/*
Copyright (C) 1994-1997, 1999, 2000, 2002, 2013-2019
Free Software Foundation, Inc.
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 the GNU Hurd. If not, see . */
#ifndef _HURD_NETFS_H_
#define _HURD_NETFS_H_
#include
#include
#include
#include
#include
#include
/* This library supports client-side network file system
implementations. It is analogous to the diskfs library provided for
disk-based filesystems. */
struct argp;
struct protid
{
struct port_info pi;
/* User identification */
struct iouser *user;
/* 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 open */
struct peropen
{
loff_t filepointer;
struct rlock_peropen lock_status;
refcount_t refcnt;
int openstat;
struct node *np;
/* The parent of the translator's root node. */
mach_port_t root_parent;
/* If this node is in a shadow tree, the parent of its root. */
mach_port_t shadow_root_parent;
/* If in a shadow tree, its root node in this translator. */
struct node *shadow_root;
char *path;
};
/* A unique one of these exists for each node currently in use. */
struct node
{
struct node *next, **prevp;
/* Protocol specific stuff; defined by user. */
struct netnode *nn;
/* The stat information for this particular node. */
io_statbuf_t nn_stat;
/* The S_IPTRANS and S_IFMT bits here are examined instead of nn_stat.st_mode
to decide whether to do passive translator processing. Other bits
are ignored, so you can set this to nn_stat.st_mode if you want that. */
mode_t nn_translated;
pthread_mutex_t lock;
/* Hard and soft references to this node. */
refcounts_t refcounts;
mach_port_t sockaddr;
int owner;
struct transbox transbox;
struct rlock_box userlock;
struct conch conch;
struct dirmod *dirmod_reqs;
};
struct netfs_control
{
struct port_info pi;
};
/* The user must define this variable. Set this to the name of the
filesystem server. */
extern char *netfs_server_name;
/* The user must define this variables. Set this to be the server
version number. */
extern char *netfs_server_version;
/* The user must define this function. Make sure that NP->nn_stat is
filled with the most current information. CRED identifies the user
responsible for the operation. NP is locked. */
error_t netfs_validate_stat (struct node *np, struct iouser *cred);
/* The user must define this function. This should attempt a chmod
call for the user specified by CRED on locked node NP, to change
the owner to UID and the group to GID. */
error_t netfs_attempt_chown (struct iouser *cred, struct node *np,
uid_t uid, uid_t gid);
/* The user must define this function. This should attempt a chauthor
call for the user specified by CRED on locked node NP, thereby
changing the author to AUTHOR. */
error_t netfs_attempt_chauthor (struct iouser *cred, struct node *np,
uid_t author);
/* The user must define this function. This should attempt a chmod
call for the user specified by CRED on locked node NODE, to change
the mode to MODE. Unlike the normal Unix and Hurd meaning of
chmod, this function is also used to attempt to change files into
other types. If such a transition is attempted which is
impossible, then return EOPNOTSUPP. */
error_t netfs_attempt_chmod (struct iouser *cred, struct node *np,
mode_t mode);
/* The user must define this function. Attempt to turn locked node NP
(user CRED) into a symlink with target NAME. */
error_t netfs_attempt_mksymlink (struct iouser *cred, struct node *np,
char *name);
/* The user must define this function. Attempt to turn NODE (user
CRED) into a device. TYPE is either S_IFBLK or S_IFCHR. NP is
locked. */
error_t netfs_attempt_mkdev (struct iouser *cred, struct node *np,
mode_t type, dev_t indexes);
/* The user may define this function. Attempt to set the passive
translator record for FILE to ARGZ (of length ARGZLEN) for user
CRED. NP is locked. */
error_t netfs_set_translator (struct iouser *cred, struct node *np,
char *argz, size_t argzlen);
/* The user may define this function (but should define it together
with netfs_set_translator). For locked node NODE with S_IPTRANS
set in its mode, look up the name of its translator. Store the
name into newly malloced storage, and return it in *ARGZ; set
*ARGZ_LEN to the total length. */
error_t netfs_get_translator (struct node *node, char **argz,
size_t *argz_len);
/* The user must define this function. This should attempt a chflags
call for the user specified by CRED on locked node NP, to change
the flags to FLAGS. */
error_t netfs_attempt_chflags (struct iouser *cred, struct node *np,
int flags);
/* The user must define this function. This should attempt a utimes
call for the user specified by CRED on locked node NP, to change
the atime to ATIME and the mtime to MTIME. If ATIME or MTIME is
null, then do not change it. */
error_t netfs_attempt_utimes (struct iouser *cred, struct node *np,
struct timespec *atime, struct timespec *mtime);
/* The user must define this function. This should attempt to set the
size of the locked file NP (for user CRED) to SIZE bytes long. */
error_t netfs_attempt_set_size (struct iouser *cred, struct node *np,
loff_t size);
/* The user must define this function. This should attempt to fetch
filesystem status information for the remote filesystem, for the
user CRED. NP is locked. */
error_t netfs_attempt_statfs (struct iouser *cred, struct node *np,
fsys_statfsbuf_t *st);
/* The user must define this function. This should sync the locked
file NP completely to disk, for the user CRED. If WAIT is set,
return only after the sync is completely finished. */
error_t netfs_attempt_sync (struct iouser *cred, struct node *np,
int wait);
/* The user must define this function. This should sync the entire
remote filesystem. If WAIT is set, return only after the sync is
completely finished. */
error_t netfs_attempt_syncfs (struct iouser *cred, int wait);
/* The user must define this function. Lookup NAME in DIR (which is
locked) for USER; set *NP to the found name upon return. If the
name was not found, then return ENOENT. On any error, clear *NP.
(*NP, if found, should be locked and a reference to it generated.
This call should unlock DIR no matter what.) */
error_t netfs_attempt_lookup (struct iouser *user, struct node *dir,
char *name, struct node **np);
/* The user must define this function. Delete NAME in DIR (which is
locked) for USER. */
error_t netfs_attempt_unlink (struct iouser *user, struct node *dir,
char *name);
/* The user must define this function. Attempt to rename the
directory FROMDIR to TODIR. Note that neither of the specific nodes
are locked. */
error_t netfs_attempt_rename (struct iouser *user, struct node *fromdir,
char *fromname, struct node *todir,
char *toname, int excl);
/* The user must define this function. Attempt to create a new
directory named NAME in DIR (which is locked) for USER with mode
MODE. */
error_t netfs_attempt_mkdir (struct iouser *user, struct node *dir,
char *name, mode_t mode);
/* The user must define this function. Attempt to remove directory
named NAME in DIR (which is locked) for USER. */
error_t netfs_attempt_rmdir (struct iouser *user,
struct node *dir, char *name);
/* The user must define this function. Create a link in DIR with name
NAME to FILE for USER. Note that neither DIR nor FILE are
locked. If EXCL is set, do not delete the target. Return EEXIST if
NAME is already found in DIR. */
error_t netfs_attempt_link (struct iouser *user, struct node *dir,
struct node *file, char *name, int excl);
/* The user must define this function. Attempt to create an anonymous
file related to DIR (which is locked) for USER with MODE. Set *NP
to the returned file upon success. No matter what, unlock DIR. */
error_t netfs_attempt_mkfile (struct iouser *user, struct node *dir,
mode_t mode, struct node **np);
/* The user must define this function. Attempt to create a file named
NAME in DIR (which is locked) for USER with MODE. Set *NP to the
new node upon return. On any error, clear *NP. *NP should be
locked on success; no matter what, unlock DIR before returning. */
error_t netfs_attempt_create_file (struct iouser *user, struct node *dir,
char *name, mode_t mode, struct node **np);
/* The user must define this function. Read the contents of locked
node NP (a symlink), for USER, into BUF. */
error_t netfs_attempt_readlink (struct iouser *user, struct node *np,
char *buf);
/* The user must define this function. Locked node NP is being opened
by USER, with FLAGS. NEWNODE is nonzero if we just created this
node. Return an error if we should not permit the open to complete
because of a permission restriction. */
error_t netfs_check_open_permissions (struct iouser *user, struct node *np,
int flags, int newnode);
/* The user must define this function. Read from the locked file NP
for user CRED starting at OFFSET and continuing for up to *LEN
bytes. Put the data at DATA. Set *LEN to the amount successfully
read upon return. */
error_t netfs_attempt_read (struct iouser *cred, struct node *np,
loff_t offset, size_t *len, void *data);
/* The user must define this function. Write to the locked file NP
for user CRED starting at OFSET and continuing for up to *LEN bytes
from DATA. Set *LEN to the amount successfully written upon
return. */
error_t netfs_attempt_write (struct iouser *cred, struct node *np,
loff_t offset, size_t *len, void *data);
/* The user must define this function. Return the valid access
types (bitwise OR of O_READ, O_WRITE, and O_EXEC) in *TYPES for
locked file NP and user CRED. */
error_t netfs_report_access (struct iouser *cred, struct node *np,
int *types);
/* The user must define this function. Create a new user from the
specified UID and GID arrays. */
struct iouser *netfs_make_user (uid_t *uids, int nuids,
uid_t *gids, int ngids);
/* The user must define this function. Node NP has no more references;
free all its associated storage. */
void netfs_node_norefs (struct node *np);
/* The user must define this function. Fill the array *DATA of size
BUFSIZE with up to NENTRIES dirents from DIR (which is locked)
starting with entry ENTRY for user CRED. The number of entries in
the array is stored in *AMT and the number of bytes in *DATACNT.
If the supplied buffer is not large enough to hold the data, it
should be grown. */
error_t netfs_get_dirents (struct iouser *cred, struct node *dir,
int entry, int nentries, char **data,
mach_msg_type_number_t *datacnt,
vm_size_t bufsize, int *amt);
/* The user may define this function. For a full description,
see hurd/hurd_types.h. The default response indicates a network
store. If the supplied buffers are not large enough, they should
be grown as necessary. NP is locked. */
error_t netfs_file_get_storage_info (struct iouser *cred,
struct node *np,
mach_port_t **ports,
mach_msg_type_name_t *ports_type,
mach_msg_type_number_t *num_ports,
int **ints,
mach_msg_type_number_t *num_ints,
loff_t **offsets,
mach_msg_type_number_t *num_offsets,
char **data,
mach_msg_type_number_t *data_len);
/* The user may define this function. The function must set source to
the source of the translator. The function may return an EOPNOTSUPP
to indicate that the concept of a source device is not
applicable. The default function always returns EOPNOTSUPP. */
error_t netfs_get_source (char *source, size_t source_len);
�
/* Option parsing */
/* Parse and execute the runtime options in ARGZ & ARGZ_LEN. EINVAL is
returned if some option is unrecognized. The default definition of this
routine will parse them using NETFS_RUNTIME_ARGP. */
error_t netfs_set_options (char *argz, size_t argz_len);
/* Append to the malloced string *ARGZ of length *ARGZ_LEN a NUL-separated
list of the arguments to this translator. The default definition of this
routine simply calls netfs_append_std_options. */
error_t netfs_append_args (char **argz, size_t *argz_len);
/* If this is defined or set to a pointer to an argp structure, it will be
used by the default netfs_set_options to handle runtime option parsing.
The default definition is initialized to a pointer to
NETFS_STD_RUNTIME_ARGP. Setting this variable is the usual way to add
option parsing to a program using libnetfs. */
extern struct argp *netfs_runtime_argp;
/* An argp for the standard netfs runtime options. The default definition
of NETFS_RUNTIME_ARGP points to this, although if the user redefines
that, he may chain this onto his argp as well. */
extern const struct argp netfs_std_runtime_argp;
/* An argp structure for the standard netfs command line arguments. The
user may call argp_parse on this to parse the command line, chain it onto
the end of his own argp structure, or ignore it completely. */
extern const struct argp netfs_std_startup_argp;
/* *Appends* to ARGZ & ARGZ_LEN '\0'-separated options describing the standard
netfs option state (note that unlike netfs_get_options, ARGZ & ARGZ_LEN
must already have a sane value). */
error_t netfs_append_std_options (char **argz, size_t *argz_len);
�
/* Definitions provided by user */
/* Maximum number of symlinks to follow before returning ELOOP. */
extern int netfs_maxsymlinks;
�
/* Definitions provided by netfs. */
/* Given a netnode created by the user program, wraps it in a node
structure. The new node is not locked and has a single reference.
If an error occurs, NULL is returned. */
struct node *netfs_make_node (struct netnode *);
/* Create a new node structure. Also allocate SIZE bytes for the
netnode. The address of the netnode can be obtained using
netfs_node_netnode. The new node will have one hard reference and
no light references. If an error occurs, NULL is returned. */
struct node *netfs_make_node_alloc (size_t size);
/* To avoid breaking the ABI whenever sizeof (struct node) changes, we
explicitly provide the size. The following two functions will use
this value for offset calculations. */
extern const size_t _netfs_sizeof_struct_node;
/* Return the address of the netnode for NODE. NODE must have been
allocated using netfs_make_node_alloc. */
static inline struct netnode *
netfs_node_netnode (struct node *node)
{
return (struct netnode *) ((char *) node + _netfs_sizeof_struct_node);
}
/* Return the address of the node for NETNODE. NETNODE must have been
allocated using netfs_make_node_alloc. */
static inline struct node *
netfs_netnode_node (struct netnode *netnode)
{
return (struct node *) ((char *) netnode - _netfs_sizeof_struct_node);
}
/* Normally called in main. This function sets up some of the netfs
server's internal state. */
void netfs_init (void);
/* Starts the netfs server. Called after netfs_init. BOOTSTRAP is
the bootstrap port. FLAGS indicate how to open the underlying node
(Cf. hurd/fsys.defs). */
mach_port_t netfs_startup (mach_port_t bootstrap, int flags);
/* Normally called as the last function in main. The netfs server now
begins answering requests. This function never returns. */
void netfs_server_loop (void);
/* Creates a new credential from USER which can be NULL on the peropen
PO. Returns NULL and sets errno on error. */
struct protid *netfs_make_protid (struct peropen *po, struct iouser *user);
/* Create and return a new peropen structure on node NP with open
flags FLAGS. The initial values for the root_parent, shadow_root,
and shadow_root_parent fields are copied from CONTEXT if it's
non-zero, otherwise zeroed. */
struct peropen *netfs_make_peropen (struct node *, int,
struct peropen *context);
/* Add a hard reference to node NP. Unless you already hold a reference,
NP must be locked. */
void netfs_nref (struct node *np);
/* Add a light reference to a node. */
void netfs_nref_light (struct node *np);
/* Releases 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 then request soft references to be dropped. */
void netfs_nrele (struct node *np);
/* Release a soft 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). */
void netfs_nrele_light (struct node *np);
/* Puts a node back by releasing a hard reference on NP, which must
be locked by the caller (this lock will be released by netfs_nput).
If this was the last reference, then request soft references to be
dropped. */
void netfs_nput (struct node *np);
/* The user must define this function in order to drop the soft references
that this node may have. When this function is called, node NP has just
lost its hard references and is now trying to also drop its soft references.
If the node is stored in another data structure (for caching purposes),
this allows the user to remove it so that the node can be safely deleted
from memory. */
void netfs_try_dropping_softrefs (struct node *np);
/* Called internally when no more references to node NP exist. */
void netfs_drop_node (struct node *np);
/* Called internally when no more references to a protid exit. */
void netfs_release_protid (void *);
/* Called internally when no more references to a protid exit. */
void netfs_release_peropen (struct peropen *);
/* The netfs message demuxer. */
int netfs_demuxer (mach_msg_header_t *, mach_msg_header_t *);
/* Called to ask the filesystem to shutdown. If it returns, an error
occurred. FLAGS are passed to fsys_goaway. */
error_t netfs_shutdown (int flags);
extern struct port_class *netfs_protid_class;
extern struct port_class *netfs_control_class;
extern struct port_bucket *netfs_port_bucket;
extern struct node *netfs_root_node;
extern mach_port_t netfs_fsys_identity;
extern auth_t netfs_auth_server_port;
�
/* Mig gook. */
typedef struct protid *protid_t;
typedef struct netfs_control *control_t;
�
/* The following extracts from io_S.h and fs_S.h catch loff_t erroneously
written off_t and stat64 erroneously written stat,
or missing -D_FILE_OFFSET_BITS=64 build flag. */
kern_return_t netfs_S_io_write (protid_t io_object,
data_t data,
mach_msg_type_number_t dataCnt,
loff_t offset,
vm_size_t *amount);
kern_return_t netfs_S_io_read (protid_t io_object,
data_t *data,
mach_msg_type_number_t *dataCnt,
loff_t offset,
vm_size_t amount);
kern_return_t netfs_S_io_seek (protid_t io_object,
loff_t offset,
int whence,
loff_t *newp);
kern_return_t netfs_S_io_stat (protid_t stat_object,
io_statbuf_t *stat_info);
kern_return_t netfs_S_file_set_size (protid_t trunc_file,
loff_t new_size);
kern_return_t netfs_S_file_get_storage_info (protid_t file,
portarray_t *ports,
mach_msg_type_name_t *portsPoly,
mach_msg_type_number_t *portsCnt,
intarray_t *ints,
mach_msg_type_number_t *intsCnt,
off_array_t *offsets,
mach_msg_type_number_t *offsetsCnt,
data_t *data,
mach_msg_type_number_t *dataCnt);
kern_return_t netfs_S_file_statfs (protid_t file,
fsys_statfsbuf_t *info);
#endif /* _HURD_NETFS_H_ */