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#!/usr/bin/env python
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# Copyright 2015, Google Inc.
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# All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions are
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# met:
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#
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# * Redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer.
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# * Redistributions in binary form must reproduce the above
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# copyright notice, this list of conditions and the following disclaimer
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# in the documentation and/or other materials provided with the
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# distribution.
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# * Neither the name of Google Inc. nor the names of its
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# contributors may be used to endorse or promote products derived from
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# this software without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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"""
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Read GRPC basic profiles, analyze the data.
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Usage:
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bins/basicprof/qps_smoke_test > log
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cat log | tools/profile_analyzer/profile_analyzer.py
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"""
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import collections
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import itertools
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import math
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import re
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# Create a regex to parse output of the C core basic profiler,
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# as defined in src/core/profiling/basic_timers.c.
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_RE_LINE = re.compile(r'GRPC_LAT_PROF ' +
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r'([0-9]+\.[0-9]+) 0x([0-9a-f]+) ([{}.!]) ([0-9]+) ' +
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r'([^ ]+) ([^ ]+) ([0-9]+)')
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Entry = collections.namedtuple(
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'Entry',
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['time', 'thread', 'type', 'tag', 'id', 'file', 'line'])
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class ImportantMark(object):
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def __init__(self, entry, stack):
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self._entry = entry
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self._pre_stack = stack
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self._post_stack = list()
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self._n = len(stack) # we'll also compute times to that many closing }s
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@property
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def entry(self):
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return self._entry
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@property
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def max_depth(self):
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return self._n
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def append_post_entry(self, post_entry):
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if self._n > 0 and post_entry.thread == self._entry.thread:
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self._post_stack.append(post_entry)
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self._n -= 1
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def get_deltas(self):
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pre_and_post_stacks = itertools.chain(self._pre_stack, self._post_stack)
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return collections.OrderedDict((stack_entry,
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abs(self._entry.time - stack_entry.time))
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for stack_entry in pre_and_post_stacks)
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def print_block_statistics(block_times):
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print '{:<12s} {:>12s} {:>12s} {:>12s} {:>12s}'.format(
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'Block tag', '50th p.', '90th p.', '95th p.', '99th p.')
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for tag, tag_times in sorted(block_times.iteritems()):
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times = sorted(tag_times)
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print '{:<12d}: {:>12.3f} {:>12.3f} {:>12.3f} {:>12.3f}'.format(
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tag, percentile(times, 50), percentile(times, 90),
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percentile(times, 95), percentile(times, 99))
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print
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def print_grouped_imark_statistics(group_key, imarks_group):
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values = collections.OrderedDict()
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for imark in imarks_group:
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deltas = imark.get_deltas()
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for relative_entry, time_delta_us in deltas.iteritems():
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key = '{tag} {type} ({file}:{line})'.format(**relative_entry._asdict())
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l = values.setdefault(key, list())
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l.append(time_delta_us)
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print group_key
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print '{:<50s} {:>12s} {:>12s} {:>12s} {:>12s}'.format(
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'Relative mark', '50th p.', '90th p.', '95th p.', '99th p.')
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for key, time_values in values.iteritems():
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time_values = sorted(time_values)
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print '{:<50s}: {:>12.3f} {:>12.3f} {:>12.3f} {:>12.3f}'.format(
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key, percentile(time_values, 50), percentile(time_values, 90),
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percentile(time_values, 95), percentile(time_values, 99))
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print
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def percentile(vals, percent):
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""" Calculates the interpolated percentile given a sorted sequence and a
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percent (in the usual 0-100 range)."""
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assert vals, "Empty input sequence."
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percent /= 100.0
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k = (len(vals)-1) * percent
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f = math.floor(k)
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c = math.ceil(k)
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if f == c:
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return vals[int(k)]
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# else, interpolate
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d0 = vals[int(f)] * (c-k)
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d1 = vals[int(c)] * (k-f)
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return d0 + d1
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def entries(f):
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for line in f:
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m = _RE_LINE.match(line)
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if not m: continue
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yield Entry(time=float(m.group(1)),
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thread=m.group(2),
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type=m.group(3),
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tag=int(m.group(4)),
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id=m.group(5),
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file=m.group(6),
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line=m.group(7))
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def main(f):
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percentiles = (50, 90, 95, 99)
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threads = collections.defaultdict(lambda: collections.defaultdict(list))
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times = collections.defaultdict(list)
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important_marks = collections.defaultdict(list)
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stack_depth = collections.defaultdict(int)
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for entry in entries(f):
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thread = threads[entry.thread]
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if entry.type == '{':
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thread[entry.tag].append(entry)
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stack_depth[entry.thread] += 1
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if entry.type == '!':
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# Save a snapshot of the current stack inside a new ImportantMark instance.
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# Get all entries _for any tag in the thread_.
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stack = [e for entries_for_tag in thread.itervalues()
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for e in entries_for_tag]
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imark_group_key = '{tag}/{thread}@{file}:{line}'.format(**entry._asdict())
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important_marks[imark_group_key].append(ImportantMark(entry, stack))
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elif entry.type == '}':
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last = thread[entry.tag].pop()
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times[entry.tag].append(entry.time - last.time)
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# only access the last "depth" imarks for the tag.
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depth = stack_depth[entry.thread]
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for imarks_group in important_marks.itervalues():
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for imark in imarks_group[-depth:]:
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# if at a '}' deeper than where the current "imark" was found, ignore.
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if depth > imark.max_depth: continue
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imark.append_post_entry(entry)
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stack_depth[entry.thread] -= 1
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print
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print 'Block marks:'
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print '============'
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print_block_statistics(times)
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print
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print 'Important marks:'
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print '================'
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for group_key, imarks_group in important_marks.iteritems():
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print_grouped_imark_statistics(group_key, imarks_group)
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if __name__ == '__main__':
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# If invoked without arguments, read off sys.stdin. If one argument is given,
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# take it as a file name and open it for reading.
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import sys
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f = sys.stdin
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if len(sys.argv) == 2:
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f = open(sys.argv[1], 'r')
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main(f)
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