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d8296fdd BE |
1 | #!/usr/bin/env python |
2 | ||
3 | # module to parse fio histogram log files, not using pandas | |
4 | # runs in python v2 or v3 | |
5 | # to get help with the CLI: $ python fio-histo-log-pctiles.py -h | |
6 | # this can be run standalone as a script but is callable | |
7 | # assumes all threads run for same time duration | |
8 | # assumes all threads are doing the same thing for the entire run | |
9 | ||
10 | # percentiles: | |
11 | # 0 - min latency | |
12 | # 50 - median | |
13 | # 100 - max latency | |
14 | ||
15 | # TO-DO: | |
16 | # separate read and write stats for randrw mixed workload | |
17 | # report average latency if needed | |
18 | # prove that it works (partially done with unit tests) | |
19 | ||
20 | # to run unit tests, set UNITTEST environment variable to anything | |
21 | # if you do this, don't pass normal CLI parameters to it | |
22 | # otherwise it runs the CLI | |
23 | ||
18c1783a | 24 | import sys, os, math, copy, time |
d8296fdd | 25 | from copy import deepcopy |
c670cb44 | 26 | import argparse |
d8296fdd BE |
27 | import unittest2 |
28 | ||
29 | msec_per_sec = 1000 | |
30 | nsec_per_usec = 1000 | |
18c1783a BE |
31 | direction_read = 0 |
32 | direction_write = 1 | |
d8296fdd BE |
33 | |
34 | class FioHistoLogExc(Exception): | |
35 | pass | |
36 | ||
c670cb44 | 37 | # if there is an error, print message, and exit with error status |
d8296fdd | 38 | |
c670cb44 | 39 | def myabort(msg): |
d8296fdd | 40 | print('ERROR: ' + msg) |
d8296fdd BE |
41 | sys.exit(1) |
42 | ||
d8296fdd BE |
43 | # convert histogram log file into a list of |
44 | # (time_ms, direction, bsz, buckets) tuples where | |
45 | # - time_ms is the time in msec at which the log record was written | |
46 | # - direction is 0 (read) or 1 (write) | |
47 | # - bsz is block size (not used) | |
48 | # - buckets is a CSV list of counters that make up the histogram | |
49 | # caller decides if the expected number of counters are present | |
50 | ||
51 | ||
52 | def exception_suffix( record_num, pathname ): | |
53 | return 'in histogram record %d file %s' % (record_num+1, pathname) | |
54 | ||
55 | # log file parser raises FioHistoLogExc exceptions | |
56 | # it returns histogram buckets in whatever unit fio uses | |
18c1783a BE |
57 | # inputs: |
58 | # logfn: pathname to histogram log file | |
59 | # buckets_per_interval - how many histogram buckets to expect | |
60 | # log_hist_msec - if not None, expected time interval between histogram records | |
61 | ||
62 | def parse_hist_file(logfn, buckets_per_interval, log_hist_msec): | |
63 | previous_ts_ms_read = -1 | |
64 | previous_ts_ms_write = -1 | |
65 | ||
d8296fdd BE |
66 | with open(logfn, 'r') as f: |
67 | records = [ l.strip() for l in f.readlines() ] | |
68 | intervals = [] | |
69 | for k, r in enumerate(records): | |
70 | if r == '': | |
71 | continue | |
72 | tokens = r.split(',') | |
73 | try: | |
74 | int_tokens = [ int(t) for t in tokens ] | |
75 | except ValueError as e: | |
76 | raise FioHistoLogExc('non-integer value %s' % exception_suffix(k+1, logfn)) | |
77 | ||
78 | neg_ints = list(filter( lambda tk : tk < 0, int_tokens )) | |
79 | if len(neg_ints) > 0: | |
80 | raise FioHistoLogExc('negative integer value %s' % exception_suffix(k+1, logfn)) | |
81 | ||
82 | if len(int_tokens) < 3: | |
83 | raise FioHistoLogExc('too few numbers %s' % exception_suffix(k+1, logfn)) | |
84 | ||
d8296fdd | 85 | direction = int_tokens[1] |
18c1783a | 86 | if direction != direction_read and direction != direction_write: |
d8296fdd BE |
87 | raise FioHistoLogExc('invalid I/O direction %s' % exception_suffix(k+1, logfn)) |
88 | ||
18c1783a BE |
89 | time_ms = int_tokens[0] |
90 | if direction == direction_read: | |
91 | if time_ms < previous_ts_ms_read: | |
92 | raise FioHistoLogExc('read timestamp in column 1 decreased %s' % exception_suffix(k+1, logfn)) | |
93 | previous_ts_ms_read = time_ms | |
94 | elif direction == direction_write: | |
95 | if time_ms < previous_ts_ms_write: | |
96 | raise FioHistoLogExc('write timestamp in column 1 decreased %s' % exception_suffix(k+1, logfn)) | |
97 | previous_ts_ms_write = time_ms | |
98 | ||
d8296fdd BE |
99 | bsz = int_tokens[2] |
100 | if bsz > (1 << 24): | |
101 | raise FioHistoLogExc('block size too large %s' % exception_suffix(k+1, logfn)) | |
102 | ||
103 | buckets = int_tokens[3:] | |
104 | if len(buckets) != buckets_per_interval: | |
105 | raise FioHistoLogExc('%d buckets per interval but %d expected in %s' % | |
106 | (len(buckets), buckets_per_interval, exception_suffix(k+1, logfn))) | |
107 | intervals.append((time_ms, direction, bsz, buckets)) | |
108 | if len(intervals) == 0: | |
109 | raise FioHistoLogExc('no records in %s' % logfn) | |
18c1783a BE |
110 | (first_timestamp, _, _, _) = intervals[0] |
111 | if first_timestamp < 1000000: | |
112 | start_time = 0 # assume log_unix_epoch = 0 | |
113 | elif log_hist_msec != None: | |
114 | start_time = first_timestamp - log_hist_msec | |
115 | elif len(intervals) > 1: | |
116 | (second_timestamp, _, _, _) = intervals[1] | |
117 | start_time = first_timestamp - (second_timestamp - first_timestamp) | |
118 | (end_timestamp, _, _, _) = intervals[-1] | |
119 | ||
120 | return (intervals, start_time, end_timestamp) | |
d8296fdd BE |
121 | |
122 | ||
123 | # compute time range for each bucket index in histogram record | |
124 | # see comments in https://github.com/axboe/fio/blob/master/stat.h | |
125 | # for description of bucket groups and buckets | |
126 | # fio v3 bucket ranges are in nanosec (since response times are measured in nanosec) | |
127 | # but we convert fio v3 nanosecs to floating-point microseconds | |
128 | ||
129 | def time_ranges(groups, counters_per_group, fio_version=3): | |
130 | bucket_width = 1 | |
131 | bucket_base = 0 | |
132 | bucket_intervals = [] | |
133 | for g in range(0, groups): | |
134 | for b in range(0, counters_per_group): | |
135 | rmin = float(bucket_base) | |
136 | rmax = rmin + bucket_width | |
137 | if fio_version == 3: | |
138 | rmin /= nsec_per_usec | |
139 | rmax /= nsec_per_usec | |
140 | bucket_intervals.append( [rmin, rmax] ) | |
141 | bucket_base += bucket_width | |
142 | if g != 0: | |
143 | bucket_width *= 2 | |
144 | return bucket_intervals | |
145 | ||
146 | ||
147 | # compute number of time quantum intervals in the test | |
148 | ||
18c1783a | 149 | def get_time_intervals(time_quantum, min_timestamp_ms, max_timestamp_ms): |
d8296fdd BE |
150 | # round down to nearest second |
151 | max_timestamp = max_timestamp_ms // msec_per_sec | |
18c1783a | 152 | min_timestamp = min_timestamp_ms // msec_per_sec |
d8296fdd | 153 | # round up to nearest whole multiple of time_quantum |
18c1783a BE |
154 | time_interval_count = ((max_timestamp - min_timestamp) + time_quantum) // time_quantum |
155 | end_time = min_timestamp + (time_interval_count * time_quantum) | |
d8296fdd BE |
156 | return (end_time, time_interval_count) |
157 | ||
158 | # align raw histogram log data to time quantum so | |
159 | # we can then combine histograms from different threads with addition | |
160 | # for randrw workload we count both reads and writes in same output bucket | |
161 | # but we separate reads and writes for purposes of calculating | |
162 | # end time for histogram record. | |
163 | # this requires us to weight a raw histogram bucket by the | |
164 | # fraction of time quantum that the bucket overlaps the current | |
165 | # time quantum interval | |
166 | # for example, if we have a bucket with 515 samples for time interval | |
167 | # [ 1010, 2014 ] msec since start of test, and time quantum is 1 sec, then | |
168 | # for time quantum interval [ 1000, 2000 ] msec, the overlap is | |
169 | # (2000 - 1010) / (2000 - 1000) = 0.99 | |
170 | # so the contribution of this bucket to this time quantum is | |
171 | # 515 x 0.99 = 509.85 | |
172 | ||
18c1783a | 173 | def align_histo_log(raw_histogram_log, time_quantum, bucket_count, min_timestamp_ms, max_timestamp_ms): |
d8296fdd BE |
174 | |
175 | # slice up test time int intervals of time_quantum seconds | |
176 | ||
18c1783a | 177 | (end_time, time_interval_count) = get_time_intervals(time_quantum, min_timestamp_ms, max_timestamp_ms) |
d8296fdd BE |
178 | time_qtm_ms = time_quantum * msec_per_sec |
179 | end_time_ms = end_time * msec_per_sec | |
180 | aligned_intervals = [] | |
181 | for j in range(0, time_interval_count): | |
182 | aligned_intervals.append(( | |
18c1783a | 183 | min_timestamp_ms + (j * time_qtm_ms), |
d8296fdd BE |
184 | [ 0.0 for j in range(0, bucket_count) ] )) |
185 | ||
186 | log_record_count = len(raw_histogram_log) | |
187 | for k, record in enumerate(raw_histogram_log): | |
188 | ||
189 | # find next record with same direction to get end-time | |
190 | # have to avoid going past end of array | |
191 | # for fio randrw workload, | |
192 | # we have read and write records on same time interval | |
193 | # sometimes read and write records are in opposite order | |
194 | # assertion checks that next read/write record | |
195 | # can be separated by at most 2 other records | |
196 | ||
197 | (time_msec, direction, sz, interval_buckets) = record | |
198 | if k+1 < log_record_count: | |
199 | (time_msec_end, direction2, _, _) = raw_histogram_log[k+1] | |
200 | if direction2 != direction: | |
201 | if k+2 < log_record_count: | |
202 | (time_msec_end, direction2, _, _) = raw_histogram_log[k+2] | |
203 | if direction2 != direction: | |
204 | if k+3 < log_record_count: | |
205 | (time_msec_end, direction2, _, _) = raw_histogram_log[k+3] | |
206 | assert direction2 == direction | |
207 | else: | |
208 | time_msec_end = end_time_ms | |
209 | else: | |
210 | time_msec_end = end_time_ms | |
211 | else: | |
212 | time_msec_end = end_time_ms | |
213 | ||
214 | # calculate first quantum that overlaps this histogram record | |
215 | ||
18c1783a BE |
216 | offset_from_min_ts = time_msec - min_timestamp_ms |
217 | qtm_start_ms = min_timestamp_ms + (offset_from_min_ts // time_qtm_ms) * time_qtm_ms | |
218 | qtm_end_ms = min_timestamp_ms + ((offset_from_min_ts + time_qtm_ms) // time_qtm_ms) * time_qtm_ms | |
219 | qtm_index = offset_from_min_ts // time_qtm_ms | |
d8296fdd BE |
220 | |
221 | # for each quantum that overlaps this histogram record's time interval | |
222 | ||
223 | while qtm_start_ms < time_msec_end: # while quantum overlaps record | |
224 | ||
18c1783a BE |
225 | # some histogram logs may be longer than others |
226 | ||
227 | if len(aligned_intervals) <= qtm_index: | |
228 | break | |
229 | ||
d8296fdd BE |
230 | # calculate fraction of time that this quantum |
231 | # overlaps histogram record's time interval | |
232 | ||
233 | overlap_start = max(qtm_start_ms, time_msec) | |
234 | overlap_end = min(qtm_end_ms, time_msec_end) | |
235 | weight = float(overlap_end - overlap_start) | |
236 | weight /= (time_msec_end - time_msec) | |
237 | (_,aligned_histogram) = aligned_intervals[qtm_index] | |
238 | for bx, b in enumerate(interval_buckets): | |
239 | weighted_bucket = weight * b | |
240 | aligned_histogram[bx] += weighted_bucket | |
241 | ||
242 | # advance to the next time quantum | |
243 | ||
244 | qtm_start_ms += time_qtm_ms | |
245 | qtm_end_ms += time_qtm_ms | |
246 | qtm_index += 1 | |
247 | ||
248 | return aligned_intervals | |
249 | ||
250 | # add histogram in "source" to histogram in "target" | |
251 | # it is assumed that the 2 histograms are precisely time-aligned | |
252 | ||
253 | def add_to_histo_from( target, source ): | |
254 | for b in range(0, len(source)): | |
255 | target[b] += source[b] | |
256 | ||
257 | # compute percentiles | |
258 | # inputs: | |
259 | # buckets: histogram bucket array | |
260 | # wanted: list of floating-pt percentiles to calculate | |
261 | # time_ranges: [tmin,tmax) time interval for each bucket | |
262 | # returns None if no I/O reported. | |
263 | # otherwise we would be dividing by zero | |
264 | # think of buckets as probability distribution function | |
265 | # and this loop is integrating to get cumulative distribution function | |
266 | ||
267 | def get_pctiles(buckets, wanted, time_ranges): | |
268 | ||
269 | # get total of IO requests done | |
270 | total_ios = 0 | |
271 | for io_count in buckets: | |
272 | total_ios += io_count | |
273 | ||
274 | # don't return percentiles if no I/O was done during interval | |
275 | if total_ios == 0.0: | |
276 | return None | |
277 | ||
278 | pctile_count = len(wanted) | |
279 | ||
280 | # results returned as dictionary keyed by percentile | |
281 | pctile_result = {} | |
282 | ||
283 | # index of next percentile in list | |
284 | pctile_index = 0 | |
285 | ||
286 | # next percentile | |
287 | next_pctile = wanted[pctile_index] | |
288 | ||
289 | # no one is interested in percentiles bigger than this but not 100.0 | |
290 | # this prevents floating-point error from preventing loop exit | |
291 | almost_100 = 99.9999 | |
292 | ||
0456267b BE |
293 | # pct is the percentile corresponding to |
294 | # all I/O requests up through bucket b | |
295 | pct = 0.0 | |
d8296fdd BE |
296 | total_so_far = 0 |
297 | for b, io_count in enumerate(buckets): | |
0456267b BE |
298 | if io_count == 0: |
299 | continue | |
d8296fdd | 300 | total_so_far += io_count |
0456267b BE |
301 | # last_pct_lt is the percentile corresponding to |
302 | # all I/O requests up to, but not including, bucket b | |
303 | last_pct = pct | |
304 | pct = 100.0 * float(total_so_far) / total_ios | |
d8296fdd BE |
305 | # a single bucket could satisfy multiple pctiles |
306 | # so this must be a while loop | |
0456267b BE |
307 | # for 100-percentile (max latency) case, no bucket exceeds it |
308 | # so we must stop there. | |
309 | while ((next_pctile == 100.0 and pct >= almost_100) or | |
310 | (next_pctile < 100.0 and pct > next_pctile)): | |
311 | # interpolate between min and max time for bucket time interval | |
312 | # we keep the time_ranges access inside this loop, | |
313 | # even though it could be above the loop, | |
314 | # because in many cases we will not be even entering | |
315 | # the loop so we optimize out these accesses | |
d8296fdd | 316 | range_max_time = time_ranges[b][1] |
0456267b BE |
317 | range_min_time = time_ranges[b][0] |
318 | offset_frac = (next_pctile - last_pct)/(pct - last_pct) | |
319 | interpolation = range_min_time + (offset_frac*(range_max_time - range_min_time)) | |
320 | pctile_result[next_pctile] = interpolation | |
d8296fdd BE |
321 | pctile_index += 1 |
322 | if pctile_index == pctile_count: | |
323 | break | |
324 | next_pctile = wanted[pctile_index] | |
325 | if pctile_index == pctile_count: | |
326 | break | |
327 | assert pctile_index == pctile_count | |
328 | return pctile_result | |
329 | ||
330 | ||
c670cb44 | 331 | # this is really the main program |
d8296fdd | 332 | |
c670cb44 BE |
333 | def compute_percentiles_from_logs(): |
334 | parser = argparse.ArgumentParser() | |
335 | parser.add_argument("--fio-version", dest="fio_version", | |
336 | default="3", choices=[2,3], type=int, | |
337 | help="fio version (default=3)") | |
338 | parser.add_argument("--bucket-groups", dest="bucket_groups", default="29", type=int, | |
339 | help="fio histogram bucket groups (default=29)") | |
340 | parser.add_argument("--bucket-bits", dest="bucket_bits", | |
341 | default="6", type=int, | |
342 | help="fio histogram buckets-per-group bits (default=6 means 64 buckets/group)") | |
343 | parser.add_argument("--percentiles", dest="pctiles_wanted", | |
4b34a0eb | 344 | default=[ 0., 50., 95., 99., 100.], type=float, nargs='+', |
c670cb44 BE |
345 | help="fio histogram buckets-per-group bits (default=6 means 64 buckets/group)") |
346 | parser.add_argument("--time-quantum", dest="time_quantum", | |
347 | default="1", type=int, | |
348 | help="time quantum in seconds (default=1)") | |
18c1783a BE |
349 | parser.add_argument("--log-hist-msec", dest="log_hist_msec", |
350 | type=int, default=None, | |
351 | help="log_hist_msec value in fio job file") | |
c670cb44 BE |
352 | parser.add_argument("--output-unit", dest="output_unit", |
353 | default="usec", type=str, | |
354 | help="Latency percentile output unit: msec|usec|nsec (default usec)") | |
4b34a0eb BE |
355 | parser.add_argument("file_list", nargs='+', |
356 | help='list of files, preceded by " -- " if necessary') | |
c670cb44 | 357 | args = parser.parse_args() |
c670cb44 | 358 | |
4b34a0eb BE |
359 | # default changes based on fio version |
360 | if args.fio_version == 2: | |
361 | args.bucket_groups = 19 | |
d8296fdd | 362 | |
c670cb44 | 363 | # print parameters |
d8296fdd | 364 | |
4b34a0eb | 365 | print('fio version = %d' % args.fio_version) |
c670cb44 BE |
366 | print('bucket groups = %d' % args.bucket_groups) |
367 | print('bucket bits = %d' % args.bucket_bits) | |
368 | print('time quantum = %d sec' % args.time_quantum) | |
369 | print('percentiles = %s' % ','.join([ str(p) for p in args.pctiles_wanted ])) | |
370 | buckets_per_group = 1 << args.bucket_bits | |
d8296fdd | 371 | print('buckets per group = %d' % buckets_per_group) |
c670cb44 | 372 | buckets_per_interval = buckets_per_group * args.bucket_groups |
d8296fdd BE |
373 | print('buckets per interval = %d ' % buckets_per_interval) |
374 | bucket_index_range = range(0, buckets_per_interval) | |
18c1783a BE |
375 | if args.log_hist_msec != None: |
376 | print('log_hist_msec = %d' % args.log_hist_msec) | |
c670cb44 BE |
377 | if args.time_quantum == 0: |
378 | print('ERROR: time-quantum must be a positive number of seconds') | |
379 | print('output unit = ' + args.output_unit) | |
380 | if args.output_unit == 'msec': | |
18c1783a | 381 | time_divisor = float(msec_per_sec) |
c670cb44 | 382 | elif args.output_unit == 'usec': |
d8296fdd BE |
383 | time_divisor = 1.0 |
384 | ||
d8296fdd BE |
385 | # construct template for each histogram bucket array with buckets all zeroes |
386 | # we just copy this for each new histogram | |
387 | ||
388 | zeroed_buckets = [ 0.0 for r in bucket_index_range ] | |
389 | ||
18c1783a | 390 | # calculate response time interval associated with each histogram bucket |
d8296fdd | 391 | |
18c1783a | 392 | bucket_times = time_ranges(args.bucket_groups, buckets_per_group, fio_version=args.fio_version) |
d8296fdd BE |
393 | |
394 | # parse the histogram logs | |
395 | # assumption: each bucket has a monotonically increasing time | |
396 | # assumption: time ranges do not overlap for a single thread's records | |
397 | # (exception: if randrw workload, then there is a read and a write | |
398 | # record for the same time interval) | |
399 | ||
18c1783a BE |
400 | test_start_time = 0 |
401 | test_end_time = 1.0e18 | |
d8296fdd | 402 | hist_files = {} |
c670cb44 | 403 | for fn in args.file_list: |
d8296fdd | 404 | try: |
18c1783a | 405 | (hist_files[fn], log_start_time, log_end_time) = parse_hist_file(fn, buckets_per_interval, args.log_hist_msec) |
d8296fdd | 406 | except FioHistoLogExc as e: |
c670cb44 | 407 | myabort(str(e)) |
18c1783a BE |
408 | # we consider the test started when all threads have started logging |
409 | test_start_time = max(test_start_time, log_start_time) | |
410 | # we consider the test over when one of the logs has ended | |
411 | test_end_time = min(test_end_time, log_end_time) | |
412 | ||
413 | if test_start_time >= test_end_time: | |
414 | raise FioHistoLogExc('no time interval when all threads logs overlapped') | |
415 | if test_start_time > 0: | |
416 | print('all threads running as of unix epoch time %d = %s' % ( | |
417 | test_start_time/float(msec_per_sec), | |
418 | time.ctime(test_start_time/1000.0))) | |
419 | ||
420 | (end_time, time_interval_count) = get_time_intervals(args.time_quantum, test_start_time, test_end_time) | |
c670cb44 | 421 | all_threads_histograms = [ ((j*args.time_quantum*msec_per_sec), deepcopy(zeroed_buckets)) |
18c1783a | 422 | for j in range(0, time_interval_count) ] |
d8296fdd BE |
423 | |
424 | for logfn in hist_files.keys(): | |
425 | aligned_per_thread = align_histo_log(hist_files[logfn], | |
c670cb44 | 426 | args.time_quantum, |
d8296fdd | 427 | buckets_per_interval, |
18c1783a BE |
428 | test_start_time, |
429 | test_end_time) | |
d8296fdd BE |
430 | for t in range(0, time_interval_count): |
431 | (_, all_threads_histo_t) = all_threads_histograms[t] | |
432 | (_, log_histo_t) = aligned_per_thread[t] | |
d8296fdd BE |
433 | add_to_histo_from( all_threads_histo_t, log_histo_t ) |
434 | ||
c670cb44 | 435 | # calculate percentiles across aggregate histogram for all threads |
18c1783a BE |
436 | # print CSV header just like fiologparser_hist does |
437 | ||
438 | header = 'msec-since-start, ' | |
439 | for p in args.pctiles_wanted: | |
440 | header += '%3.1f, ' % p | |
441 | print('time (millisec), percentiles in increasing order with values in ' + args.output_unit) | |
442 | print(header) | |
c670cb44 | 443 | |
d8296fdd | 444 | for (t_msec, all_threads_histo_t) in all_threads_histograms: |
18c1783a | 445 | record = '%8d, ' % t_msec |
c670cb44 | 446 | pct = get_pctiles(all_threads_histo_t, args.pctiles_wanted, bucket_times) |
d8296fdd | 447 | if not pct: |
c670cb44 | 448 | for w in args.pctiles_wanted: |
d8296fdd BE |
449 | record += ', ' |
450 | else: | |
451 | pct_keys = [ k for k in pct.keys() ] | |
452 | pct_values = [ str(pct[wanted]/time_divisor) for wanted in sorted(pct_keys) ] | |
453 | record += ', '.join(pct_values) | |
454 | print(record) | |
455 | ||
456 | ||
457 | ||
458 | #end of MAIN PROGRAM | |
459 | ||
460 | ||
461 | ||
462 | ##### below are unit tests ############## | |
463 | ||
464 | import tempfile, shutil | |
465 | from os.path import join | |
466 | should_not_get_here = False | |
467 | ||
468 | class Test(unittest2.TestCase): | |
469 | tempdir = None | |
470 | ||
471 | # a little less typing please | |
472 | def A(self, boolean_val): | |
473 | self.assertTrue(boolean_val) | |
474 | ||
475 | # initialize unit test environment | |
476 | ||
477 | @classmethod | |
478 | def setUpClass(cls): | |
479 | d = tempfile.mkdtemp() | |
480 | Test.tempdir = d | |
481 | ||
482 | # remove anything left by unit test environment | |
483 | # unless user sets UNITTEST_LEAVE_FILES environment variable | |
484 | ||
485 | @classmethod | |
486 | def tearDownClass(cls): | |
487 | if not os.getenv("UNITTEST_LEAVE_FILES"): | |
488 | shutil.rmtree(cls.tempdir) | |
489 | ||
490 | def setUp(self): | |
491 | self.fn = join(Test.tempdir, self.id()) | |
492 | ||
493 | def test_a_add_histos(self): | |
494 | a = [ 1.0, 2.0 ] | |
495 | b = [ 1.5, 2.5 ] | |
496 | add_to_histo_from( a, b ) | |
497 | self.A(a == [2.5, 4.5]) | |
498 | self.A(b == [1.5, 2.5]) | |
499 | ||
500 | def test_b1_parse_log(self): | |
501 | with open(self.fn, 'w') as f: | |
502 | f.write('1234, 0, 4096, 1, 2, 3, 4\n') | |
503 | f.write('5678,1,16384,5,6,7,8 \n') | |
18c1783a BE |
504 | (raw_histo_log, min_timestamp, max_timestamp) = parse_hist_file(self.fn, 4, None) # 4 buckets per interval |
505 | # if not log_unix_epoch=1, then min_timestamp will always be set to zero | |
506 | self.A(len(raw_histo_log) == 2 and min_timestamp == 0 and max_timestamp == 5678) | |
d8296fdd BE |
507 | (time_ms, direction, bsz, histo) = raw_histo_log[0] |
508 | self.A(time_ms == 1234 and direction == 0 and bsz == 4096 and histo == [ 1, 2, 3, 4 ]) | |
509 | (time_ms, direction, bsz, histo) = raw_histo_log[1] | |
510 | self.A(time_ms == 5678 and direction == 1 and bsz == 16384 and histo == [ 5, 6, 7, 8 ]) | |
511 | ||
512 | def test_b2_parse_empty_log(self): | |
513 | with open(self.fn, 'w') as f: | |
514 | pass | |
515 | try: | |
18c1783a | 516 | (raw_histo_log, _, _) = parse_hist_file(self.fn, 4, None) |
d8296fdd BE |
517 | self.A(should_not_get_here) |
518 | except FioHistoLogExc as e: | |
519 | self.A(str(e).startswith('no records')) | |
520 | ||
521 | def test_b3_parse_empty_records(self): | |
522 | with open(self.fn, 'w') as f: | |
523 | f.write('\n') | |
524 | f.write('1234, 0, 4096, 1, 2, 3, 4\n') | |
525 | f.write('5678,1,16384,5,6,7,8 \n') | |
526 | f.write('\n') | |
18c1783a | 527 | (raw_histo_log, _, max_timestamp_ms) = parse_hist_file(self.fn, 4, None) |
d8296fdd BE |
528 | self.A(len(raw_histo_log) == 2 and max_timestamp_ms == 5678) |
529 | (time_ms, direction, bsz, histo) = raw_histo_log[0] | |
530 | self.A(time_ms == 1234 and direction == 0 and bsz == 4096 and histo == [ 1, 2, 3, 4 ]) | |
531 | (time_ms, direction, bsz, histo) = raw_histo_log[1] | |
532 | self.A(time_ms == 5678 and direction == 1 and bsz == 16384 and histo == [ 5, 6, 7, 8 ]) | |
533 | ||
534 | def test_b4_parse_non_int(self): | |
535 | with open(self.fn, 'w') as f: | |
536 | f.write('12, 0, 4096, 1a, 2, 3, 4\n') | |
537 | try: | |
18c1783a | 538 | (raw_histo_log, _, _) = parse_hist_file(self.fn, 4, None) |
d8296fdd BE |
539 | self.A(False) |
540 | except FioHistoLogExc as e: | |
541 | self.A(str(e).startswith('non-integer')) | |
542 | ||
543 | def test_b5_parse_neg_int(self): | |
544 | with open(self.fn, 'w') as f: | |
545 | f.write('-12, 0, 4096, 1, 2, 3, 4\n') | |
546 | try: | |
18c1783a | 547 | (raw_histo_log, _, _) = parse_hist_file(self.fn, 4, None) |
d8296fdd BE |
548 | self.A(False) |
549 | except FioHistoLogExc as e: | |
550 | self.A(str(e).startswith('negative integer')) | |
551 | ||
552 | def test_b6_parse_too_few_int(self): | |
553 | with open(self.fn, 'w') as f: | |
554 | f.write('0, 0\n') | |
555 | try: | |
18c1783a | 556 | (raw_histo_log, _, _) = parse_hist_file(self.fn, 4, None) |
d8296fdd BE |
557 | self.A(False) |
558 | except FioHistoLogExc as e: | |
559 | self.A(str(e).startswith('too few numbers')) | |
560 | ||
561 | def test_b7_parse_invalid_direction(self): | |
562 | with open(self.fn, 'w') as f: | |
563 | f.write('100, 2, 4096, 1, 2, 3, 4\n') | |
564 | try: | |
18c1783a | 565 | (raw_histo_log, _, _) = parse_hist_file(self.fn, 4, None) |
d8296fdd BE |
566 | self.A(False) |
567 | except FioHistoLogExc as e: | |
568 | self.A(str(e).startswith('invalid I/O direction')) | |
569 | ||
570 | def test_b8_parse_bsz_too_big(self): | |
571 | with open(self.fn+'_good', 'w') as f: | |
572 | f.write('100, 1, %d, 1, 2, 3, 4\n' % (1<<24)) | |
18c1783a | 573 | (raw_histo_log, _, _) = parse_hist_file(self.fn+'_good', 4, None) |
d8296fdd BE |
574 | with open(self.fn+'_bad', 'w') as f: |
575 | f.write('100, 1, 20000000, 1, 2, 3, 4\n') | |
576 | try: | |
18c1783a | 577 | (raw_histo_log, _, _) = parse_hist_file(self.fn+'_bad', 4, None) |
d8296fdd BE |
578 | self.A(False) |
579 | except FioHistoLogExc as e: | |
580 | self.A(str(e).startswith('block size too large')) | |
581 | ||
582 | def test_b9_parse_wrong_bucket_count(self): | |
583 | with open(self.fn, 'w') as f: | |
584 | f.write('100, 1, %d, 1, 2, 3, 4, 5\n' % (1<<24)) | |
585 | try: | |
18c1783a | 586 | (raw_histo_log, _, _) = parse_hist_file(self.fn, 4, None) |
d8296fdd BE |
587 | self.A(False) |
588 | except FioHistoLogExc as e: | |
589 | self.A(str(e).__contains__('buckets per interval')) | |
590 | ||
591 | def test_c1_time_ranges(self): | |
592 | ranges = time_ranges(3, 2) # fio_version defaults to 3 | |
593 | expected_ranges = [ # fio_version 3 is in nanoseconds | |
594 | [0.000, 0.001], [0.001, 0.002], # first group | |
595 | [0.002, 0.003], [0.003, 0.004], # second group same width | |
596 | [0.004, 0.006], [0.006, 0.008]] # subsequent groups double width | |
597 | self.A(ranges == expected_ranges) | |
598 | ranges = time_ranges(3, 2, fio_version=3) | |
599 | self.A(ranges == expected_ranges) | |
600 | ranges = time_ranges(3, 2, fio_version=2) | |
601 | expected_ranges_v2 = [ [ 1000.0 * min_or_max for min_or_max in time_range ] | |
602 | for time_range in expected_ranges ] | |
603 | self.A(ranges == expected_ranges_v2) | |
604 | # see fio V3 stat.h for why 29 groups and 2^6 buckets/group | |
605 | normal_ranges_v3 = time_ranges(29, 64) | |
606 | # for v3, bucket time intervals are measured in nanoseconds | |
607 | self.A(len(normal_ranges_v3) == 29 * 64 and normal_ranges_v3[-1][1] == 64*(1<<(29-1))/1000.0) | |
608 | normal_ranges_v2 = time_ranges(19, 64, fio_version=2) | |
609 | # for v2, bucket time intervals are measured in microseconds so we have fewer buckets | |
610 | self.A(len(normal_ranges_v2) == 19 * 64 and normal_ranges_v2[-1][1] == 64*(1<<(19-1))) | |
611 | ||
612 | def test_d1_align_histo_log_1_quantum(self): | |
613 | with open(self.fn, 'w') as f: | |
614 | f.write('100, 1, 4096, 1, 2, 3, 4') | |
18c1783a BE |
615 | (raw_histo_log, min_timestamp_ms, max_timestamp_ms) = parse_hist_file(self.fn, 4, None) |
616 | self.A(min_timestamp_ms == 0 and max_timestamp_ms == 100) | |
617 | aligned_log = align_histo_log(raw_histo_log, 5, 4, min_timestamp_ms, max_timestamp_ms) | |
618 | self.A(len(aligned_log) == 1) | |
619 | (time_ms0, h) = aligned_log[0] | |
620 | self.A(time_ms0 == 0 and h == [1., 2., 3., 4.]) | |
621 | ||
622 | # handle case with log_unix_epoch=1 timestamps, 1-second time quantum | |
623 | # here both records will be separated into 2 aligned intervals | |
624 | ||
625 | def test_d1a_align_2rec_histo_log_epoch_1_quantum_1sec(self): | |
626 | with open(self.fn, 'w') as f: | |
627 | f.write('1536504002123, 1, 4096, 1, 2, 3, 4\n') | |
628 | f.write('1536504003123, 1, 4096, 4, 3, 2, 1\n') | |
629 | (raw_histo_log, min_timestamp_ms, max_timestamp_ms) = parse_hist_file(self.fn, 4, None) | |
630 | self.A(min_timestamp_ms == 1536504001123 and max_timestamp_ms == 1536504003123) | |
631 | aligned_log = align_histo_log(raw_histo_log, 1, 4, min_timestamp_ms, max_timestamp_ms) | |
632 | self.A(len(aligned_log) == 3) | |
633 | (time_ms0, h) = aligned_log[0] | |
634 | self.A(time_ms0 == 1536504001123 and h == [0., 0., 0., 0.]) | |
635 | (time_ms1, h) = aligned_log[1] | |
636 | self.A(time_ms1 == 1536504002123 and h == [1., 2., 3., 4.]) | |
637 | (time_ms2, h) = aligned_log[2] | |
638 | self.A(time_ms2 == 1536504003123 and h == [4., 3., 2., 1.]) | |
639 | ||
640 | # handle case with log_unix_epoch=1 timestamps, 5-second time quantum | |
641 | # here both records will be merged into a single aligned time interval | |
642 | ||
643 | def test_d1b_align_2rec_histo_log_epoch_1_quantum_5sec(self): | |
644 | with open(self.fn, 'w') as f: | |
645 | f.write('1536504002123, 1, 4096, 1, 2, 3, 4\n') | |
646 | f.write('1536504003123, 1, 4096, 4, 3, 2, 1\n') | |
647 | (raw_histo_log, min_timestamp_ms, max_timestamp_ms) = parse_hist_file(self.fn, 4, None) | |
648 | self.A(min_timestamp_ms == 1536504001123 and max_timestamp_ms == 1536504003123) | |
649 | aligned_log = align_histo_log(raw_histo_log, 5, 4, min_timestamp_ms, max_timestamp_ms) | |
d8296fdd BE |
650 | self.A(len(aligned_log) == 1) |
651 | (time_ms0, h) = aligned_log[0] | |
18c1783a | 652 | self.A(time_ms0 == 1536504001123 and h == [5., 5., 5., 5.]) |
d8296fdd BE |
653 | |
654 | # we need this to compare 2 lists of floating point numbers for equality | |
655 | # because of floating-point imprecision | |
656 | ||
657 | def compare_2_floats(self, x, y): | |
658 | if x == 0.0 or y == 0.0: | |
659 | return (x+y) < 0.0000001 | |
660 | else: | |
661 | return (math.fabs(x-y)/x) < 0.00001 | |
662 | ||
663 | def is_close(self, buckets, buckets_expected): | |
664 | if len(buckets) != len(buckets_expected): | |
665 | return False | |
666 | compare_buckets = lambda k: self.compare_2_floats(buckets[k], buckets_expected[k]) | |
667 | indices_close = list(filter(compare_buckets, range(0, len(buckets)))) | |
668 | return len(indices_close) == len(buckets) | |
669 | ||
670 | def test_d2_align_histo_log_2_quantum(self): | |
671 | with open(self.fn, 'w') as f: | |
672 | f.write('2000, 1, 4096, 1, 2, 3, 4\n') | |
673 | f.write('7000, 1, 4096, 1, 2, 3, 4\n') | |
18c1783a BE |
674 | (raw_histo_log, min_timestamp_ms, max_timestamp_ms) = parse_hist_file(self.fn, 4, None) |
675 | self.A(min_timestamp_ms == 0 and max_timestamp_ms == 7000) | |
d8296fdd BE |
676 | (_, _, _, raw_buckets1) = raw_histo_log[0] |
677 | (_, _, _, raw_buckets2) = raw_histo_log[1] | |
18c1783a | 678 | aligned_log = align_histo_log(raw_histo_log, 5, 4, min_timestamp_ms, max_timestamp_ms) |
d8296fdd BE |
679 | self.A(len(aligned_log) == 2) |
680 | (time_ms1, h1) = aligned_log[0] | |
681 | (time_ms2, h2) = aligned_log[1] | |
682 | # because first record is from time interval [2000, 7000] | |
683 | # we weight it according | |
684 | expect1 = [float(b) * 0.6 for b in raw_buckets1] | |
685 | expect2 = [float(b) * 0.4 for b in raw_buckets1] | |
686 | for e in range(0, len(expect2)): | |
687 | expect2[e] += raw_buckets2[e] | |
688 | self.A(time_ms1 == 0 and self.is_close(h1, expect1)) | |
689 | self.A(time_ms2 == 5000 and self.is_close(h2, expect2)) | |
690 | ||
0456267b BE |
691 | # what to expect if histogram buckets are all equal |
692 | def test_e1_get_pctiles_flat_histo(self): | |
d8296fdd BE |
693 | with open(self.fn, 'w') as f: |
694 | buckets = [ 100 for j in range(0, 128) ] | |
695 | f.write('9000, 1, 4096, %s\n' % ', '.join([str(b) for b in buckets])) | |
18c1783a BE |
696 | (raw_histo_log, min_timestamp_ms, max_timestamp_ms) = parse_hist_file(self.fn, 128, None) |
697 | self.A(min_timestamp_ms == 0 and max_timestamp_ms == 9000) | |
698 | aligned_log = align_histo_log(raw_histo_log, 5, 128, min_timestamp_ms, max_timestamp_ms) | |
d8296fdd BE |
699 | time_intervals = time_ranges(4, 32) |
700 | # since buckets are all equal, then median is halfway through time_intervals | |
701 | # and max latency interval is at end of time_intervals | |
702 | self.A(time_intervals[64][1] == 0.066 and time_intervals[127][1] == 0.256) | |
703 | pctiles_wanted = [ 0, 50, 100 ] | |
704 | pct_vs_time = [] | |
705 | for (time_ms, histo) in aligned_log: | |
706 | pct_vs_time.append(get_pctiles(histo, pctiles_wanted, time_intervals)) | |
707 | self.A(pct_vs_time[0] == None) # no I/O in this time interval | |
0456267b | 708 | expected_pctiles = { 0:0.000, 50:0.064, 100:0.256 } |
d8296fdd BE |
709 | self.A(pct_vs_time[1] == expected_pctiles) |
710 | ||
0456267b BE |
711 | # what to expect if just the highest histogram bucket is used |
712 | def test_e2_get_pctiles_highest_pct(self): | |
713 | fio_v3_bucket_count = 29 * 64 | |
714 | with open(self.fn, 'w') as f: | |
715 | # make a empty fio v3 histogram | |
716 | buckets = [ 0 for j in range(0, fio_v3_bucket_count) ] | |
717 | # add one I/O request to last bucket | |
718 | buckets[-1] = 1 | |
719 | f.write('9000, 1, 4096, %s\n' % ', '.join([str(b) for b in buckets])) | |
18c1783a BE |
720 | (raw_histo_log, min_timestamp_ms, max_timestamp_ms) = parse_hist_file(self.fn, fio_v3_bucket_count, None) |
721 | self.A(min_timestamp_ms == 0 and max_timestamp_ms == 9000) | |
722 | aligned_log = align_histo_log(raw_histo_log, 5, fio_v3_bucket_count, min_timestamp_ms, max_timestamp_ms) | |
0456267b BE |
723 | (time_ms, histo) = aligned_log[1] |
724 | time_intervals = time_ranges(29, 64) | |
725 | expected_pctiles = { 100.0:(64*(1<<28))/1000.0 } | |
726 | pct = get_pctiles( histo, [ 100.0 ], time_intervals ) | |
727 | self.A(pct == expected_pctiles) | |
728 | ||
d8296fdd BE |
729 | # we are using this module as a standalone program |
730 | ||
731 | if __name__ == '__main__': | |
732 | if os.getenv('UNITTEST'): | |
733 | sys.exit(unittest2.main()) | |
734 | else: | |
735 | compute_percentiles_from_logs() | |
736 |