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|
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2013, Delphix. All rights reserved.
* Copyright (c) 2013, Saso Kiselkov. All rights reserved.
* Copyright (c) 2013, Nexenta Systems, Inc. All rights reserved.
* Copyright (c) 2020, George Amanakis. All rights reserved.
*/
#ifndef _SYS_ARC_IMPL_H
#define _SYS_ARC_IMPL_H
#include <sys/arc.h>
#include <sys/zio_crypt.h>
#include <sys/zthr.h>
#include <sys/aggsum.h>
#include <sys/wmsum.h>
#ifdef __cplusplus
extern "C" {
#endif
/*
* Note that buffers can be in one of 6 states:
* ARC_anon - anonymous (discussed below)
* ARC_mru - recently used, currently cached
* ARC_mru_ghost - recently used, no longer in cache
* ARC_mfu - frequently used, currently cached
* ARC_mfu_ghost - frequently used, no longer in cache
* ARC_l2c_only - exists in L2ARC but not other states
* When there are no active references to the buffer, they are
* are linked onto a list in one of these arc states. These are
* the only buffers that can be evicted or deleted. Within each
* state there are multiple lists, one for meta-data and one for
* non-meta-data. Meta-data (indirect blocks, blocks of dnodes,
* etc.) is tracked separately so that it can be managed more
* explicitly: favored over data, limited explicitly.
*
* Anonymous buffers are buffers that are not associated with
* a DVA. These are buffers that hold dirty block copies
* before they are written to stable storage. By definition,
* they are "ref'd" and are considered part of arc_mru
* that cannot be freed. Generally, they will acquire a DVA
* as they are written and migrate onto the arc_mru list.
*
* The ARC_l2c_only state is for buffers that are in the second
* level ARC but no longer in any of the ARC_m* lists. The second
* level ARC itself may also contain buffers that are in any of
* the ARC_m* states - meaning that a buffer can exist in two
* places. The reason for the ARC_l2c_only state is to keep the
* buffer header in the hash table, so that reads that hit the
* second level ARC benefit from these fast lookups.
*/
typedef struct arc_state {
/*
* list of evictable buffers
*/
multilist_t arcs_list[ARC_BUFC_NUMTYPES];
/*
* supports the "dbufs" kstat
*/
arc_state_type_t arcs_state;
/*
* total amount of evictable data in this state
*/
zfs_refcount_t arcs_esize[ARC_BUFC_NUMTYPES] ____cacheline_aligned;
/*
* total amount of data in this state; this includes: evictable,
* non-evictable, ARC_BUFC_DATA, and ARC_BUFC_METADATA.
*/
zfs_refcount_t arcs_size;
} arc_state_t;
typedef struct arc_callback arc_callback_t;
struct arc_callback {
void *acb_private;
arc_read_done_func_t *acb_done;
arc_buf_t *acb_buf;
boolean_t acb_encrypted;
boolean_t acb_compressed;
boolean_t acb_noauth;
boolean_t acb_nobuf;
zbookmark_phys_t acb_zb;
zio_t *acb_zio_dummy;
zio_t *acb_zio_head;
arc_callback_t *acb_next;
};
typedef struct arc_write_callback arc_write_callback_t;
struct arc_write_callback {
void *awcb_private;
arc_write_done_func_t *awcb_ready;
arc_write_done_func_t *awcb_children_ready;
arc_write_done_func_t *awcb_physdone;
arc_write_done_func_t *awcb_done;
arc_buf_t *awcb_buf;
};
/*
* ARC buffers are separated into multiple structs as a memory saving measure:
* - Common fields struct, always defined, and embedded within it:
* - L2-only fields, always allocated but undefined when not in L2ARC
* - L1-only fields, only allocated when in L1ARC
*
* Buffer in L1 Buffer only in L2
* +------------------------+ +------------------------+
* | arc_buf_hdr_t | | arc_buf_hdr_t |
* | | | |
* | | | |
* | | | |
* +------------------------+ +------------------------+
* | l2arc_buf_hdr_t | | l2arc_buf_hdr_t |
* | (undefined if L1-only) | | |
* +------------------------+ +------------------------+
* | l1arc_buf_hdr_t |
* | |
* | |
* | |
* | |
* +------------------------+
*
* Because it's possible for the L2ARC to become extremely large, we can wind
* up eating a lot of memory in L2ARC buffer headers, so the size of a header
* is minimized by only allocating the fields necessary for an L1-cached buffer
* when a header is actually in the L1 cache. The sub-headers (l1arc_buf_hdr and
* l2arc_buf_hdr) are embedded rather than allocated separately to save a couple
* words in pointers. arc_hdr_realloc() is used to switch a header between
* these two allocation states.
*/
typedef struct l1arc_buf_hdr {
kmutex_t b_freeze_lock;
zio_cksum_t *b_freeze_cksum;
/* for waiting on reads to complete */
kcondvar_t b_cv;
uint8_t b_byteswap;
/* protected by arc state mutex */
arc_state_t *b_state;
multilist_node_t b_arc_node;
/* protected by hash lock */
clock_t b_arc_access;
uint32_t b_mru_hits;
uint32_t b_mru_ghost_hits;
uint32_t b_mfu_hits;
uint32_t b_mfu_ghost_hits;
uint32_t b_bufcnt;
arc_buf_t *b_buf;
/* self protecting */
zfs_refcount_t b_refcnt;
arc_callback_t *b_acb;
abd_t *b_pabd;
} l1arc_buf_hdr_t;
typedef enum l2arc_dev_hdr_flags_t {
L2ARC_DEV_HDR_EVICT_FIRST = (1 << 0) /* mirror of l2ad_first */
} l2arc_dev_hdr_flags_t;
/*
* Pointer used in persistent L2ARC (for pointing to log blocks).
*/
typedef struct l2arc_log_blkptr {
/*
* Offset of log block within the device, in bytes
*/
uint64_t lbp_daddr;
/*
* Aligned payload size (in bytes) of the log block
*/
uint64_t lbp_payload_asize;
/*
* Offset in bytes of the first buffer in the payload
*/
uint64_t lbp_payload_start;
/*
* lbp_prop has the following format:
* * logical size (in bytes)
* * aligned (after compression) size (in bytes)
* * compression algorithm (we always LZ4-compress l2arc logs)
* * checksum algorithm (used for lbp_cksum)
*/
uint64_t lbp_prop;
zio_cksum_t lbp_cksum; /* checksum of log */
} l2arc_log_blkptr_t;
/*
* The persistent L2ARC device header.
* Byte order of magic determines whether 64-bit bswap of fields is necessary.
*/
typedef struct l2arc_dev_hdr_phys {
uint64_t dh_magic; /* L2ARC_DEV_HDR_MAGIC */
uint64_t dh_version; /* Persistent L2ARC version */
/*
* Global L2ARC device state and metadata.
*/
uint64_t dh_spa_guid;
uint64_t dh_vdev_guid;
uint64_t dh_log_entries; /* mirror of l2ad_log_entries */
uint64_t dh_evict; /* evicted offset in bytes */
uint64_t dh_flags; /* l2arc_dev_hdr_flags_t */
/*
* Used in zdb.c for determining if a log block is valid, in the same
* way that l2arc_rebuild() does.
*/
uint64_t dh_start; /* mirror of l2ad_start */
uint64_t dh_end; /* mirror of l2ad_end */
/*
* Start of log block chain. [0] -> newest log, [1] -> one older (used
* for initiating prefetch).
*/
l2arc_log_blkptr_t dh_start_lbps[2];
/*
* Aligned size of all log blocks as accounted by vdev_space_update().
*/
uint64_t dh_lb_asize; /* mirror of l2ad_lb_asize */
uint64_t dh_lb_count; /* mirror of l2ad_lb_count */
/*
* Mirrors of vdev_trim_action_time and vdev_trim_state, used to
* display when the cache device was fully trimmed for the last
* time.
*/
uint64_t dh_trim_action_time;
uint64_t dh_trim_state;
const uint64_t dh_pad[30]; /* pad to 512 bytes */
zio_eck_t dh_tail;
} l2arc_dev_hdr_phys_t;
CTASSERT_GLOBAL(sizeof (l2arc_dev_hdr_phys_t) == SPA_MINBLOCKSIZE);
/*
* A single ARC buffer header entry in a l2arc_log_blk_phys_t.
*/
typedef struct l2arc_log_ent_phys {
dva_t le_dva; /* dva of buffer */
uint64_t le_birth; /* birth txg of buffer */
/*
* le_prop has the following format:
* * logical size (in bytes)
* * physical (compressed) size (in bytes)
* * compression algorithm
* * object type (used to restore arc_buf_contents_t)
* * protected status (used for encryption)
* * prefetch status (used in l2arc_read_done())
*/
uint64_t le_prop;
uint64_t le_daddr; /* buf location on l2dev */
uint64_t le_complevel;
/*
* We pad the size of each entry to a power of 2 so that the size of
* l2arc_log_blk_phys_t is power-of-2 aligned with SPA_MINBLOCKSHIFT,
* because of the L2ARC_SET_*SIZE macros.
*/
const uint64_t le_pad[2]; /* pad to 64 bytes */
} l2arc_log_ent_phys_t;
#define L2ARC_LOG_BLK_MAX_ENTRIES (1022)
/*
* A log block of up to 1022 ARC buffer log entries, chained into the
* persistent L2ARC metadata linked list. Byte order of magic determines
* whether 64-bit bswap of fields is necessary.
*/
typedef struct l2arc_log_blk_phys {
uint64_t lb_magic; /* L2ARC_LOG_BLK_MAGIC */
/*
* There are 2 chains (headed by dh_start_lbps[2]), and this field
* points back to the previous block in this chain. We alternate
* which chain we append to, so they are time-wise and offset-wise
* interleaved, but that is an optimization rather than for
* correctness.
*/
l2arc_log_blkptr_t lb_prev_lbp; /* pointer to prev log block */
/*
* Pad header section to 128 bytes
*/
uint64_t lb_pad[7];
/* Payload */
l2arc_log_ent_phys_t lb_entries[L2ARC_LOG_BLK_MAX_ENTRIES];
} l2arc_log_blk_phys_t; /* 64K total */
/*
* The size of l2arc_log_blk_phys_t has to be power-of-2 aligned with
* SPA_MINBLOCKSHIFT because of L2BLK_SET_*SIZE macros.
*/
CTASSERT_GLOBAL(IS_P2ALIGNED(sizeof (l2arc_log_blk_phys_t),
1ULL << SPA_MINBLOCKSHIFT));
CTASSERT_GLOBAL(sizeof (l2arc_log_blk_phys_t) >= SPA_MINBLOCKSIZE);
CTASSERT_GLOBAL(sizeof (l2arc_log_blk_phys_t) <= SPA_MAXBLOCKSIZE);
/*
* These structures hold in-flight abd buffers for log blocks as they're being
* written to the L2ARC device.
*/
typedef struct l2arc_lb_abd_buf {
abd_t *abd;
list_node_t node;
} l2arc_lb_abd_buf_t;
/*
* These structures hold pointers to log blocks present on the L2ARC device.
*/
typedef struct l2arc_lb_ptr_buf {
l2arc_log_blkptr_t *lb_ptr;
list_node_t node;
} l2arc_lb_ptr_buf_t;
/* Macros for setting fields in le_prop and lbp_prop */
#define L2BLK_GET_LSIZE(field) \
BF64_GET_SB((field), 0, SPA_LSIZEBITS, SPA_MINBLOCKSHIFT, 1)
#define L2BLK_SET_LSIZE(field, x) \
BF64_SET_SB((field), 0, SPA_LSIZEBITS, SPA_MINBLOCKSHIFT, 1, x)
#define L2BLK_GET_PSIZE(field) \
BF64_GET_SB((field), 16, SPA_PSIZEBITS, SPA_MINBLOCKSHIFT, 1)
#define L2BLK_SET_PSIZE(field, x) \
BF64_SET_SB((field), 16, SPA_PSIZEBITS, SPA_MINBLOCKSHIFT, 1, x)
#define L2BLK_GET_COMPRESS(field) \
BF64_GET((field), 32, SPA_COMPRESSBITS)
#define L2BLK_SET_COMPRESS(field, x) \
BF64_SET((field), 32, SPA_COMPRESSBITS, x)
#define L2BLK_GET_PREFETCH(field) BF64_GET((field), 39, 1)
#define L2BLK_SET_PREFETCH(field, x) BF64_SET((field), 39, 1, x)
#define L2BLK_GET_CHECKSUM(field) BF64_GET((field), 40, 8)
#define L2BLK_SET_CHECKSUM(field, x) BF64_SET((field), 40, 8, x)
#define L2BLK_GET_TYPE(field) BF64_GET((field), 48, 8)
#define L2BLK_SET_TYPE(field, x) BF64_SET((field), 48, 8, x)
#define L2BLK_GET_PROTECTED(field) BF64_GET((field), 56, 1)
#define L2BLK_SET_PROTECTED(field, x) BF64_SET((field), 56, 1, x)
#define L2BLK_GET_STATE(field) BF64_GET((field), 57, 4)
#define L2BLK_SET_STATE(field, x) BF64_SET((field), 57, 4, x)
#define PTR_SWAP(x, y) \
do { \
void *tmp = (x);\
x = y; \
y = tmp; \
_NOTE(CONSTCOND)\
} while (0)
#define L2ARC_DEV_HDR_MAGIC 0x5a46534341434845LLU /* ASCII: "ZFSCACHE" */
#define L2ARC_LOG_BLK_MAGIC 0x4c4f47424c4b4844LLU /* ASCII: "LOGBLKHD" */
/*
* L2ARC Internals
*/
typedef struct l2arc_dev {
vdev_t *l2ad_vdev; /* vdev */
spa_t *l2ad_spa; /* spa */
uint64_t l2ad_hand; /* next write location */
uint64_t l2ad_start; /* first addr on device */
uint64_t l2ad_end; /* last addr on device */
boolean_t l2ad_first; /* first sweep through */
boolean_t l2ad_writing; /* currently writing */
kmutex_t l2ad_mtx; /* lock for buffer list */
list_t l2ad_buflist; /* buffer list */
list_node_t l2ad_node; /* device list node */
zfs_refcount_t l2ad_alloc; /* allocated bytes */
/*
* Persistence-related stuff
*/
l2arc_dev_hdr_phys_t *l2ad_dev_hdr; /* persistent device header */
uint64_t l2ad_dev_hdr_asize; /* aligned hdr size */
l2arc_log_blk_phys_t l2ad_log_blk; /* currently open log block */
int l2ad_log_ent_idx; /* index into cur log blk */
/* Number of bytes in current log block's payload */
uint64_t l2ad_log_blk_payload_asize;
/*
* Offset (in bytes) of the first buffer in current log block's
* payload.
*/
uint64_t l2ad_log_blk_payload_start;
/* Flag indicating whether a rebuild is scheduled or is going on */
boolean_t l2ad_rebuild;
boolean_t l2ad_rebuild_cancel;
boolean_t l2ad_rebuild_began;
uint64_t l2ad_log_entries; /* entries per log blk */
uint64_t l2ad_evict; /* evicted offset in bytes */
/* List of pointers to log blocks present in the L2ARC device */
list_t l2ad_lbptr_list;
/*
* Aligned size of all log blocks as accounted by vdev_space_update().
*/
zfs_refcount_t l2ad_lb_asize;
/*
* Number of log blocks present on the device.
*/
zfs_refcount_t l2ad_lb_count;
boolean_t l2ad_trim_all; /* TRIM whole device */
} l2arc_dev_t;
/*
* Encrypted blocks will need to be stored encrypted on the L2ARC
* disk as they appear in the main pool. In order for this to work we
* need to pass around the encryption parameters so they can be used
* to write data to the L2ARC. This struct is only defined in the
* arc_buf_hdr_t if the L1 header is defined and has the ARC_FLAG_ENCRYPTED
* flag set.
*/
typedef struct arc_buf_hdr_crypt {
abd_t *b_rabd; /* raw encrypted data */
dmu_object_type_t b_ot; /* object type */
uint32_t b_ebufcnt; /* count of encrypted buffers */
/* dsobj for looking up encryption key for l2arc encryption */
uint64_t b_dsobj;
/* encryption parameters */
uint8_t b_salt[ZIO_DATA_SALT_LEN];
uint8_t b_iv[ZIO_DATA_IV_LEN];
/*
* Technically this could be removed since we will always be able to
* get the mac from the bp when we need it. However, it is inconvenient
* for callers of arc code to have to pass a bp in all the time. This
* also allows us to assert that L2ARC data is properly encrypted to
* match the data in the main storage pool.
*/
uint8_t b_mac[ZIO_DATA_MAC_LEN];
} arc_buf_hdr_crypt_t;
typedef struct l2arc_buf_hdr {
/* protected by arc_buf_hdr mutex */
l2arc_dev_t *b_dev; /* L2ARC device */
uint64_t b_daddr; /* disk address, offset byte */
uint32_t b_hits;
arc_state_type_t b_arcs_state;
list_node_t b_l2node;
} l2arc_buf_hdr_t;
typedef struct l2arc_write_callback {
l2arc_dev_t *l2wcb_dev; /* device info */
arc_buf_hdr_t *l2wcb_head; /* head of write buflist */
/* in-flight list of log blocks */
list_t l2wcb_abd_list;
} l2arc_write_callback_t;
struct arc_buf_hdr {
/* protected by hash lock */
dva_t b_dva;
uint64_t b_birth;
arc_buf_contents_t b_type;
uint8_t b_complevel;
uint8_t b_reserved1; /* used for 4 byte alignment */
uint16_t b_reserved2; /* used for 4 byte alignment */
arc_buf_hdr_t *b_hash_next;
arc_flags_t b_flags;
/*
* This field stores the size of the data buffer after
* compression, and is set in the arc's zio completion handlers.
* It is in units of SPA_MINBLOCKSIZE (e.g. 1 == 512 bytes).
*
* While the block pointers can store up to 32MB in their psize
* field, we can only store up to 32MB minus 512B. This is due
* to the bp using a bias of 1, whereas we use a bias of 0 (i.e.
* a field of zeros represents 512B in the bp). We can't use a
* bias of 1 since we need to reserve a psize of zero, here, to
* represent holes and embedded blocks.
*
* This isn't a problem in practice, since the maximum size of a
* buffer is limited to 16MB, so we never need to store 32MB in
* this field. Even in the upstream illumos code base, the
* maximum size of a buffer is limited to 16MB.
*/
uint16_t b_psize;
/*
* This field stores the size of the data buffer before
* compression, and cannot change once set. It is in units
* of SPA_MINBLOCKSIZE (e.g. 2 == 1024 bytes)
*/
uint16_t b_lsize; /* immutable */
uint64_t b_spa; /* immutable */
/* L2ARC fields. Undefined when not in L2ARC. */
l2arc_buf_hdr_t b_l2hdr;
/* L1ARC fields. Undefined when in l2arc_only state */
l1arc_buf_hdr_t b_l1hdr;
/*
* Encryption parameters. Defined only when ARC_FLAG_ENCRYPTED
* is set and the L1 header exists.
*/
arc_buf_hdr_crypt_t b_crypt_hdr;
};
typedef struct arc_stats {
kstat_named_t arcstat_hits;
kstat_named_t arcstat_misses;
kstat_named_t arcstat_demand_data_hits;
kstat_named_t arcstat_demand_data_misses;
kstat_named_t arcstat_demand_metadata_hits;
kstat_named_t arcstat_demand_metadata_misses;
kstat_named_t arcstat_prefetch_data_hits;
kstat_named_t arcstat_prefetch_data_misses;
kstat_named_t arcstat_prefetch_metadata_hits;
kstat_named_t arcstat_prefetch_metadata_misses;
kstat_named_t arcstat_mru_hits;
kstat_named_t arcstat_mru_ghost_hits;
kstat_named_t arcstat_mfu_hits;
kstat_named_t arcstat_mfu_ghost_hits;
kstat_named_t arcstat_deleted;
/*
* Number of buffers that could not be evicted because the hash lock
* was held by another thread. The lock may not necessarily be held
* by something using the same buffer, since hash locks are shared
* by multiple buffers.
*/
kstat_named_t arcstat_mutex_miss;
/*
* Number of buffers skipped when updating the access state due to the
* header having already been released after acquiring the hash lock.
*/
kstat_named_t arcstat_access_skip;
/*
* Number of buffers skipped because they have I/O in progress, are
* indirect prefetch buffers that have not lived long enough, or are
* not from the spa we're trying to evict from.
*/
kstat_named_t arcstat_evict_skip;
/*
* Number of times arc_evict_state() was unable to evict enough
* buffers to reach its target amount.
*/
kstat_named_t arcstat_evict_not_enough;
kstat_named_t arcstat_evict_l2_cached;
kstat_named_t arcstat_evict_l2_eligible;
kstat_named_t arcstat_evict_l2_eligible_mfu;
kstat_named_t arcstat_evict_l2_eligible_mru;
kstat_named_t arcstat_evict_l2_ineligible;
kstat_named_t arcstat_evict_l2_skip;
kstat_named_t arcstat_hash_elements;
kstat_named_t arcstat_hash_elements_max;
kstat_named_t arcstat_hash_collisions;
kstat_named_t arcstat_hash_chains;
kstat_named_t arcstat_hash_chain_max;
kstat_named_t arcstat_p;
kstat_named_t arcstat_c;
kstat_named_t arcstat_c_min;
kstat_named_t arcstat_c_max;
kstat_named_t arcstat_size;
/*
* Number of compressed bytes stored in the arc_buf_hdr_t's b_pabd.
* Note that the compressed bytes may match the uncompressed bytes
* if the block is either not compressed or compressed arc is disabled.
*/
kstat_named_t arcstat_compressed_size;
/*
* Uncompressed size of the data stored in b_pabd. If compressed
* arc is disabled then this value will be identical to the stat
* above.
*/
kstat_named_t arcstat_uncompressed_size;
/*
* Number of bytes stored in all the arc_buf_t's. This is classified
* as "overhead" since this data is typically short-lived and will
* be evicted from the arc when it becomes unreferenced unless the
* zfs_keep_uncompressed_metadata or zfs_keep_uncompressed_level
* values have been set (see comment in dbuf.c for more information).
*/
kstat_named_t arcstat_overhead_size;
/*
* Number of bytes consumed by internal ARC structures necessary
* for tracking purposes; these structures are not actually
* backed by ARC buffers. This includes arc_buf_hdr_t structures
* (allocated via arc_buf_hdr_t_full and arc_buf_hdr_t_l2only
* caches), and arc_buf_t structures (allocated via arc_buf_t
* cache).
*/
kstat_named_t arcstat_hdr_size;
/*
* Number of bytes consumed by ARC buffers of type equal to
* ARC_BUFC_DATA. This is generally consumed by buffers backing
* on disk user data (e.g. plain file contents).
*/
kstat_named_t arcstat_data_size;
/*
* Number of bytes consumed by ARC buffers of type equal to
* ARC_BUFC_METADATA. This is generally consumed by buffers
* backing on disk data that is used for internal ZFS
* structures (e.g. ZAP, dnode, indirect blocks, etc).
*/
kstat_named_t arcstat_metadata_size;
/*
* Number of bytes consumed by dmu_buf_impl_t objects.
*/
kstat_named_t arcstat_dbuf_size;
/*
* Number of bytes consumed by dnode_t objects.
*/
kstat_named_t arcstat_dnode_size;
/*
* Number of bytes consumed by bonus buffers.
*/
kstat_named_t arcstat_bonus_size;
#if defined(COMPAT_FREEBSD11)
/*
* Sum of the previous three counters, provided for compatibility.
*/
kstat_named_t arcstat_other_size;
#endif
/*
* Total number of bytes consumed by ARC buffers residing in the
* arc_anon state. This includes *all* buffers in the arc_anon
* state; e.g. data, metadata, evictable, and unevictable buffers
* are all included in this value.
*/
kstat_named_t arcstat_anon_size;
/*
* Number of bytes consumed by ARC buffers that meet the
* following criteria: backing buffers of type ARC_BUFC_DATA,
* residing in the arc_anon state, and are eligible for eviction
* (e.g. have no outstanding holds on the buffer).
*/
kstat_named_t arcstat_anon_evictable_data;
/*
* Number of bytes consumed by ARC buffers that meet the
* following criteria: backing buffers of type ARC_BUFC_METADATA,
* residing in the arc_anon state, and are eligible for eviction
* (e.g. have no outstanding holds on the buffer).
*/
kstat_named_t arcstat_anon_evictable_metadata;
/*
* Total number of bytes consumed by ARC buffers residing in the
* arc_mru state. This includes *all* buffers in the arc_mru
* state; e.g. data, metadata, evictable, and unevictable buffers
* are all included in this value.
*/
kstat_named_t arcstat_mru_size;
/*
* Number of bytes consumed by ARC buffers that meet the
* following criteria: backing buffers of type ARC_BUFC_DATA,
* residing in the arc_mru state, and are eligible for eviction
* (e.g. have no outstanding holds on the buffer).
*/
kstat_named_t arcstat_mru_evictable_data;
/*
* Number of bytes consumed by ARC buffers that meet the
* following criteria: backing buffers of type ARC_BUFC_METADATA,
* residing in the arc_mru state, and are eligible for eviction
* (e.g. have no outstanding holds on the buffer).
*/
kstat_named_t arcstat_mru_evictable_metadata;
/*
* Total number of bytes that *would have been* consumed by ARC
* buffers in the arc_mru_ghost state. The key thing to note
* here, is the fact that this size doesn't actually indicate
* RAM consumption. The ghost lists only consist of headers and
* don't actually have ARC buffers linked off of these headers.
* Thus, *if* the headers had associated ARC buffers, these
* buffers *would have* consumed this number of bytes.
*/
kstat_named_t arcstat_mru_ghost_size;
/*
* Number of bytes that *would have been* consumed by ARC
* buffers that are eligible for eviction, of type
* ARC_BUFC_DATA, and linked off the arc_mru_ghost state.
*/
kstat_named_t arcstat_mru_ghost_evictable_data;
/*
* Number of bytes that *would have been* consumed by ARC
* buffers that are eligible for eviction, of type
* ARC_BUFC_METADATA, and linked off the arc_mru_ghost state.
*/
kstat_named_t arcstat_mru_ghost_evictable_metadata;
/*
* Total number of bytes consumed by ARC buffers residing in the
* arc_mfu state. This includes *all* buffers in the arc_mfu
* state; e.g. data, metadata, evictable, and unevictable buffers
* are all included in this value.
*/
kstat_named_t arcstat_mfu_size;
/*
* Number of bytes consumed by ARC buffers that are eligible for
* eviction, of type ARC_BUFC_DATA, and reside in the arc_mfu
* state.
*/
kstat_named_t arcstat_mfu_evictable_data;
/*
* Number of bytes consumed by ARC buffers that are eligible for
* eviction, of type ARC_BUFC_METADATA, and reside in the
* arc_mfu state.
*/
kstat_named_t arcstat_mfu_evictable_metadata;
/*
* Total number of bytes that *would have been* consumed by ARC
* buffers in the arc_mfu_ghost state. See the comment above
* arcstat_mru_ghost_size for more details.
*/
kstat_named_t arcstat_mfu_ghost_size;
/*
* Number of bytes that *would have been* consumed by ARC
* buffers that are eligible for eviction, of type
* ARC_BUFC_DATA, and linked off the arc_mfu_ghost state.
*/
kstat_named_t arcstat_mfu_ghost_evictable_data;
/*
* Number of bytes that *would have been* consumed by ARC
* buffers that are eligible for eviction, of type
* ARC_BUFC_METADATA, and linked off the arc_mru_ghost state.
*/
kstat_named_t arcstat_mfu_ghost_evictable_metadata;
kstat_named_t arcstat_l2_hits;
kstat_named_t arcstat_l2_misses;
/*
* Allocated size (in bytes) of L2ARC cached buffers by ARC state.
*/
kstat_named_t arcstat_l2_prefetch_asize;
kstat_named_t arcstat_l2_mru_asize;
kstat_named_t arcstat_l2_mfu_asize;
/*
* Allocated size (in bytes) of L2ARC cached buffers by buffer content
* type.
*/
kstat_named_t arcstat_l2_bufc_data_asize;
kstat_named_t arcstat_l2_bufc_metadata_asize;
kstat_named_t arcstat_l2_feeds;
kstat_named_t arcstat_l2_rw_clash;
kstat_named_t arcstat_l2_read_bytes;
kstat_named_t arcstat_l2_write_bytes;
kstat_named_t arcstat_l2_writes_sent;
kstat_named_t arcstat_l2_writes_done;
kstat_named_t arcstat_l2_writes_error;
kstat_named_t arcstat_l2_writes_lock_retry;
kstat_named_t arcstat_l2_evict_lock_retry;
kstat_named_t arcstat_l2_evict_reading;
kstat_named_t arcstat_l2_evict_l1cached;
kstat_named_t arcstat_l2_free_on_write;
kstat_named_t arcstat_l2_abort_lowmem;
kstat_named_t arcstat_l2_cksum_bad;
kstat_named_t arcstat_l2_io_error;
kstat_named_t arcstat_l2_lsize;
kstat_named_t arcstat_l2_psize;
kstat_named_t arcstat_l2_hdr_size;
/*
* Number of L2ARC log blocks written. These are used for restoring the
* L2ARC. Updated during writing of L2ARC log blocks.
*/
kstat_named_t arcstat_l2_log_blk_writes;
/*
* Moving average of the aligned size of the L2ARC log blocks, in
* bytes. Updated during L2ARC rebuild and during writing of L2ARC
* log blocks.
*/
kstat_named_t arcstat_l2_log_blk_avg_asize;
/* Aligned size of L2ARC log blocks on L2ARC devices. */
kstat_named_t arcstat_l2_log_blk_asize;
/* Number of L2ARC log blocks present on L2ARC devices. */
kstat_named_t arcstat_l2_log_blk_count;
/*
* Moving average of the aligned size of L2ARC restored data, in bytes,
* to the aligned size of their metadata in L2ARC, in bytes.
* Updated during L2ARC rebuild and during writing of L2ARC log blocks.
*/
kstat_named_t arcstat_l2_data_to_meta_ratio;
/*
* Number of times the L2ARC rebuild was successful for an L2ARC device.
*/
kstat_named_t arcstat_l2_rebuild_success;
/*
* Number of times the L2ARC rebuild failed because the device header
* was in an unsupported format or corrupted.
*/
kstat_named_t arcstat_l2_rebuild_abort_unsupported;
/*
* Number of times the L2ARC rebuild failed because of IO errors
* while reading a log block.
*/
kstat_named_t arcstat_l2_rebuild_abort_io_errors;
/*
* Number of times the L2ARC rebuild failed because of IO errors when
* reading the device header.
*/
kstat_named_t arcstat_l2_rebuild_abort_dh_errors;
/*
* Number of L2ARC log blocks which failed to be restored due to
* checksum errors.
*/
kstat_named_t arcstat_l2_rebuild_abort_cksum_lb_errors;
/*
* Number of times the L2ARC rebuild was aborted due to low system
* memory.
*/
kstat_named_t arcstat_l2_rebuild_abort_lowmem;
/* Logical size of L2ARC restored data, in bytes. */
kstat_named_t arcstat_l2_rebuild_size;
/* Aligned size of L2ARC restored data, in bytes. */
kstat_named_t arcstat_l2_rebuild_asize;
/*
* Number of L2ARC log entries (buffers) that were successfully
* restored in ARC.
*/
kstat_named_t arcstat_l2_rebuild_bufs;
/*
* Number of L2ARC log entries (buffers) already cached in ARC. These
* were not restored again.
*/
kstat_named_t arcstat_l2_rebuild_bufs_precached;
/*
* Number of L2ARC log blocks that were restored successfully. Each
* log block may hold up to L2ARC_LOG_BLK_MAX_ENTRIES buffers.
*/
kstat_named_t arcstat_l2_rebuild_log_blks;
kstat_named_t arcstat_memory_throttle_count;
kstat_named_t arcstat_memory_direct_count;
kstat_named_t arcstat_memory_indirect_count;
kstat_named_t arcstat_memory_all_bytes;
kstat_named_t arcstat_memory_free_bytes;
kstat_named_t arcstat_memory_available_bytes;
kstat_named_t arcstat_no_grow;
kstat_named_t arcstat_tempreserve;
kstat_named_t arcstat_loaned_bytes;
kstat_named_t arcstat_prune;
kstat_named_t arcstat_meta_used;
kstat_named_t arcstat_meta_limit;
kstat_named_t arcstat_dnode_limit;
kstat_named_t arcstat_meta_max;
kstat_named_t arcstat_meta_min;
kstat_named_t arcstat_async_upgrade_sync;
kstat_named_t arcstat_demand_hit_predictive_prefetch;
kstat_named_t arcstat_demand_hit_prescient_prefetch;
kstat_named_t arcstat_need_free;
kstat_named_t arcstat_sys_free;
kstat_named_t arcstat_raw_size;
kstat_named_t arcstat_cached_only_in_progress;
kstat_named_t arcstat_abd_chunk_waste_size;
} arc_stats_t;
typedef struct arc_sums {
wmsum_t arcstat_hits;
wmsum_t arcstat_misses;
wmsum_t arcstat_demand_data_hits;
wmsum_t arcstat_demand_data_misses;
wmsum_t arcstat_demand_metadata_hits;
wmsum_t arcstat_demand_metadata_misses;
wmsum_t arcstat_prefetch_data_hits;
wmsum_t arcstat_prefetch_data_misses;
wmsum_t arcstat_prefetch_metadata_hits;
wmsum_t arcstat_prefetch_metadata_misses;
wmsum_t arcstat_mru_hits;
wmsum_t arcstat_mru_ghost_hits;
wmsum_t arcstat_mfu_hits;
wmsum_t arcstat_mfu_ghost_hits;
wmsum_t arcstat_deleted;
wmsum_t arcstat_mutex_miss;
wmsum_t arcstat_access_skip;
wmsum_t arcstat_evict_skip;
wmsum_t arcstat_evict_not_enough;
wmsum_t arcstat_evict_l2_cached;
wmsum_t arcstat_evict_l2_eligible;
wmsum_t arcstat_evict_l2_eligible_mfu;
wmsum_t arcstat_evict_l2_eligible_mru;
wmsum_t arcstat_evict_l2_ineligible;
wmsum_t arcstat_evict_l2_skip;
wmsum_t arcstat_hash_collisions;
wmsum_t arcstat_hash_chains;
aggsum_t arcstat_size;
wmsum_t arcstat_compressed_size;
wmsum_t arcstat_uncompressed_size;
wmsum_t arcstat_overhead_size;
wmsum_t arcstat_hdr_size;
wmsum_t arcstat_data_size;
wmsum_t arcstat_metadata_size;
wmsum_t arcstat_dbuf_size;
aggsum_t arcstat_dnode_size;
wmsum_t arcstat_bonus_size;
wmsum_t arcstat_l2_hits;
wmsum_t arcstat_l2_misses;
wmsum_t arcstat_l2_prefetch_asize;
wmsum_t arcstat_l2_mru_asize;
wmsum_t arcstat_l2_mfu_asize;
wmsum_t arcstat_l2_bufc_data_asize;
wmsum_t arcstat_l2_bufc_metadata_asize;
wmsum_t arcstat_l2_feeds;
wmsum_t arcstat_l2_rw_clash;
wmsum_t arcstat_l2_read_bytes;
wmsum_t arcstat_l2_write_bytes;
wmsum_t arcstat_l2_writes_sent;
wmsum_t arcstat_l2_writes_done;
wmsum_t arcstat_l2_writes_error;
wmsum_t arcstat_l2_writes_lock_retry;
wmsum_t arcstat_l2_evict_lock_retry;
wmsum_t arcstat_l2_evict_reading;
wmsum_t arcstat_l2_evict_l1cached;
wmsum_t arcstat_l2_free_on_write;
wmsum_t arcstat_l2_abort_lowmem;
wmsum_t arcstat_l2_cksum_bad;
wmsum_t arcstat_l2_io_error;
wmsum_t arcstat_l2_lsize;
wmsum_t arcstat_l2_psize;
aggsum_t arcstat_l2_hdr_size;
wmsum_t arcstat_l2_log_blk_writes;
wmsum_t arcstat_l2_log_blk_asize;
wmsum_t arcstat_l2_log_blk_count;
wmsum_t arcstat_l2_rebuild_success;
wmsum_t arcstat_l2_rebuild_abort_unsupported;
wmsum_t arcstat_l2_rebuild_abort_io_errors;
wmsum_t arcstat_l2_rebuild_abort_dh_errors;
wmsum_t arcstat_l2_rebuild_abort_cksum_lb_errors;
wmsum_t arcstat_l2_rebuild_abort_lowmem;
wmsum_t arcstat_l2_rebuild_size;
wmsum_t arcstat_l2_rebuild_asize;
wmsum_t arcstat_l2_rebuild_bufs;
wmsum_t arcstat_l2_rebuild_bufs_precached;
wmsum_t arcstat_l2_rebuild_log_blks;
wmsum_t arcstat_memory_throttle_count;
wmsum_t arcstat_memory_direct_count;
wmsum_t arcstat_memory_indirect_count;
wmsum_t arcstat_prune;
aggsum_t arcstat_meta_used;
wmsum_t arcstat_async_upgrade_sync;
wmsum_t arcstat_demand_hit_predictive_prefetch;
wmsum_t arcstat_demand_hit_prescient_prefetch;
wmsum_t arcstat_raw_size;
wmsum_t arcstat_cached_only_in_progress;
wmsum_t arcstat_abd_chunk_waste_size;
} arc_sums_t;
typedef struct arc_evict_waiter {
list_node_t aew_node;
kcondvar_t aew_cv;
uint64_t aew_count;
} arc_evict_waiter_t;
#define ARCSTAT(stat) (arc_stats.stat.value.ui64)
#define ARCSTAT_INCR(stat, val) \
wmsum_add(&arc_sums.stat, (val))
#define ARCSTAT_BUMP(stat) ARCSTAT_INCR(stat, 1)
#define ARCSTAT_BUMPDOWN(stat) ARCSTAT_INCR(stat, -1)
#define arc_no_grow ARCSTAT(arcstat_no_grow) /* do not grow cache size */
#define arc_p ARCSTAT(arcstat_p) /* target size of MRU */
#define arc_c ARCSTAT(arcstat_c) /* target size of cache */
#define arc_c_min ARCSTAT(arcstat_c_min) /* min target cache size */
#define arc_c_max ARCSTAT(arcstat_c_max) /* max target cache size */
#define arc_sys_free ARCSTAT(arcstat_sys_free) /* target system free bytes */
#define arc_anon (&ARC_anon)
#define arc_mru (&ARC_mru)
#define arc_mru_ghost (&ARC_mru_ghost)
#define arc_mfu (&ARC_mfu)
#define arc_mfu_ghost (&ARC_mfu_ghost)
#define arc_l2c_only (&ARC_l2c_only)
extern taskq_t *arc_prune_taskq;
extern arc_stats_t arc_stats;
extern arc_sums_t arc_sums;
extern hrtime_t arc_growtime;
extern boolean_t arc_warm;
extern int arc_grow_retry;
extern int arc_no_grow_shift;
extern int arc_shrink_shift;
extern kmutex_t arc_prune_mtx;
extern list_t arc_prune_list;
extern arc_state_t ARC_mfu;
extern arc_state_t ARC_mru;
extern uint_t zfs_arc_pc_percent;
extern int arc_lotsfree_percent;
extern unsigned long zfs_arc_min;
extern unsigned long zfs_arc_max;
extern void arc_reduce_target_size(int64_t to_free);
extern boolean_t arc_reclaim_needed(void);
extern void arc_kmem_reap_soon(void);
extern void arc_wait_for_eviction(uint64_t, boolean_t);
extern void arc_lowmem_init(void);
extern void arc_lowmem_fini(void);
extern void arc_prune_async(int64_t);
extern int arc_memory_throttle(spa_t *spa, uint64_t reserve, uint64_t txg);
extern uint64_t arc_free_memory(void);
extern int64_t arc_available_memory(void);
extern void arc_tuning_update(boolean_t);
extern void arc_register_hotplug(void);
extern void arc_unregister_hotplug(void);
extern int param_set_arc_long(ZFS_MODULE_PARAM_ARGS);
extern int param_set_arc_int(ZFS_MODULE_PARAM_ARGS);
extern int param_set_arc_min(ZFS_MODULE_PARAM_ARGS);
extern int param_set_arc_max(ZFS_MODULE_PARAM_ARGS);
/* used in zdb.c */
boolean_t l2arc_log_blkptr_valid(l2arc_dev_t *dev,
const l2arc_log_blkptr_t *lbp);
/* used in vdev_trim.c */
void l2arc_dev_hdr_update(l2arc_dev_t *dev);
l2arc_dev_t *l2arc_vdev_get(vdev_t *vd);
#ifdef __cplusplus
}
#endif
#endif /* _SYS_ARC_IMPL_H */
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