/* FS helper library definitions 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_FSHELP_ #define _HURD_FSHELP_ /* This library implements various things that are generic to all or most implementors of the filesystem protocol. It presumes that you are using the iohelp library as well. It is divided into separate facilities which may be used independently. */ /* Translator linkage. These routines only work for multi-threaded servers, and assume you are using the ports library. */ /* Define one of these structures as part of every disk node. */ struct trans_link { /* control port for the child filesystem */ fsys_t control; /* this is woken up when fsys_startup is receieved from the child filesystem. */ struct condition initwait; /* This indicates that someone has already started up the translator */ int starting; /* Linked list of all translators */ struct trans_link *next, **prevp; }; /* The user must define this variable. This is the libports type for bootstrap ports given to newly started translators. */ extern int fshelp_transboot_port_type; /* Call this before calling any of the other translator linkage routines, normally from your main node initialization routine. */ void fshelp_init_trans_link (struct trans_link *LINK); /* The user must define this function. This is used to create ports for translator startup from files. NODE identifies the file for which a port is required; UID and GID identifies the identity of the user for the open. Both arguments are opaque to the library (and must be provided to the fshelp_start_translator call). This should return the name of a receive right from which exactly one send right will be created. */ mach_port_t fshelp_get_node_port (void *node, uid_t uid, gid_t gid); /* Call this when the control field of a translator is null and you want to have the translator started so you can talk to it. LINK is the trans_link structure for this node; NAME is the file to execute as the translator (*NAME may be modified). fshelp_get_node_port will be called with DIR and NODE as necessary. (These values must remain valid until fshelp_done_with_node is called.) DIR should refer to the directory holding the node being translater, and will be provided as the cwdir of the process and as the dotdot return value from fsys_startup. NODE will should refer to the node being translated, and will be provided as the realnode return value from fsys_startup. UID and GID will be provided as the second and third arguments to fshelp_get_node_port for both these calls. LOCK must be a mutex which you hold; it is assumed that the trans_link structure will not be changed unless this is held. */ error_t fshelp_start_translator (struct trans_link *link, char *name, int namelen, void *dir, void *node, uid_t uid, gid_t gid, struct mutex *lock); /* The user must define this function. This will be called for the DIR and NODE arguments to fshelp_start_translator when the library no longer needs them. */ void fshelp_done_with_node (void *); /* Call this when you receive a fsys_startup message on a port of type fshelp_transboot_port_type. PORTSTRUCT is the result of ports_check_port_type/ports_get_port; this routine does not call ports_done_with_port so the caller normally should. CTL, REAL, REALPOLY, DOTDOT, and DOTDOTPOLY are copied from the fsys_startup message; CTL will be installed as the control field of the translator making this call, *REAL will be set to be the underlying port (by calling the MAKE_PORT function set at fshelp_start_translator time with the NODE argument to that call); *DOTDOT will be set similarly, but from the DIR argument to fshelp_start_translator. *REALPOLY and *DOTDOTPOLY will be set to the Mach message transmission types for those two ports. If this routine returns an error, then the CTL port must be deallocated by the caller. */ error_t fshelp_handle_fsys_startup (void *portstruct, mach_port_t ctl, mach_port_t *real, mach_msg_type_name_t *realpoly, mach_port_t *dotdot, mach_msg_type_name_t *dotdotpoly); /* Install this routine as the ports library type-specific clean routine for ports of type fshelp_transboot_port_type. */ void fshelp_transboot_clean (void *arg); /* Call function FUNC for each translator that has completed its startup. The arguments to FUNC are the translator and ARG respectively. */ void fshelp_translator_iterate (void (*func)(struct trans_link *, void *), void *arg); /* A trans_link structure is being deallocated; clean up any state we need to. */ void fshelp_kill_translator (struct trans_link *link); /* Flock handling. */ struct lock_box { int type; struct condition wait; int waiting; int shcount; }; /* Call when a user makes a request to acquire an lock via file_lock. There should be one lock box per object and one int per open; these are passed as arguments BOX and USER respectively. FLAGS are as per file_lock. MUT is a mutex which will be held whenever this routine is called, to lock BOX->wait. */ error_t fshelp_acquire_lock (struct lock_box *box, int *user, struct mutex *mut, int flags); /* Initialize lock_box BOX. (The user int passed to fshelp_acquire_lock should be initialized with LOCK_UN.). */ void fshelp_lock_init (struct lock_box *box); #endif