Commit ba351b02 authored by Dan Magenheimer's avatar Dan Magenheimer Committed by Greg Kroah-Hartman

staging: ramster: local compression + tmem

Copy files from drivers/staging/zcache.  Ramster compresses pages
locally before transmitting them to another node, so we can
leverage the zcache and tmem code directly.  Note: there are
no ramster-specific changes yet to these files.

(Why copy?  The ramster tmem.c/tmem.h changes are definitely shareable
between zcache and ramster; the eventual destination for tmem.c
is the linux lib directory.  Ramster changes to zcache are more substantial
and zcache is currently undergoing some significant unrelated changes
(including a new allocator and breaking zcache-main.c into smaller files),
so it seemed best to branch temporarily and merge later.)
Signed-off-by: default avatarDan Magenheimer <dan.magenheimer@oracle.com>
Signed-off-by: default avatarGreg Kroah-Hartman <gregkh@linuxfoundation.org>
parent 1135ca9c
config ZCACHE
tristate "Dynamic compression of swap pages and clean pagecache pages"
depends on CLEANCACHE || FRONTSWAP
select XVMALLOC
select LZO_COMPRESS
select LZO_DECOMPRESS
default n
help
Zcache doubles RAM efficiency while providing a significant
performance boosts on many workloads. Zcache uses lzo1x
compression and an in-kernel implementation of transcendent
memory to store clean page cache pages and swap in RAM,
providing a noticeable reduction in disk I/O.
zcache-y := zcache-main.o tmem.o
obj-$(CONFIG_ZCACHE) += zcache.o
This diff is collapsed.
/*
* tmem.h
*
* Transcendent memory
*
* Copyright (c) 2009-2011, Dan Magenheimer, Oracle Corp.
*/
#ifndef _TMEM_H_
#define _TMEM_H_
#include <linux/types.h>
#include <linux/highmem.h>
#include <linux/hash.h>
#include <linux/atomic.h>
/*
* These are pre-defined by the Xen<->Linux ABI
*/
#define TMEM_PUT_PAGE 4
#define TMEM_GET_PAGE 5
#define TMEM_FLUSH_PAGE 6
#define TMEM_FLUSH_OBJECT 7
#define TMEM_POOL_PERSIST 1
#define TMEM_POOL_SHARED 2
#define TMEM_POOL_PRECOMPRESSED 4
#define TMEM_POOL_PAGESIZE_SHIFT 4
#define TMEM_POOL_PAGESIZE_MASK 0xf
#define TMEM_POOL_RESERVED_BITS 0x00ffff00
/*
* sentinels have proven very useful for debugging but can be removed
* or disabled before final merge.
*/
#define SENTINELS
#ifdef SENTINELS
#define DECL_SENTINEL uint32_t sentinel;
#define SET_SENTINEL(_x, _y) (_x->sentinel = _y##_SENTINEL)
#define INVERT_SENTINEL(_x, _y) (_x->sentinel = ~_y##_SENTINEL)
#define ASSERT_SENTINEL(_x, _y) WARN_ON(_x->sentinel != _y##_SENTINEL)
#define ASSERT_INVERTED_SENTINEL(_x, _y) WARN_ON(_x->sentinel != ~_y##_SENTINEL)
#else
#define DECL_SENTINEL
#define SET_SENTINEL(_x, _y) do { } while (0)
#define INVERT_SENTINEL(_x, _y) do { } while (0)
#define ASSERT_SENTINEL(_x, _y) do { } while (0)
#define ASSERT_INVERTED_SENTINEL(_x, _y) do { } while (0)
#endif
#define ASSERT_SPINLOCK(_l) WARN_ON(!spin_is_locked(_l))
/*
* A pool is the highest-level data structure managed by tmem and
* usually corresponds to a large independent set of pages such as
* a filesystem. Each pool has an id, and certain attributes and counters.
* It also contains a set of hash buckets, each of which contains an rbtree
* of objects and a lock to manage concurrency within the pool.
*/
#define TMEM_HASH_BUCKET_BITS 8
#define TMEM_HASH_BUCKETS (1<<TMEM_HASH_BUCKET_BITS)
struct tmem_hashbucket {
struct rb_root obj_rb_root;
spinlock_t lock;
};
struct tmem_pool {
void *client; /* "up" for some clients, avoids table lookup */
struct list_head pool_list;
uint32_t pool_id;
bool persistent;
bool shared;
atomic_t obj_count;
atomic_t refcount;
struct tmem_hashbucket hashbucket[TMEM_HASH_BUCKETS];
DECL_SENTINEL
};
#define is_persistent(_p) (_p->persistent)
#define is_ephemeral(_p) (!(_p->persistent))
/*
* An object id ("oid") is large: 192-bits (to ensure, for example, files
* in a modern filesystem can be uniquely identified).
*/
struct tmem_oid {
uint64_t oid[3];
};
static inline void tmem_oid_set_invalid(struct tmem_oid *oidp)
{
oidp->oid[0] = oidp->oid[1] = oidp->oid[2] = -1UL;
}
static inline bool tmem_oid_valid(struct tmem_oid *oidp)
{
return oidp->oid[0] != -1UL || oidp->oid[1] != -1UL ||
oidp->oid[2] != -1UL;
}
static inline int tmem_oid_compare(struct tmem_oid *left,
struct tmem_oid *right)
{
int ret;
if (left->oid[2] == right->oid[2]) {
if (left->oid[1] == right->oid[1]) {
if (left->oid[0] == right->oid[0])
ret = 0;
else if (left->oid[0] < right->oid[0])
ret = -1;
else
return 1;
} else if (left->oid[1] < right->oid[1])
ret = -1;
else
ret = 1;
} else if (left->oid[2] < right->oid[2])
ret = -1;
else
ret = 1;
return ret;
}
static inline unsigned tmem_oid_hash(struct tmem_oid *oidp)
{
return hash_long(oidp->oid[0] ^ oidp->oid[1] ^ oidp->oid[2],
TMEM_HASH_BUCKET_BITS);
}
/*
* A tmem_obj contains an identifier (oid), pointers to the parent
* pool and the rb_tree to which it belongs, counters, and an ordered
* set of pampds, structured in a radix-tree-like tree. The intermediate
* nodes of the tree are called tmem_objnodes.
*/
struct tmem_objnode;
struct tmem_obj {
struct tmem_oid oid;
struct tmem_pool *pool;
struct rb_node rb_tree_node;
struct tmem_objnode *objnode_tree_root;
unsigned int objnode_tree_height;
unsigned long objnode_count;
long pampd_count;
void *extra; /* for private use by pampd implementation */
DECL_SENTINEL
};
#define OBJNODE_TREE_MAP_SHIFT 6
#define OBJNODE_TREE_MAP_SIZE (1UL << OBJNODE_TREE_MAP_SHIFT)
#define OBJNODE_TREE_MAP_MASK (OBJNODE_TREE_MAP_SIZE-1)
#define OBJNODE_TREE_INDEX_BITS (8 /* CHAR_BIT */ * sizeof(unsigned long))
#define OBJNODE_TREE_MAX_PATH \
(OBJNODE_TREE_INDEX_BITS/OBJNODE_TREE_MAP_SHIFT + 2)
struct tmem_objnode {
struct tmem_obj *obj;
DECL_SENTINEL
void *slots[OBJNODE_TREE_MAP_SIZE];
unsigned int slots_in_use;
};
/* pampd abstract datatype methods provided by the PAM implementation */
struct tmem_pamops {
void *(*create)(char *, size_t, bool, int,
struct tmem_pool *, struct tmem_oid *, uint32_t);
int (*get_data)(char *, size_t *, bool, void *, struct tmem_pool *,
struct tmem_oid *, uint32_t);
int (*get_data_and_free)(char *, size_t *, bool, void *,
struct tmem_pool *, struct tmem_oid *,
uint32_t);
void (*free)(void *, struct tmem_pool *, struct tmem_oid *, uint32_t);
void (*free_obj)(struct tmem_pool *, struct tmem_obj *);
bool (*is_remote)(void *);
void (*new_obj)(struct tmem_obj *);
int (*replace_in_obj)(void *, struct tmem_obj *);
};
extern void tmem_register_pamops(struct tmem_pamops *m);
/* memory allocation methods provided by the host implementation */
struct tmem_hostops {
struct tmem_obj *(*obj_alloc)(struct tmem_pool *);
void (*obj_free)(struct tmem_obj *, struct tmem_pool *);
struct tmem_objnode *(*objnode_alloc)(struct tmem_pool *);
void (*objnode_free)(struct tmem_objnode *, struct tmem_pool *);
};
extern void tmem_register_hostops(struct tmem_hostops *m);
/* core tmem accessor functions */
extern int tmem_put(struct tmem_pool *, struct tmem_oid *, uint32_t index,
char *, size_t, bool, bool);
extern int tmem_get(struct tmem_pool *, struct tmem_oid *, uint32_t index,
char *, size_t *, bool, int);
extern int tmem_replace(struct tmem_pool *, struct tmem_oid *, uint32_t index,
void *);
extern int tmem_flush_page(struct tmem_pool *, struct tmem_oid *,
uint32_t index);
extern int tmem_flush_object(struct tmem_pool *, struct tmem_oid *);
extern int tmem_destroy_pool(struct tmem_pool *);
extern void tmem_new_pool(struct tmem_pool *, uint32_t);
#endif /* _TMEM_H */
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