/* * Copyright (c) 2000-2016 Apple Computer, Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ /* * Copyright (c) 1995 NeXT Computer, Inc. All Rights Reserved * Copyright (c) 1992, 1993, 1994, 1995 * The Regents of the University of California. 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. * 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. */ /* * NOTICE: This file was modified by SPARTA, Inc. in 2005 to introduce * support for mandatory and extensible security protections. This notice * is included in support of clause 2.2 (b) of the Apple Public License, * Version 2.0. */ /* * Warning: This file is generated automatically. * (Modifications made here may easily be lost!) * * Created by the script: * @(#)vnode_if.sh 8.7 (Berkeley) 5/11/95 */ #ifndef _SYS_VNODE_IF_H_ #define _SYS_VNODE_IF_H_ #include #include #include #include #ifdef BSD_KERNEL_PRIVATE #include #endif #include #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wdocumentation" #ifdef KERNEL extern struct vnodeop_desc vnop_default_desc; extern struct vnodeop_desc vnop_lookup_desc; #ifdef KERNEL_PRIVATE extern struct vnodeop_desc vnop_compound_open_desc; extern struct vnodeop_desc vnop_compound_remove_desc; extern struct vnodeop_desc vnop_compound_rename_desc; extern struct vnodeop_desc vnop_compound_mkdir_desc; extern struct vnodeop_desc vnop_compound_rmdir_desc; #endif /* KERNEL_PRIVATE */ extern struct vnodeop_desc vnop_create_desc; extern struct vnodeop_desc vnop_whiteout_desc; // obsolete extern struct vnodeop_desc vnop_mknod_desc; extern struct vnodeop_desc vnop_open_desc; extern struct vnodeop_desc vnop_close_desc; extern struct vnodeop_desc vnop_access_desc; extern struct vnodeop_desc vnop_getattr_desc; extern struct vnodeop_desc vnop_setattr_desc; extern struct vnodeop_desc vnop_read_desc; extern struct vnodeop_desc vnop_write_desc; extern struct vnodeop_desc vnop_ioctl_desc; extern struct vnodeop_desc vnop_select_desc; extern struct vnodeop_desc vnop_exchange_desc; extern struct vnodeop_desc vnop_revoke_desc; extern struct vnodeop_desc vnop_mmap_check_desc; extern struct vnodeop_desc vnop_mmap_desc; extern struct vnodeop_desc vnop_mnomap_desc; extern struct vnodeop_desc vnop_fsync_desc; extern struct vnodeop_desc vnop_remove_desc; extern struct vnodeop_desc vnop_link_desc; extern struct vnodeop_desc vnop_rename_desc; extern struct vnodeop_desc vnop_renamex_desc; extern struct vnodeop_desc vnop_mkdir_desc; extern struct vnodeop_desc vnop_rmdir_desc; extern struct vnodeop_desc vnop_symlink_desc; extern struct vnodeop_desc vnop_readdir_desc; extern struct vnodeop_desc vnop_readdirattr_desc; extern struct vnodeop_desc vnop_getattrlistbulk_desc; extern struct vnodeop_desc vnop_readlink_desc; extern struct vnodeop_desc vnop_inactive_desc; extern struct vnodeop_desc vnop_reclaim_desc; extern struct vnodeop_desc vnop_print_desc; extern struct vnodeop_desc vnop_pathconf_desc; extern struct vnodeop_desc vnop_advlock_desc; extern struct vnodeop_desc vnop_truncate_desc; extern struct vnodeop_desc vnop_allocate_desc; extern struct vnodeop_desc vnop_pagein_desc; extern struct vnodeop_desc vnop_pageout_desc; extern struct vnodeop_desc vnop_searchfs_desc; extern struct vnodeop_desc vnop_copyfile_desc; extern struct vnodeop_desc vnop_clonefile_desc; extern struct vnodeop_desc vnop_blktooff_desc; extern struct vnodeop_desc vnop_offtoblk_desc; extern struct vnodeop_desc vnop_blockmap_desc; extern struct vnodeop_desc vnop_strategy_desc; extern struct vnodeop_desc vnop_bwrite_desc; #ifdef KERNEL_PRIVATE extern struct vnodeop_desc vnop_verify_desc; #endif #ifdef __APPLE_API_UNSTABLE #if NAMEDSTREAMS extern struct vnodeop_desc vnop_getnamedstream_desc; extern struct vnodeop_desc vnop_makenamedstream_desc; extern struct vnodeop_desc vnop_removenamedstream_desc; #endif #endif #ifdef KERNEL_PRIVATE /* * This pair of functions register and unregister callout with * buffer_cache_gc() code path. This callout enables underlying * fs to kick off any memory reclamation that would be otherwise * satisfied by buffer_cache_gc(). callout() will be called in the * vm_pageout code path, so precautions should be taken to not * allocate memory or take any locks which might have memory * allocation behind them. callout() can be called with first parameter * set to false, in which case memory reclamation should be * limited in scope. In case of the first parameter set to true, fs * MUST free some memory if possible. Second parameter to the * register function will be passed as a second parameter to the * callout() as is. * fs_buffer_cache_gc_unregister() second parameter will be used * to distinguish between same callout() and this parameter should * match the one passed during registration. It will unregister all * instances of the matching callout() and argument from the callout * list. */ extern int fs_buffer_cache_gc_register(void (* callout)(int, void *), void *); extern int fs_buffer_cache_gc_unregister(void (* callout)(int, void *), void *); #endif __BEGIN_DECLS struct vnop_lookup_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; vnode_t *a_vpp; struct componentname *a_cnp; vfs_context_t a_context; }; /*! * @function VNOP_LOOKUP * @abstract Call down to a filesystem to look for a directory entry by name. * @discussion VNOP_LOOKUP is the key pathway through which VFS asks a filesystem to find a file. The vnode * should be returned with an iocount to be dropped by the caller. A VNOP_LOOKUP() calldown can come without * a preceding VNOP_OPEN(). * @param dvp Directory in which to look up file. * @param vpp Destination for found vnode. * @param cnp Structure describing filename to find, reason for lookup, and various other data. * @param ctx Context against which to authenticate lookup request. * @return 0 for success or a filesystem-specific error. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_LOOKUP(vnode_t, vnode_t *, struct componentname *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_create_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; vnode_t *a_vpp; struct componentname *a_cnp; struct vnode_attr *a_vap; vfs_context_t a_context; }; /*! * @function VNOP_CREATE * @abstract Call down to a filesystem to create a regular file (VREG). * @discussion If file creation succeeds, "vpp" should be returned with an iocount to be dropped by the caller. * A VNOP_CREATE() calldown can come without a preceding VNOP_OPEN(). * @param dvp Directory in which to create file. * @param vpp Destination for vnode for newly created file. * @param cnp Description of filename to create. * @param vap File creation properties, as seen in vnode_getattr(). Manipulated with VATTR_ISACTIVE, VATTR_RETURN, * VATTR_SET_SUPPORTED, and so forth. * @param ctx Context against which to authenticate file creation. * @return 0 for success or a filesystem-specific error. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_CREATE(vnode_t, vnode_t *, struct componentname *, struct vnode_attr *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_whiteout_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; struct componentname *a_cnp; int a_flags; vfs_context_t a_context; }; /*! * @function VNOP_WHITEOUT * @abstract Obsolete - no longer supported. * @discussion Whiteouts are used to support the union filesystem, whereby one filesystem is mounted "transparently" * on top of another. A whiteout in the upper layer of a union mount is a "deletion" of a file in the lower layer; * lookups will catch the whiteout and fail, setting ISWHITEOUT in the componentname structure, even if an underlying * file of the same name exists. The whiteout vnop is used for creation, deletion, and checking whether a directory * supports whiteouts (see flags). * also support the LOOKUP flag, which is used to test whether a directory supports whiteouts. * @param dvp Directory in which to create. * @param cnp Name information for whiteout. * @param flags CREATE: create a whiteout. LOOKUP: check whether a directory supports whiteouts, DELETE: remove a whiteout. * @param ctx Context against which to authenticate whiteout creation. * @return 0 for success or a filesystem-specific error. Returning 0 for LOOKUP indicates that a directory does support whiteouts. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_WHITEOUT(vnode_t, struct componentname *, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_mknod_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; vnode_t *a_vpp; struct componentname *a_cnp; struct vnode_attr *a_vap; vfs_context_t a_context; }; /*! * @function VNOP_MKNOD * @abstract Call down to a filesystem to create a special file. * @discussion The mknod vnop is used to create character and block device files, named pipe (FIFO) files, and named sockets. * The newly created file should be returned with an iocount which will be dropped by the caller. A VNOP_MKNOD() call * can come down without a preceding VNOP_OPEN(). * @param dvp Directory in which to create the special file. * @param vpp Destination for newly created vnode. * @param cnp Name information for new file. * @param vap Attributes for new file, including type. * @param ctx Context against which to authenticate node creation. * @return 0 for success or a filesystem-specific error. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_MKNOD(vnode_t, vnode_t *, struct componentname *, struct vnode_attr *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_open_args { struct vnodeop_desc *a_desc; vnode_t a_vp; int a_mode; vfs_context_t a_context; }; #ifdef KERNEL_PRIVATE struct vnop_compound_open_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; /* Directory in which to open/create */ vnode_t *a_vpp; /* Resulting vnode */ int a_fmode; /* Open mode */ struct componentname *a_cnp; /* Path to look up */ struct vnode_attr *a_vap; /* Attributes with which to create, if appropriate */ uint32_t a_flags; /* VNOP-control flags */ uint32_t *a_status; /* Information about results */ vfs_context_t a_context; /* Authorization context */ int (*a_open_create_authorizer)( /* Authorizer for create case */ vnode_t dvp, /* Directory in which to create */ struct componentname *cnp, /* As passed to VNOP */ struct vnode_attr *vap, /* As passed to VNOP */ vfs_context_t ctx, /* Context */ void *reserved); /* Who knows */ int (*a_open_existing_authorizer)( /* Authorizer for preexisting case */ vnode_t vp, /* vp to open */ struct componentname *cnp, /* Lookup state */ int fmode, /* As passed to VNOP */ vfs_context_t ctx, /* Context */ void *reserved); /* Who knows */ void *a_reserved; }; /* Results */ #define COMPOUND_OPEN_STATUS_DID_CREATE 0x00000001 #endif /* KERNEL_PRIVATE */ /*! * @function VNOP_OPEN * @abstract Call down to a filesystem to open a file. * @discussion The open vnop gives a filesystem a chance to initialize a file for * operations like reading, writing, and ioctls. VFS promises to send down exactly one VNOP_CLOSE() * for each VNOP_OPEN(). * @param vp File to open. * @param mode FREAD and/or FWRITE. * @param ctx Context against which to authenticate open. * @return 0 for success or a filesystem-specific error. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_OPEN(vnode_t, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ #ifdef BSD_KERNEL_PRIVATE struct nameidata; extern int VNOP_COMPOUND_OPEN(vnode_t dvp, vnode_t *vpp, struct nameidata *ndp, int32_t flags, int32_t fmode, uint32_t *status, struct vnode_attr *vap, vfs_context_t ctx); #endif struct vnop_close_args { struct vnodeop_desc *a_desc; vnode_t a_vp; int a_fflag; vfs_context_t a_context; }; /*! * @function VNOP_CLOSE * @abstract Call down to a filesystem to close a file. * @discussion The close vnop gives a filesystem a chance to release state set up * by a VNOP_OPEN(). VFS promises to send down exactly one VNOP_CLOSE() for each VNOP_OPEN(). * @param vp File to close. * @param fflag FREAD and/or FWRITE; in the case of a file opened with open(2), fflag corresponds * to how the file was opened. * @param ctx Context against which to authenticate close. * @return 0 for success or a filesystem-specific error. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_CLOSE(vnode_t, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_access_args { struct vnodeop_desc *a_desc; vnode_t a_vp; int a_action; vfs_context_t a_context; }; /*! * @function VNOP_ACCESS * @abstract Call down to a filesystem to see if a kauth-style operation is permitted. * @discussion VNOP_ACCESS is currently only called on filesystems which mark themselves * as doing their authentication remotely (vfs_setauthopaque(), vfs_authopaque()). A VNOP_ACCESS() * calldown may come without any preceding VNOP_OPEN(). * @param vp File to authorize action for. * @param action kauth-style action to be checked for permissions, e.g. KAUTH_VNODE_DELETE. * @param ctx Context against which to authenticate action. * @return 0 for success or a filesystem-specific error. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_ACCESS(vnode_t, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_getattr_args { struct vnodeop_desc *a_desc; vnode_t a_vp; struct vnode_attr *a_vap; vfs_context_t a_context; }; /*! * @function VNOP_GETATTR * @abstract Call down to a filesystem to get vnode attributes. * @discussion Supported attributes ("Yes, I am returning this information") are set with VATTR_SET_SUPPORTED. * Which attributes have been requested is checked with VATTR_IS_ACTIVE. Attributes * are returned with VATTR_RETURN. It is through VNOP_GETATTR that routines like stat() get their information. * A VNOP_GETATTR() calldown may come without any preceding VNOP_OPEN(). * @param vp The vnode whose attributes to get. * @param vap Container for which attributes are requested, which attributes are supported by the filesystem, and attribute values. * @param ctx Context against which to authenticate request for attributes. * @return 0 for success or a filesystem-specific error. VNOP_GETATTR() can return success even if not * all requested attributes were returned; returning an error-value should indicate that something went wrong, rather than that * some attribute is not supported. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_GETATTR(vnode_t, struct vnode_attr *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_setattr_args { struct vnodeop_desc *a_desc; vnode_t a_vp; struct vnode_attr *a_vap; vfs_context_t a_context; }; /*! * @function VNOP_SETATTR * @abstract Call down to a filesystem to set vnode attributes. * @discussion Supported attributes ("Yes, I am setting this attribute.") are set with VATTR_SET_SUPPORTED. * Requested attributes are checked with VATTR_IS_ACTIVE. Attribute values are accessed directly through * structure fields. VNOP_SETATTR() is the core of the KPI function vnode_setattr(), which is used by chmod(), * chown(), truncate(), and many others. A VNOP_SETATTR() call may come without any preceding VNOP_OPEN(). * @param vp The vnode whose attributes to set. * @param vap Container for which attributes are to be set and their desired values, as well as for the filesystem to * return information about which attributes were successfully set. * @param ctx Context against which to authenticate request for attribute change. * @return 0 for success or a filesystem-specific error. VNOP_SETATTR() can return success even if not * all requested attributes were set; returning an error-value should indicate that something went wrong, rather than that * some attribute is not supported. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_SETATTR(vnode_t, struct vnode_attr *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_read_args { struct vnodeop_desc *a_desc; vnode_t a_vp; struct uio *a_uio; int a_ioflag; vfs_context_t a_context; }; /*! * @function VNOP_READ * @abstract Call down to a filesystem to read file data. * @discussion VNOP_READ() is where the hard work of of the read() system call happens. The filesystem may use * the buffer cache, the cluster layer, or an alternative method to get its data; uio routines will be used to see that data * is copied to the correct virtual address in the correct address space and will update its uio argument * to indicate how much data has been moved. * @param vp The vnode to read from. * @param uio Description of request, including file offset, amount of data requested, destination address for data, * and whether that destination is in kernel or user space. * @param ioflag IO flags as defined in vnode.h, e.g. IO_SYNC, IO_NODELOCKED * @param ctx Context against which to authenticate read request. * @return 0 for success or a filesystem-specific error. VNOP_READ() can return success even if less data was * read than originally requested; returning an error value should indicate that something actually went wrong. */ extern errno_t VNOP_READ(vnode_t vp, struct uio *uio, int ioflag, vfs_context_t ctx); struct vnop_write_args { struct vnodeop_desc *a_desc; vnode_t a_vp; struct uio *a_uio; int a_ioflag; vfs_context_t a_context; }; /*! * @function VNOP_WRITE * @abstract Call down to the filesystem to write file data. * @discussion VNOP_WRITE() is to write() as VNOP_READ() is to read(). The filesystem may use * the buffer cache, the cluster layer, or an alternative method to write its data; uio routines will be used to see that data * is copied to the correct virtual address in the correct address space and will update its uio argument * to indicate how much data has been moved. * @param vp The vnode to write to. * @param uio Description of request, including file offset, amount of data to write, source address for data, * and whether that destination is in kernel or user space. * @param ioflag IO flags as defined in vnode.h, e.g. IO_SYNC, IO_NODELOCKED * @param ctx Context against which to authenticate write request. * @return 0 for success or a filesystem-specific error. VNOP_WRITE() can return success even if less data was * written than originally requested; returning an error value should indicate that something actually went wrong. */ extern errno_t VNOP_WRITE(vnode_t vp, struct uio *uio, int ioflag, vfs_context_t ctx); struct vnop_ioctl_args { struct vnodeop_desc *a_desc; vnode_t a_vp; u_long a_command; caddr_t a_data; int a_fflag; vfs_context_t a_context; }; /*! * @function VNOP_IOCTL * @abstract Call down to a filesystem or device driver to execute various control operations on or request data about a file. * @discussion Ioctl controls are typically associated with devices, but they can in fact be passed * down for any file; they are used to implement any of a wide range of controls and information requests. * fcntl() calls VNOP_IOCTL for several commands, and will attempt a VNOP_IOCTL if it is passed an unknown command, * though no copyin or copyout of arguments can occur in this case--the "arg" must be an integer value. * Filesystems can define their own fcntls using this mechanism. How ioctl commands are structured * is slightly complicated; see the manual page for ioctl(2). * @param vp The vnode to execute the command on. * @param command Identifier for action to take. * @param data Pointer to data; this can be an integer constant (of 32 bits only) or an address to be read from or written to, * depending on "command." If it is an address, it is valid and resides in the kernel; callers of VNOP_IOCTL() are * responsible for copying to and from userland. * @param ctx Context against which to authenticate ioctl request. * @return 0 for success or a filesystem-specific error. */ extern errno_t VNOP_IOCTL(vnode_t vp, u_long command, caddr_t data, int fflag, vfs_context_t ctx); struct vnop_select_args { struct vnodeop_desc *a_desc; vnode_t a_vp; int a_which; int a_fflags; void *a_wql; vfs_context_t a_context; }; /*! * @function VNOP_SELECT * @abstract Call down to a filesystem or device to check if a file is ready for I/O and request later notification if it is not currently ready. * @discussion In general, regular are always "ready for I/O" and their select vnops simply return "1." * Devices, though, may or may not be read; they keep track of who is selecting on them and send notifications * when they become ready. xnu provides structures and routines for tracking threads waiting for I/O and waking up * those threads: see selrecord(), selthreadclear(), seltrue(), selwait(), selwakeup(), and the selinfo structure (sys/select.h). * @param vp The vnode to check for I/O readiness. * @param which What kind of I/O is desired: FREAD, FWRITE. * @param fflags Flags from fileglob as seen in fcntl.h, e.g. O_NONBLOCK, O_APPEND. * @param wql Opaque object to pass to selrecord(). * @param ctx Context to authenticate for select request. * @return Nonzero indicates that a file is ready for I/O. 0 indicates that the file is not ready for I/O; * there is no way to return an error. 0 should be returned if the device (or file) is not ready for I/O * and the driver (or filesystem) is going to track the request and provide subsequent wakeups. * the device (or filesystem) will provide a wakeup. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_SELECT(vnode_t, int, int, void *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_exchange_args { struct vnodeop_desc *a_desc; vnode_t a_fvp; vnode_t a_tvp; int a_options; vfs_context_t a_context; }; /*! * @function VNOP_EXCHANGE * @abstract Call down to a filesystem to atomically exchange the data of two files. * @discussion VNOP_EXCHANGE() is currently only called by the exchangedata() system call. It will only * be applied to files on the same volume. * @param fvp First vnode. * @param tvp Second vnode. * @param options Unused. * @param ctx Context to authenticate for exchangedata request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_EXCHANGE(vnode_t, vnode_t, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_revoke_args { struct vnodeop_desc *a_desc; vnode_t a_vp; int a_flags; vfs_context_t a_context; }; /*! * @function VNOP_REVOKE * @abstract Call down to a filesystem to invalidate all open file descriptors for a vnode. * @discussion This function is typically called as part of a TTY revoke, but can also be * used on regular files. Most filesystems simply use nop_revoke(), which calls vn_revoke(), * as their revoke vnop implementation. * @param vp The vnode to revoke. * @param flags Unused. * @param ctx Context to authenticate for revoke request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_REVOKE(vnode_t, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_mmap_check_args { struct vnodeop_desc *a_desc; vnode_t a_vp; int a_flags; vfs_context_t a_context; }; /*! * @function VNOP_MMAP_CHECK * @abstract Check with a filesystem if a file can be mmap-ed. * @discussion VNOP_MMAP_CHECK is used to check with the file system if a * file can be mmap-ed. It will be called before any call to VNOP_MMAP(). * @param vp The vnode being mmapped. * @param flags Memory protection: PROT_READ, PROT_WRITE, PROT_EXEC. * @param ctx Context to authenticate for mmap request. * @return 0 for success; EPERM if the operation is not permitted; other * errors (except ENOTSUP) may be returned at the discretion of the file * system. ENOTSUP will never be returned by VNOP_MMAP_CHECK(). */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_MMAP_CHECK(vnode_t, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_mmap_args { struct vnodeop_desc *a_desc; vnode_t a_vp; int a_fflags; vfs_context_t a_context; }; /*! * @function VNOP_MMAP * @abstract Notify a filesystem that a file is being mmap-ed. * @discussion VNOP_MMAP is an advisory calldown to say that the system is mmap-ing a file. * @param vp The vnode being mmapped. * @param flags Memory protection: PROT_READ, PROT_WRITE, PROT_EXEC. * @param ctx Context to authenticate for mmap request. * @return 0 for success; all errors except EPERM are ignored. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_MMAP(vnode_t, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_mnomap_args { struct vnodeop_desc *a_desc; vnode_t a_vp; vfs_context_t a_context; }; /*! * @function VNOP_MNOMAP * @abstract Inform a filesystem that a file is no longer mapped. * @discussion In general, no action is required of a filesystem for VNOP_MNOMAP. * @param vp The vnode which is no longer mapped. * @param ctx Context to authenticate for mnomap request. * @return Return value is ignored. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_MNOMAP(vnode_t, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_fsync_args { struct vnodeop_desc *a_desc; vnode_t a_vp; int a_waitfor; vfs_context_t a_context; }; /*! * @function VNOP_FSYNC * @abstract Call down to a filesystem to synchronize a file with on-disk state. * @discussion VNOP_FSYNC is called whenever we need to make sure that a file's data has been * pushed to backing store, for example when recycling; it is also the heart of the fsync() system call. * @param vp The vnode whose data to flush to backing store. * @param ctx Context to authenticate for fsync request. * @return 0 for success, else an error code. */ extern errno_t VNOP_FSYNC(vnode_t vp, int waitfor, vfs_context_t ctx); struct vnop_remove_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; vnode_t a_vp; struct componentname *a_cnp; int a_flags; vfs_context_t a_context; }; /*! * @function VNOP_REMOVE * @abstract Call down to a filesystem to delete a file. * @discussion VNOP_REMOVE is called to remove a file from a filesystem's namespace, for example by unlink(). * It can operate on regular files, named pipes, special files, and in some cases on directories. * @param dvp Directory in which to delete a file. * @param vp The file to delete. * @param cnp Filename information. * @param ctx Context to authenticate for fsync request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_REMOVE(vnode_t, vnode_t, struct componentname *, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ #ifdef KERNEL_PRIVATE struct vnop_compound_remove_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; /* Directory in which to lookup and remove */ vnode_t *a_vpp; /* File to remove; may or may not point to NULL pointer */ struct componentname *a_cnp; /* Name of file to remove */ struct vnode_attr *a_vap; /* Destination for file attributes on successful delete */ uint32_t a_flags; /* Control flags (unused) */ vfs_context_t a_context; /* Authorization context */ int (*a_remove_authorizer)( /* Authorizer callback */ vnode_t dvp, /* Directory in which to delete */ vnode_t vp, /* File to delete */ struct componentname *cnp, /* As passed to VNOP */ vfs_context_t ctx, /* As passed to VNOP */ void *reserved); /* Always NULL */ void *a_reserved; /* Unused */ }; #endif /* KERNEL_PRIVATE */ #ifdef BSD_KERNEL_PRIVATE extern errno_t VNOP_COMPOUND_REMOVE(vnode_t, vnode_t*, struct nameidata *, int32_t flags, struct vnode_attr *vap, vfs_context_t); #endif struct vnop_link_args { struct vnodeop_desc *a_desc; vnode_t a_vp; vnode_t a_tdvp; struct componentname *a_cnp; vfs_context_t a_context; }; /*! * @function VNOP_LINK * @abstract Call down to a filesystem to create a hardlink to a file. * @discussion See "man 2 link". * @param vp File to link to. * @param dvp Directory in which to create the link. * @param cnp Filename information for new link. * @param ctx Context to authenticate for link request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_LINK(vnode_t, vnode_t, struct componentname *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_rename_args { struct vnodeop_desc *a_desc; vnode_t a_fdvp; vnode_t a_fvp; struct componentname *a_fcnp; vnode_t a_tdvp; vnode_t a_tvp; struct componentname *a_tcnp; vfs_context_t a_context; }; /*! * @function VNOP_RENAME * @abstract Call down to a filesystem to rename a file. * @discussion VNOP_RENAME() will only be called with a source and target on the same volume. * @param fdvp Directory in which source file resides. * @param fvp File being renamed. * @param fcnp Name information for source file. * @param tdvp Directory file is being moved to. * @param tvp Existing file with same name as target, should one exist. * @param tcnp Name information for target path. * @param ctx Context to authenticate for rename request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_RENAME(vnode_t, vnode_t, struct componentname *, vnode_t, vnode_t, struct componentname *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ typedef unsigned int vfs_rename_flags_t; // Must match sys/stdio.h enum { VFS_RENAME_SECLUDE = 0x00000001, VFS_RENAME_SWAP = 0x00000002, VFS_RENAME_EXCL = 0x00000004, /* * VFS_RENAME_DATALESS is kernel-only and is intentionally * not included in VFS_RENAME_FLAGS_MASK. */ VFS_RENAME_DATALESS = 0x00000008, /* used by sys/stdio for RENAME_NOFOLLOW_ANY */ VFS_RENAME_RESERVED1 = 0x00000010, VFS_RENAME_FLAGS_MASK = (VFS_RENAME_SECLUDE | VFS_RENAME_SWAP | VFS_RENAME_EXCL), }; struct vnop_renamex_args { struct vnodeop_desc *a_desc; vnode_t a_fdvp; vnode_t a_fvp; struct componentname *a_fcnp; vnode_t a_tdvp; vnode_t a_tvp; struct componentname *a_tcnp; struct vnode_attr *a_vap; // Reserved for future use vfs_rename_flags_t a_flags; vfs_context_t a_context; }; /*! * @function VNOP_RENAMEX * @abstract Call down to a filesystem to rename a file. * @discussion VNOP_RENAMEX() will only be called with a source and target on the same volume. * @param fdvp Directory in which source file resides. * @param fvp File being renamed. * @param fcnp Name information for source file. * @param tdvp Directory file is being moved to. * @param tvp Existing file with same name as target, should one exist. * @param tcnp Name information for target path. * @param flags Control certain rename semantics. * @param ctx Context to authenticate for rename request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_RENAMEX(vnode_t, vnode_t, struct componentname *, vnode_t, vnode_t, struct componentname *, vfs_rename_flags_t, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ #ifdef KERNEL_PRIVATE struct vnop_compound_rename_args { struct vnodeop_desc *a_desc; vnode_t a_fdvp; /* Directory from which to rename */ vnode_t *a_fvpp; /* Vnode to rename (can point to a NULL pointer) */ struct componentname *a_fcnp; /* Source name */ struct vnode_attr *a_fvap; vnode_t a_tdvp; /* Directory to which to rename */ vnode_t *a_tvpp; /* Vnode to rename over (can point to a NULL pointer) */ struct componentname *a_tcnp; /* Destination name */ struct vnode_attr *a_tvap; uint32_t a_flags; /* Control flags: currently unused */ vfs_context_t a_context; /* Authorization context */ int (*a_rename_authorizer)( /* Authorization callback */ vnode_t fdvp, /* As passed to VNOP */ vnode_t fvp, /* Vnode to rename */ struct componentname *fcnp, /* As passed to VNOP */ vnode_t tdvp, /* As passed to VNOP */ vnode_t tvp, /* Vnode to rename over (can be NULL) */ struct componentname *tcnp, /* As passed to VNOP */ vfs_context_t ctx, /* As passed to VNOP */ void *reserved); /* Always NULL */ void *a_reserved; /* Currently unused */ }; #endif /* KERNEL_PRIVATE */ #ifdef XNU_KERNEL_PRIVATE errno_t VNOP_COMPOUND_RENAME( struct vnode *fdvp, struct vnode **fvpp, struct componentname *fcnp, struct vnode_attr *fvap, struct vnode *tdvp, struct vnode **tvpp, struct componentname *tcnp, struct vnode_attr *tvap, uint32_t flags, vfs_context_t ctx); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_mkdir_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; vnode_t *a_vpp; struct componentname *a_cnp; struct vnode_attr *a_vap; vfs_context_t a_context; }; /*! * @function VNOP_MKDIR * @abstract Call down to a filesystem to create a directory. * @discussion The newly created directory should be returned with an iocount which will be dropped by the caller. * @param dvp Directory in which to create new directory. * @param vpp Destination for pointer to new directory's vnode. * @param cnp Name information for new directory. * @param vap Attributes for new directory. * @param ctx Context to authenticate for mkdir request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_MKDIR(vnode_t, vnode_t *, struct componentname *, struct vnode_attr *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ #ifdef KERNEL_PRIVATE struct vnop_compound_mkdir_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; /* Directory in which to create */ vnode_t *a_vpp; /* Destination for found or created vnode */ struct componentname *a_cnp; /* Name of directory to create */ struct vnode_attr *a_vap; /* Creation attributes */ uint32_t a_flags; /* Control flags (unused) */ vfs_context_t a_context; /* Authorization context */ #if 0 int (*a_mkdir_authorizer)(vnode_t dvp, struct componentname *cnp, struct vnode_attr *vap, vfs_context_t ctx, void *reserved); #endif /* 0 */ void *a_reserved; /* Unused */ }; #endif /* KERNEL_PRIVATE */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_COMPOUND_MKDIR(vnode_t, vnode_t *, struct nameidata *, struct vnode_attr *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_rmdir_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; vnode_t a_vp; struct componentname *a_cnp; vfs_context_t a_context; }; /*! * @function VNOP_RMDIR * @abstract Call down to a filesystem to delete a directory. * @param dvp Parent of directory to be removed. * @param vp Directory to remove. * @param cnp Name information for directory to be deleted. * @param ctx Context to authenticate for rmdir request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_RMDIR(vnode_t, vnode_t, struct componentname *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ #ifdef KERNEL_PRIVATE struct vnop_compound_rmdir_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; /* Directory in which to look up and delete */ vnode_t *a_vpp; /* Destination for found vnode */ struct componentname *a_cnp; /* Name to delete */ struct vnode_attr *a_vap; /* Location in which to store attributes if delete succeeds (can be NULL) */ uint32_t a_flags; /* Control flags (currently unused) */ vfs_context_t a_context; /* Context for authorization */ int (*a_rmdir_authorizer)( /* Authorization callback */ vnode_t dvp, /* As passed to VNOP */ vnode_t vp, /* Directory to delete */ struct componentname *cnp, /* As passed to VNOP */ vfs_context_t ctx, /* As passed to VNOP */ void *reserved); /* Always NULL */ void *a_reserved; /* Unused */ }; #endif /* KERNEL_PRIVATE */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_COMPOUND_RMDIR(vnode_t, vnode_t*, struct nameidata *, struct vnode_attr *vap, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_symlink_args { struct vnodeop_desc *a_desc; vnode_t a_dvp; vnode_t *a_vpp; struct componentname *a_cnp; struct vnode_attr *a_vap; char *a_target; vfs_context_t a_context; }; /*! * @function VNOP_SYMLINK * @abstract Call down to a filesystem to create a symbolic link. * @param If VNOP_SYMLINK() is successful, the new file should be returned with an iocount which will * be dropped by the caller. VFS does not ensure that the target path will have a length shorter * than the max symlink length for the filesystem. * @param dvp Parent directory for new symlink file. * @param vpp * @param cnp Name information for new symlink. * @param vap Attributes for symlink. * @param target Path for symlink to store; for "ln -s /var/vardir linktovardir", "target" would be "/var/vardir" * @param ctx Context to authenticate for symlink request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_SYMLINK(vnode_t, vnode_t *, struct componentname *, struct vnode_attr *, char *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ /* * * When VNOP_READDIR is called from the NFS Server, the nfs_data * argument is non-NULL. * * The value of nfs_eofflag should be set to TRUE if the end of * the directory was reached while reading. * * The directory seek offset (cookies) are returned to the NFS client and * may be used later to restart a directory read part way through * the directory. There is one cookie returned for each directory * entry returned and its size is determince from nfs_sizeofcookie. * The value of the cookie should be the logical offset within the * directory where the on-disc version of the appropriate directory * entry starts. Memory for the cookies is allocated from M_TEMP * and it is freed by the caller of VNOP_READDIR. * */ struct vnop_readdir_args { struct vnodeop_desc *a_desc; vnode_t a_vp; struct uio *a_uio; int a_flags; int *a_eofflag; int *a_numdirent; vfs_context_t a_context; }; /*! * @function VNOP_READDIR * @abstract Call down to a filesystem to enumerate directory entries. * @discussion VNOP_READDIR() packs a buffer with "struct dirent" directory entry representations as described * by the "getdirentries" manual page. * @param vp Directory to enumerate. * @param uio Destination information for resulting direntries. * @param flags VNODE_READDIR_EXTENDED, VNODE_READDIR_REQSEEKOFF, VNODE_READDIR_SEEKOFF32: Apple-internal flags. * @param eofflag Should be set to 1 if the end of the directory has been reached. * @param numdirent Should be set to number of entries written into buffer. * @param ctx Context to authenticate for readdir request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_READDIR(vnode_t, struct uio *, int, int *, int *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_readdirattr_args { struct vnodeop_desc *a_desc; vnode_t a_vp; struct attrlist *a_alist; struct uio *a_uio; uint32_t a_maxcount; uint32_t a_options; uint32_t *a_newstate; int *a_eofflag; uint32_t *a_actualcount; vfs_context_t a_context; }; /*! * @function VNOP_READDIRATTR * @abstract Call down to get file attributes for many files in a directory at once. * @discussion VNOP_READDIRATTR() packs a buffer with file attributes, as if the results of many "getattrlist" calls. * @param vp Directory in which to enumerate entries' attributes. * @param alist Which attributes are wanted for each directory entry. * @param uio Destination information for resulting attributes. * @param maxcount Maximum count of files to get attributes for. * @param options FSOPT_NOFOLLOW: do not follow symbolic links. FSOPT_NOINMEMUPDATE: do not use data which have been * updated since an inode was loaded into memory. * @param newstate The "newstate" should be set to a value which changes if the contents of a directory change * through an addition or deletion but stays the same otherwise. * @param eofflag Should be set to 1 if the end of the directory has been reached. * @param actualcount Should be set to number of files whose attributes were written into buffer. * @param ctx Context to authenticate for readdirattr request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_READDIRATTR(vnode_t, struct attrlist *, struct uio *, uint32_t, uint32_t, uint32_t *, int *, uint32_t *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_getattrlistbulk_args { struct vnodeop_desc *a_desc; vnode_t a_vp; struct attrlist *a_alist; struct vnode_attr *a_vap; struct uio *a_uio; void *a_private; uint64_t a_options; int32_t *a_eofflag; int32_t *a_actualcount; vfs_context_t a_context; }; /*! * @function VNOP_GETATTRLISTBULK * @abstract Call down to get file attributes for many files in a directory at once. * @discussion VNOP_GETATTRLISTBULK() packs a buffer with file attributes, as if the results of many "getattrlist" calls. * @param vp Directory in which to enumerate entries' attributes. * @param alist Which attributes are wanted for each directory entry. * @param uio Destination information for resulting attributes. * @param vap initialised vnode_attr structure pointer. This structure also has memory allocated (MAXPATHLEN bytes) and assigned to the va_name field for filesystems to use. * @param private reserved for future use. * @param options * @param eofflag Should be set to 1 if the end of the directory has been reached. * @param actualcount Should be set to number of files whose attributes were written into buffer. * @param ctx Context to authenticate for getattrlistbulk request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_GETATTRLISTBULK(vnode_t, struct attrlist *, struct vnode_attr *, uio_t, void *, uint64_t, int32_t *, int32_t *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_readlink_args { struct vnodeop_desc *a_desc; vnode_t a_vp; struct uio *a_uio; vfs_context_t a_context; }; /*! * @function VNOP_READLINK * @abstract Call down to a filesystem to get the pathname represented by a symbolic link. * @discussion VNOP_READLINK() gets the path stored in a symbolic link; it is called by namei() and the readlink() system call. * @param vp Symbolic link to read from. * @param uio Destination information for link path. * @param ctx Context to authenticate for readlink request. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_READLINK(vnode_t, struct uio *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_inactive_args { struct vnodeop_desc *a_desc; vnode_t a_vp; vfs_context_t a_context; }; /*! * @function VNOP_INACTIVE * @abstract Notify a filesystem that the last usecount (persistent reference) on a vnode has been dropped. * @discussion VNOP_INACTVE() gives a filesystem a chance to aggressively release resources assocated with a vnode, perhaps * even to call vnode_recycle(), but no action is prescribed; it is acceptable for VNOP_INACTIVE to be a no-op and * to defer all reclamation until VNOP_RECLAIM(). * VNOP_INACTVE() will not be called on a vnode if no persistent reference is ever taken; an * important example is a stat(), which takes an iocount, reads its data, and drops that iocount. * @param vp The vnode which is now inactive. * @param ctx Context to authenticate for inactive message. * @return 0 for success, else an error code, but return value is currently ignored. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_INACTIVE(vnode_t, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_reclaim_args { struct vnodeop_desc *a_desc; vnode_t a_vp; vfs_context_t a_context; }; /*! * @function VNOP_RECLAIM * @abstract Release filesystem-internal resources for a vnode. * @discussion VNOP_RECLAIM() is called as part of the process of recycling a vnode. During * a reclaim routine, a filesystem should remove a vnode from its hash and deallocate any resources * allocated to that vnode. VFS guarantees that when VNOP_RECLAIM() is called, there are no more * iocount references on a vnode (though there may still be usecount references--these are invalidated * by the reclaim) and that no more will be granted. This means in practice that there will be no * filesystem calls on the vnode being reclaimed until the reclaim has finished and the vnode has * been reused. * @param vp The vnode to reclaim. * @param ctx Context to authenticate for reclaim. * @return 0 for success, or an error code. A nonzero return value results in a panic. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_RECLAIM(vnode_t, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_pathconf_args { struct vnodeop_desc *a_desc; vnode_t a_vp; int a_name; int32_t *a_retval; vfs_context_t a_context; }; /*! * @function VNOP_PATHCONF * @abstract Query a filesystem for path properties. * @param vp The vnode whose filesystem to query. * @param name Which property to request: see unistd.h. For example: _PC_CASE_SENSITIVE (is * a filesystem case-sensitive?). Only one property can be requested at a time. * @param retval Destination for value of property. * @param ctx Context to authenticate for pathconf request. * @return 0 for success, or an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_PATHCONF(vnode_t, int, int32_t *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_advlock_args { struct vnodeop_desc *a_desc; vnode_t a_vp; caddr_t a_id; int a_op; struct flock *a_fl; int a_flags; vfs_context_t a_context; struct timespec *a_timeout; }; /*! * @function VNOP_ADVLOCK * @abstract Aquire or release and advisory lock on a vnode. * @discussion Advisory locking is somewhat complicated. VNOP_ADVLOCK is overloaded for * both flock() and POSIX advisory locking usage, though not all filesystems support both (or any). VFS * provides an advisory locking mechanism for filesystems which can take advantage of it; vfs_setlocklocal() * marks a filesystem as using VFS advisory locking support. * @param vp The vnode to lock or unlock. * @param id Identifier for lock holder: ignored by most filesystems. * @param op Which locking operation: F_SETLK: set locking information about a region. * F_GETLK: get locking information about the specified region. F_UNLCK: Unlock a region. * @param fl Description of file region to lock. l_whence is as with "lseek." * Includes a type: F_RDLCK (shared lock), F_UNLCK (unlock) , and F_WRLCK (exclusive lock). * @param flags F_FLOCK: use flock() semantics. F_POSIX: use POSIX semantics. F_WAIT: sleep if necessary. * F_PROV: Non-coelesced provisional lock (unused in xnu). * @param ctx Context to authenticate for advisory locking request. * @param timeout Timespec for timeout in case of F_SETLKWTIMEOUT. * @return 0 for success, or an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_ADVLOCK(vnode_t, caddr_t, int, struct flock *, int, vfs_context_t, struct timespec *); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_allocate_args { struct vnodeop_desc *a_desc; vnode_t a_vp; off_t a_length; u_int32_t a_flags; off_t *a_bytesallocated; off_t a_offset; vfs_context_t a_context; }; /*! * @function VNOP_ALLOCATE * @abstract Pre-allocate space for a file. * @discussion VNOP_ALLOCATE() changes the amount of backing store set aside to * a file. It can be used to either shrink or grow a file. If the file shrinks, * its ubc size will be modified accordingly, but if it grows, then the ubc size is unchanged; * space is set aside without being actively used by the file. VNOP_ALLOCATE() is currently only * called as part of the F_PREALLOCATE fcntl. * @param vp The vnode for which to preallocate space. * @param length Desired preallocated file length. * @param flags * PREALLOCATE: preallocate allocation blocks. * ALLOCATECONTIG: allocate contigious space. * ALLOCATEALL: allocate all requested space or no space at all. * ALLOCATEPERSIST: do not deallocate allocated but unfilled blocks at close(2). * ALLOCATEFROMPEOF: allocate from the physical eof. * ALLOCATEFROMVOL: allocate from the volume offset. * @param bytesallocated Additional bytes set aside for file. Set to 0 if none are allocated * OR if the file is contracted. * @param offset Hint for where to find free blocks. * @param ctx Context to authenticate for allocation request. * @return 0 for success, or an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_ALLOCATE(vnode_t, off_t, u_int32_t, off_t *, off_t, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_pagein_args { struct vnodeop_desc *a_desc; vnode_t a_vp; upl_t a_pl; upl_offset_t a_pl_offset; off_t a_f_offset; size_t a_size; int a_flags; vfs_context_t a_context; }; /*! * @function VNOP_PAGEIN * @abstract Pull file data into memory. * @discussion VNOP_PAGEIN() is called by when a process faults on data mapped from a file or * when madvise() demands pre-fetching. It is conceptually somewhat similar to VNOP_READ(). Filesystems * are typically expected to call cluster_pagein() to handle the labor of mapping and committing the UPL. * @param vp The vnode for which to page in data. * @param pl UPL describing pages needing to be paged in. * @param pl_offset Offset in UPL at which to start placing data. * @param f_offset Offset in file of data needing to be paged in. * @param size Amount of data to page in (in bytes). * @param flags UPL-style flags: UPL_IOSYNC, UPL_NOCOMMIT, UPL_NORDAHEAD, UPL_VNODE_PAGER, UPL_MSYNC. * Filesystems should generally leave it to the cluster layer to handle these flags. See the * memory_object_types.h header in the kernel framework if interested. * @param ctx Context to authenticate for pagein request. * @return 0 for success, or an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_PAGEIN(vnode_t, upl_t, upl_offset_t, off_t, size_t, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_pageout_args { struct vnodeop_desc *a_desc; vnode_t a_vp; upl_t a_pl; upl_offset_t a_pl_offset; off_t a_f_offset; size_t a_size; int a_flags; vfs_context_t a_context; }; /*! * @function VNOP_PAGEOUT * @abstract Write data from a mapped file back to disk. * @discussion VNOP_PAGEOUT() is called when data from a mapped file needs to be flushed to disk, either * because of an msync() call or due to memory pressure. Filesystems are for the most part expected to * just call cluster_pageout(). However, if they opt into the VFC_VFSVNOP_PAGEOUTV2 flag, then * they will be responsible for creating their own UPLs. * @param vp The vnode for which to page out data. * @param pl UPL describing pages needed to be paged out. If UPL is NULL, then it means the filesystem * has opted into VFC_VFSVNOP_PAGEOUTV2 semantics, which means that it will create and operate on its own UPLs * as opposed to relying on the one passed down into the filesystem. This means that the filesystem must be * responsible for N cluster_pageout calls for N dirty ranges in the UPL. * @param pl_offset Offset in UPL from which to start paging out data. Under the new VFC_VFSVNOP_PAGEOUTV2 * semantics, this is the offset in the range specified that must be paged out if the associated page is dirty. * @param f_offset Offset in file of data needing to be paged out. Under the new VFC_VFSVNOP_PAGEOUTV2 * semantics, this represents the offset in the file where we should start looking for dirty pages. * @param size Amount of data to page out (in bytes). Under VFC_VFSVNOP_PAGEOUTV2, this represents * the size of the range to be considered. The fileystem is free to extend or shrink the specified range * to better fit its blocking model as long as the page at 'pl_offset' is included. * @param flags UPL-style flags: UPL_IOSYNC, UPL_NOCOMMIT, UPL_NORDAHEAD, UPL_VNODE_PAGER, UPL_MSYNC. * Filesystems should generally leave it to the cluster layer to handle these flags. See the * memory_object_types.h header in the kernel framework if interested. * @param ctx Context to authenticate for pageout request. * @return 0 for success, or an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_PAGEOUT(vnode_t, upl_t, upl_offset_t, off_t, size_t, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_searchfs_args { struct vnodeop_desc *a_desc; vnode_t a_vp; void *a_searchparams1; void *a_searchparams2; struct attrlist *a_searchattrs; uint32_t a_maxmatches; struct timeval *a_timelimit; struct attrlist *a_returnattrs; uint32_t *a_nummatches; uint32_t a_scriptcode; uint32_t a_options; struct uio *a_uio; struct searchstate *a_searchstate; vfs_context_t a_context; }; /* * @function VNOP_SEARCHFS * @abstract Search a filesystem quickly for files or directories that match the passed-in search criteria. * @discussion VNOP_SEARCHFS is a getattrlist-based system call which is implemented almost entirely inside * supported filesystems. Callers provide a set of criteria to match against, and the filesystem is responsible * for finding all files or directories that match the criteria. Once these files or directories are found, * the user-requested attributes of these files is provided as output. The set of searchable attributes is a * subset of the getattrlist attributes. For example, ATTR_CMN_UUID is not a valid searchable attribute as of * 10.6. A common usage scenario could be to request all files whose mod dates is greater than time X, less than * time Y, and provide the inode ID and filename of the matching objects as output. * @param vp The vnode representing the mountpoint of the filesystem to be searched. * @param a_searchparams1 If one-argument search criteria is requested, the search criteria would go here. However, * some search criteria, like ATTR_CMN_MODTIME, can be bounded. The user could request files modified between time X * and time Y. In this case, the lower bound goes in a_searchparams1. * @param a_searchparams2 If two-argument search criteria is requested, the upper bound goes in here. * @param a_searchattrs Contains the getattrlist-style attribute bits which are requested by the current search. * @param a_maxmatches The maximum number of matches to return in a single system call. * @param a_timelimit The suggested maximum amount of time we can spend in the kernel to service this system call. * Filesystems should use this as a guide only, and set their own internal maximum time to avoid denial of service. * @param a_returnattrs The getattrlist-style attributes to return for items in the filesystem that match the search * criteria above. * @param a_scriptcode Currently ignored. * @param a_uio The uio in which to write out the search matches. * @param a_searchstate Sometimes searches cannot be completed in a single system call. In this case, we provide * an identifier back to the user which indicates where to resume a previously-started search. This is an opaque structure * used by the filesystem to identify where to resume said search. * @param a_context The context in which to perform the filesystem search. * @return 0 on success, EAGAIN for searches which could not be completed in 1 call, and other ERRNOS as needed. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_SEARCHFS(vnode_t, void *, void *, struct attrlist *, uint32_t, struct timeval *, struct attrlist *, uint32_t *, uint32_t, uint32_t, struct uio *, struct searchstate *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_copyfile_args { struct vnodeop_desc *a_desc; vnode_t a_fvp; vnode_t a_tdvp; vnode_t a_tvp; struct componentname *a_tcnp; int a_mode; int a_flags; vfs_context_t a_context; }; #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_COPYFILE(vnode_t, vnode_t, vnode_t, struct componentname *, int, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ typedef enum dir_clone_authorizer_op { OP_AUTHORIZE = 0, /* request authorization of action */ OP_VATTR_SETUP = 1, /* query for attributes that are required for OP_AUTHORIZE */ OP_VATTR_CLEANUP = 2 /* request to cleanup any state or free any memory allocated in OP_AUTHORIZE */ } dir_clone_authorizer_op_t; struct vnop_clonefile_args { struct vnodeop_desc *a_desc; vnode_t a_fvp; vnode_t a_dvp; vnode_t *a_vpp; struct componentname *a_cnp; struct vnode_attr *a_vap; uint32_t a_flags; vfs_context_t a_context; int (*a_dir_clone_authorizer)( /* Authorization callback */ struct vnode_attr *vap, /* attribute to be authorized */ kauth_action_t action, /* action for which attribute is to be authorized */ struct vnode_attr *dvap, /* target directory attributes */ vnode_t sdvp, /* source directory vnode pointer (optional) */ mount_t mp, /* mount point of filesystem */ dir_clone_authorizer_op_t vattr_op, /* specific operation requested : setup, authorization or cleanup */ uint32_t flags, /* needs to have the value passed to a_flags */ vfs_context_t ctx, /* As passed to VNOP */ void *reserved); /* Always NULL */ void *a_reserved; /* Currently unused */ }; /*! * @function VNOP_CLONEFILE * @abstract Call down to a filesystem to clone a filesystem object (regular file, directory or symbolic link.) * @discussion If file creation succeeds, "vpp" should be returned with an iocount to be dropped by the caller. * @param dvp Directory in which to clone object. * @param vpp Destination for vnode for newly cloned object. * @param cnp Description of name of object to clone. * @param vap File creation properties, as seen in vnode_getattr(). Manipulated with VATTR_ISACTIVE, VATTR_RETURN, * VATTR_SET_SUPPORTED, and so forth. All attributes not set here should either be copied * from the source object * or set to values which are used for creating new filesystem objects * @param ctx Context against which to authenticate file creation. * @return 0 for success or a filesystem-specific error. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_CLONEFILE(vnode_t, vnode_t, vnode_t *, struct componentname *, struct vnode_attr *, uint32_t, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_getxattr_args { struct vnodeop_desc *a_desc; vnode_t a_vp; const char * a_name; uio_t a_uio; size_t *a_size; int a_options; vfs_context_t a_context; }; extern struct vnodeop_desc vnop_getxattr_desc; /*! * @function VNOP_GETXATTR * @abstract Get extended file attributes. * @param vp The vnode to get extended attributes for. * @param name Which property to extract. * @param uio Destination information for attribute value. * @param size Should be set to the amount of data written. * @param options XATTR_NOSECURITY: bypass security-checking. * @param ctx Context to authenticate for getxattr request. * @return 0 for success, or an error code. */ extern errno_t VNOP_GETXATTR(vnode_t vp, const char *name, uio_t uio, size_t *size, int options, vfs_context_t ctx); struct vnop_setxattr_args { struct vnodeop_desc *a_desc; vnode_t a_vp; const char * a_name; uio_t a_uio; int a_options; vfs_context_t a_context; }; extern struct vnodeop_desc vnop_setxattr_desc; /*! * @function VNOP_SETXATTR * @abstract Set extended file attributes. * @param vp The vnode to set extended attributes for. * @param name Which property to extract. * @param uio Source information for attribute value. * @param options XATTR_NOSECURITY: bypass security-checking. XATTR_CREATE: set value, fail if exists. * XATTR_REPLACE: set value, fail if does not exist. * @param ctx Context to authenticate for setxattr request. * @return 0 for success, or an error code. */ extern errno_t VNOP_SETXATTR(vnode_t vp, const char *name, uio_t uio, int options, vfs_context_t ctx); struct vnop_removexattr_args { struct vnodeop_desc *a_desc; vnode_t a_vp; const char * a_name; int a_options; vfs_context_t a_context; }; extern struct vnodeop_desc vnop_removexattr_desc; /*! * @function VNOP_REMOVEXATTR * @abstract Remove extended file attributes. * @param vp The vnode from which to remove extended attributes. * @param name Which attribute to delete. * @param options XATTR_NOSECURITY: bypass security-checking. * @param ctx Context to authenticate for attribute delete request. * @return 0 for success, or an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_REMOVEXATTR(vnode_t, const char *, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_listxattr_args { struct vnodeop_desc *a_desc; vnode_t a_vp; uio_t a_uio; size_t *a_size; int a_options; vfs_context_t a_context; }; extern struct vnodeop_desc vnop_listxattr_desc; /*! * @function VNOP_LISTXATTR * @abstract List extended attribute keys. * @discussion Should write a sequence of unseparated, null-terminated extended-attribute * names into the space described by the provided uio. These keys can then be passed to * getxattr() (and VNOP_GETXATTR()). * @param vp The vnode for which to get extended attribute keys. * @param uio Description of target memory for attribute keys. * @param size Should be set to amount of data written to buffer. * @param options XATTR_NOSECURITY: bypass security checking. * @param ctx Context to authenticate for attribute name request. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_LISTXATTR(vnode_t, uio_t, size_t *, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_blktooff_args { struct vnodeop_desc *a_desc; vnode_t a_vp; daddr64_t a_lblkno; off_t *a_offset; }; /*! * @function VNOP_BLKTOOFF * @abstract Call down to a filesystem to convert a logical block number to a file offset. * @discussion VNOP_BLKTOOFF() converts a logical block to a file offset in bytes. That offset * can be passed to VNOP_BLOCKMAP(), then, to get a physical block number--buf_strategy() does this. * @param vp The vnode for which to convert a logical block to an offset. * @param lblkno Logical block number to turn into offset. * @param offset Destination for file offset. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_BLKTOOFF(vnode_t, daddr64_t, off_t *); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_offtoblk_args { struct vnodeop_desc *a_desc; vnode_t a_vp; off_t a_offset; daddr64_t *a_lblkno; }; /*! * @function VNOP_OFFTOBLK * @abstract Call down to a filesystem to convert a file offset to a logical block number. * @param vp The vnode for which to convert an offset to a logical block number. * @param offset File offset to convert. * @param lblkno Destination for corresponding logical block number. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_OFFTOBLK(vnode_t, off_t, daddr64_t *); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_blockmap_args { struct vnodeop_desc *a_desc; vnode_t a_vp; off_t a_foffset; size_t a_size; daddr64_t *a_bpn; size_t *a_run; void *a_poff; int a_flags; vfs_context_t a_context; }; /*! * @function VNOP_BLOCKMAP * @abstract Call down to a filesystem to get information about the on-disk layout of a file region. * @discussion VNOP_BLOCKMAP() returns the information required to pass a request for a contiguous region * down to a device's strategy routine. * @param vp The vnode for which to get on-disk information. * @param foffset Offset (in bytes) at which region starts. * @param size Size of region. * @param bpn Destination for physical block number at which region begins on disk. * @param run Destination for number of bytes which can be found contiguously on-disk before * first discontinuity. * @param poff Currently unused. * @param flags VNODE_READ: request is for a read. VNODE_WRITE: request is for a write. * @param ctx Context to authenticate for blockmap request; currently often set to NULL. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_BLOCKMAP(vnode_t, off_t, size_t, daddr64_t *, size_t *, void *, int, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_strategy_args { struct vnodeop_desc *a_desc; struct buf *a_bp; }; /*! * @function VNOP_STRATEGY * @abstract Initiate I/O on a file (both read and write). * @discussion A filesystem strategy routine takes a buffer, performs whatever manipulations are necessary for passing * the I/O request down to the device layer, and calls the appropriate device's strategy routine. Most filesystems should * just call buf_strategy() with "bp" as the argument. * @param bp Complete specificiation of requested I/O: region of data involved, whether request is for read or write, and so on. * @return 0 for success, else an error code. */ extern errno_t VNOP_STRATEGY(struct buf *bp); struct vnop_bwrite_args { struct vnodeop_desc *a_desc; buf_t a_bp; }; /*! * @function VNOP_BWRITE * @abstract Write a buffer to backing store. * @discussion VNOP_BWRITE() is called by buf_bawrite() (asynchronous write) and potentially by buf_bdwrite() (delayed write) * but not by buf_bwrite(). A filesystem may choose to perform some kind of manipulation of the buffer in this routine; it * generally will end up calling VFS's default implementation, vn_bwrite() (which calls buf_bwrite() without further ado). * @param bp The buffer to write. * @return 0 for success, else an error code. */ extern errno_t VNOP_BWRITE(buf_t bp); struct vnop_kqfilt_add_args { struct vnodeop_desc *a_desc; struct vnode *a_vp; struct knote *a_kn; vfs_context_t a_context; }; extern struct vnodeop_desc vnop_kqfilt_add_desc; #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_KQFILT_ADD(vnode_t, struct knote *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_kqfilt_remove_args { struct vnodeop_desc *a_desc; struct vnode *a_vp; uintptr_t a_ident; vfs_context_t a_context; }; extern struct vnodeop_desc vnop_kqfilt_remove_desc; #ifdef XNU_KERNEL_PRIVATE errno_t VNOP_KQFILT_REMOVE(vnode_t, uintptr_t, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ #ifdef KERNEL_PRIVATE #define VNODE_MONITOR_BEGIN 0x01 #define VNODE_MONITOR_END 0x02 #define VNODE_MONITOR_UPDATE 0x04 struct vnop_monitor_args { struct vnodeop_desc *a_desc; vnode_t a_vp; uint32_t a_events; uint32_t a_flags; void *a_handle; vfs_context_t a_context; }; extern struct vnodeop_desc vnop_monitor_desc; #endif /* KERNEL_PRIVATE */ #ifdef XNU_KERNEL_PRIVATE /*! * @function VNOP_MONITOR * @abstract Indicate to a filesystem that the number of watchers of a file has changed. * @param vp The vnode whose watch state has changed. * @param events Unused. Filesystems can ignore this parameter. * @param flags Type of change to the watch state. VNODE_MONITOR_BEGIN is passed when the kernel * begins tracking a new watcher of a file. VNODE_MONITOR_END is passed when a watcher stops watching a file. * VNODE_MONITOR_UPDATE is currently unused. A filesystem is guaranteed that each VNODE_MONITOR_BEGIN * will be matched by a VNODE_MONITOR_END with the same "handle" argument. * @param handle Unique identifier for a given watcher. A VNODE_MONITOR_BEGIN for a given handle will be matched with a * VNODE_MONITOR_END for the same handle; a filesystem need not consider this parameter unless * it for some reason wants be able to match specific VNOP_MONITOR calls rather than just keeping * a count. * @param ctx The context which is starting to monitor a file or ending a watch on a file. A matching * pair of VNODE_MONITOR_BEGIN and VNODE_MONITOR_END need not have the same context. * @discussion VNOP_MONITOR() is intended to let networked filesystems know when they should bother * listening for changes to files which occur remotely, so that they can post notifications using * vnode_notify(). Local filesystems should not implement a monitor vnop. * It is called when there is a new watcher for a file or when a watcher for a file goes away. * Each BEGIN will be matched with an END with the same handle. Note that vnode_ismonitored() can * be used to see if there are currently watchers for a file. */ errno_t VNOP_MONITOR(vnode_t vp, uint32_t events, uint32_t flags, void *handle, vfs_context_t ctx); #endif /* XNU_KERNEL_PRIVATE */ struct label; struct vnop_setlabel_args { struct vnodeop_desc *a_desc; struct vnode *a_vp; struct label *a_vl; vfs_context_t a_context; }; extern struct vnodeop_desc vnop_setlabel_desc; /*! * @function VNOP_SETLABEL * @abstract Associate a MACF label with a file. * @param vp The vnode to label. * @param label The desired label. * @param ctx Context to authenticate for label change. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE errno_t VNOP_SETLABEL(vnode_t, struct label *, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ #ifdef __APPLE_API_UNSTABLE #if NAMEDSTREAMS enum nsoperation { NS_OPEN, NS_CREATE, NS_DELETE }; /* a_flags for vnop_getnamedstream_args: */ #define NS_GETRAWENCRYPTED 0x00000001 struct vnop_getnamedstream_args { struct vnodeop_desc *a_desc; vnode_t a_vp; vnode_t *a_svpp; const char *a_name; enum nsoperation a_operation; int a_flags; vfs_context_t a_context; }; /*! * @function VNOP_GETNAMEDSTREAM * @abstract Get a named stream associated with a file. * @discussion If this call sucecss, svpp should be returned with an iocount which the caller * will drop. VFS provides a facility for simulating named streams when interacting with filesystems * which do not support them. * @param vp The vnode for which to get a named stream. * @param svpp Destination for pointer to named stream's vnode. * @param name The name of the named stream, e.g. "com.apple.ResourceFork". * @param operation Operation to perform. In HFS and AFP, this parameter is only considered as follows: * if the resource fork has not been opened and the operation is not NS_OPEN, fail with ENOATTR. Currently * only passed as NS_OPEN by VFS. * @param flags Flags used to control getnamedstream behavior. Currently only used for raw-encrypted-requests. * @param ctx Context to authenticate for getting named stream. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_GETNAMEDSTREAM(vnode_t, vnode_t *, const char *, enum nsoperation, int flags, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_makenamedstream_args { struct vnodeop_desc *a_desc; vnode_t *a_svpp; vnode_t a_vp; const char *a_name; int a_flags; vfs_context_t a_context; }; /*! * @function VNOP_MAKENAMEDSTREAM * @abstract Create a named stream associated with a file. * @discussion If this call succeeds, svpp should be returned with an iocount which the caller will drop. * VFS provides a facility for simulating named streams when interacting with filesystems * which do not support them. * @param vp The vnode for which to get a named stream. * @param svpp Destination for pointer to named stream's vnode. * @param name The name of the named stream, e.g. "com.apple.ResourceFork". * @param flags Currently unused. * @param ctx Context to authenticate creating named stream. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_MAKENAMEDSTREAM(vnode_t, vnode_t *, const char *, int flags, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ struct vnop_removenamedstream_args { struct vnodeop_desc *a_desc; vnode_t a_vp; vnode_t a_svp; const char *a_name; int a_flags; vfs_context_t a_context; }; /*! * @function VNOP_REMOVENAMEDSTREAM * @abstract Delete a named stream associated with a file. * @discussion VFS provides a facility for simulating named streams when interacting with filesystems * which do not support them. * @param vp The vnode to which the named stream belongs. * @param svp The named stream's vnode. * @param name The name of the named stream, e.g. "com.apple.ResourceFork". * @param flags Currently unused. * @param ctx Context to authenticate deleting named stream. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_REMOVENAMEDSTREAM(vnode_t, vnode_t, const char *, int flags, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ #endif // NAMEDSTREAMS __options_decl(vnode_verify_flags_t, uint32_t, { VNODE_VERIFY_DEFAULT = 0, VNODE_VERIFY_CONTEXT_ALLOC = 1, VNODE_VERIFY_WITH_CONTEXT = 2, VNODE_VERIFY_CONTEXT_FREE = 4, }); #define VNODE_VERIFY_DEFAULT VNODE_VERIFY_DEFAULT #define VNODE_VERIFY_WITH_CONTEXT VNODE_VERIFY_WITH_CONTEXT struct vnop_verify_args { struct vnodeop_desc *a_desc; vnode_t a_vp; off_t a_foffset; uint8_t *a_buf; size_t a_bufsize; size_t *a_verifyblksize; void **a_verify_ctxp; vnode_verify_flags_t a_flags; vfs_context_t a_context; }; /*! * @function VNOP_VERIFY * @abstract Call down to a filesystem to verify file data for integrity. * @discussion VNOP_VERIFY() returns whether file data being read has been verified to be what was written. * This does not impose a specific mechanism for ensuring integrity beyond requiring that this be done in * multiples of a verify block size (analogous to a filesystem block size but it can be per file) * @param vp The vnode for which data is to be verified. * @param foffset Offset (in bytes) at which region to be verified starts. * @param buf buffer containing file data at foffset. If this is NULL, then only the verification block size is * being requested. * @param bufsize size of data buffer to be verified. * @param verifyblksize pointer to size of verification block size in use for this file. If the verification block size is 0, * no verification will be performed. The verification block size can be any value which is a power of two upto 128KiB. * @param verify_ctxp context for verification to allocated by the FS and used in verification. * @param flags modifier flags. * @param ctx Context to authenticate for verify request; currently often set to NULL. * @return 0 for success, else an error code. */ #ifdef XNU_KERNEL_PRIVATE extern errno_t VNOP_VERIFY(vnode_t, off_t, uint8_t *, size_t, size_t *, void **, vnode_verify_flags_t, vfs_context_t); #endif /* XNU_KERNEL_PRIVATE */ #endif // defined(__APPLE_API_UNSTABLE) __END_DECLS #endif /* KERNEL */ #pragma clang diagnostic pop /* #pragma clang diagnostic ignored "-Wdocumentation" */ #endif /* !_SYS_VNODE_IF_H_ */