xref: /linux/drivers/md/dm-vdo/vdo.h (revision c532de5a67a70f8533d495f8f2aaa9a0491c3ad0)
1 /* SPDX-License-Identifier: GPL-2.0-only */
2 /*
3  * Copyright 2023 Red Hat
4  */
5 
6 #ifndef VDO_H
7 #define VDO_H
8 
9 #include <linux/atomic.h>
10 #include <linux/blk_types.h>
11 #include <linux/completion.h>
12 #include <linux/dm-kcopyd.h>
13 #include <linux/list.h>
14 #include <linux/spinlock.h>
15 
16 #include "admin-state.h"
17 #include "encodings.h"
18 #include "funnel-workqueue.h"
19 #include "packer.h"
20 #include "physical-zone.h"
21 #include "statistics.h"
22 #include "thread-registry.h"
23 #include "types.h"
24 
25 enum notifier_state {
26 	/* Notifications are allowed but not in progress */
27 	MAY_NOTIFY,
28 	/* A notification is in progress */
29 	NOTIFYING,
30 	/* Notifications are not allowed */
31 	MAY_NOT_NOTIFY,
32 	/* A notification has completed */
33 	NOTIFIED,
34 };
35 
36 /**
37  * typedef vdo_read_only_notification_fn - A function to notify a listener that the VDO has gone
38  *                                         read-only.
39  * @listener: The object to notify.
40  * @parent: The completion to notify in order to acknowledge the notification.
41  */
42 typedef void (*vdo_read_only_notification_fn)(void *listener, struct vdo_completion *parent);
43 
44 /*
45  * An object to be notified when the VDO enters read-only mode
46  */
47 struct read_only_listener {
48 	/* The listener */
49 	void *listener;
50 	/* The method to call to notify the listener */
51 	vdo_read_only_notification_fn notify;
52 	/* A pointer to the next listener */
53 	struct read_only_listener *next;
54 };
55 
56 struct vdo_thread {
57 	struct vdo *vdo;
58 	thread_id_t thread_id;
59 	struct vdo_work_queue *queue;
60 	/*
61 	 * Each thread maintains its own notion of whether the VDO is read-only so that the
62 	 * read-only state can be checked from any base thread without worrying about
63 	 * synchronization or thread safety. This does mean that knowledge of the VDO going
64 	 * read-only does not occur simultaneously across the VDO's threads, but that does not seem
65 	 * to cause any problems.
66 	 */
67 	bool is_read_only;
68 	/*
69 	 * A list of objects waiting to be notified on this thread that the VDO has entered
70 	 * read-only mode.
71 	 */
72 	struct read_only_listener *listeners;
73 	struct registered_thread allocating_thread;
74 };
75 
76 /* Keep struct bio statistics atomically */
77 struct atomic_bio_stats {
78 	atomic64_t read; /* Number of not REQ_WRITE bios */
79 	atomic64_t write; /* Number of REQ_WRITE bios */
80 	atomic64_t discard; /* Number of REQ_DISCARD bios */
81 	atomic64_t flush; /* Number of REQ_FLUSH bios */
82 	atomic64_t empty_flush; /* Number of REQ_PREFLUSH bios without data */
83 	atomic64_t fua; /* Number of REQ_FUA bios */
84 };
85 
86 /* Counters are atomic since updates can arrive concurrently from arbitrary threads. */
87 struct atomic_statistics {
88 	atomic64_t bios_submitted;
89 	atomic64_t bios_completed;
90 	atomic64_t flush_out;
91 	atomic64_t invalid_advice_pbn_count;
92 	atomic64_t no_space_error_count;
93 	atomic64_t read_only_error_count;
94 	struct atomic_bio_stats bios_in;
95 	struct atomic_bio_stats bios_in_partial;
96 	struct atomic_bio_stats bios_out;
97 	struct atomic_bio_stats bios_out_completed;
98 	struct atomic_bio_stats bios_acknowledged;
99 	struct atomic_bio_stats bios_acknowledged_partial;
100 	struct atomic_bio_stats bios_meta;
101 	struct atomic_bio_stats bios_meta_completed;
102 	struct atomic_bio_stats bios_journal;
103 	struct atomic_bio_stats bios_journal_completed;
104 	struct atomic_bio_stats bios_page_cache;
105 	struct atomic_bio_stats bios_page_cache_completed;
106 };
107 
108 struct read_only_notifier {
109 	/* The completion for entering read-only mode */
110 	struct vdo_completion completion;
111 	/* A completion waiting for notifications to be drained or enabled */
112 	struct vdo_completion *waiter;
113 	/* Lock to protect the next two fields */
114 	spinlock_t lock;
115 	/* The code of the error which put the VDO into read-only mode */
116 	int read_only_error;
117 	/* The current state of the notifier (values described above) */
118 	enum notifier_state state;
119 };
120 
121 /*
122  * The thread ID returned when the current thread is not a vdo thread, or can not be determined
123  * (usually due to being at interrupt context).
124  */
125 #define VDO_INVALID_THREAD_ID ((thread_id_t) -1)
126 
127 struct thread_config {
128 	zone_count_t logical_zone_count;
129 	zone_count_t physical_zone_count;
130 	zone_count_t hash_zone_count;
131 	thread_count_t bio_thread_count;
132 	thread_count_t thread_count;
133 	thread_id_t admin_thread;
134 	thread_id_t journal_thread;
135 	thread_id_t packer_thread;
136 	thread_id_t dedupe_thread;
137 	thread_id_t bio_ack_thread;
138 	thread_id_t cpu_thread;
139 	thread_id_t *logical_threads;
140 	thread_id_t *physical_threads;
141 	thread_id_t *hash_zone_threads;
142 	thread_id_t *bio_threads;
143 };
144 
145 struct thread_count_config;
146 
147 struct vdo_super_block {
148 	/* The vio for reading and writing the super block to disk */
149 	struct vio vio;
150 	/* A buffer to hold the super block */
151 	u8 *buffer;
152 	/* Whether this super block may not be written */
153 	bool unwritable;
154 };
155 
156 struct data_vio_pool;
157 
158 struct vdo_administrator {
159 	struct vdo_completion completion;
160 	struct admin_state state;
161 	atomic_t busy;
162 	u32 phase;
163 	struct completion callback_sync;
164 };
165 
166 struct vdo {
167 	char thread_name_prefix[MAX_VDO_WORK_QUEUE_NAME_LEN];
168 	struct vdo_thread *threads;
169 	vdo_action_fn action;
170 	struct vdo_completion *completion;
171 	struct vio_tracer *vio_tracer;
172 
173 	/* The atomic version of the state of this vdo */
174 	atomic_t state;
175 	/* The full state of all components */
176 	struct vdo_component_states states;
177 	/*
178 	 * A counter value to attach to thread names and log messages to identify the individual
179 	 * device.
180 	 */
181 	unsigned int instance;
182 	/* The read-only notifier */
183 	struct read_only_notifier read_only_notifier;
184 	/* The load-time configuration of this vdo */
185 	struct device_config *device_config;
186 	/* The thread mapping */
187 	struct thread_config thread_config;
188 
189 	/* The super block */
190 	struct vdo_super_block super_block;
191 
192 	/* The partitioning of the underlying storage */
193 	struct layout layout;
194 	struct layout next_layout;
195 	struct dm_kcopyd_client *partition_copier;
196 
197 	/* The block map */
198 	struct block_map *block_map;
199 
200 	/* The journal for block map recovery */
201 	struct recovery_journal *recovery_journal;
202 
203 	/* The slab depot */
204 	struct slab_depot *depot;
205 
206 	/* The compressed-block packer */
207 	struct packer *packer;
208 	/* Whether incoming data should be compressed */
209 	bool compressing;
210 
211 	/* The handler for flush requests */
212 	struct flusher *flusher;
213 
214 	/* The state the vdo was in when loaded (primarily for unit tests) */
215 	enum vdo_state load_state;
216 
217 	/* The logical zones of this vdo */
218 	struct logical_zones *logical_zones;
219 
220 	/* The physical zones of this vdo */
221 	struct physical_zones *physical_zones;
222 
223 	/* The hash lock zones of this vdo */
224 	struct hash_zones *hash_zones;
225 
226 	/* Bio submission manager used for sending bios to the storage device. */
227 	struct io_submitter *io_submitter;
228 
229 	/* The pool of data_vios for servicing incoming bios */
230 	struct data_vio_pool *data_vio_pool;
231 
232 	/* The manager for administrative operations */
233 	struct vdo_administrator admin;
234 
235 	/* Flags controlling administrative operations */
236 	const struct admin_state_code *suspend_type;
237 	bool allocations_allowed;
238 	bool dump_on_shutdown;
239 	atomic_t processing_message;
240 
241 	/*
242 	 * Statistics
243 	 * Atomic stats counters
244 	 */
245 	struct atomic_statistics stats;
246 	/* Used to gather statistics without allocating memory */
247 	struct vdo_statistics stats_buffer;
248 	/* Protects the stats_buffer */
249 	struct mutex stats_mutex;
250 
251 	/* A list of all device_configs referencing this vdo */
252 	struct list_head device_config_list;
253 
254 	/* This VDO's list entry for the device registry */
255 	struct list_head registration;
256 
257 	/* Underlying block device info. */
258 	u64 starting_sector_offset;
259 	struct volume_geometry geometry;
260 
261 	/* N blobs of context data for LZ4 code, one per CPU thread. */
262 	char **compression_context;
263 };
264 
265 /**
266  * vdo_uses_bio_ack_queue() - Indicate whether the vdo is configured to use a separate work queue
267  *                            for acknowledging received and processed bios.
268  * @vdo: The vdo.
269  *
270  * Note that this directly controls the handling of write operations, but the compile-time flag
271  * VDO_USE_BIO_ACK_QUEUE_FOR_READ is also checked for read operations.
272  *
273  * Return: Whether a bio-acknowledgement work queue is in use.
274  */
275 static inline bool vdo_uses_bio_ack_queue(struct vdo *vdo)
276 {
277 	return vdo->device_config->thread_counts.bio_ack_threads > 0;
278 }
279 
280 /**
281  * typedef vdo_filter_fn - Method type for vdo matching methods.
282  *
283  * A filter function returns false if the vdo doesn't match.
284  */
285 typedef bool (*vdo_filter_fn)(struct vdo *vdo, const void *context);
286 
287 void vdo_initialize_device_registry_once(void);
288 struct vdo * __must_check vdo_find_matching(vdo_filter_fn filter, const void *context);
289 
290 int __must_check vdo_make_thread(struct vdo *vdo, thread_id_t thread_id,
291 				 const struct vdo_work_queue_type *type,
292 				 unsigned int queue_count, void *contexts[]);
293 
294 static inline int __must_check vdo_make_default_thread(struct vdo *vdo,
295 						       thread_id_t thread_id)
296 {
297 	return vdo_make_thread(vdo, thread_id, NULL, 1, NULL);
298 }
299 
300 int __must_check vdo_make(unsigned int instance, struct device_config *config,
301 			  char **reason, struct vdo **vdo_ptr);
302 
303 void vdo_destroy(struct vdo *vdo);
304 
305 void vdo_load_super_block(struct vdo *vdo, struct vdo_completion *parent);
306 
307 struct block_device * __must_check vdo_get_backing_device(const struct vdo *vdo);
308 
309 const char * __must_check vdo_get_device_name(const struct dm_target *target);
310 
311 int __must_check vdo_synchronous_flush(struct vdo *vdo);
312 
313 const struct admin_state_code * __must_check vdo_get_admin_state(const struct vdo *vdo);
314 
315 bool vdo_set_compressing(struct vdo *vdo, bool enable);
316 
317 bool vdo_get_compressing(struct vdo *vdo);
318 
319 void vdo_fetch_statistics(struct vdo *vdo, struct vdo_statistics *stats);
320 
321 thread_id_t vdo_get_callback_thread_id(void);
322 
323 enum vdo_state __must_check vdo_get_state(const struct vdo *vdo);
324 
325 void vdo_set_state(struct vdo *vdo, enum vdo_state state);
326 
327 void vdo_save_components(struct vdo *vdo, struct vdo_completion *parent);
328 
329 int vdo_register_read_only_listener(struct vdo *vdo, void *listener,
330 				    vdo_read_only_notification_fn notification,
331 				    thread_id_t thread_id);
332 
333 int vdo_enable_read_only_entry(struct vdo *vdo);
334 
335 void vdo_wait_until_not_entering_read_only_mode(struct vdo_completion *parent);
336 
337 void vdo_allow_read_only_mode_entry(struct vdo_completion *parent);
338 
339 void vdo_enter_read_only_mode(struct vdo *vdo, int error_code);
340 
341 bool __must_check vdo_is_read_only(struct vdo *vdo);
342 
343 bool __must_check vdo_in_read_only_mode(const struct vdo *vdo);
344 
345 bool __must_check vdo_in_recovery_mode(const struct vdo *vdo);
346 
347 void vdo_enter_recovery_mode(struct vdo *vdo);
348 
349 void vdo_assert_on_admin_thread(const struct vdo *vdo, const char *name);
350 
351 void vdo_assert_on_logical_zone_thread(const struct vdo *vdo, zone_count_t logical_zone,
352 				       const char *name);
353 
354 void vdo_assert_on_physical_zone_thread(const struct vdo *vdo, zone_count_t physical_zone,
355 					const char *name);
356 
357 int __must_check vdo_get_physical_zone(const struct vdo *vdo, physical_block_number_t pbn,
358 				       struct physical_zone **zone_ptr);
359 
360 void vdo_dump_status(const struct vdo *vdo);
361 
362 #endif /* VDO_H */
363