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linux-2.6/include/linux/sunrpc/cache.h
Bruce Allan f35279d3f7 [PATCH] sunrpc: cache_register can use wrong module reference 
When registering an RPC cache, cache_register() always sets the owner as the
sunrpc module.  However, there are RPC caches owned by other modules.  With
the incorrect owner setting, the real owning module can be removed potentially
with an open reference to the cache from userspace.

For example, if one were to stop the nfs server and unmount the nfsd
filesystem, the nfsd module could be removed eventhough rpc.idmapd had
references to the idtoname and nametoid caches (i.e.
/proc/net/rpc/nfs4.<cachename>/channel is still open).  This resulted in a
system panic on one of our machines when attempting to restart the nfs
services after reloading the nfsd module.

The following patch adds a 'struct module *owner' field in struct
cache_detail.  The owner is further assigned to the struct proc_dir_entry
in cache_register() so that the module cannot be unloaded while user-space
daemons have an open reference on the associated file under /proc.

Signed-off-by: Bruce Allan <bwa@us.ibm.com>
Cc: Trond Myklebust <trond.myklebust@fys.uio.no>
Cc: Neil Brown <neilb@cse.unsw.edu.au>
Signed-off-by: Andrew Morton <akpm@osdl.org>
Signed-off-by: Linus Torvalds <torvalds@osdl.org>
2005-09-07 16:57:25 -07:00

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/*
* include/linux/sunrpc/cache.h
*
* Generic code for various authentication-related caches
* used by sunrpc clients and servers.
*
* Copyright (C) 2002 Neil Brown <neilb@cse.unsw.edu.au>
*
* Released under terms in GPL version 2. See COPYING.
*
*/
#ifndef _LINUX_SUNRPC_CACHE_H_
#define _LINUX_SUNRPC_CACHE_H_
#include <linux/slab.h>
#include <asm/atomic.h>
#include <linux/proc_fs.h>
/*
* Each cache requires:
* - A 'struct cache_detail' which contains information specific to the cache
* for common code to use.
* - An item structure that must contain a "struct cache_head"
* - A lookup function defined using DefineCacheLookup
* - A 'put' function that can release a cache item. It will only
* be called after cache_put has succeed, so there are guarantee
* to be no references.
* - A function to calculate a hash of an item's key.
*
* as well as assorted code fragments (e.g. compare keys) and numbers
* (e.g. hash size, goal_age, etc).
*
* Each cache must be registered so that it can be cleaned regularly.
* When the cache is unregistered, it is flushed completely.
*
* Entries have a ref count and a 'hashed' flag which counts the existance
* in the hash table.
* We only expire entries when refcount is zero.
* Existance in the cache is counted the refcount.
*/
/* Every cache item has a common header that is used
* for expiring and refreshing entries.
*
*/
struct cache_head {
struct cache_head * next;
time_t expiry_time; /* After time time, don't use the data */
time_t last_refresh; /* If CACHE_PENDING, this is when upcall
* was sent, else this is when update was received
*/
atomic_t refcnt;
unsigned long flags;
};
#define CACHE_VALID 0 /* Entry contains valid data */
#define CACHE_NEGATIVE 1 /* Negative entry - there is no match for the key */
#define CACHE_PENDING 2 /* An upcall has been sent but no reply received yet*/
#define CACHE_NEW_EXPIRY 120 /* keep new things pending confirmation for 120 seconds */
struct cache_detail {
struct module * owner;
int hash_size;
struct cache_head ** hash_table;
rwlock_t hash_lock;
atomic_t inuse; /* active user-space update or lookup */
char *name;
void (*cache_put)(struct cache_head *,
struct cache_detail*);
void (*cache_request)(struct cache_detail *cd,
struct cache_head *h,
char **bpp, int *blen);
int (*cache_parse)(struct cache_detail *,
char *buf, int len);
int (*cache_show)(struct seq_file *m,
struct cache_detail *cd,
struct cache_head *h);
/* fields below this comment are for internal use
* and should not be touched by cache owners
*/
time_t flush_time; /* flush all cache items with last_refresh
* earlier than this */
struct list_head others;
time_t nextcheck;
int entries;
/* fields for communication over channel */
struct list_head queue;
struct proc_dir_entry *proc_ent;
struct proc_dir_entry *flush_ent, *channel_ent, *content_ent;
atomic_t readers; /* how many time is /chennel open */
time_t last_close; /* if no readers, when did last close */
time_t last_warn; /* when we last warned about no readers */
void (*warn_no_listener)(struct cache_detail *cd);
};
/* this must be embedded in any request structure that
* identifies an object that will want a callback on
* a cache fill
*/
struct cache_req {
struct cache_deferred_req *(*defer)(struct cache_req *req);
};
/* this must be embedded in a deferred_request that is being
* delayed awaiting cache-fill
*/
struct cache_deferred_req {
struct list_head hash; /* on hash chain */
struct list_head recent; /* on fifo */
struct cache_head *item; /* cache item we wait on */
time_t recv_time;
void *owner; /* we might need to discard all defered requests
* owned by someone */
void (*revisit)(struct cache_deferred_req *req,
int too_many);
};
/*
* just like a template in C++, this macro does cache lookup
* for us.
* The function is passed some sort of HANDLE from which a cache_detail
* structure can be determined (via SETUP, DETAIL), a template
* cache entry (type RTN*), and a "set" flag. Using the HASHFN and the
* TEST, the function will try to find a matching cache entry in the cache.
* If "set" == 0 :
* If an entry is found, it is returned
* If no entry is found, a new non-VALID entry is created.
* If "set" == 1 and INPLACE == 0 :
* If no entry is found a new one is inserted with data from "template"
* If a non-CACHE_VALID entry is found, it is updated from template using UPDATE
* If a CACHE_VALID entry is found, a new entry is swapped in with data
* from "template"
* If set == 1, and INPLACE == 1 :
* As above, except that if a CACHE_VALID entry is found, we UPDATE in place
* instead of swapping in a new entry.
*
* If the passed handle has the CACHE_NEGATIVE flag set, then UPDATE is not
* run but insteead CACHE_NEGATIVE is set in any new item.
* In any case, the new entry is returned with a reference count.
*
*
* RTN is a struct type for a cache entry
* MEMBER is the member of the cache which is cache_head, which must be first
* FNAME is the name for the function
* ARGS are arguments to function and must contain RTN *item, int set. May
* also contain something to be usedby SETUP or DETAIL to find cache_detail.
* SETUP locates the cache detail and makes it available as...
* DETAIL identifies the cache detail, possibly set up by SETUP
* HASHFN returns a hash value of the cache entry "item"
* TEST tests if "tmp" matches "item"
* INIT copies key information from "item" to "new"
* UPDATE copies content information from "item" to "tmp"
* INPLACE is true if updates can happen inplace rather than allocating a new structure
*
* WARNING: any substantial changes to this must be reflected in
* net/sunrpc/svcauth.c(auth_domain_lookup)
* which is a similar routine that is open-coded.
*/
#define DefineCacheLookup(RTN,MEMBER,FNAME,ARGS,SETUP,DETAIL,HASHFN,TEST,INIT,UPDATE,INPLACE) \
RTN *FNAME ARGS \
{ \
RTN *tmp, *new=NULL; \
struct cache_head **hp, **head; \
SETUP; \
head = &(DETAIL)->hash_table[HASHFN]; \
retry: \
if (set||new) write_lock(&(DETAIL)->hash_lock); \
else read_lock(&(DETAIL)->hash_lock); \
for(hp=head; *hp != NULL; hp = &tmp->MEMBER.next) { \
tmp = container_of(*hp, RTN, MEMBER); \
if (TEST) { /* found a match */ \
\
if (set && !INPLACE && test_bit(CACHE_VALID, &tmp->MEMBER.flags) && !new) \
break; \
\
if (new) \
{INIT;} \
if (set) { \
if (!INPLACE && test_bit(CACHE_VALID, &tmp->MEMBER.flags))\
{ /* need to swap in new */ \
RTN *t2; \
\
new->MEMBER.next = tmp->MEMBER.next; \
*hp = &new->MEMBER; \
tmp->MEMBER.next = NULL; \
t2 = tmp; tmp = new; new = t2; \
} \
if (test_bit(CACHE_NEGATIVE, &item->MEMBER.flags)) \
set_bit(CACHE_NEGATIVE, &tmp->MEMBER.flags); \
else { \
UPDATE; \
clear_bit(CACHE_NEGATIVE, &tmp->MEMBER.flags); \
} \
} \
cache_get(&tmp->MEMBER); \
if (set||new) write_unlock(&(DETAIL)->hash_lock); \
else read_unlock(&(DETAIL)->hash_lock); \
if (set) \
cache_fresh(DETAIL, &tmp->MEMBER, item->MEMBER.expiry_time); \
if (set && !INPLACE && new) cache_fresh(DETAIL, &new->MEMBER, 0); \
if (new) (DETAIL)->cache_put(&new->MEMBER, DETAIL); \
return tmp; \
} \
} \
/* Didn't find anything */ \
if (new) { \
INIT; \
new->MEMBER.next = *head; \
*head = &new->MEMBER; \
(DETAIL)->entries ++; \
cache_get(&new->MEMBER); \
if (set) { \
tmp = new; \
if (test_bit(CACHE_NEGATIVE, &item->MEMBER.flags)) \
set_bit(CACHE_NEGATIVE, &tmp->MEMBER.flags); \
else {UPDATE;} \
} \
} \
if (set||new) write_unlock(&(DETAIL)->hash_lock); \
else read_unlock(&(DETAIL)->hash_lock); \
if (new && set) \
cache_fresh(DETAIL, &new->MEMBER, item->MEMBER.expiry_time); \
if (new) \
return new; \
new = kmalloc(sizeof(*new), GFP_KERNEL); \
if (new) { \
cache_init(&new->MEMBER); \
goto retry; \
} \
return NULL; \
}
#define DefineSimpleCacheLookup(STRUCT,INPLACE) \
DefineCacheLookup(struct STRUCT, h, STRUCT##_lookup, (struct STRUCT *item, int set), /*no setup */, \
& STRUCT##_cache, STRUCT##_hash(item), STRUCT##_match(item, tmp),\
STRUCT##_init(new, item), STRUCT##_update(tmp, item),INPLACE)
#define cache_for_each(pos, detail, index, member) \
for (({read_lock(&(detail)->hash_lock); index = (detail)->hash_size;}) ; \
({if (index==0)read_unlock(&(detail)->hash_lock); index--;}); \
) \
for (pos = container_of((detail)->hash_table[index], typeof(*pos), member); \
&pos->member; \
pos = container_of(pos->member.next, typeof(*pos), member))
extern void cache_clean_deferred(void *owner);
static inline struct cache_head *cache_get(struct cache_head *h)
{
atomic_inc(&h->refcnt);
return h;
}
static inline int cache_put(struct cache_head *h, struct cache_detail *cd)
{
if (atomic_read(&h->refcnt) <= 2 &&
h->expiry_time < cd->nextcheck)
cd->nextcheck = h->expiry_time;
return atomic_dec_and_test(&h->refcnt);
}
extern void cache_init(struct cache_head *h);
extern void cache_fresh(struct cache_detail *detail,
struct cache_head *head, time_t expiry);
extern int cache_check(struct cache_detail *detail,
struct cache_head *h, struct cache_req *rqstp);
extern void cache_flush(void);
extern void cache_purge(struct cache_detail *detail);
#define NEVER (0x7FFFFFFF)
extern void cache_register(struct cache_detail *cd);
extern int cache_unregister(struct cache_detail *cd);
extern void qword_add(char **bpp, int *lp, char *str);
extern void qword_addhex(char **bpp, int *lp, char *buf, int blen);
extern int qword_get(char **bpp, char *dest, int bufsize);
static inline int get_int(char **bpp, int *anint)
{
char buf[50];
char *ep;
int rv;
int len = qword_get(bpp, buf, 50);
if (len < 0) return -EINVAL;
if (len ==0) return -ENOENT;
rv = simple_strtol(buf, &ep, 0);
if (*ep) return -EINVAL;
*anint = rv;
return 0;
}
static inline time_t get_expiry(char **bpp)
{
int rv;
if (get_int(bpp, &rv))
return 0;
if (rv < 0)
return 0;
return rv;
}
#endif /* _LINUX_SUNRPC_CACHE_H_ */
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