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Use /* ... */ rather than /** ... */ if for no other reason than syntax highlighting is improved (at least for me, in emacs: comments are now red, code is yellow. Previously comments were also yellow). Signed-off-by: Mike Snitzer <snitzer@kernel.org> Signed-off-by: Susan LeGendre-McGhee <slegendr@redhat.com> Signed-off-by: Matthew Sakai <msakai@redhat.com>
317 lines
14 KiB
C
317 lines
14 KiB
C
/* SPDX-License-Identifier: GPL-2.0-only */
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/*
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* Copyright 2023 Red Hat
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*/
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#ifndef VDO_RECOVERY_JOURNAL_H
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#define VDO_RECOVERY_JOURNAL_H
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#include <linux/list.h>
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#include "numeric.h"
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#include "admin-state.h"
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#include "constants.h"
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#include "encodings.h"
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#include "flush.h"
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#include "statistics.h"
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#include "types.h"
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#include "wait-queue.h"
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/**
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* DOC: recovery journal.
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*
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* The recovery_journal provides a log of all block mapping and reference count changes which have
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* not yet been stably written to the block map or slab journals. This log helps to reduce the
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* write amplification of writes by providing amortization of slab journal and block map page
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* updates.
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*
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* The recovery journal has a single dedicated queue and thread for performing all journal updates.
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* The concurrency guarantees of this single-threaded model allow the code to omit more
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* fine-grained locking for recovery journal structures.
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*
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* The journal consists of a set of on-disk blocks arranged as a circular log with monotonically
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* increasing sequence numbers. Three sequence numbers serve to define the active extent of the
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* journal. The 'head' is the oldest active block in the journal. The 'tail' is the end of the
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* half-open interval containing the active blocks. 'active' is the number of the block actively
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* receiving entries. In an empty journal, head == active == tail. Once any entries are added, tail
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* = active + 1, and head may be any value in the interval [tail - size, active].
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*
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* The journal also contains a set of in-memory blocks which are used to buffer up entries until
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* they can be committed. In general the number of in-memory blocks ('tail_buffer_count') will be
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* less than the on-disk size. Each in-memory block is also a vdo_completion. Each in-memory block
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* has a vio which is used to commit that block to disk. The vio's data is the on-disk
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* representation of the journal block. In addition each in-memory block has a buffer which is used
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* to accumulate entries while a partial commit of the block is in progress. In-memory blocks are
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* kept on two rings. Free blocks live on the 'free_tail_blocks' ring. When a block becomes active
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* (see below) it is moved to the 'active_tail_blocks' ring. When a block is fully committed, it is
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* moved back to the 'free_tail_blocks' ring.
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*
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* When entries are added to the journal, they are added to the active in-memory block, as
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* indicated by the 'active_block' field. If the caller wishes to wait for the entry to be
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* committed, the requesting VIO will be attached to the in-memory block to which the caller's
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* entry was added. If the caller does wish to wait, or if the entry filled the active block, an
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* attempt will be made to commit that block to disk. If there is already another commit in
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* progress, the attempt will be ignored and then automatically retried when the in-progress commit
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* completes. If there is no commit in progress, any data_vios waiting on the block are transferred
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* to the block's vio which is then written, automatically waking all of the waiters when it
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* completes. When the write completes, any entries which accumulated in the block are copied to
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* the vio's data buffer.
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*
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* Finally, the journal maintains a set of counters, one for each on disk journal block. These
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* counters are used as locks to prevent premature reaping of journal blocks. Each time a new
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* sequence number is used, the counter for the corresponding block is incremented. The counter is
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* subsequently decremented when that block is filled and then committed for the last time. This
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* prevents blocks from being reaped while they are still being updated. The counter is also
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* incremented once for each entry added to a block, and decremented once each time the block map
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* is updated in memory for that request. This prevents blocks from being reaped while their VIOs
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* are still active. Finally, each in-memory block map page tracks the oldest journal block that
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* contains entries corresponding to uncommitted updates to that block map page. Each time an
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* in-memory block map page is updated, it checks if the journal block for the VIO is earlier than
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* the one it references, in which case it increments the count on the earlier journal block and
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* decrements the count on the later journal block, maintaining a lock on the oldest journal block
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* containing entries for that page. When a block map page has been flushed from the cache, the
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* counter for the journal block it references is decremented. Whenever the counter for the head
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* block goes to 0, the head is advanced until it comes to a block whose counter is not 0 or until
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* it reaches the active block. This is the mechanism for reclaiming journal space on disk.
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*
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* If there is no in-memory space when a VIO attempts to add an entry, the VIO will be attached to
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* the 'commit_completion' and will be woken the next time a full block has committed. If there is
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* no on-disk space when a VIO attempts to add an entry, the VIO will be attached to the
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* 'reap_completion', and will be woken the next time a journal block is reaped.
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*/
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enum vdo_zone_type {
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VDO_ZONE_TYPE_ADMIN,
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VDO_ZONE_TYPE_JOURNAL,
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VDO_ZONE_TYPE_LOGICAL,
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VDO_ZONE_TYPE_PHYSICAL,
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};
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struct lock_counter {
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/* The completion for notifying the owner of a lock release */
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struct vdo_completion completion;
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/* The number of logical zones which may hold locks */
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zone_count_t logical_zones;
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/* The number of physical zones which may hold locks */
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zone_count_t physical_zones;
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/* The number of locks */
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block_count_t locks;
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/* Whether the lock release notification is in flight */
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atomic_t state;
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/* The number of logical zones which hold each lock */
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atomic_t *logical_zone_counts;
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/* The number of physical zones which hold each lock */
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atomic_t *physical_zone_counts;
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/* The per-lock counts for the journal zone */
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u16 *journal_counters;
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/* The per-lock decrement counts for the journal zone */
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atomic_t *journal_decrement_counts;
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/* The per-zone, per-lock reference counts for logical zones */
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u16 *logical_counters;
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/* The per-zone, per-lock reference counts for physical zones */
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u16 *physical_counters;
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};
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struct recovery_journal_block {
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/* The doubly linked pointers for the free or active lists */
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struct list_head list_node;
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/* The waiter for the pending full block list */
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struct vdo_waiter write_waiter;
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/* The journal to which this block belongs */
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struct recovery_journal *journal;
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/* A pointer to the current sector in the packed block buffer */
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struct packed_journal_sector *sector;
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/* The vio for writing this block */
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struct vio vio;
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/* The sequence number for this block */
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sequence_number_t sequence_number;
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/* The location of this block in the on-disk journal */
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physical_block_number_t block_number;
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/* Whether this block is being committed */
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bool committing;
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/* The total number of entries in this block */
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journal_entry_count_t entry_count;
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/* The total number of uncommitted entries (queued or committing) */
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journal_entry_count_t uncommitted_entry_count;
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/* The number of new entries in the current commit */
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journal_entry_count_t entries_in_commit;
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/* The queue of vios which will make entries for the next commit */
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struct vdo_wait_queue entry_waiters;
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/* The queue of vios waiting for the current commit */
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struct vdo_wait_queue commit_waiters;
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};
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struct recovery_journal {
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/* The thread ID of the journal zone */
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thread_id_t thread_id;
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/* The slab depot which can hold locks on this journal */
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struct slab_depot *depot;
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/* The block map which can hold locks on this journal */
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struct block_map *block_map;
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/* The queue of vios waiting to make entries */
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struct vdo_wait_queue entry_waiters;
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/* The number of free entries in the journal */
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u64 available_space;
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/* The number of decrement entries which need to be made */
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data_vio_count_t pending_decrement_count;
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/* Whether the journal is adding entries from the increment or decrement waiters queues */
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bool adding_entries;
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/* The administrative state of the journal */
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struct admin_state state;
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/* Whether a reap is in progress */
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bool reaping;
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/* The location of the first journal block */
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physical_block_number_t origin;
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/* The oldest active block in the journal on disk for block map rebuild */
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sequence_number_t block_map_head;
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/* The oldest active block in the journal on disk for slab journal replay */
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sequence_number_t slab_journal_head;
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/* The newest block in the journal on disk to which a write has finished */
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sequence_number_t last_write_acknowledged;
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/* The end of the half-open interval of the active journal */
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sequence_number_t tail;
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/* The point at which the last entry will have been added */
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struct journal_point append_point;
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/* The journal point of the vio most recently released from the journal */
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struct journal_point commit_point;
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/* The nonce of the VDO */
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nonce_t nonce;
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/* The number of recoveries completed by the VDO */
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u8 recovery_count;
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/* The number of entries which fit in a single block */
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journal_entry_count_t entries_per_block;
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/* Unused in-memory journal blocks */
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struct list_head free_tail_blocks;
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/* In-memory journal blocks with records */
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struct list_head active_tail_blocks;
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/* A pointer to the active block (the one we are adding entries to now) */
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struct recovery_journal_block *active_block;
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/* Journal blocks that need writing */
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struct vdo_wait_queue pending_writes;
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/* The new block map reap head after reaping */
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sequence_number_t block_map_reap_head;
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/* The head block number for the block map rebuild range */
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block_count_t block_map_head_block_number;
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/* The new slab journal reap head after reaping */
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sequence_number_t slab_journal_reap_head;
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/* The head block number for the slab journal replay range */
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block_count_t slab_journal_head_block_number;
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/* The data-less vio, usable only for flushing */
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struct vio *flush_vio;
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/* The number of blocks in the on-disk journal */
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block_count_t size;
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/* The number of logical blocks that are in-use */
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block_count_t logical_blocks_used;
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/* The number of block map pages that are allocated */
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block_count_t block_map_data_blocks;
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/* The number of journal blocks written but not yet acknowledged */
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block_count_t pending_write_count;
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/* The threshold at which slab journal tail blocks will be written out */
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block_count_t slab_journal_commit_threshold;
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/* Counters for events in the journal that are reported as statistics */
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struct recovery_journal_statistics events;
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/* The locks for each on-disk block */
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struct lock_counter lock_counter;
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/* The tail blocks */
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struct recovery_journal_block blocks[];
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};
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/**
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* vdo_get_recovery_journal_block_number() - Get the physical block number for a given sequence
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* number.
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* @journal: The journal.
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* @sequence: The sequence number of the desired block.
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*
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* Return: The block number corresponding to the sequence number.
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*/
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static inline physical_block_number_t __must_check
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vdo_get_recovery_journal_block_number(const struct recovery_journal *journal,
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sequence_number_t sequence)
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{
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/*
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* Since journal size is a power of two, the block number modulus can just be extracted
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* from the low-order bits of the sequence.
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*/
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return vdo_compute_recovery_journal_block_number(journal->size, sequence);
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}
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/**
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* vdo_compute_recovery_journal_check_byte() - Compute the check byte for a given sequence number.
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* @journal: The journal.
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* @sequence: The sequence number.
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*
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* Return: The check byte corresponding to the sequence number.
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*/
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static inline u8 __must_check
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vdo_compute_recovery_journal_check_byte(const struct recovery_journal *journal,
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sequence_number_t sequence)
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{
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/* The check byte must change with each trip around the journal. */
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return (((sequence / journal->size) & 0x7F) | 0x80);
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}
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int __must_check vdo_decode_recovery_journal(struct recovery_journal_state_7_0 state,
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nonce_t nonce, struct vdo *vdo,
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struct partition *partition,
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u64 recovery_count,
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block_count_t journal_size,
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struct recovery_journal **journal_ptr);
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void vdo_free_recovery_journal(struct recovery_journal *journal);
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void vdo_initialize_recovery_journal_post_repair(struct recovery_journal *journal,
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u64 recovery_count,
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sequence_number_t tail,
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block_count_t logical_blocks_used,
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block_count_t block_map_data_blocks);
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block_count_t __must_check
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vdo_get_journal_block_map_data_blocks_used(struct recovery_journal *journal);
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thread_id_t __must_check vdo_get_recovery_journal_thread_id(struct recovery_journal *journal);
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void vdo_open_recovery_journal(struct recovery_journal *journal,
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struct slab_depot *depot, struct block_map *block_map);
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sequence_number_t
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vdo_get_recovery_journal_current_sequence_number(struct recovery_journal *journal);
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block_count_t __must_check vdo_get_recovery_journal_length(block_count_t journal_size);
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struct recovery_journal_state_7_0 __must_check
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vdo_record_recovery_journal(const struct recovery_journal *journal);
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void vdo_add_recovery_journal_entry(struct recovery_journal *journal,
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struct data_vio *data_vio);
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void vdo_acquire_recovery_journal_block_reference(struct recovery_journal *journal,
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sequence_number_t sequence_number,
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enum vdo_zone_type zone_type,
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zone_count_t zone_id);
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void vdo_release_recovery_journal_block_reference(struct recovery_journal *journal,
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sequence_number_t sequence_number,
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enum vdo_zone_type zone_type,
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zone_count_t zone_id);
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void vdo_release_journal_entry_lock(struct recovery_journal *journal,
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sequence_number_t sequence_number);
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void vdo_drain_recovery_journal(struct recovery_journal *journal,
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const struct admin_state_code *operation,
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struct vdo_completion *parent);
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void vdo_resume_recovery_journal(struct recovery_journal *journal,
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struct vdo_completion *parent);
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block_count_t __must_check
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vdo_get_recovery_journal_logical_blocks_used(const struct recovery_journal *journal);
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struct recovery_journal_statistics __must_check
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vdo_get_recovery_journal_statistics(const struct recovery_journal *journal);
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void vdo_dump_recovery_journal_statistics(const struct recovery_journal *journal);
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#endif /* VDO_RECOVERY_JOURNAL_H */
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