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#!/usr/bin/env python
#
# Copyright (C) 2016 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
"""Analyze block trace"""
import collections
import os
import re
import string
import sys
RE_BLOCK = r'.+\s+(block[a-z_]+):\s+'
RE_BLOCK_BIO_QUEUE = r'.+\s+([0-9]+\.[0-9]+):\s+block_bio_queue:\s+([0-9]+)\,([0-9]+)\s+([RW]\S*)\s+([0-9]+)\s+\+\s+([0-9]+)\s+\[([^\]]+)'
# dev_num = major * MULTIPLIER + minor
DEV_MAJOR_MULTIPLIER = 1000
# dm access is remapped to disk access. So account differently
DM_MAJOR = 253
class RwEvent:
def __init__(self, block_num, start_time, size):
self.block_num = block_num
self.start_time = start_time
self.size = size
self.latency = 0
def set_latency(self, latency):
self.latency = latency
def get_string_pos(strings, string_to_find):
for i, s in enumerate(strings):
if s == string_to_find:
return i
return -1
class Trace:
def __init__(self, process):
self.process = process
self.reads = [] #(start time, RwEvent)
self.writes = [] #(start time, RwEvent)
self.recent_reads = {} # K:
self.total_latency = 0
self.total_reads = 0
self.total_writes = 0
self.total_dm_reads = {} #K: devnum, V: blocks
self.total_dm_writes = {}
self.re_block_queue = re.compile(RE_BLOCK_BIO_QUEUE)
self.processes = set()
if process[-1] == '*':
print "Process name starts with", process[:-1]
self.process_name_is_prefix = True
else:
print "Process name", process
self.process_name_is_prefix = False
def parse_bio_queue(self, l):
match = self.re_block_queue.match(l)
if not match:
return
start_time = int(float(match.group(1))*1000000) #us
major = int(match.group(2))
minor = int(match.group(3))
operation = match.group(4)
block_num = int(match.group(5))
size = int(match.group(6))
process = match.group(7)
if self.process_name_is_prefix:
if not process.startswith(self.process[:-1]):
return
self.processes.add(process)
else:
if process != self.process:
return
if major == DM_MAJOR:
devNum = major * DEV_MAJOR_MULTIPLIER + minor;
if operation[0] == 'R':
if devNum not in self.total_dm_reads:
self.total_dm_reads[devNum] = 0
self.total_dm_reads[devNum] += size
elif operation[0] == 'W':
if devNum not in self.total_dm_writes:
self.total_dm_writes[devNum] = 0
self.total_dm_writes[devNum] += size
return
event = RwEvent(block_num, start_time, size)
if operation[0] == 'R':
self.reads.append((start_time, event))
self.recent_reads[block_num] = event
self.total_reads += size
elif operation[0] == 'W':
self.writes.append((start_time, event))
self.total_writes += size
def parse_rq_complete(self, l):
words = string.split(l)
cmd_pos = get_string_pos(words, "block_rq_complete:")
if cmd_pos == -1:
cmd_pos = get_string_pos(words, "block_bio_complete:")
block_num = int(words[-4])
event = self.recent_reads.get(block_num)
if not event:
return
operation = words[cmd_pos + 2]
if not operation.startswith("R"):
return
end_time = int(float(words[cmd_pos - 1][:-1])*1000000) #us
latency = end_time - event.start_time
if latency > 20000:
print "very bad latency:", latency, l
print "start time,", event.start_time
event.set_latency(latency)
del self.recent_reads[block_num]
self.total_latency += latency
def parse_block_trace(self, l, match):
try:
cmd = match.group(1)
if cmd == "block_bio_queue":
self.parse_bio_queue(l)
elif cmd == "block_rq_complete" or cmd == "block_bio_complete":
self.parse_rq_complete(l)
except ValueError:
print "cannot parse:", l
raise
def dump(self):
if self.process_name_is_prefix:
print "Processes:", self.processes
print "total read blocks,", self.total_reads
print "total write blocks,", self.total_writes
if len(self.reads) > 0:
total_read_time = self.reads[-1][0] + self.reads[-1][1].latency - self.reads[0][0]
else:
total_read_time = 0
print "Total DM R"
for dev,size in self.total_dm_reads.items():
print dev, size
print "Total DM W"
for dev,size in self.total_dm_writes.items():
print dev, size
print "total read time,",total_read_time
read_size_histogram = {}
latency_per_read_size = {}
for (time, event) in self.reads:
if not read_size_histogram.get(event.size):
read_size_histogram[event.size] = 0
if not latency_per_read_size.get(event.size):
latency_per_read_size[event.size] = [ 0, 0] # num events, total latency
read_size_histogram[event.size] = read_size_histogram[event.size] + 1
latency_sum = latency_per_read_size[event.size]
latency_sum[0] += 1
latency_sum[1] += event.latency
read_size_histogram = collections.OrderedDict(sorted(read_size_histogram.items()))
print "read histogram"
for k,v in read_size_histogram.iteritems():
print k, ',', v
print "latency per read size"
latency_per_read_size = collections.OrderedDict(sorted(latency_per_read_size.items()))
for k,v in latency_per_read_size.iteritems():
if v[0] != 0:
print k, ',', v[1] / v[0], v[0], v[1]
def main(argv):
if (len(argv) < 3):
print "check_io_trace.py processname filename"
return
keyword = argv[1]
filename = argv[2]
trace = Trace(keyword)
prog = re.compile(RE_BLOCK)
with open(filename) as f:
for l in f:
result = prog.match(l)
if result:
trace.parse_block_trace(l, result)
trace.dump()
if __name__ == '__main__':
main(sys.argv)
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