linux/fs/nfsd/nfscache.c

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/*
* linux/fs/nfsd/nfscache.c
*
* Request reply cache. This is currently a global cache, but this may
* change in the future and be a per-client cache.
*
* This code is heavily inspired by the 44BSD implementation, although
* it does things a bit differently.
*
* Copyright (C) 1995, 1996 Olaf Kirch <okir@monad.swb.de>
*/
#include <linux/kernel.h>
#include <linux/time.h>
#include <linux/slab.h>
#include <linux/string.h>
#include <linux/spinlock.h>
#include <linux/list.h>
#include <linux/sunrpc/svc.h>
#include <linux/nfsd/nfsd.h>
#include <linux/nfsd/cache.h>
/* Size of reply cache. Common values are:
* 4.3BSD: 128
* 4.4BSD: 256
* Solaris2: 1024
* DEC Unix: 512-4096
*/
#define CACHESIZE 1024
#define HASHSIZE 64
#define REQHASH(xid) (((((__force __u32)xid) >> 24) ^ ((__force __u32)xid)) & (HASHSIZE-1))
static struct hlist_head * hash_list;
static struct list_head lru_head;
static int cache_disabled = 1;
static int nfsd_cache_append(struct svc_rqst *rqstp, struct kvec *vec);
/*
* locking for the reply cache:
* A cache entry is "single use" if c_state == RC_INPROG
* Otherwise, it when accessing _prev or _next, the lock must be held.
*/
static DEFINE_SPINLOCK(cache_lock);
void
nfsd_cache_init(void)
{
struct svc_cacherep *rp;
int i;
INIT_LIST_HEAD(&lru_head);
i = CACHESIZE;
while(i) {
rp = kmalloc(sizeof(*rp), GFP_KERNEL);
if (!rp) break;
list_add(&rp->c_lru, &lru_head);
rp->c_state = RC_UNUSED;
rp->c_type = RC_NOCACHE;
INIT_HLIST_NODE(&rp->c_hash);
i--;
}
if (i)
printk (KERN_ERR "nfsd: cannot allocate all %d cache entries, only got %d\n",
CACHESIZE, CACHESIZE-i);
hash_list = kmalloc (HASHSIZE * sizeof(struct hlist_head), GFP_KERNEL);
if (!hash_list) {
nfsd_cache_shutdown();
printk (KERN_ERR "nfsd: cannot allocate %Zd bytes for hash list\n",
HASHSIZE * sizeof(struct hlist_head));
return;
}
memset(hash_list, 0, HASHSIZE * sizeof(struct hlist_head));
cache_disabled = 0;
}
void
nfsd_cache_shutdown(void)
{
struct svc_cacherep *rp;
while (!list_empty(&lru_head)) {
rp = list_entry(lru_head.next, struct svc_cacherep, c_lru);
if (rp->c_state == RC_DONE && rp->c_type == RC_REPLBUFF)
kfree(rp->c_replvec.iov_base);
list_del(&rp->c_lru);
kfree(rp);
}
cache_disabled = 1;
kfree (hash_list);
hash_list = NULL;
}
/*
* Move cache entry to end of LRU list
*/
static void
lru_put_end(struct svc_cacherep *rp)
{
list_move_tail(&rp->c_lru, &lru_head);
}
/*
* Move a cache entry from one hash list to another
*/
static void
hash_refile(struct svc_cacherep *rp)
{
hlist_del_init(&rp->c_hash);
hlist_add_head(&rp->c_hash, hash_list + REQHASH(rp->c_xid));
}
/*
* Try to find an entry matching the current call in the cache. When none
* is found, we grab the oldest unlocked entry off the LRU list.
* Note that no operation within the loop may sleep.
*/
int
nfsd_cache_lookup(struct svc_rqst *rqstp, int type)
{
struct hlist_node *hn;
struct hlist_head *rh;
struct svc_cacherep *rp;
__be32 xid = rqstp->rq_xid;
u32 proto = rqstp->rq_prot,
vers = rqstp->rq_vers,
proc = rqstp->rq_proc;
unsigned long age;
int rtn;
rqstp->rq_cacherep = NULL;
if (cache_disabled || type == RC_NOCACHE) {
nfsdstats.rcnocache++;
return RC_DOIT;
}
spin_lock(&cache_lock);
rtn = RC_DOIT;
rh = &hash_list[REQHASH(xid)];
hlist_for_each_entry(rp, hn, rh, c_hash) {
if (rp->c_state != RC_UNUSED &&
xid == rp->c_xid && proc == rp->c_proc &&
proto == rp->c_prot && vers == rp->c_vers &&
time_before(jiffies, rp->c_timestamp + 120*HZ) &&
memcmp((char*)&rqstp->rq_addr, (char*)&rp->c_addr, sizeof(rp->c_addr))==0) {
nfsdstats.rchits++;
goto found_entry;
}
}
nfsdstats.rcmisses++;
/* This loop shouldn't take more than a few iterations normally */
{
int safe = 0;
list_for_each_entry(rp, &lru_head, c_lru) {
if (rp->c_state != RC_INPROG)
break;
if (safe++ > CACHESIZE) {
printk("nfsd: loop in repcache LRU list\n");
cache_disabled = 1;
goto out;
}
}
}
/* This should not happen */
if (rp == NULL) {
static int complaints;
printk(KERN_WARNING "nfsd: all repcache entries locked!\n");
if (++complaints > 5) {
printk(KERN_WARNING "nfsd: disabling repcache.\n");
cache_disabled = 1;
}
goto out;
}
rqstp->rq_cacherep = rp;
rp->c_state = RC_INPROG;
rp->c_xid = xid;
rp->c_proc = proc;
rp->c_addr = rqstp->rq_addr;
rp->c_prot = proto;
rp->c_vers = vers;
rp->c_timestamp = jiffies;
hash_refile(rp);
/* release any buffer */
if (rp->c_type == RC_REPLBUFF) {
kfree(rp->c_replvec.iov_base);
rp->c_replvec.iov_base = NULL;
}
rp->c_type = RC_NOCACHE;
out:
spin_unlock(&cache_lock);
return rtn;
found_entry:
/* We found a matching entry which is either in progress or done. */
age = jiffies - rp->c_timestamp;
rp->c_timestamp = jiffies;
lru_put_end(rp);
rtn = RC_DROPIT;
/* Request being processed or excessive rexmits */
if (rp->c_state == RC_INPROG || age < RC_DELAY)
goto out;
/* From the hall of fame of impractical attacks:
* Is this a user who tries to snoop on the cache? */
rtn = RC_DOIT;
if (!rqstp->rq_secure && rp->c_secure)
goto out;
/* Compose RPC reply header */
switch (rp->c_type) {
case RC_NOCACHE:
break;
case RC_REPLSTAT:
svc_putu32(&rqstp->rq_res.head[0], rp->c_replstat);
rtn = RC_REPLY;
break;
case RC_REPLBUFF:
if (!nfsd_cache_append(rqstp, &rp->c_replvec))
goto out; /* should not happen */
rtn = RC_REPLY;
break;
default:
printk(KERN_WARNING "nfsd: bad repcache type %d\n", rp->c_type);
rp->c_state = RC_UNUSED;
}
goto out;
}
/*
* Update a cache entry. This is called from nfsd_dispatch when
* the procedure has been executed and the complete reply is in
* rqstp->rq_res.
*
* We're copying around data here rather than swapping buffers because
* the toplevel loop requires max-sized buffers, which would be a waste
* of memory for a cache with a max reply size of 100 bytes (diropokres).
*
* If we should start to use different types of cache entries tailored
* specifically for attrstat and fh's, we may save even more space.
*
* Also note that a cachetype of RC_NOCACHE can legally be passed when
* nfsd failed to encode a reply that otherwise would have been cached.
* In this case, nfsd_cache_update is called with statp == NULL.
*/
void
nfsd_cache_update(struct svc_rqst *rqstp, int cachetype, __be32 *statp)
{
struct svc_cacherep *rp;
struct kvec *resv = &rqstp->rq_res.head[0], *cachv;
int len;
if (!(rp = rqstp->rq_cacherep) || cache_disabled)
return;
len = resv->iov_len - ((char*)statp - (char*)resv->iov_base);
len >>= 2;
/* Don't cache excessive amounts of data and XDR failures */
if (!statp || len > (256 >> 2)) {
rp->c_state = RC_UNUSED;
return;
}
switch (cachetype) {
case RC_REPLSTAT:
if (len != 1)
printk("nfsd: RC_REPLSTAT/reply len %d!\n",len);
rp->c_replstat = *statp;
break;
case RC_REPLBUFF:
cachv = &rp->c_replvec;
cachv->iov_base = kmalloc(len << 2, GFP_KERNEL);
if (!cachv->iov_base) {
spin_lock(&cache_lock);
rp->c_state = RC_UNUSED;
spin_unlock(&cache_lock);
return;
}
cachv->iov_len = len << 2;
memcpy(cachv->iov_base, statp, len << 2);
break;
}
spin_lock(&cache_lock);
lru_put_end(rp);
rp->c_secure = rqstp->rq_secure;
rp->c_type = cachetype;
rp->c_state = RC_DONE;
rp->c_timestamp = jiffies;
spin_unlock(&cache_lock);
return;
}
/*
* Copy cached reply to current reply buffer. Should always fit.
* FIXME as reply is in a page, we should just attach the page, and
* keep a refcount....
*/
static int
nfsd_cache_append(struct svc_rqst *rqstp, struct kvec *data)
{
struct kvec *vec = &rqstp->rq_res.head[0];
if (vec->iov_len + data->iov_len > PAGE_SIZE) {
printk(KERN_WARNING "nfsd: cached reply too large (%Zd).\n",
data->iov_len);
return 0;
}
memcpy((char*)vec->iov_base + vec->iov_len, data->iov_base, data->iov_len);
vec->iov_len += data->iov_len;
return 1;
}