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a64e88da JA |
1 | #ifndef FIO_STAT_H |
2 | #define FIO_STAT_H | |
3 | ||
ec41265e JA |
4 | #include "iolog.h" |
5 | ||
a64e88da | 6 | struct group_run_stats { |
6eaf09d6 SL |
7 | uint64_t max_run[DDIR_RWDIR_CNT], min_run[DDIR_RWDIR_CNT]; |
8 | uint64_t max_bw[DDIR_RWDIR_CNT], min_bw[DDIR_RWDIR_CNT]; | |
9 | uint64_t io_kb[DDIR_RWDIR_CNT]; | |
10 | uint64_t agg[DDIR_RWDIR_CNT]; | |
a64e88da | 11 | uint32_t kb_base; |
ad705bcb | 12 | uint32_t unit_base; |
a64e88da | 13 | uint32_t groupid; |
771e58be | 14 | uint32_t unified_rw_rep; |
a64e88da JA |
15 | }; |
16 | ||
17 | /* | |
18 | * How many depth levels to log | |
19 | */ | |
20 | #define FIO_IO_U_MAP_NR 7 | |
21 | #define FIO_IO_U_LAT_U_NR 10 | |
22 | #define FIO_IO_U_LAT_M_NR 12 | |
23 | ||
24 | /* | |
25 | * Aggregate clat samples to report percentile(s) of them. | |
26 | * | |
27 | * EXECUTIVE SUMMARY | |
28 | * | |
29 | * FIO_IO_U_PLAT_BITS determines the maximum statistical error on the | |
30 | * value of resulting percentiles. The error will be approximately | |
31 | * 1/2^(FIO_IO_U_PLAT_BITS+1) of the value. | |
32 | * | |
33 | * FIO_IO_U_PLAT_GROUP_NR and FIO_IO_U_PLAT_BITS determine the maximum | |
34 | * range being tracked for latency samples. The maximum value tracked | |
35 | * accurately will be 2^(GROUP_NR + PLAT_BITS -1) microseconds. | |
36 | * | |
37 | * FIO_IO_U_PLAT_GROUP_NR and FIO_IO_U_PLAT_BITS determine the memory | |
38 | * requirement of storing those aggregate counts. The memory used will | |
39 | * be (FIO_IO_U_PLAT_GROUP_NR * 2^FIO_IO_U_PLAT_BITS) * sizeof(int) | |
40 | * bytes. | |
41 | * | |
42 | * FIO_IO_U_PLAT_NR is the total number of buckets. | |
43 | * | |
44 | * DETAILS | |
45 | * | |
46 | * Suppose the clat varies from 0 to 999 (usec), the straightforward | |
47 | * method is to keep an array of (999 + 1) buckets, in which a counter | |
48 | * keeps the count of samples which fall in the bucket, e.g., | |
49 | * {[0],[1],...,[999]}. However this consumes a huge amount of space, | |
50 | * and can be avoided if an approximation is acceptable. | |
51 | * | |
52 | * One such method is to let the range of the bucket to be greater | |
53 | * than one. This method has low accuracy when the value is small. For | |
54 | * example, let the buckets be {[0,99],[100,199],...,[900,999]}, and | |
55 | * the represented value of each bucket be the mean of the range. Then | |
56 | * a value 0 has an round-off error of 49.5. To improve on this, we | |
57 | * use buckets with non-uniform ranges, while bounding the error of | |
58 | * each bucket within a ratio of the sample value. A simple example | |
59 | * would be when error_bound = 0.005, buckets are { | |
60 | * {[0],[1],...,[99]}, {[100,101],[102,103],...,[198,199]},.., | |
61 | * {[900,909],[910,919]...} }. The total range is partitioned into | |
62 | * groups with different ranges, then buckets with uniform ranges. An | |
63 | * upper bound of the error is (range_of_bucket/2)/value_of_bucket | |
64 | * | |
65 | * For better efficiency, we implement this using base two. We group | |
66 | * samples by their Most Significant Bit (MSB), extract the next M bit | |
67 | * of them as an index within the group, and discard the rest of the | |
68 | * bits. | |
69 | * | |
70 | * E.g., assume a sample 'x' whose MSB is bit n (starting from bit 0), | |
71 | * and use M bit for indexing | |
72 | * | |
73 | * | n | M bits | bit (n-M-1) ... bit 0 | | |
74 | * | |
75 | * Because x is at least 2^n, and bit 0 to bit (n-M-1) is at most | |
76 | * (2^(n-M) - 1), discarding bit 0 to (n-M-1) makes the round-off | |
77 | * error | |
78 | * | |
79 | * 2^(n-M)-1 2^(n-M) 1 | |
80 | * e <= --------- <= ------- = --- | |
81 | * 2^n 2^n 2^M | |
82 | * | |
83 | * Furthermore, we use "mean" of the range to represent the bucket, | |
84 | * the error e can be lowered by half to 1 / 2^(M+1). By using M bits | |
85 | * as the index, each group must contains 2^M buckets. | |
86 | * | |
87 | * E.g. Let M (FIO_IO_U_PLAT_BITS) be 6 | |
88 | * Error bound is 1/2^(6+1) = 0.0078125 (< 1%) | |
89 | * | |
90 | * Group MSB #discarded range of #buckets | |
91 | * error_bits value | |
92 | * ---------------------------------------------------------------- | |
93 | * 0* 0~5 0 [0,63] 64 | |
94 | * 1* 6 0 [64,127] 64 | |
95 | * 2 7 1 [128,255] 64 | |
96 | * 3 8 2 [256,511] 64 | |
97 | * 4 9 3 [512,1023] 64 | |
98 | * ... ... ... [...,...] ... | |
99 | * 18 23 17 [8838608,+inf]** 64 | |
100 | * | |
101 | * * Special cases: when n < (M-1) or when n == (M-1), in both cases, | |
102 | * the value cannot be rounded off. Use all bits of the sample as | |
103 | * index. | |
104 | * | |
105 | * ** If a sample's MSB is greater than 23, it will be counted as 23. | |
106 | */ | |
107 | ||
108 | #define FIO_IO_U_PLAT_BITS 6 | |
109 | #define FIO_IO_U_PLAT_VAL (1 << FIO_IO_U_PLAT_BITS) | |
110 | #define FIO_IO_U_PLAT_GROUP_NR 19 | |
111 | #define FIO_IO_U_PLAT_NR (FIO_IO_U_PLAT_GROUP_NR * FIO_IO_U_PLAT_VAL) | |
112 | #define FIO_IO_U_LIST_MAX_LEN 20 /* The size of the default and user-specified | |
113 | list of percentiles */ | |
114 | ||
115 | #define MAX_PATTERN_SIZE 512 | |
116 | #define FIO_JOBNAME_SIZE 128 | |
4e59d0f3 | 117 | #define FIO_JOBDESC_SIZE 256 |
a64e88da JA |
118 | #define FIO_VERROR_SIZE 128 |
119 | ||
120 | struct thread_stat { | |
121 | char name[FIO_JOBNAME_SIZE]; | |
122 | char verror[FIO_VERROR_SIZE]; | |
ddcc0b69 | 123 | uint32_t error; |
2f122b13 | 124 | uint32_t thread_number; |
ddcc0b69 | 125 | uint32_t groupid; |
a64e88da | 126 | uint32_t pid; |
4e59d0f3 | 127 | char description[FIO_JOBDESC_SIZE]; |
a64e88da | 128 | uint32_t members; |
771e58be | 129 | uint32_t unified_rw_rep; |
a64e88da JA |
130 | |
131 | /* | |
132 | * bandwidth and latency stats | |
133 | */ | |
6eaf09d6 SL |
134 | struct io_stat clat_stat[DDIR_RWDIR_CNT]; /* completion latency */ |
135 | struct io_stat slat_stat[DDIR_RWDIR_CNT]; /* submission latency */ | |
136 | struct io_stat lat_stat[DDIR_RWDIR_CNT]; /* total latency */ | |
137 | struct io_stat bw_stat[DDIR_RWDIR_CNT]; /* bandwidth stats */ | |
138 | struct io_stat iops_stat[DDIR_RWDIR_CNT]; /* IOPS stats */ | |
a64e88da JA |
139 | |
140 | /* | |
141 | * fio system usage accounting | |
142 | */ | |
143 | uint64_t usr_time; | |
144 | uint64_t sys_time; | |
145 | uint64_t ctx; | |
146 | uint64_t minf, majf; | |
147 | ||
148 | /* | |
149 | * IO depth and latency stats | |
150 | */ | |
151 | uint64_t clat_percentiles; | |
435d195a | 152 | uint64_t percentile_precision; |
802ad4a8 | 153 | fio_fp64_t percentile_list[FIO_IO_U_LIST_MAX_LEN]; |
a64e88da JA |
154 | |
155 | uint32_t io_u_map[FIO_IO_U_MAP_NR]; | |
156 | uint32_t io_u_submit[FIO_IO_U_MAP_NR]; | |
157 | uint32_t io_u_complete[FIO_IO_U_MAP_NR]; | |
158 | uint32_t io_u_lat_u[FIO_IO_U_LAT_U_NR]; | |
159 | uint32_t io_u_lat_m[FIO_IO_U_LAT_M_NR]; | |
6eaf09d6 | 160 | uint32_t io_u_plat[DDIR_RWDIR_CNT][FIO_IO_U_PLAT_NR]; |
a64e88da JA |
161 | uint64_t total_io_u[3]; |
162 | uint64_t short_io_u[3]; | |
163 | uint64_t total_submit; | |
164 | uint64_t total_complete; | |
165 | ||
6eaf09d6 SL |
166 | uint64_t io_bytes[DDIR_RWDIR_CNT]; |
167 | uint64_t runtime[DDIR_RWDIR_CNT]; | |
a64e88da JA |
168 | uint64_t total_run_time; |
169 | ||
170 | /* | |
171 | * IO Error related stats | |
172 | */ | |
173 | uint16_t continue_on_error; | |
174 | uint64_t total_err_count; | |
ddcc0b69 | 175 | uint32_t first_error; |
a64e88da JA |
176 | |
177 | uint32_t kb_base; | |
ad705bcb | 178 | uint32_t unit_base; |
3e260a46 JA |
179 | |
180 | uint32_t latency_depth; | |
181 | uint64_t latency_target; | |
182 | fio_fp64_t latency_percentile; | |
183 | uint64_t latency_window; | |
a64e88da JA |
184 | }; |
185 | ||
b75a394f JA |
186 | struct jobs_eta { |
187 | uint32_t nr_running; | |
188 | uint32_t nr_ramp; | |
189 | uint32_t nr_pending; | |
714e85f3 | 190 | uint32_t nr_setting_up; |
b75a394f | 191 | uint32_t files_open; |
d79db122 JA |
192 | uint32_t m_rate[DDIR_RWDIR_CNT], t_rate[DDIR_RWDIR_CNT]; |
193 | uint32_t m_iops[DDIR_RWDIR_CNT], t_iops[DDIR_RWDIR_CNT]; | |
6eaf09d6 SL |
194 | uint32_t rate[DDIR_RWDIR_CNT]; |
195 | uint32_t iops[DDIR_RWDIR_CNT]; | |
b75a394f JA |
196 | uint64_t elapsed_sec; |
197 | uint64_t eta_sec; | |
b7f05eb0 | 198 | uint32_t is_pow2; |
ad705bcb | 199 | uint32_t unit_base; |
1d1f45ae JA |
200 | |
201 | /* | |
202 | * Network 'copy' of run_str[] | |
203 | */ | |
204 | uint32_t nr_threads; | |
372aecb9 | 205 | uint8_t run_str[]; |
b75a394f JA |
206 | }; |
207 | ||
cef9175e JA |
208 | extern void stat_init(void); |
209 | extern void stat_exit(void); | |
210 | ||
952b05e0 | 211 | extern struct json_object * show_thread_status(struct thread_stat *ts, struct group_run_stats *rs); |
a64e88da | 212 | extern void show_group_stats(struct group_run_stats *rs); |
af9c9fb3 | 213 | extern int calc_thread_status(struct jobs_eta *je, int force); |
cf451d1e | 214 | extern void display_thread_status(struct jobs_eta *je); |
5b9babb7 | 215 | extern void show_run_stats(void); |
b852e7cf | 216 | extern void show_running_run_stats(void); |
06464907 | 217 | extern void check_for_running_stats(void); |
5b9babb7 | 218 | extern void sum_thread_stats(struct thread_stat *dst, struct thread_stat *src, int nr); |
37f0c1ae JA |
219 | extern void sum_group_stats(struct group_run_stats *dst, struct group_run_stats *src); |
220 | extern void init_thread_stat(struct thread_stat *ts); | |
221 | extern void init_group_run_stat(struct group_run_stats *gs); | |
3e47bd25 | 222 | extern void eta_to_str(char *str, unsigned long eta_sec); |
b29ad562 | 223 | extern int calc_lat(struct io_stat *is, unsigned long *min, unsigned long *max, double *mean, double *dev); |
a269790c | 224 | extern unsigned int calc_clat_percentiles(unsigned int *io_u_plat, unsigned long nr, fio_fp64_t *plist, unsigned int **output, unsigned int *maxv, unsigned int *minv); |
e5bd1347 JA |
225 | extern void stat_calc_lat_m(struct thread_stat *ts, double *io_u_lat); |
226 | extern void stat_calc_lat_u(struct thread_stat *ts, double *io_u_lat); | |
2e33101f | 227 | extern void stat_calc_dist(unsigned int *map, unsigned long total, double *io_u_dist); |
6bb58215 | 228 | extern void reset_io_stats(struct thread_data *); |
2e33101f | 229 | |
b29ad562 JA |
230 | static inline int usec_to_msec(unsigned long *min, unsigned long *max, |
231 | double *mean, double *dev) | |
232 | { | |
233 | if (*min > 1000 && *max > 1000 && *mean > 1000.0 && *dev > 1000.0) { | |
234 | *min /= 1000; | |
235 | *max /= 1000; | |
236 | *mean /= 1000.0; | |
237 | *dev /= 1000.0; | |
238 | return 0; | |
239 | } | |
240 | ||
241 | return 1; | |
242 | } | |
a64e88da JA |
243 | |
244 | #endif |