266 lines
8.2 KiB
C
266 lines
8.2 KiB
C
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/*
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* Copyright (C) 2012 Red Hat. All rights reserved.
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*
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* This file is released under the GPL.
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*/
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#ifndef DM_CACHE_POLICY_H
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#define DM_CACHE_POLICY_H
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#include "dm-cache-block-types.h"
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#include <linux/device-mapper.h>
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/*----------------------------------------------------------------*/
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/* FIXME: make it clear which methods are optional. Get debug policy to
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* double check this at start.
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*/
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/*
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* The cache policy makes the important decisions about which blocks get to
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* live on the faster cache device.
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*
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* When the core target has to remap a bio it calls the 'map' method of the
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* policy. This returns an instruction telling the core target what to do.
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*
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* POLICY_HIT:
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* That block is in the cache. Remap to the cache and carry on.
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*
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* POLICY_MISS:
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* This block is on the origin device. Remap and carry on.
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*
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* POLICY_NEW:
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* This block is currently on the origin device, but the policy wants to
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* move it. The core should:
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*
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* - hold any further io to this origin block
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* - copy the origin to the given cache block
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* - release all the held blocks
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* - remap the original block to the cache
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*
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* POLICY_REPLACE:
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* This block is currently on the origin device. The policy wants to
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* move it to the cache, with the added complication that the destination
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* cache block needs a writeback first. The core should:
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*
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* - hold any further io to this origin block
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* - hold any further io to the origin block that's being written back
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* - writeback
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* - copy new block to cache
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* - release held blocks
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* - remap bio to cache and reissue.
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*
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* Should the core run into trouble while processing a POLICY_NEW or
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* POLICY_REPLACE instruction it will roll back the policies mapping using
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* remove_mapping() or force_mapping(). These methods must not fail. This
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* approach avoids having transactional semantics in the policy (ie, the
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* core informing the policy when a migration is complete), and hence makes
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* it easier to write new policies.
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*
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* In general policy methods should never block, except in the case of the
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* map function when can_migrate is set. So be careful to implement using
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* bounded, preallocated memory.
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*/
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enum policy_operation {
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POLICY_HIT,
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POLICY_MISS,
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POLICY_NEW,
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POLICY_REPLACE
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};
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/*
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* When issuing a POLICY_REPLACE the policy needs to make a callback to
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* lock the block being demoted. This doesn't need to occur during a
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* writeback operation since the block remains in the cache.
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*/
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struct policy_locker;
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typedef int (*policy_lock_fn)(struct policy_locker *l, dm_oblock_t oblock);
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struct policy_locker {
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policy_lock_fn fn;
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};
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/*
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* This is the instruction passed back to the core target.
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*/
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struct policy_result {
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enum policy_operation op;
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dm_oblock_t old_oblock; /* POLICY_REPLACE */
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dm_cblock_t cblock; /* POLICY_HIT, POLICY_NEW, POLICY_REPLACE */
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};
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/*
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* The cache policy object. Just a bunch of methods. It is envisaged that
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* this structure will be embedded in a bigger, policy specific structure
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* (ie. use container_of()).
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*/
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struct dm_cache_policy {
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/*
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* FIXME: make it clear which methods are optional, and which may
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* block.
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*/
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/*
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* Destroys this object.
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*/
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void (*destroy)(struct dm_cache_policy *p);
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/*
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* See large comment above.
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*
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* oblock - the origin block we're interested in.
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*
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* can_block - indicates whether the current thread is allowed to
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* block. -EWOULDBLOCK returned if it can't and would.
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*
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* can_migrate - gives permission for POLICY_NEW or POLICY_REPLACE
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* instructions. If denied and the policy would have
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* returned one of these instructions it should
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* return -EWOULDBLOCK.
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*
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* discarded_oblock - indicates whether the whole origin block is
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* in a discarded state (FIXME: better to tell the
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* policy about this sooner, so it can recycle that
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* cache block if it wants.)
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* bio - the bio that triggered this call.
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* result - gets filled in with the instruction.
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*
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* May only return 0, or -EWOULDBLOCK (if !can_migrate)
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*/
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int (*map)(struct dm_cache_policy *p, dm_oblock_t oblock,
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bool can_block, bool can_migrate, bool discarded_oblock,
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struct bio *bio, struct policy_locker *locker,
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struct policy_result *result);
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/*
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* Sometimes we want to see if a block is in the cache, without
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* triggering any update of stats. (ie. it's not a real hit).
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*
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* Must not block.
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*
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* Returns 0 if in cache, -ENOENT if not, < 0 for other errors
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* (-EWOULDBLOCK would be typical).
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*/
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int (*lookup)(struct dm_cache_policy *p, dm_oblock_t oblock, dm_cblock_t *cblock);
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void (*set_dirty)(struct dm_cache_policy *p, dm_oblock_t oblock);
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void (*clear_dirty)(struct dm_cache_policy *p, dm_oblock_t oblock);
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/*
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* Called when a cache target is first created. Used to load a
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* mapping from the metadata device into the policy.
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*/
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int (*load_mapping)(struct dm_cache_policy *p, dm_oblock_t oblock,
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dm_cblock_t cblock, uint32_t hint, bool hint_valid);
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/*
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* Gets the hint for a given cblock. Called in a single threaded
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* context. So no locking required.
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*/
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uint32_t (*get_hint)(struct dm_cache_policy *p, dm_cblock_t cblock);
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/*
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* Override functions used on the error paths of the core target.
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* They must succeed.
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*/
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void (*remove_mapping)(struct dm_cache_policy *p, dm_oblock_t oblock);
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void (*force_mapping)(struct dm_cache_policy *p, dm_oblock_t current_oblock,
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dm_oblock_t new_oblock);
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/*
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* This is called via the invalidate_cblocks message. It is
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* possible the particular cblock has already been removed due to a
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* write io in passthrough mode. In which case this should return
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* -ENODATA.
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*/
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int (*remove_cblock)(struct dm_cache_policy *p, dm_cblock_t cblock);
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/*
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* Provide a dirty block to be written back by the core target. If
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* critical_only is set then the policy should only provide work if
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* it urgently needs it.
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*
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* Returns:
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*
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* 0 and @cblock,@oblock: block to write back provided
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*
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* -ENODATA: no dirty blocks available
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*/
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int (*writeback_work)(struct dm_cache_policy *p, dm_oblock_t *oblock, dm_cblock_t *cblock,
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bool critical_only);
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/*
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* How full is the cache?
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*/
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dm_cblock_t (*residency)(struct dm_cache_policy *p);
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/*
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* Because of where we sit in the block layer, we can be asked to
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* map a lot of little bios that are all in the same block (no
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* queue merging has occurred). To stop the policy being fooled by
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* these, the core target sends regular tick() calls to the policy.
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* The policy should only count an entry as hit once per tick.
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*/
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void (*tick)(struct dm_cache_policy *p, bool can_block);
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/*
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* Configuration.
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*/
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int (*emit_config_values)(struct dm_cache_policy *p, char *result,
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unsigned maxlen, ssize_t *sz_ptr);
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int (*set_config_value)(struct dm_cache_policy *p,
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const char *key, const char *value);
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/*
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* Book keeping ptr for the policy register, not for general use.
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*/
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void *private;
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};
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/*----------------------------------------------------------------*/
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/*
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* We maintain a little register of the different policy types.
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*/
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#define CACHE_POLICY_NAME_SIZE 16
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#define CACHE_POLICY_VERSION_SIZE 3
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struct dm_cache_policy_type {
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/* For use by the register code only. */
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struct list_head list;
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/*
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* Policy writers should fill in these fields. The name field is
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* what gets passed on the target line to select your policy.
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*/
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char name[CACHE_POLICY_NAME_SIZE];
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unsigned version[CACHE_POLICY_VERSION_SIZE];
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/*
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* For use by an alias dm_cache_policy_type to point to the
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* real dm_cache_policy_type.
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*/
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struct dm_cache_policy_type *real;
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/*
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* Policies may store a hint for each each cache block.
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* Currently the size of this hint must be 0 or 4 bytes but we
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* expect to relax this in future.
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*/
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size_t hint_size;
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struct module *owner;
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struct dm_cache_policy *(*create)(dm_cblock_t cache_size,
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sector_t origin_size,
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sector_t block_size);
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};
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int dm_cache_policy_register(struct dm_cache_policy_type *type);
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void dm_cache_policy_unregister(struct dm_cache_policy_type *type);
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/*----------------------------------------------------------------*/
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#endif /* DM_CACHE_POLICY_H */
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