/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (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 (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_FS_SNODE_H #define _SYS_FS_SNODE_H #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include /* * The snode represents a special file in any filesystem. There is * one snode for each active special file. Filesystems that support * special files use specvp(vp, dev, type, cr) to convert a normal * vnode to a special vnode in the ops lookup() and create(). * * To handle having multiple snodes that represent the same * underlying device vnode without cache aliasing problems, * the s_commonvp is used to point to the "common" vnode used for * caching data. If an snode is created internally by the kernel, * then the s_realvp field is NULL and s_commonvp points to s_vnode. * The other snodes which are created as a result of a lookup of a * device in a file system have s_realvp pointing to the vp which * represents the device in the file system while the s_commonvp points * into the "common" vnode for the device in another snode. */ /* * Include SUNDDI type definitions so that the s_dip tag doesn't urk. */ #include #ifdef __cplusplus extern "C" { #endif struct snode { /* These fields are protected by stable_lock */ struct snode *s_next; /* must be first */ struct vnode *s_vnode; /* vnode associated with this snode */ /* * These fields are initialized once. */ struct vnode *s_realvp; /* vnode for the fs entry (if any) */ struct vnode *s_commonvp; /* common device vnode */ dev_t s_dev; /* device the snode represents */ dev_info_t *s_dip; /* dev_info (common snode only) */ /* * Doesn't always need to be updated atomically because it is a hint. * No lock required. */ u_offset_t s_nextr; /* next byte read offset (read-ahead) */ /* These fields are protected by spec_syncbusy */ struct snode *s_list; /* used for syncing */ /* These fields are protected by s_lock */ struct devplcy *s_plcy; /* device node open policy (cs only) */ u_offset_t s_size; /* block device size in bytes */ ushort_t s_flag; /* flags, see below */ dev_t s_fsid; /* file system identifier */ time_t s_atime; /* time of last access */ time_t s_mtime; /* time of last modification */ time_t s_ctime; /* time of last attributes change */ int s_count; /* count of opened references */ long s_mapcnt; /* count of mappings of pages */ /* The locks themselves */ kmutex_t s_lock; /* protects snode fields */ kcondvar_t s_cv; /* synchronize open/closes */ }; /* flags */ #define SUPD 0x01 /* update device access time */ #define SACC 0x02 /* update device modification time */ #define SCHG 0x04 /* update device change time */ #define SPRIV 0x08 /* file open for private access */ #define SLOFFSET 0x10 /* device takes 64-bit uio offsets */ #define SLOCKED 0x20 /* use to serialize open/closes */ #define SWANT 0x40 /* some process waiting on lock */ #define SANYOFFSET 0x80 /* device takes any uio offset */ #define SCLONE 0x100 /* represents a cloned device */ #define SNEEDCLOSE 0x200 /* needs driver close call */ #define SDIPSET 0x400 /* the vnode has an association with */ /* the driver, even though it may */ /* not currently have an association */ /* with a specific hardware instance */ /* if s_dip is NULL */ #define SSIZEVALID 0x800 /* s_size field is valid */ #define SMUXED 0x1000 /* this snode is a stream that has */ /* been multiplexed */ #define SSELFCLONE 0x2000 /* represents a self cloning device */ #define SNOFLUSH 0x4000 /* do not flush device on fsync */ #ifdef _KERNEL /* * Convert between vnode and snode */ #define VTOS(vp) ((struct snode *)((vp)->v_data)) #define VTOCS(vp) (VTOS(VTOS(vp)->s_commonvp)) #define STOV(sp) ((sp)->s_vnode) /* * Forward declarations */ struct vfssw; struct cred; extern struct vfs spec_vfs; extern struct vfsops spec_vfsops; extern struct kmem_cache *snode_cache; /* * specfs functions */ offset_t spec_maxoffset(struct vnode *); struct vnodeops *spec_getvnodeops(void); struct vnode *specvp(struct vnode *, dev_t, vtype_t, struct cred *); struct vnode *makespecvp(dev_t, vtype_t); struct vnode *other_specvp(struct vnode *); struct vnode *common_specvp(struct vnode *); struct vnode *specfind(dev_t, vtype_t); struct vnode *commonvp(dev_t, vtype_t); struct vnode *makectty(vnode_t *); void sdelete(struct snode *); void smark(struct snode *, int); int specinit(int, char *); int device_close(struct vnode *, int, struct cred *); int spec_putpage(struct vnode *, offset_t, size_t, int, struct cred *); int spec_segmap(dev_t, off_t, struct as *, caddr_t *, off_t, uint_t, uint_t, uint_t, cred_t *); struct vnode *specvp_devfs(struct vnode *, dev_t, vtype_t, struct cred *, dev_info_t *); void spec_assoc_vp_with_devi(struct vnode *, dev_info_t *); dev_info_t *spec_hold_devi_by_vp(struct vnode *); int spec_sync(struct vfs *, short, struct cred *); void spec_snode_walk(int (*callback)(struct snode *, void *), void *); int spec_devi_open_count(struct snode *, dev_info_t **); int spec_is_clone(struct vnode *); int spec_is_selfclone(struct vnode *); /* * UNKNOWN_SIZE: If driver does not support the [Ss]ize or [Nn]blocks property * then the size is assumed to be "infinite". Note that this "infinite" value * may need to be converted to a smaller "infinite" value to avoid EOVERFLOW at * field width conversion locations like the stat(2) and NFS code running * against a special file. Special file code outside specfs may check the * type of the vnode (VCHR|VBLK) and use MAXOFFSET_T directly to detect * UNKNOWN_SIZE. */ #define UNKNOWN_SIZE MAXOFFSET_T /* * SPEC_MAXOFFSET_T: Solaris does not fully support 64-bit offsets for D_64BIT * (SLOFFSET) block drivers on a 32-bit kernels: daddr_t is still a signed * 32-bit quantity - which limits the byte offset to 1TB. This issue goes * beyond a driver needing to convert from daddr_t to diskaddr_t if it sets * D_64BIT. Many of the DDI interfaces which take daddr_t arguments have no * 64-bit counterpart (bioclone, blkflush, bread, bread_common, breada, getblk, * getblk_common). SPEC_MAXOFFSET_T is used by 32-bit kernel code to enforce * this restriction. */ #ifdef _ILP32 #ifdef _LONGLONG_TYPE #define SPEC_MAXOFFSET_T ((1LL << ((NBBY * sizeof (daddr32_t)) + \ DEV_BSHIFT - 1)) - 1) #else /* !defined(_LONGLONG_TYPE) */ #define SPEC_MAXOFFSET_T MAXOFF_T #endif /* _LONGLONG_TYPE */ #endif /* _ILP32 */ /* * Snode lookup stuff. * These routines maintain a table of snodes hashed by dev so * that the snode for an dev can be found if it already exists. * NOTE: STABLESIZE must be a power of 2 for STABLEHASH to work! */ #define STABLESIZE 256 #define STABLEHASH(dev) ((getmajor(dev) + getminor(dev)) & (STABLESIZE - 1)) extern struct snode *stable[]; extern kmutex_t stable_lock; extern kmutex_t spec_syncbusy; /* * Variables used by during asynchronous VOP_PUTPAGE operations. */ extern struct async_reqs *spec_async_reqs; /* async request list */ extern kmutex_t spec_async_lock; /* lock to protect async list */ #endif /* _KERNEL */ #ifdef __cplusplus } #endif #endif /* _SYS_FS_SNODE_H */