * Its value is also controlled via r_rwlock. It is assumed that * there will be only 1 writer active at a time, so it safe to * set r_modaddr and release r_statelock as long as the r_rwlock * writer lock is held. * * 64-bit offsets: the code formerly assumed that atomic reads of * r_size were safe and reliable; on 32-bit architectures, this is * not true since an intervening bus cycle from another processor * could update half of the size field. The r_statelock must now * be held whenever any kind of access of r_size is made. * * Lock ordering: * r_rwlock > r_lkserlock > r_statelock */ struct exportinfo; /* defined in nfs/export.h */ struct servinfo; /* defined in nfs/nfs_clnt.h */ struct failinfo; /* defined in nfs/nfs_clnt.h */ struct mntinfo; /* defined in nfs/nfs_clnt.h */ #ifdef _KERNEL typedef struct rnode { /* the hash fields must be first to match the rhashq_t */ struct rnode *r_hashf; /* hash queue forward pointer */ struct rnode *r_hashb; /* hash queue back pointer */ struct rnode *r_freef; /* free list forward pointer */ struct rnode *r_freeb; /* free list back pointer */ rhashq_t *r_hashq; /* pointer to the hash bucket */ vnode_t *r_vnode; /* vnode for remote file */ nfs_rwlock_t r_rwlock; /* serializes write/setattr requests */ nfs_rwlock_t r_lkserlock; /* serialize lock with other ops */ kmutex_t r_statelock; /* protects (most of) rnode contents */ nfs_fhandle r_fh; /* file handle */ struct servinfo *r_server; /* current server */ char *r_path; /* path to this rnode */ u_offset_t r_nextr; /* next byte read offset (read-ahead) */ cred_t *r_cred; /* current credentials */ cred_t *r_unlcred; /* unlinked credentials */ char *r_unlname; /* unlinked file name */ vnode_t *r_unldvp; /* parent dir of unlinked file */ len_t r_size; /* client's view of file size */ struct vattr r_attr; /* cached vnode attributes */ hrtime_t r_attrtime; /* time attributes become invalid */ hrtime_t r_mtime; /* client time file last modified */ long r_mapcnt; /* count of mmapped pages */ uint_t r_count; /* # of refs not reflect in v_count */ uint_t r_awcount; /* # of outstanding async write */ uint_t r_gcount; /* getattrs waiting to flush pages */ ushort_t r_flags; /* flags, see below */ short r_error; /* async write error */ kcondvar_t r_cv; /* condvar for blocked threads */ int (*r_putapage) /* address of putapage routine */ (vnode_t *, page_t *, u_offset_t *, size_t *, int, cred_t *); avl_tree_t r_dir; /* cache of readdir responses */ rddir_cache *r_direof; /* pointer to the EOF entry */ symlink_cache r_symlink; /* cached readlink response */ writeverf3 r_verf; /* version 3 write verifier */ u_offset_t r_modaddr; /* address for page in writerp */ commit_t r_commit; /* commit information */ u_offset_t r_truncaddr; /* base for truncate operation */ vsecattr_t *r_secattr; /* cached security attributes (acls) */ cookieverf3 r_cookieverf; /* version 3 readdir cookie verifier */ lmpl_t *r_lmpl; /* pids that may be holding locks */ nfs3_pathconf_info *r_pathconf; /* cached pathconf information */ acache_t *r_acache; /* list of access cache entries */ kthread_t *r_serial; /* id of purging thread */ list_t r_indelmap; /* list of delmap callers */ } rnode_t; #endif /* _KERNEL */ /* * Flags */ #define RREADDIRPLUS 0x1 /* issue a READDIRPLUS instead of READDIR */ #define RDIRTY 0x2 /* dirty pages from write operation */ #define RSTALE 0x4 /* file handle is stale */ #define RMODINPROGRESS 0x8 /* page modification happening */ #define RTRUNCATE 0x10 /* truncating, don't commit */ #define RHAVEVERF 0x20 /* have a write verifier to compare against */ #define RCOMMIT 0x40 /* commit in progress */ #define RCOMMITWAIT 0x80 /* someone is waiting to do a commit */ #define RHASHED 0x100 /* rnode is in hash queues */ #define ROUTOFSPACE 0x200 /* an out of space error has happened */ #define RDIRECTIO 0x400 /* bypass the buffer cache */ #define RLOOKUP 0x800 /* a lookup has been performed */ #define RWRITEATTR 0x1000 /* attributes came from WRITE */ #define RINDNLCPURGE 0x2000 /* in the process of purging DNLC references */ #define RDELMAPLIST 0x4000 /* delmap callers tracking for as callback */ /* * Convert between vnode and rnode */ #define RTOV(rp) ((rp)->r_vnode) #define VTOR(vp) ((rnode_t *)((vp)->v_data)) #define VTOFH(vp) (RTOFH(VTOR(vp))) #define RTOFH(rp) ((fhandle_t *)(&(rp)->r_fh.fh_buf)) #define VTOFH3(vp) (RTOFH3(VTOR(vp))) #define RTOFH3(rp) ((nfs_fh3 *)(&(rp)->r_fh)) #ifdef _KERNEL extern int nfs_async_readahead(vnode_t *, u_offset_t, caddr_t, struct seg *, cred_t *, void (*)(vnode_t *, u_offset_t, caddr_t, struct seg *, cred_t *)); extern int nfs_async_putapage(vnode_t *, page_t *, u_offset_t, size_t, int, cred_t *, int (*)(vnode_t *, page_t *, u_offset_t, size_t, int, cred_t *)); extern int nfs_async_pageio(vnode_t *, page_t *, u_offset_t, size_t, int, cred_t *, int (*)(vnode_t *, page_t *, u_offset_t, size_t, int, cred_t *)); extern void nfs_async_readdir(vnode_t *, rddir_cache *, cred_t *, int (*)(vnode_t *, rddir_cache *, cred_t *)); extern void nfs_async_commit(vnode_t *, page_t *, offset3, count3, cred_t *, void (*)(vnode_t *, page_t *, offset3, count3, cred_t *)); extern void nfs_async_inactive(vnode_t *, cred_t *, void (*)(vnode_t *, cred_t *)); extern int writerp(rnode_t *, caddr_t, int, struct uio *, int); extern int nfs_putpages(vnode_t *, u_offset_t, size_t, int, cred_t *); extern void nfs_invalidate_pages(vnode_t *, u_offset_t, cred_t *); extern int rfs2call(struct mntinfo *, rpcproc_t, xdrproc_t, caddr_t, xdrproc_t, caddr_t, cred_t *, int *, enum nfsstat *, int, struct failinfo *); extern int rfs3call(struct mntinfo *, rpcproc_t, xdrproc_t, caddr_t, xdrproc_t, caddr_t, cred_t *, int *, nfsstat3 *, int, struct failinfo *); extern void nfs_setswaplike(vnode_t *, vattr_t *); extern vnode_t *makenfsnode(fhandle_t *, struct nfsfattr *, struct vfs *, hrtime_t, cred_t *, char *, char *); extern vnode_t *makenfs3node_va(nfs_fh3 *, vattr_t *, struct vfs *, hrtime_t, cred_t *, char *, char *); extern vnode_t *makenfs3node(nfs_fh3 *, fattr3 *, struct vfs *, hrtime_t, cred_t *, char *, char *); extern void rp_addfree(rnode_t *, cred_t *); extern void rp_rmhash(rnode_t *); extern int check_rtable(struct vfs *); extern void destroy_rtable(struct vfs *, cred_t *); extern void rflush(struct vfs *, cred_t *); extern nfs_access_type_t nfs_access_check(rnode_t *, uint32_t, cred_t *); extern void nfs_access_cache(rnode_t *rp, uint32_t, uint32_t, cred_t *); extern int nfs_access_purge_rp(rnode_t *); extern int nfs_putapage(vnode_t *, page_t *, u_offset_t *, size_t *, int, cred_t *); extern int nfs3_putapage(vnode_t *, page_t *, u_offset_t *, size_t *, int, cred_t *); extern void nfs_printfhandle(nfs_fhandle *); extern void nfs_write_error(vnode_t *, int, cred_t *); extern rddir_cache *rddir_cache_alloc(int); extern void rddir_cache_hold(rddir_cache *); extern void rddir_cache_rele(rddir_cache *); #ifdef DEBUG extern char *rddir_cache_buf_alloc(size_t, int); extern void rddir_cache_buf_free(void *, size_t); #endif extern int nfs_rw_enter_sig(nfs_rwlock_t *, krw_t, int); extern int nfs_rw_tryenter(nfs_rwlock_t *, krw_t); extern void nfs_rw_exit(nfs_rwlock_t *); extern int nfs_rw_lock_held(nfs_rwlock_t *, krw_t); extern void nfs_rw_init(nfs_rwlock_t *, char *, krw_type_t, void *); extern void nfs_rw_destroy(nfs_rwlock_t *); extern int nfs_directio(vnode_t *, int, cred_t *); extern int nfs3_rddir_compar(const void *, const void *); extern int nfs_rddir_compar(const void *, const void *); #endif #ifdef __cplusplus } #endif #endif /* _NFS_RNODE_H */