/* Definitions for fileserver helper functions Copyright (C) 1994 Free Software Foundation This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifndef _HURD_DISKFS #define _HURD_DISKFS #ifdef MAKING_DISKFS #include "../machine/diskfs_machdep.h" #else #include #endif /* Each user port referring to a file points to one of these (with the aid of the ports library. */ struct protid { struct port_info pi; /* libports info block */ /* User identification */ uid_t *uids, *gids; int nuids, ngids; /* Object this refers to */ struct peropen *po; /* Shared memory I/O information. */ memory_object_t shared_object; struct shared_io *mapped; }; /* One of these is created for each node opened by dir_pathtrans. */ struct peropen { int filepointer; int lock_status; int refcnt; int openstat; struct node *np; }; /* A unique one of these exists for each node currently in use (and possibly for some not currently in use, but with links) in the filesystem. */ struct node { struct node *next, **prevp; struct disknode *dn; struct stat dn_stat; /* Stat has been modified if one of the following four fields is nonzero. Also, if one of the dn_set_?time fields is nonzero, the appropriate dn_stat.st_?time field needs to be updated. */ int dn_set_ctime; int dn_set_atime; int dn_set_mtime; int dn_stat_dirty; struct mutex lock; int references; /* hard references */ int light_references; /* light references */ int owner; struct trans_link translator; struct lock_box userlock; struct conch conch; off_t allocsize; }; /* Possibly lookup types for diskfs_lookup call */ enum lookup_type { LOOKUP, CREATE, REMOVE, RENAME, }; /* Special flag for diskfs_lookup. */ #define SPEC_DOTDOT 0x10000000 /* Declarations of variables the library sets. */ extern mach_port_t diskfs_host_priv; /* send right */ extern mach_port_t diskfs_master_device; /* send right */ extern mach_port_t diskfs_default_pager; /* send right */ extern mach_port_t diskfs_exec_ctl; /* send right */ extern mach_port_t diskfs_exec; /* send right */ extern auth_t diskfs_auth_server_port; /* send right */ extern struct port_info *diskfs_control_port; extern volatile struct mapped_time_value *diskfs_mtime; extern int diskfs_bootflags; extern char *diskfs_bootflagarg; extern spin_lock_t diskfs_node_refcnt_lock; extern int pager_port_type; struct pager; /* Declarations of things the user must or may define. */ /* The user must define this type. This should hold information between calls to diskfs_lookup and diskfs_dir{enter,rewrite,rename} so that those calls work as described below. */ struct dirstat; /* The user must define this variable; it should be the size in bytes of a struct dirstat. */ extern size_t diskfs_dirstat_size; /* The user must define this variable; it is the maximum number of links to any one file. The implementation of dir_rename does not know how to succeed if this is only one; on such formats you need to reimplement dir_rename yourself. */ extern int diskfs_link_max; /* The user must define this variable; it is the maximum number of symlinks to be traversed within a single call to dir_pathtrans. If this is exceeded, dir_pathtrans will return ELOOP. */ extern int diskfs_maxsymlinks; /* The user must define this variable and set it if the filesystem should be readonly. */ extern int diskfs_readonly; /* The user must define this variable. Set this to be an unauthenticated port to the directory which should be `..' from root. If this is *the* root, then set this to MACH_PORT_NULL. */ extern file_t diskfs_dotdot_file; /* The user must define this variable. Set this to be the node of root of the filesystem. */ extern struct node *diskfs_root_node; /* The user must define this variable. Set this to the name of the filesystem server. */ extern char *diskfs_server_name; /* The user must define these variables. Set these to be the major, minor, and edit version numbers. */ extern int diskfs_major_version; extern int diskfs_minor_version; extern int diskfs_edit_version; /* The user may define this variable. This should be nonzero iff the filesystem format supports shortcutting symlink translation. */ int diskfs_shortcut_symlink; /* The user may define this variable. This should be nonzero iff the filesystem format supports shortcutting chrdev translation. */ int diskfs_shortcut_chrdev; /* The user may define this variable. This should be nonzero iff the filesystem format supports shortcutting blkdev translation. */ int diskfs_shortcut_blkdev; /* The user may define this variable. This should be nonzero iff the filesystem format supports shortcutting fifo translation. */ int diskfs_shortcut_fifo; /* The user may define this variable. This should be nonzero iff the filesystem format supports shortcutting ifsock translation. */ int diskfs_shortcut_ifsock; /* The user must define this function. Set *STATFSBUF with appropriate values to reflect the current state of the filesystem. */ error_t diskfs_set_statfs (fsys_statfsbuf_t *statfsbuf); /* The user must define this function. Lookup in directory DP (which is locked) the name NAME. TYPE will either be LOOKUP, CREATE, RENAME, or REMOVE. CRED identifies the user making the call. If the name is found, return zero, and (if NP is nonzero) set *NP to point to the node for it, locked. If the name is not found, return ENOENT, and (if NP is nonzero) set *NP to zero. If DS is nonzero then: For LOOKUP: set *DS to be ignored by diskfs_drop_dirstat. For CREATE: on success, set *DS to be ignored by diskfs_drop_dirstat. on failure, set *DS for a future call to diskfs_direnter. For RENAME: on success, set *DS for a future call to diskfs_dirrewrite. on failure, set *DS for a future call to diskfs_direnter. For REMOVE: on success, set *DS for a future call to diskfs_dirremove. on failure, set *DS to be ignored by diskfs_drop_dirstat. The caller of this function guarantees that if DS is nonzero, then either the appropriate call listed above or diskfs_drop_dirstat will be called with DS before the directory DP is unlocked, and guarantees that no lookup calls will be made on this directory between this lookup and the use (or descruction) of *DS. If you use the library's versions of diskfs_rename_dir, diskfs_clear_directory, and diskfs_init_dir, then lookups for `..' might have the flag SPEC_DOTDOT or'd in. This has the following special meaning: For LOOKUP: DP should be unlocked and its reference dropped before returning. For RENAME and REMOVE: The node being found (*NP) is already held locked, so don't lock it or add a reference to it. (SPEC_DOTDOT will not be given with CREATE.) Return ENOTDIR if DP is not a directory. Return EACCES if CRED isn't allowed to search DP. Return EACCES if completing the operation will require writing the directory and diskfs_checkdirmod won't allow the modification. Return ENOENT if NAME isn't in the directory. Return EAGAIN if NAME refers to the `..' of this filesystem's root. Return EIO if appropriate. */ error_t diskfs_lookup (struct node *dp, char *name, enum lookup_type type, struct node **np, struct dirstat *ds, struct protid *cred); /* The user must define this function. Add NP to directory DP under the name NAME. This will only be called after an unsuccessful call to diskfs_lookup of type CREATE or RENAME; DP has been locked continuously since that call and DS is as that call set it, NP is locked. CRED identifies the user responsible for the call (to be used only to validate directory growth). */ error_t diskfs_direnter (struct node *dp, char *name, struct node *np, struct dirstat *ds, struct protid *cred); /* The user must define this function. This will only be called after a successful call to diskfs_lookup of type RENAME; this call should change the name found in directory DP to point to node NP instead of its previous referent. DP has been locked continuously since the call to diskfs_lookup and DS is as that call set it; NP is locked. */ error_t diskfs_dirrewrite (struct node *dp, struct node *np, struct dirstat *ds); /* The user must define this function. This will only be called after a successful call to diskfs_lookup of type REMOVE; this call should remove the name found from the directory DS. DP has been locked continuously since the call to diskfs_lookup and DS is as that call set it. */ error_t diskfs_dirremove (struct node *dp, struct dirstat *ds); /* The user must define this function. DS has been set by a previous call to diskfs_lookup on directory DP; this function is guaranteed to be called if none of diskfs_dir{enter,rename,rewrite} is, and should free any state retained by a struct dirstat. DP has been locked continuously since the call to diskfs_lookup. */ error_t diskfs_drop_dirstat (struct node *dp, struct dirstat *ds); /* The user must define this function. For locked node NP, return nonzero iff there is a translator program defined for the node. */ int diskfs_node_translated (struct node *np); /* The user must define this function. For locked node NP (for which diskfs_node_translated is true) look up the name of its translator. If the length is <= *NAMELEN, then store the name into **NAMEP; otherwise set *NAMEP to newly vm_allocate'd storage holding the name. Set *NAMELEN to the length of the name. */ error_t diskfs_get_translator (struct node *np, char **namep, u_int *namelen); /* The user must define this function. For locked node NP, set the name of the translating program to be NAME, length NAMELEN. CRED identifies the user responsible for the call. */ error_t diskfs_set_translator (struct node *np, char *name, u_int namelen, struct protid *cred); /* The user must define this function. Truncate locked node NP to be SIZE bytes long. (If NP is already less than or equal to SIZE bytes long, do nothing.) */ error_t diskfs_truncate (struct node *np, off_t size); /* The user must define this function. Grow the disk allocated to locked node NP to be at least SIZE bytes, and set NP->allocsize to the actual allocated size. (If the allocated size is already SIZE bytes, do nothing.) CRED identifies the user responsible for the call. */ error_t diskfs_grow (struct node *np, off_t size, struct protid *cred); /* The user must define this function. Write to disk (synchronously iff WAIT is nonzero) from format-specific buffers any non-paged metadata. If CLEAN is nonzero, then after this is written the filesystem will be absolutely clean, and the non-paged metadata can so indicate. */ void diskfs_set_hypermetadata (int wait, int clean); /* The user must define this function. Allocate a new node to be of mode MODE in locked directory DP (don't actually set the mode or modify the dir, that will be done by the caller); the user responsible for the request can be identified with CRED. Set *NP to be the newly allocated node. */ error_t diskfs_alloc_node (struct node *dp, mode_t mode, struct node **np); /* Free node NP; the on disk copy has already been synced with diskfs_node_update (where NP->dn_stat.st_mode was 0). It's mode used to be MODE. */ void diskfs_free_node (struct node *np, mode_t mode); /* Node NP has no more references; free local state, including *NP if it isn't to be retained. diskfs_node_refcnt_lock is held. */ void diskfs_node_norefs (struct node *np); /* The user must define this function. Node NP has some light references, but has just lost its last hard references. Take steps so that if any light references can be freed, they are. NP might or might not be locked; this routine should not attempt to gain the lock. */ void diskfs_lost_hardrefs (struct node *np); /* The user must define this function. Node NP has just acquired a hard reference where it had none previously. It is thus now OK again to have light references without real users. NP might or might not be locked; this routine should not attempt to gain the lock. */ void diskfs_new_hardrefs (struct node *np); /* The user must define this function. Return non-zero if locked directory DP is empty. If the user does not redefine diskfs_clear_directory and diskfs_init_directory, then `empty' means `possesses entries labelled . and .. only'. CRED identifies the user making the call (if this user can't search the directory, then this routine should fail). */ int diskfs_dirempty (struct node *dp, struct protid *cred); /* The user must define this function. Sync the info in NP->dn_stat and any associated format-specific information to disk. If WAIT is true, then return only after the physicial media has been completely updated. */ void diskfs_write_disknode (struct node *np, int wait); /* The user must define this function. Sync the file contents and all associated meta data of file NP to disk (generally this will involve calling diskfs_node_update for much of the metadata). If WAIT is true, then return only after the physical media has been completely updated. */ void diskfs_file_update (struct node *np, int wait); /* The user must define this function. Sync all the pagers and any data belonging on disk except for the hypermetadata. If WAIT is true, then return only after the physicial media has been completely updated. */ void diskfs_sync_everything (int wait); /* Shutdown all pagers; this is done when the filesystem is exiting and is irreversable. */ void diskfs_shutdown_pager (); /* The user must define this function. Return a memory object port (send right) for the file contents of NP. */ mach_port_t diskfs_get_filemap (struct node *np); /* The user must define this function. Return a `struct pager *' suitable for use as an argument to diskfs_register_memory_fault_area that refers to the pager returned by diskfs_get_filemap for node NP. */ struct pager *diskfs_get_filemap_pager_struct (struct node *np); /* The user must define this function if she calls diskfs_start_bootstrap. It is called by the library after the filesystem has a normal environment (complete with auth and proc ports). */ void diskfs_init_completed (); /* It is assumed that the user will use the Hurd pager library; if not you need to redefine ports_demuxer and diskfs_do_seqnos_mach_notify_no_senders. */ /* The library exports the following functions for general use */ /* Call this if the bootstrap port is null and you want to support being a bootstrap filesystem. ARGC and ARGV should be as passed to main. If the arguments are not in the proper format, an error message will be printed on stderr and exit called. Otherwise, diskfs_priv_host, diskfs_master_device, and diskfs_bootflags will be set and the Mach kernel name of the bootstrap device will be returned. */ char *diskfs_parse_bootargs (int argc, char **argv); /* Call this after arguments have been parsed to initialize the library. */ void diskfs_init_diskfs (void); /* Call this after all format-specific initialization is done (except for setting diskfs_root_node); at this point the pagers should be ready to go. */ void diskfs_spawn_first_thread (void); /* Once diskfs_root_node is set, call this if we are a bootstrap filesystem. If you call this, then the library will call diskfs_init_completed once it has a valid proc and auth port.*/ void diskfs_start_bootstrap (void); /* Last step of init is to call this, which never returns. */ void diskfs_main_request_loop (void); /* Node NP now has no more references; clean all state. The _diskfs_node_refcnt_lock must be held, and will be released upon return. NP must be locked. */ void diskfs_drop_node (struct node *np); /* Set on disk fields from NP->dn_stat; update ctime, atime, and mtime if necessary. If WAIT is true, then return only after the physical media has been completely updated. */ void diskfs_node_update (struct node *np, int wait); /* Add a hard reference to a node. */ extern inline void diskfs_nref (struct node *np) { int new_hardref; spin_lock (&diskfs_node_refcnt_lock); np->references++; new_hardref = (np->references == 1); spin_unlock (&diskfs_node_refcnt_lock); if (new_hardref) diskfs_new_hardrefs (np); } /* Unlock node NP and release a hard reference; if this is the last hard reference and there are no links to the file then request soft references to be dropped. */ extern inline void diskfs_nput (struct node *np) { int nlinks; spin_lock (&diskfs_node_refcnt_lock); np->references--; if (np->references + np->light_references == 0) diskfs_drop_node (np); else if (np->references == 0) { spin_unlock (&diskfs_node_refcnt_lock); nlinks = np->dn_stat.st_nlink; mutex_unlock (&np->lock); if (!nlinks) diskfs_lost_hardrefs (np); } else { spin_unlock (&diskfs_node_refcnt_lock); mutex_unlock (&np->lock); } } /* Release a hard reference on NP. If NP is locked by anyone, then this cannot be the last hard reference (because you must hold a hard reference in order to hold the lock). If this is the last hard reference and there are no links, then request soft references to be dropped. */ extern inline void diskfs_nrele (struct node *np) { int nlinks; spin_lock (&diskfs_node_refcnt_lock); np->references--; if (np->references + np->light_references == 0) { mutex_lock (&np->lock); diskfs_drop_node (np); } else if (np->references == 0) { mutex_lock (&np->lock); nlinks = np->dn_stat.st_nlink; mutex_unlock (&np->lock); spin_unlock (&diskfs_node_refcnt_lock); if (!nlinks) diskfs_lost_hardrefs (np); } else spin_unlock (&diskfs_node_refcnt_lock); } /* Add a light reference to a node. */ extern inline void diskfs_nref_light (struct node *np) { spin_lock (&diskfs_node_refcnt_lock); np->light_references++; spin_unlock (&diskfs_node_refcnt_lock); } /* Unlock node NP and release a light reference */ extern inline void diskfs_nput_light (struct node *np) { spin_lock (&diskfs_node_refcnt_lock); np->light_references--; if (np->references + np->light_references == 0) diskfs_drop_node (np); else { spin_unlock (&diskfs_node_refcnt_lock); mutex_unlock (&np->lock); } } /* Release a light reference on NP. If NP is locked by anyone, then this cannot be the last reference (because you must hold a hard reference in order to hold the lock). */ extern inline void diskfs_nrele_light (struct node *np) { spin_lock (&diskfs_node_refcnt_lock); np->light_references--; if (np->references + np->light_references == 0) { mutex_lock (&np->lock); diskfs_drop_node (np); } else spin_unlock (&diskfs_node_refcnt_lock); } /* Return nonzero iff the user identified by CRED has uid UID. */ extern inline int diskfs_isuid (uid_t uid, struct protid *cred) { int i; for (i = 0; i < cred->nuids; i++) if (cred->uids[i] == uid) return 1; return 0; } /* Return nonzero iff the user identified by CRED has group GRP. */ extern inline int diskfs_groupmember (uid_t grp, struct protid *cred) { int i; for (i = 0; i < cred->ngids; i++) if (cred->gids[i] == grp) return 1; return 0; } /* Check to see if the user identified by CRED is permitted to do owner-only operations on node NP; if so, return 0; if not, return EPERM. */ extern inline error_t diskfs_isowner (struct node *np, struct protid *cred) { /* Permitted if the user is the owner, superuser, or if the user is in the group of the file and has the group ID as their user ID. (This last is colloquially known as `group leader'.) */ if (diskfs_isuid (np->dn_stat.st_uid, cred) || diskfs_isuid (0, cred) || (diskfs_groupmember (np->dn_stat.st_gid, cred) && diskfs_isuid (np->dn_stat.st_gid, cred))) return 0; else return EPERM; } /* Check to see is the user identified by CRED is permitted to do operation OP on node NP. Op is one of S_IREAD, S_IWRITE, or S_IEXEC. Return 0 if the operation is permitted and EACCES if not. */ extern inline error_t diskfs_access (struct node *np, int op, struct protid *cred) { int gotit; if (diskfs_isuid (0, cred)) gotit = 1; else if (cred->nuids == 0 && (np->dn_stat.st_mode & S_IUSEUNK)) gotit = np->dn_stat.st_mode & (op << S_IUNKSHIFT); else if (!diskfs_isowner (np, cred)) gotit = np->dn_stat.st_mode & op; else if (diskfs_groupmember (np->dn_stat.st_gid, cred)) gotit = np->dn_stat.st_mode & (op >> 3); else gotit = np->dn_stat.st_mode & (op >> 6); return gotit ? 0 : EACCES; } /* Check to see if the user identified by CRED is allowed to modify directory DP with respect to existing file NP. This is the same as diskfs_access (dp, S_IWRITE, cred), except when the directory has the sticky bit set. (If there is no existing file NP, then 0 can be passed.) */ extern inline error_t diskfs_checkdirmod (struct node *dp, struct node *np, struct protid *cred) { /* The user must be able to write the directory, but if the directory is sticky, then the user must also be either the owner of the directory or the file. */ return (diskfs_access (dp, S_IWRITE, cred) && (!(dp->dn_stat.st_mode & S_ISVTX) || !np || diskfs_isuid (0,cred) || diskfs_isowner (dp, cred) || diskfs_isowner (np, cred))); } /* Reading and writing of files. this is called by other filesystem routines and handles extension of files automatically. NP is the node to be read or written, and must be locked. DATA will be written or filled. OFF identifies where in thi fel the I/O is to take place (-1 is not allowed). AMT is the size of DATA and tells how much to copy. DIR is 1 for writing and 0 for reading. CRED is the user doing the access (only used to validate attempted file extension). For reads, *AMTREAD is filled with the amount actually read. */ error_t diskfs_node_rdwr (struct node *np, char *data, off_t off, int amt, int dir, struct protid *cred, int *amtread); /* Create a new node structure with DS as its physical disknode. The new node will have one hard reference and no light references. */ struct node *diskfs_make_node (struct disknode *dn); /* The following two calls are actually macros. */ /* Begin executing code which might fault. This contains a call to setjmp and so callers must be careful with register variables. The first time through, this returns 0. If the code faults accessing a region of memory registered with diskfs_register_memory_fault_area, then this routine will return again with the error number as reported by the pager. */ /* int diskfs_catch_exception (void); */ /* After calling diskfs_catch_exception, this routine must be called before exiting the function which called diskfs_catch_exception. It will cancel the fault protection installed by diskfs_catch_exception. */ /* void diskfs_end_catch_exception (void); */ /* Register a region of memory for protected fault status as described above for diskfs_catch_exception. This should generally be done for any vm_map of the filesystem's own data. This will mark memory at ADDR continuing for LEN bytes to be mapped from pager P at offset OFF. Any memory exceptions in this region will be looked up with pager_get_error (until the XP interface is fixed); this is the only use made of arguments P and OFF. */ void diskfs_register_memory_fault_area (struct pager *p, vm_address_t off, void *addr, long len); /* Remove the registration of a region registered with diskfs_register_memory_fault_area; the region is that at ADDR continuing for LEN bytes. */ void diskfs_unregister_memory_fault_area (void *addr, long len); /* The library also exports the following functions; they are not generally useful unless you are redefining other functions the library provides. */ /* Create a new node. Give it MODE; if that includes IFDIR, also initialize `.' and `..' in the new directory. Return the node in NPP. CRED identifies the user responsible for the call. If NAME is nonzero, then link the new node into DIR with name NAME; DS is the result of a prior diskfs_lookup for creation (and DIR has been held locked since). DIR must always be provided as at least a hint for disk allocation strategies. */ error_t diskfs_create_node (struct node *dir, char *name, mode_t mode, struct node **newnode, struct protid *cred, struct dirstat *ds); /* Start the translator on node IP; the directory we found IP in is DIP; both are locked. */ error_t diskfs_start_translator (struct node *np, struct node *dnp); /* Create and return a protid for an existing peropen. The uid set is UID (length NUIDS); the gid set is GID (length NGIDS). The node PO->np must be locked. */ struct protid *diskfs_make_protid (struct peropen *cred, uid_t *uids, int nuids, uid_t *gids, int ngids); /* Build and return a protid which has no user identification for peropen PO. The node PO->np must be locked. */ struct protid *diskfs_start_protid (struct peropen *po); /* Finish building protid CRED started with diskfs_start_protid; the uid set is UID (length NUIDS); the gid set is GID (length NGIDS). */ void diskfs_finish_protid (struct protid *cred, uid_t *uids, int nuids, gid_t *gids, int nguds); /* Create and return a new peropen structure on node NP with open flags FLAGS. */ struct peropen *diskfs_make_peropen (struct node *np, int flags); /* Called when a protid CRED has no more references. (Because references\ to protids are maintained by the port management library, this is installed in the clean routines list.) The ports library will free the structure for us. */ void diskfs_protid_rele (void *arg); /* Decrement the reference count on a peropen structure. */ void diskfs_release_peropen (struct peropen *po); /* Rename directory node FNP (whose parent is FDP, and which has name FROMNAME in that directory) to have name TONAME inside directory TDP. None of these nodes are locked, and none should be locked upon return. This routine is serialized, so it doesn't have to be reentrant. Directories will never be renamed except by this routine. FROMCRED and TOCRED are the users responsible for FDP/FNP and TDP respectively. This routine assumes the usual convention where `.' and `..' are represented by ordinary links; if that is not true for your format, you have to redefine this function.*/ error_t diskfs_rename_dir (struct node *fdp, struct node *fnp, char *fromname, struct node *tdp, char *toname, struct protid *fromcred, struct protid *tocred); /* Clear the `.' and `..' entries from directory DP. Its parent is PDP, and the user responsible for this is identified by CRED. Both directories must be locked. This routine assumes the usual convention where `.' and `..' are represented by ordinary links; if that is not true for your format, you have to redefine this function. */ error_t diskfs_clear_directory (struct node *dp, struct node *pdp, struct protid *cred); /* Locked node DP is a new directory; add whatever links are necessary to give it structure; its parent is the (locked) node PDP. This routine may not call diskfs_lookup on PDP. The new directory must be clear within the meaning of diskfs_dirempty. This routine assumes the usual convention where `.' and `..' are represented by ordinary links; if that is not true for your format, you have to redefine this function. CRED identifies the user making the call. */ error_t diskfs_init_dir (struct node *dp, struct node *pdp, struct protid *cred); /* Get rid of any translator running on the file NP; FLAGS (from the set FSYS_GOAWAY_*) describes details of shutting down the child filesystem. */ void diskfs_destroy_translator (struct node *np, int flags); /* Sync all the running translators. Wait for them to complete if WAIT is nonzero. */ void diskfs_sync_translators (int wait); /* If NP->dn_set_ctime is set, then modify NP->dn_stat.st_ctime appropriately; do the analogous operation for atime and mtime as well. */ void diskfs_set_node_times (struct node *np); /* Shutdown the filesystem; flags are as for fsys_shutdown. */ error_t diskfs_shutdown (int flags); /* Called by S_fsys_startup for execserver bootstrap. The execserver is able to function without a real node, hence this fraud. Arguments are all as for fsys_startup in . */ error_t diskfs_execboot_fsys_startup (mach_port_t port, mach_port_t ctl, mach_port_t *real, mach_msg_type_name_t *realpoly, mach_port_t *dotdot_node, mach_msg_type_name_t *dotdot_node_poly); /* The ports library requires the following to be defined; the diskfs library provides a definition. See for the interface description. The library assumes you use the pager library (and calls pager_demuxer). If you don't, then you need to redefine this function as well as the no_senders notify stub. */ int ports_demuxer (mach_msg_header_t *, mach_msg_header_t *); /* The diskfs library provides functions to demultiplex the fs, io, fsys, memory_object, interrupt, and notify interfaces. All the server routines have the prefix `diskfs_S_'; `in' arguments of type file_t or io_t appear as `struct protid *' to the stub. */ #endif