forked from brl/citadel
413 lines
14 KiB
Python
Executable File
413 lines
14 KiB
Python
Executable File
#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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# SPDX-License-Identifier: BSD-3-Clause
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# Copyright (C) 2015 Enea Software AB
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# Author: Thomas Lundström <thomas.lundstrom@enea.com>
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# The script measures interrupt latency together with different types of
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# system load. This is done using the programs cyclictest and stress.
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#
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# The main output is:
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#
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# Best case (min) latency
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# This has very limited value, but is presented since it can be done
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# easily
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#
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# Average latency
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# This value is of interrest for throughput oriented systems. Limited
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# value for a real-time system. Also presented because it is easy to do.
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#
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# Worst case (max) latency
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# This is the interesting number for a real-time system. The number
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# presented is (of cource) the largest number observed. The challenge
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# is to know how the observed worst case relates to the actual worst case.
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#
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# To get an indication of the confidence, the following method is used:
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# 1) Instead of one long run, the measurement is made as a set of shorter
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# runs. The number of runs must be a power of 2 for reasons that will
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# shorlty be obvious
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#
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# 2) First, a list of the max values are created.
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#
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# 3) The smallest value in that list is recorded.
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#
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# 4) Then a new list is create by taking the max value of each pair of
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# values in the original list. In this list the smallest value is
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# recorded.
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#
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# 5) Step 3 is repeated until there is only one value in the list. See
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# example below:
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#
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# Samples:
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# | 44 | | | | |
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# | 77 | 77 | | | |
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# | 118 | | | | |
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# | 119 | 119 | 119 | | |
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# | 138 | | | | |
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# | 57 | 138 | | | |
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# | 175 | | | | |
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# | 130 | 175 | 175 | 175 | |
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# | 54 | | | | |
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# | 150 | 150 | | | |
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# | 47 | | | | |
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# | 59 | 59 | 150 | | |
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# | 199 | | | | |
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# | 115 | 199 | | | |
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# | 177 | | | | |
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# | 129 | 177 | 199 | 199 | 199 |
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#
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# Smallest value:
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# | 44 | 59 | 119 | 175 | 199 |
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#
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# 6) The generated list of smallest values is analyzed. In this case, it
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# can be observed that the values are increasing significantly through
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# the entire list, which leads to the conclusion that the number of
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# samples is too small.
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# If instead the list had been (167, 191, 196, 199, 199), there had
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# been a very small, or no, increase at the end of the list. We might
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# then suspect that the number of samples is probably large enough.
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# There is however no guarantee for that.
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#
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# Steps 1-2 are done in run_cyclictest_suite
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# Steps 3-5 are done in gen_minmax_list.
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# Step 6 needs to be done manually since there is (yet) no well defined
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# FAIL criterion and a theoretically solid PASS criterion may never be
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# available.
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import multiprocessing
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import os
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import re
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import signal
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import subprocess
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import time
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import traceback
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# See comment on the function set_hung_tmo
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has_hung_task_detection = True
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#-------------------------------------------------------------------------------
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class TestFail(Exception):
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def __init__(self, msg):
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self.msg = msg
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def __str__(self):
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return "Test failure: (" + self.msg + ")"
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#-------------------------------------------------------------------------------
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def tc_name(sub_name):
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return "rt_bmark.intlat." + sub_name
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#-------------------------------------------------------------------------------
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# log() does the same job as print except that a '#' is added at the beginning
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# of each line. This causes TEFEL to ignore it
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def log(*msg):
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tmp = "".join(map(str, msg)) # 'map(str, ...' allows numbers
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for line in tmp.splitlines():
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print("#", line)
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#-------------------------------------------------------------------------------
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# Like log(), but with a timestamp added
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def log_ts(*msg):
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ts = time.localtime()
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stamp = "%2d:%02d:%02d: " % (ts.tm_hour, ts.tm_min, ts.tm_sec)
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log(stamp, *msg)
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#-------------------------------------------------------------------------------
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def log_test_header(seq_no, nr_of_tests, name):
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log("=" * 78)
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log()
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log(" Test case (%d/%d): %s" % (seq_no, nr_of_tests, tc_name(name)))
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log()
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log("." * 78)
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log()
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#-------------------------------------------------------------------------------
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def start_stress(*args):
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stress_cmd = [ "stress" ]
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added_stress_types = []
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req_stress_types = set(args)
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cpu_cnt = str(multiprocessing.cpu_count())
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# The function cond_add_stress appends the options to the stress
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# command if the stress type is in the set of requested stress types
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def cond_add_stress(stress_type, options):
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if stress_type in req_stress_types:
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req_stress_types.remove(stress_type)
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added_stress_types.append(stress_type)
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stress_cmd.extend(options)
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#----------
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cond_add_stress("io", ["-i", cpu_cnt])
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cond_add_stress("cpu", ["-c", cpu_cnt])
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cond_add_stress("hdd", ["-d", cpu_cnt, "--hdd-bytes", "20M"])
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cond_add_stress("vm", ["-m", cpu_cnt, "--vm-bytes", "10M"])
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unknown = ", ".join(req_stress_types)
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if unknown != "":
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raise TestFail("Unknown stress type(s): %s" % unknown)
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if not added_stress_types:
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log("No stress requested")
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return None
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added = "+".join(added_stress_types)
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stress_cmd_str = " ".join(stress_cmd)
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log("Starting stress(", added, ")")
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log(" Command: '", stress_cmd_str, "'")
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log()
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# preexec_fn=os.setsid causes stress to be executed in a separate
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# session, => it gets a new process group (incl. children). It
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# can then be terminated using os.killpg in end_stress without
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# terminating this script.
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p = subprocess.Popen(stress_cmd, preexec_fn=os.setsid)
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return p
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#-------------------------------------------------------------------------------
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def end_stress(p):
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if p is None:
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# The value None indicates that no stress scenario was started
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return
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if p.poll() is not None:
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raise TestFail("stress prematurely terminated.")
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os.killpg(os.getpgid(p.pid), signal.SIGTERM)
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log("Terminated stress")
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#-------------------------------------------------------------------------------
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def us2hms_str(us):
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s = (us+500000) // 1000000 # Round microseconds to s
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m = s//60
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s -= 60*m;
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h = m//60
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m -= 60*h
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return "%d:%02d:%02d" % (h, m, s)
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#-------------------------------------------------------------------------------
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# Sometime the hung task supervision is triggered during execution of
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# cyclictest (cyclictest starves stress). To avoid that, the supervision
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# is temporarily disabled
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def set_hung_tmo(new_tmo):
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global has_hung_task_detection
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tmo_file = "/proc/sys/kernel/hung_task_timeout_secs"
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if not has_hung_task_detection:
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return
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if not os.access(tmo_file, os.W_OK):
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log("Hung task detection not supported")
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log(" (File ", tmo_file, " not found)")
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has_hung_task_detection = False
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return
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orig_tmo = int(subprocess.check_output(["cat", tmo_file]).strip())
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if new_tmo != orig_tmo:
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cmd = ( "echo " + str(new_tmo) + " > " + tmo_file )
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subprocess.check_output(cmd, shell=True)
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log("Changed timeout for detection of hung tasks: ",
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orig_tmo, " -> ", new_tmo)
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return orig_tmo
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#-------------------------------------------------------------------------------
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def gen_minmax_list(max_list):
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res = [min(max_list)]
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while True:
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tmp = max_list
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max_list = []
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while tmp:
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max_list.append(max(tmp.pop(0), tmp.pop(0)))
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res.append(min(max_list))
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if len(max_list) < 2:
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return res
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#-------------------------------------------------------------------------------
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# Parameters for cyclictest:
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#
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# On the -S option (from cyclictest.c):
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# -S implies options -a -t -n and same priority of all threads
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# -a: One thread per core
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# -n: use clock_nanosleep instead of posix interval timers
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# -t: (without argument) Set number of threads to the number
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# of cpus
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interval_core_0 = 100 # Timer interval on core 0 [us]
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interval_delta = 20 # Interval increment for each core [us]
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loop_count = 30000 # Number of loops (on core 0).
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cmd = ("cyclictest",
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"-S", # Standard SMP testing. See below
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"-p", "99", # RT priority 99
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"-q", # Quiet mode, i.e. print only a summary
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"-i", str(interval_core_0),
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"-d", str(interval_delta),
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"-l", str(loop_count)
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)
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rex = re.compile(b"C:\s*(\d+).*Min:\s*(\d+).*Avg:\s*(\d+).*Max:\s*(\d+)")
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def run_cyclictest_once():
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res = subprocess.check_output(cmd)
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# minlist and maxlist are lists with the extremes for each core
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# avg_cnt is the sum of cycles for all cores
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# avg_sum is the sum of (cycle count*average) for each core
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# Since cyclictest runs different number of cycles on
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# different cores, avg_sum/avg_cnt gives a more accurate
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# value of the overall average than just taking the average
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# of each core's averages
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minlist = []
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maxlist = []
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avg_sum = 0
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avg_cnt = 0
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for line in res.splitlines():
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m = rex.search(line)
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if m is not None:
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minlist.append(int(m.group(2)))
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maxlist.append(int(m.group(4)))
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n = int(m.group(1))
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avg_sum += n * int(m.group(3))
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avg_cnt += n
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return min(minlist), [avg_sum, avg_cnt], max(maxlist)
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#-------------------------------------------------------------------------------
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# A precondition for the tracking of min-max values is that
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# the suite size os a power of 2.
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N = 5
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suite_size = 2**N
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est_exec_time_once = interval_core_0 * loop_count
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est_exec_time_suite = suite_size * est_exec_time_once
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def run_cyclictest_suite():
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log("Starting cyclictest")
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log(" Command : ", " ".join(cmd))
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log(" Number of cycles : ", loop_count*suite_size,
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" (", suite_size, " sets of ", loop_count, " cycles)")
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log(" Exec. time (est) : ", us2hms_str(est_exec_time_suite))
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log()
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orig_tmo = set_hung_tmo(0) # 0 => Disable
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# float('inf') emulates infinity. At least in the sense that it is
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# guaranteed to be larger than any actual number.
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ack_min = float('inf')
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ack_avg = [0, 0]
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log()
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log_ts("Start of execution")
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t = time.time()
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max_list = []
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for i in range(0, suite_size):
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tmp_min, tmp_avg, tmp_max = run_cyclictest_once()
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msg = "%2d/%2d:" % (i+1, suite_size)
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msg += " min: %4d" % tmp_min
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msg += " avg: %5.1f" % (float(tmp_avg[0])/tmp_avg[1])
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msg += " max: %4d" % tmp_max
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log_ts(msg)
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# Track minimum value
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if tmp_min < ack_min:
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ack_min = tmp_min
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# Track smallest max value
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max_list.append(tmp_max)
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ack_avg[0] += tmp_avg[0]
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ack_avg[1] += tmp_avg[1]
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t = time.time()-t
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log_ts("Cyclictest completed. Actual execution time:",
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us2hms_str(t*1000000))
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log()
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set_hung_tmo(orig_tmo)
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return ack_min, float(ack_avg[0])/ack_avg[1], gen_minmax_list(max_list)
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#-------------------------------------------------------------------------------
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class cyclictest_runner:
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def run_test(self, seq_no, nr_of_tests, name, stressparams):
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try:
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log_test_header(seq_no, nr_of_tests, name)
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p = start_stress(*stressparams)
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bm_min, bm_avg, bm_max_list = run_cyclictest_suite()
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end_stress(p)
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bm_max = bm_max_list[-1]
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log()
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log("Min: %d us" % bm_min)
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log("Avg: %.1f us" % bm_avg)
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log("Max: %d us" % bm_max)
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log()
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log("Max list: ", bm_max_list)
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log()
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log("PASS")
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print()
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print(tc_name(name), "[Min/us,Avg/us,Max/us]:",)
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print("%d,%.1f,%d" % (bm_min,bm_avg, bm_max))
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print("PASS:", tc_name(name))
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print()
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except Exception:
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log()
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log("Exception!")
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log()
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log("Traceback:", traceback.format_exc())
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log()
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log("WD: ", os.getcwd())
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log()
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log("FAIL")
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print()
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print("FAIL:", tc_name(name))
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print()
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#-------------------------------------------------------------------------------
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runner = cyclictest_runner()
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tests = (("no_stress", []),
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("cpu", ["cpu"]),
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("hdd", ["hdd"]),
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("io", ["io"]),
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("vm", ["vm"]),
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("full", ["io", "cpu", "hdd", "vm"]),
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)
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nr_of_tests = len(tests)
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for seq_no, params in enumerate(tests, start=1):
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runner.run_test(seq_no, nr_of_tests, *params)
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