tjh.dev
Linux kernel mirror (for testing)
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1/* SPDX-License-Identifier: GPL-2.0 */
2#ifndef _BCACHEFS_JOURNAL_TYPES_H
3#define _BCACHEFS_JOURNAL_TYPES_H
4
5#include <linux/cache.h>
6#include <linux/workqueue.h>
7
8#include "alloc_types.h"
9#include "super_types.h"
10#include "fifo.h"
11
12#define JOURNAL_BUF_BITS 2
13#define JOURNAL_BUF_NR (1U << JOURNAL_BUF_BITS)
14#define JOURNAL_BUF_MASK (JOURNAL_BUF_NR - 1)
15
16/*
17 * We put JOURNAL_BUF_NR of these in struct journal; we used them for writes to
18 * the journal that are being staged or in flight.
19 */
20struct journal_buf {
21 struct jset *data;
22
23 __BKEY_PADDED(key, BCH_REPLICAS_MAX);
24 struct bch_devs_list devs_written;
25
26 struct closure_waitlist wait;
27 u64 last_seq; /* copy of data->last_seq */
28 long expires;
29 u64 flush_time;
30
31 unsigned buf_size; /* size in bytes of @data */
32 unsigned sectors; /* maximum size for current entry */
33 unsigned disk_sectors; /* maximum size entry could have been, if
34 buf_size was bigger */
35 unsigned u64s_reserved;
36 bool noflush; /* write has already been kicked off, and was noflush */
37 bool must_flush; /* something wants a flush */
38 bool separate_flush;
39};
40
41/*
42 * Something that makes a journal entry dirty - i.e. a btree node that has to be
43 * flushed:
44 */
45
46enum journal_pin_type {
47 JOURNAL_PIN_btree,
48 JOURNAL_PIN_key_cache,
49 JOURNAL_PIN_other,
50 JOURNAL_PIN_NR,
51};
52
53struct journal_entry_pin_list {
54 struct list_head list[JOURNAL_PIN_NR];
55 struct list_head flushed;
56 atomic_t count;
57 struct bch_devs_list devs;
58};
59
60struct journal;
61struct journal_entry_pin;
62typedef int (*journal_pin_flush_fn)(struct journal *j,
63 struct journal_entry_pin *, u64);
64
65struct journal_entry_pin {
66 struct list_head list;
67 journal_pin_flush_fn flush;
68 u64 seq;
69};
70
71struct journal_res {
72 bool ref;
73 u8 idx;
74 u16 u64s;
75 u32 offset;
76 u64 seq;
77};
78
79union journal_res_state {
80 struct {
81 atomic64_t counter;
82 };
83
84 struct {
85 u64 v;
86 };
87
88 struct {
89 u64 cur_entry_offset:20,
90 idx:2,
91 unwritten_idx:2,
92 buf0_count:10,
93 buf1_count:10,
94 buf2_count:10,
95 buf3_count:10;
96 };
97};
98
99/* bytes: */
100#define JOURNAL_ENTRY_SIZE_MIN (64U << 10) /* 64k */
101#define JOURNAL_ENTRY_SIZE_MAX (4U << 20) /* 4M */
102
103/*
104 * We stash some journal state as sentinal values in cur_entry_offset:
105 * note - cur_entry_offset is in units of u64s
106 */
107#define JOURNAL_ENTRY_OFFSET_MAX ((1U << 20) - 1)
108
109#define JOURNAL_ENTRY_CLOSED_VAL (JOURNAL_ENTRY_OFFSET_MAX - 1)
110#define JOURNAL_ENTRY_ERROR_VAL (JOURNAL_ENTRY_OFFSET_MAX)
111
112struct journal_space {
113 /* Units of 512 bytes sectors: */
114 unsigned next_entry; /* How big the next journal entry can be */
115 unsigned total;
116};
117
118enum journal_space_from {
119 journal_space_discarded,
120 journal_space_clean_ondisk,
121 journal_space_clean,
122 journal_space_total,
123 journal_space_nr,
124};
125
126enum journal_flags {
127 JOURNAL_REPLAY_DONE,
128 JOURNAL_STARTED,
129 JOURNAL_MAY_SKIP_FLUSH,
130 JOURNAL_NEED_FLUSH_WRITE,
131};
132
133/* Reasons we may fail to get a journal reservation: */
134#define JOURNAL_ERRORS() \
135 x(ok) \
136 x(blocked) \
137 x(max_in_flight) \
138 x(journal_full) \
139 x(journal_pin_full) \
140 x(journal_stuck) \
141 x(insufficient_devices)
142
143enum journal_errors {
144#define x(n) JOURNAL_ERR_##n,
145 JOURNAL_ERRORS()
146#undef x
147};
148
149typedef DARRAY(u64) darray_u64;
150
151/* Embedded in struct bch_fs */
152struct journal {
153 /* Fastpath stuff up front: */
154 struct {
155
156 union journal_res_state reservations;
157 enum bch_watermark watermark;
158
159 } __aligned(SMP_CACHE_BYTES);
160
161 unsigned long flags;
162
163 /* Max size of current journal entry */
164 unsigned cur_entry_u64s;
165 unsigned cur_entry_sectors;
166
167 /* Reserved space in journal entry to be used just prior to write */
168 unsigned entry_u64s_reserved;
169
170
171 /*
172 * 0, or -ENOSPC if waiting on journal reclaim, or -EROFS if
173 * insufficient devices:
174 */
175 enum journal_errors cur_entry_error;
176
177 unsigned buf_size_want;
178 /*
179 * We may queue up some things to be journalled (log messages) before
180 * the journal has actually started - stash them here:
181 */
182 darray_u64 early_journal_entries;
183
184 /*
185 * Two journal entries -- one is currently open for new entries, the
186 * other is possibly being written out.
187 */
188 struct journal_buf buf[JOURNAL_BUF_NR];
189
190 spinlock_t lock;
191
192 /* if nonzero, we may not open a new journal entry: */
193 unsigned blocked;
194
195 /* Used when waiting because the journal was full */
196 wait_queue_head_t wait;
197 struct closure_waitlist async_wait;
198 struct closure_waitlist preres_wait;
199
200 struct closure io;
201 struct delayed_work write_work;
202
203 /* Sequence number of most recent journal entry (last entry in @pin) */
204 atomic64_t seq;
205
206 /* seq, last_seq from the most recent journal entry successfully written */
207 u64 seq_ondisk;
208 u64 flushed_seq_ondisk;
209 u64 last_seq_ondisk;
210 u64 err_seq;
211 u64 last_empty_seq;
212
213 /*
214 * FIFO of journal entries whose btree updates have not yet been
215 * written out.
216 *
217 * Each entry is a reference count. The position in the FIFO is the
218 * entry's sequence number relative to @seq.
219 *
220 * The journal entry itself holds a reference count, put when the
221 * journal entry is written out. Each btree node modified by the journal
222 * entry also holds a reference count, put when the btree node is
223 * written.
224 *
225 * When a reference count reaches zero, the journal entry is no longer
226 * needed. When all journal entries in the oldest journal bucket are no
227 * longer needed, the bucket can be discarded and reused.
228 */
229 struct {
230 u64 front, back, size, mask;
231 struct journal_entry_pin_list *data;
232 } pin;
233
234 struct journal_space space[journal_space_nr];
235
236 u64 replay_journal_seq;
237 u64 replay_journal_seq_end;
238
239 struct write_point wp;
240 spinlock_t err_lock;
241
242 struct mutex reclaim_lock;
243 /*
244 * Used for waiting until journal reclaim has freed up space in the
245 * journal:
246 */
247 wait_queue_head_t reclaim_wait;
248 struct task_struct *reclaim_thread;
249 bool reclaim_kicked;
250 unsigned long next_reclaim;
251 u64 nr_direct_reclaim;
252 u64 nr_background_reclaim;
253
254 unsigned long last_flushed;
255 struct journal_entry_pin *flush_in_progress;
256 bool flush_in_progress_dropped;
257 wait_queue_head_t pin_flush_wait;
258
259 /* protects advancing ja->discard_idx: */
260 struct mutex discard_lock;
261 bool can_discard;
262
263 unsigned long last_flush_write;
264
265 u64 res_get_blocked_start;
266 u64 write_start_time;
267
268 u64 nr_flush_writes;
269 u64 nr_noflush_writes;
270
271 struct bch2_time_stats *flush_write_time;
272 struct bch2_time_stats *noflush_write_time;
273 struct bch2_time_stats *blocked_time;
274 struct bch2_time_stats *flush_seq_time;
275
276#ifdef CONFIG_DEBUG_LOCK_ALLOC
277 struct lockdep_map res_map;
278#endif
279} __aligned(SMP_CACHE_BYTES);
280
281/*
282 * Embedded in struct bch_dev. First three fields refer to the array of journal
283 * buckets, in bch_sb.
284 */
285struct journal_device {
286 /*
287 * For each journal bucket, contains the max sequence number of the
288 * journal writes it contains - so we know when a bucket can be reused.
289 */
290 u64 *bucket_seq;
291
292 unsigned sectors_free;
293
294 /*
295 * discard_idx <= dirty_idx_ondisk <= dirty_idx <= cur_idx:
296 */
297 unsigned discard_idx; /* Next bucket to discard */
298 unsigned dirty_idx_ondisk;
299 unsigned dirty_idx;
300 unsigned cur_idx; /* Journal bucket we're currently writing to */
301 unsigned nr;
302
303 u64 *buckets;
304
305 /* Bio for journal reads/writes to this device */
306 struct bio *bio;
307
308 /* for bch_journal_read_device */
309 struct closure read;
310};
311
312/*
313 * journal_entry_res - reserve space in every journal entry:
314 */
315struct journal_entry_res {
316 unsigned u64s;
317};
318
319#endif /* _BCACHEFS_JOURNAL_TYPES_H */