xref: /openbmc/linux/drivers/md/bcache/stats.c (revision 1d05334d)
1 // SPDX-License-Identifier: GPL-2.0
2 /*
3  * bcache stats code
4  *
5  * Copyright 2012 Google, Inc.
6  */
7 
8 #include "bcache.h"
9 #include "stats.h"
10 #include "btree.h"
11 #include "sysfs.h"
12 
13 /*
14  * We keep absolute totals of various statistics, and addionally a set of three
15  * rolling averages.
16  *
17  * Every so often, a timer goes off and rescales the rolling averages.
18  * accounting_rescale[] is how many times the timer has to go off before we
19  * rescale each set of numbers; that gets us half lives of 5 minutes, one hour,
20  * and one day.
21  *
22  * accounting_delay is how often the timer goes off - 22 times in 5 minutes,
23  * and accounting_weight is what we use to rescale:
24  *
25  * pow(31 / 32, 22) ~= 1/2
26  *
27  * So that we don't have to increment each set of numbers every time we (say)
28  * get a cache hit, we increment a single atomic_t in acc->collector, and when
29  * the rescale function runs it resets the atomic counter to 0 and adds its
30  * old value to each of the exported numbers.
31  *
32  * To reduce rounding error, the numbers in struct cache_stats are all
33  * stored left shifted by 16, and scaled back in the sysfs show() function.
34  */
35 
36 static const unsigned int DAY_RESCALE		= 288;
37 static const unsigned int HOUR_RESCALE		= 12;
38 static const unsigned int FIVE_MINUTE_RESCALE	= 1;
39 static const unsigned int accounting_delay	= (HZ * 300) / 22;
40 static const unsigned int accounting_weight	= 32;
41 
42 /* sysfs reading/writing */
43 
44 read_attribute(cache_hits);
45 read_attribute(cache_misses);
46 read_attribute(cache_bypass_hits);
47 read_attribute(cache_bypass_misses);
48 read_attribute(cache_hit_ratio);
49 read_attribute(cache_readaheads);
50 read_attribute(cache_miss_collisions);
51 read_attribute(bypassed);
52 
53 SHOW(bch_stats)
54 {
55 	struct cache_stats *s =
56 		container_of(kobj, struct cache_stats, kobj);
57 #define var(stat)		(s->stat >> 16)
58 	var_print(cache_hits);
59 	var_print(cache_misses);
60 	var_print(cache_bypass_hits);
61 	var_print(cache_bypass_misses);
62 
63 	sysfs_print(cache_hit_ratio,
64 		    DIV_SAFE(var(cache_hits) * 100,
65 			     var(cache_hits) + var(cache_misses)));
66 
67 	var_print(cache_readaheads);
68 	var_print(cache_miss_collisions);
69 	sysfs_hprint(bypassed,	var(sectors_bypassed) << 9);
70 #undef var
71 	return 0;
72 }
73 
74 STORE(bch_stats)
75 {
76 	return size;
77 }
78 
79 static void bch_stats_release(struct kobject *k)
80 {
81 }
82 
83 static struct attribute *bch_stats_files[] = {
84 	&sysfs_cache_hits,
85 	&sysfs_cache_misses,
86 	&sysfs_cache_bypass_hits,
87 	&sysfs_cache_bypass_misses,
88 	&sysfs_cache_hit_ratio,
89 	&sysfs_cache_readaheads,
90 	&sysfs_cache_miss_collisions,
91 	&sysfs_bypassed,
92 	NULL
93 };
94 static KTYPE(bch_stats);
95 
96 int bch_cache_accounting_add_kobjs(struct cache_accounting *acc,
97 				   struct kobject *parent)
98 {
99 	int ret = kobject_add(&acc->total.kobj, parent,
100 			      "stats_total");
101 	ret = ret ?: kobject_add(&acc->five_minute.kobj, parent,
102 				 "stats_five_minute");
103 	ret = ret ?: kobject_add(&acc->hour.kobj, parent,
104 				 "stats_hour");
105 	ret = ret ?: kobject_add(&acc->day.kobj, parent,
106 				 "stats_day");
107 	return ret;
108 }
109 
110 void bch_cache_accounting_clear(struct cache_accounting *acc)
111 {
112 	acc->total.cache_hits = 0;
113 	acc->total.cache_misses = 0;
114 	acc->total.cache_bypass_hits = 0;
115 	acc->total.cache_bypass_misses = 0;
116 	acc->total.cache_readaheads = 0;
117 	acc->total.cache_miss_collisions = 0;
118 	acc->total.sectors_bypassed = 0;
119 }
120 
121 void bch_cache_accounting_destroy(struct cache_accounting *acc)
122 {
123 	kobject_put(&acc->total.kobj);
124 	kobject_put(&acc->five_minute.kobj);
125 	kobject_put(&acc->hour.kobj);
126 	kobject_put(&acc->day.kobj);
127 
128 	atomic_set(&acc->closing, 1);
129 	if (del_timer_sync(&acc->timer))
130 		closure_return(&acc->cl);
131 }
132 
133 /* EWMA scaling */
134 
135 static void scale_stat(unsigned long *stat)
136 {
137 	*stat =  ewma_add(*stat, 0, accounting_weight, 0);
138 }
139 
140 static void scale_stats(struct cache_stats *stats, unsigned long rescale_at)
141 {
142 	if (++stats->rescale == rescale_at) {
143 		stats->rescale = 0;
144 		scale_stat(&stats->cache_hits);
145 		scale_stat(&stats->cache_misses);
146 		scale_stat(&stats->cache_bypass_hits);
147 		scale_stat(&stats->cache_bypass_misses);
148 		scale_stat(&stats->cache_readaheads);
149 		scale_stat(&stats->cache_miss_collisions);
150 		scale_stat(&stats->sectors_bypassed);
151 	}
152 }
153 
154 static void scale_accounting(struct timer_list *t)
155 {
156 	struct cache_accounting *acc = from_timer(acc, t, timer);
157 
158 #define move_stat(name) do {						\
159 	unsigned int t = atomic_xchg(&acc->collector.name, 0);		\
160 	t <<= 16;							\
161 	acc->five_minute.name += t;					\
162 	acc->hour.name += t;						\
163 	acc->day.name += t;						\
164 	acc->total.name += t;						\
165 } while (0)
166 
167 	move_stat(cache_hits);
168 	move_stat(cache_misses);
169 	move_stat(cache_bypass_hits);
170 	move_stat(cache_bypass_misses);
171 	move_stat(cache_readaheads);
172 	move_stat(cache_miss_collisions);
173 	move_stat(sectors_bypassed);
174 
175 	scale_stats(&acc->total, 0);
176 	scale_stats(&acc->day, DAY_RESCALE);
177 	scale_stats(&acc->hour, HOUR_RESCALE);
178 	scale_stats(&acc->five_minute, FIVE_MINUTE_RESCALE);
179 
180 	acc->timer.expires += accounting_delay;
181 
182 	if (!atomic_read(&acc->closing))
183 		add_timer(&acc->timer);
184 	else
185 		closure_return(&acc->cl);
186 }
187 
188 static void mark_cache_stats(struct cache_stat_collector *stats,
189 			     bool hit, bool bypass)
190 {
191 	if (!bypass)
192 		if (hit)
193 			atomic_inc(&stats->cache_hits);
194 		else
195 			atomic_inc(&stats->cache_misses);
196 	else
197 		if (hit)
198 			atomic_inc(&stats->cache_bypass_hits);
199 		else
200 			atomic_inc(&stats->cache_bypass_misses);
201 }
202 
203 void bch_mark_cache_accounting(struct cache_set *c, struct bcache_device *d,
204 			       bool hit, bool bypass)
205 {
206 	struct cached_dev *dc = container_of(d, struct cached_dev, disk);
207 
208 	mark_cache_stats(&dc->accounting.collector, hit, bypass);
209 	mark_cache_stats(&c->accounting.collector, hit, bypass);
210 }
211 
212 void bch_mark_cache_readahead(struct cache_set *c, struct bcache_device *d)
213 {
214 	struct cached_dev *dc = container_of(d, struct cached_dev, disk);
215 
216 	atomic_inc(&dc->accounting.collector.cache_readaheads);
217 	atomic_inc(&c->accounting.collector.cache_readaheads);
218 }
219 
220 void bch_mark_cache_miss_collision(struct cache_set *c, struct bcache_device *d)
221 {
222 	struct cached_dev *dc = container_of(d, struct cached_dev, disk);
223 
224 	atomic_inc(&dc->accounting.collector.cache_miss_collisions);
225 	atomic_inc(&c->accounting.collector.cache_miss_collisions);
226 }
227 
228 void bch_mark_sectors_bypassed(struct cache_set *c, struct cached_dev *dc,
229 			       int sectors)
230 {
231 	atomic_add(sectors, &dc->accounting.collector.sectors_bypassed);
232 	atomic_add(sectors, &c->accounting.collector.sectors_bypassed);
233 }
234 
235 void bch_cache_accounting_init(struct cache_accounting *acc,
236 			       struct closure *parent)
237 {
238 	kobject_init(&acc->total.kobj,		&bch_stats_ktype);
239 	kobject_init(&acc->five_minute.kobj,	&bch_stats_ktype);
240 	kobject_init(&acc->hour.kobj,		&bch_stats_ktype);
241 	kobject_init(&acc->day.kobj,		&bch_stats_ktype);
242 
243 	closure_init(&acc->cl, parent);
244 	timer_setup(&acc->timer, scale_accounting, 0);
245 	acc->timer.expires	= jiffies + accounting_delay;
246 	add_timer(&acc->timer);
247 }
248