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test.py
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test.py
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#! /usr/bin/env python
## -*- Mode: python; py-indent-offset: 4; indent-tabs-mode: nil; coding: utf-8; -*-
#
# Copyright (c) 2009 University of Washington
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 as
# published by the Free Software Foundation;
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
import os
import sys
import time
import optparse
import subprocess
import threading
import Queue
import signal
import xml.dom.minidom
import shutil
import re
#
# XXX This should really be part of a waf command to list the configuration
# items relative to optional ns-3 pieces.
#
# A list of interesting configuration items in the waf configuration
# cache which we may be interested in when deciding on which examples
# to run and how to run them. These are set by waf during the
# configuration phase and the corresponding assignments are usually
# found in the associated subdirectory wscript files.
#
interesting_config_items = [
"NS3_BUILDDIR",
"NS3_MODULE_PATH",
"ENABLE_NSC",
"ENABLE_REAL_TIME",
"ENABLE_EXAMPLES",
"ENABLE_PYTHON_BINDINGS",
]
ENABLE_NSC = False
ENABLE_REAL_TIME = False
ENABLE_EXAMPLES = True
#
# If the user has constrained us to run certain kinds of tests, we can tell waf
# to only build
#
core_kinds = ["bvt", "core", "system", "unit"]
#
# There are some special cases for test suites that kill valgrind. This is
# because NSC causes illegal instruction crashes when run under valgrind.
#
core_valgrind_skip_tests = [
"ns3-tcp-cwnd",
"nsc-tcp-loss",
"ns3-tcp-interoperability",
]
#
# A list of examples to run as smoke tests just to ensure that they remain
# buildable and runnable over time. Also a condition under which to run
# the example (from the waf configuration), and a condition under which to
# run the example under valgrind. This is because NSC causes illegal
# instruction crashes when run under valgrind.
#
# XXX Should this not be read from a configuration file somewhere and not
# hardcoded.
#
example_tests = [
("csma/csma-bridge", "True", "True"),
("csma/csma-bridge-one-hop", "True", "True"),
("csma/csma-broadcast", "True", "True"),
("csma/csma-multicast", "True", "True"),
("csma/csma-one-subnet", "True", "True"),
("csma/csma-packet-socket", "True", "True"),
("csma/csma-ping", "True", "True"),
("csma/csma-raw-ip-socket", "True", "True"),
("csma/csma-star", "True", "True"),
("emulation/emu-ping", "False", "True"),
("emulation/emu-udp-echo", "False", "True"),
("error-model/simple-error-model", "True", "True"),
("ipv6/icmpv6-redirect", "True", "True"),
("ipv6/ping6", "True", "True"),
("ipv6/radvd", "True", "True"),
("ipv6/radvd-two-prefix", "True", "True"),
("ipv6/test-ipv6", "True", "True"),
("mesh/mesh", "True", "True"),
("naming/object-names", "True", "True"),
("realtime/realtime-udp-echo", "ENABLE_REAL_TIME == True", "True"),
("routing/dynamic-global-routing", "True", "True"),
("routing/global-injection-slash32", "True", "True"),
("routing/global-routing-slash32", "True", "True"),
("routing/mixed-global-routing", "True", "True"),
("routing/nix-simple", "True", "True"),
("routing/nms-p2p-nix", "False", "True"), # Takes too long to run
("routing/simple-alternate-routing", "True", "True"),
("routing/simple-global-routing", "True", "True"),
("routing/simple-point-to-point-olsr", "True", "True"),
("routing/simple-routing-ping6", "True", "True"),
("routing/static-routing-slash32", "True", "True"),
("routing/aodv", "True", "True"),
("spectrum/adhoc-aloha-ideal-phy", "True", "True"),
("spectrum/adhoc-aloha-ideal-phy-with-microwave-oven", "True", "True"),
("stats/wifi-example-sim", "True", "True"),
("tap/tap-wifi-dumbbell", "False", "True"), # Requires manual configuration
("tcp/star", "True", "True"),
("tcp/tcp-large-transfer", "True", "True"),
("tcp/tcp-nsc-lfn", "ENABLE_NSC == True", "True"),
("tcp/tcp-nsc-zoo", "ENABLE_NSC == True", "True"),
("tcp/tcp-star-server", "True", "True"),
("topology-read/topology-read --input=../../examples/topology-read/Inet_small_toposample.txt", "True", "True"),
("topology-read/topology-read --format=Rocketfuel --input=../../examples/topology-read/RocketFuel_toposample_1239_weights.txt", "True", "True"),
("tunneling/virtual-net-device", "True", "True"),
("tutorial/first", "True", "True"),
("tutorial/hello-simulator", "True", "True"),
("tutorial/second", "True", "True"),
("tutorial/third", "True", "True"),
("tutorial/fourth", "True", "True"),
("tutorial/fifth", "True", "True"),
("tutorial/sixth", "True", "True"),
("udp/udp-echo", "True", "True"),
("wireless/mixed-wireless", "True", "True"),
("wireless/multirate --totalTime=0.3s --rateManager=ns3::AarfcdWifiManager", "True", "True"),
("wireless/multirate --totalTime=0.3s --rateManager=ns3::AmrrWifiManager", "True", "True"),
("wireless/multirate --totalTime=0.3s --rateManager=ns3::CaraWifiManager", "True", "True"),
("wireless/multirate --totalTime=0.3s --rateManager=ns3::IdealWifiManager", "True", "True"),
("wireless/multirate --totalTime=0.3s --rateManager=ns3::MinstrelWifiManager", "True", "True"),
("wireless/multirate --totalTime=0.3s --rateManager=ns3::OnoeWifiManager", "True", "True"),
("wireless/multirate --totalTime=0.3s --rateManager=ns3::RraaWifiManager", "True", "True"),
("wireless/simple-wifi-frame-aggregation", "True", "True"),
("wireless/wifi-adhoc", "False", "True"), # Takes too long to run
("wireless/wifi-ap --verbose=0", "True", "True"), # Don't let it spew to stdout
("wireless/wifi-clear-channel-cmu", "False", "True"), # Requires specific hardware
("wireless/wifi-simple-adhoc", "True", "True"),
("wireless/wifi-simple-adhoc-grid", "True", "True"),
("wireless/wifi-simple-infra", "True", "True"),
("wireless/wifi-simple-interference", "True", "True"),
("wireless/wifi-wired-bridging", "True", "True"),
("wimax/wimax-simple", "True", "True"),
("wimax/wimax-ipv4", "True", "True"),
("wimax/wimax-multicast", "True", "True"),
]
#
# A list of python examples to run as smoke tests just to ensure that they
# runnable over time. Also a condition under which to run the example (from
# the waf configuration)
#
# XXX Should this not be read from a configuration file somewhere and not
# hardcoded.
#
python_tests = [
("csma/csma-bridge.py", "True"),
("flowmon/wifi-olsr-flowmon.py", "True"),
("routing/simple-routing-ping6.py", "True"),
("tap/tap-csma-virtual-machine.py", "False"), # requires enable-sudo
("tap/tap-wifi-virtual-machine.py", "False"), # requires enable-sudo
("tutorial/first.py", "True"),
("wireless/wifi-ap.py", "True"),
("wireless/mixed-wireless.py", "True"),
]
#
# The test suites are going to want to output status. They are running
# concurrently. This means that unless we are careful, the output of
# the test suites will be interleaved. Rather than introducing a lock
# file that could unintentionally start serializing execution, we ask
# the tests to write their output to a temporary directory and then
# put together the final output file when we "join" the test tasks back
# to the main thread. In addition to this issue, the example programs
# often write lots and lots of trace files which we will just ignore.
# We put all of them into the temp directory as well, so they can be
# easily deleted.
#
TMP_OUTPUT_DIR = "testpy-output"
def get_node_text(node):
for child in node.childNodes:
if child.nodeType == child.TEXT_NODE:
return child.nodeValue
return "None"
#
# A simple example of writing a text file with a test result summary. It is
# expected that this output will be fine for developers looking for problems.
#
def translate_to_text(results_file, text_file):
f = open(text_file, 'w')
dom = xml.dom.minidom.parse(results_file)
for suite in dom.getElementsByTagName("TestSuite"):
result = get_node_text(suite.getElementsByTagName("SuiteResult")[0])
name = get_node_text(suite.getElementsByTagName("SuiteName")[0])
time = get_node_text(suite.getElementsByTagName("SuiteTime")[0])
output = "%s: Test Suite \"%s\" (%s)\n" % (result, name, time)
f.write(output)
if result != "CRASH":
for case in suite.getElementsByTagName("TestCase"):
result = get_node_text(case.getElementsByTagName("CaseResult")[0])
name = get_node_text(case.getElementsByTagName("CaseName")[0])
time = get_node_text(case.getElementsByTagName("CaseTime")[0])
output = " %s: Test Case \"%s\" (%s)\n" % (result, name, time)
f.write(output)
if result == "FAIL":
for details in case.getElementsByTagName("FailureDetails"):
f.write(" Details:\n")
f.write(" Message: %s\n" % get_node_text(details.getElementsByTagName("Message")[0]))
f.write(" Condition: %s\n" % get_node_text(details.getElementsByTagName("Condition")[0]))
f.write(" Actual: %s\n" % get_node_text(details.getElementsByTagName("Actual")[0]))
f.write(" Limit: %s\n" % get_node_text(details.getElementsByTagName("Limit")[0]))
f.write(" File: %s\n" % get_node_text(details.getElementsByTagName("File")[0]))
f.write(" Line: %s\n" % get_node_text(details.getElementsByTagName("Line")[0]))
for example in dom.getElementsByTagName("Example"):
result = get_node_text(example.getElementsByTagName("Result")[0])
name = get_node_text(example.getElementsByTagName("Name")[0])
time = get_node_text(example.getElementsByTagName("ElapsedTime")[0])
output = "%s: Example \"%s\" (%s)\n" % (result, name, time)
f.write(output)
f.close()
#
# A simple example of writing an HTML file with a test result summary. It is
# expected that this will eventually be made prettier as time progresses and
# we have time to tweak it. This may end up being moved to a separate module
# since it will probably grow over time.
#
def translate_to_html(results_file, html_file):
f = open(html_file, 'w')
f.write("<html>\n")
f.write("<body>\n")
f.write("<center><h1>ns-3 Test Results</h1></center>\n")
#
# Read and parse the whole results file.
#
dom = xml.dom.minidom.parse(results_file)
#
# Iterate through the test suites
#
f.write("<h2>Test Suites</h2>\n")
for suite in dom.getElementsByTagName("TestSuite"):
#
# For each test suite, get its name, result and execution time info
#
name = get_node_text(suite.getElementsByTagName("SuiteName")[0])
result = get_node_text(suite.getElementsByTagName("SuiteResult")[0])
time = get_node_text(suite.getElementsByTagName("SuiteTime")[0])
#
# Print a level three header with the result, name and time. If the
# test suite passed, the header is printed in green. If the suite was
# skipped, print it in orange, otherwise assume something bad happened
# and print in red.
#
if result == "PASS":
f.write("<h3 style=\"color:green\">%s: %s (%s)</h3>\n" % (result, name, time))
elif result == "SKIP":
f.write("<h3 style=\"color:#ff6600\">%s: %s (%s)</h3>\n" % (result, name, time))
else:
f.write("<h3 style=\"color:red\">%s: %s (%s)</h3>\n" % (result, name, time))
#
# The test case information goes in a table.
#
f.write("<table border=\"1\">\n")
#
# The first column of the table has the heading Result
#
f.write("<th> Result </th>\n")
#
# If the suite crashed or is skipped, there is no further information, so just
# delare a new table row with the result (CRASH or SKIP) in it. Looks like:
#
# +--------+
# | Result |
# +--------+
# | CRASH |
# +--------+
#
# Then go on to the next test suite. Valgrind and skipped errors look the same.
#
if result in ["CRASH", "SKIP", "VALGR"]:
f.write("<tr>\n")
if result == "SKIP":
f.write("<td style=\"color:#ff6600\">%s</td>\n" % result)
else:
f.write("<td style=\"color:red\">%s</td>\n" % result)
f.write("</tr>\n")
f.write("</table>\n")
continue
#
# If the suite didn't crash, we expect more information, so fill out
# the table heading row. Like,
#
# +--------+----------------+------+
# | Result | Test Case Name | Time |
# +--------+----------------+------+
#
f.write("<th>Test Case Name</th>\n")
f.write("<th> Time </th>\n")
#
# If the test case failed, we need to print out some failure details
# so extend the heading row again. Like,
#
# +--------+----------------+------+-----------------+
# | Result | Test Case Name | Time | Failure Details |
# +--------+----------------+------+-----------------+
#
if result == "FAIL":
f.write("<th>Failure Details</th>\n")
#
# Now iterate through all of the test cases.
#
for case in suite.getElementsByTagName("TestCase"):
#
# Get the name, result and timing information from xml to use in
# printing table below.
#
name = get_node_text(case.getElementsByTagName("CaseName")[0])
result = get_node_text(case.getElementsByTagName("CaseResult")[0])
time = get_node_text(case.getElementsByTagName("CaseTime")[0])
#
# If the test case failed, we iterate through possibly multiple
# failure details
#
if result == "FAIL":
#
# There can be multiple failures for each test case. The first
# row always gets the result, name and timing information along
# with the failure details. Remaining failures don't duplicate
# this information but just get blanks for readability. Like,
#
# +--------+----------------+------+-----------------+
# | Result | Test Case Name | Time | Failure Details |
# +--------+----------------+------+-----------------+
# | FAIL | The name | time | It's busted |
# +--------+----------------+------+-----------------+
# | | | | Really broken |
# +--------+----------------+------+-----------------+
# | | | | Busted bad |
# +--------+----------------+------+-----------------+
#
first_row = True
for details in case.getElementsByTagName("FailureDetails"):
#
# Start a new row in the table for each possible Failure Detail
#
f.write("<tr>\n")
if first_row:
first_row = False
f.write("<td style=\"color:red\">%s</td>\n" % result)
f.write("<td>%s</td>\n" % name)
f.write("<td>%s</td>\n" % time)
else:
f.write("<td></td>\n")
f.write("<td></td>\n")
f.write("<td></td>\n")
f.write("<td>")
f.write("<b>Message: </b>%s, " % get_node_text(details.getElementsByTagName("Message")[0]))
f.write("<b>Condition: </b>%s, " % get_node_text(details.getElementsByTagName("Condition")[0]))
f.write("<b>Actual: </b>%s, " % get_node_text(details.getElementsByTagName("Actual")[0]))
f.write("<b>Limit: </b>%s, " % get_node_text(details.getElementsByTagName("Limit")[0]))
f.write("<b>File: </b>%s, " % get_node_text(details.getElementsByTagName("File")[0]))
f.write("<b>Line: </b>%s" % get_node_text(details.getElementsByTagName("Line")[0]))
f.write("</td>\n")
#
# End the table row
#
f.write("</td>\n")
else:
#
# If this particular test case passed, then we just print the PASS
# result in green, followed by the test case name and its execution
# time information. These go off in <td> ... </td> table data.
# The details table entry is left blank.
#
# +--------+----------------+------+---------+
# | Result | Test Case Name | Time | Details |
# +--------+----------------+------+---------+
# | PASS | The name | time | |
# +--------+----------------+------+---------+
#
f.write("<tr>\n")
f.write("<td style=\"color:green\">%s</td>\n" % result)
f.write("<td>%s</td>\n" % name)
f.write("<td>%s</td>\n" % time)
f.write("<td></td>\n")
f.write("</tr>\n")
#
# All of the rows are written, so we need to end the table.
#
f.write("</table>\n")
#
# That's it for all of the test suites. Now we have to do something about
# our examples.
#
f.write("<h2>Examples</h2>\n")
#
# Example status is rendered in a table just like the suites.
#
f.write("<table border=\"1\">\n")
#
# The table headings look like,
#
# +--------+--------------+--------------+
# | Result | Example Name | Elapsed Time |
# +--------+--------------+--------------+
#
f.write("<th> Result </th>\n")
f.write("<th>Example Name</th>\n")
f.write("<th>Elapsed Time</th>\n")
#
# Now iterate through all of the examples
#
for example in dom.getElementsByTagName("Example"):
#
# Start a new row for each example
#
f.write("<tr>\n")
#
# Get the result and name of the example in question
#
result = get_node_text(example.getElementsByTagName("Result")[0])
name = get_node_text(example.getElementsByTagName("Name")[0])
time = get_node_text(example.getElementsByTagName("ElapsedTime")[0])
#
# If the example either failed or crashed, print its result status
# in red; otherwise green. This goes in a <td> ... </td> table data
#
if result == "PASS":
f.write("<td style=\"color:green\">%s</td>\n" % result)
elif result == "SKIP":
f.write("<td style=\"color:#ff6600\">%s</fd>\n" % result)
else:
f.write("<td style=\"color:red\">%s</td>\n" % result)
#
# Write the example name as a new tag data.
#
f.write("<td>%s</td>\n" % name)
#
# Write the elapsed time as a new tag data.
#
f.write("<td>%s</td>\n" % time)
#
# That's it for the current example, so terminate the row.
#
f.write("</tr>\n")
#
# That's it for the table of examples, so terminate the table.
#
f.write("</table>\n")
#
# And that's it for the report, so finish up.
#
f.write("</body>\n")
f.write("</html>\n")
f.close()
#
# Python Control-C handling is broken in the presence of multiple threads.
# Signals get delivered to the runnable/running thread by default and if
# it is blocked, the signal is simply ignored. So we hook sigint and set
# a global variable telling the system to shut down gracefully.
#
thread_exit = False
def sigint_hook(signal, frame):
global thread_exit
thread_exit = True
return 0
#
# Waf can be configured to compile in debug or optimized modes. In each
# case, the resulting built goes into a different directory. If we want
# test tests to run from the correct code-base, we have to figure out which
# mode waf is running in. This is called its active variant.
#
# XXX This function pokes around in the waf internal state file. To be a
# little less hacky, we should add a commmand to waf to return this info
# and use that result.
#
def read_waf_active_variant():
for line in open("build/c4che/default.cache.py").readlines():
if line.startswith("NS3_ACTIVE_VARIANT"):
exec(line, globals())
break
if options.verbose:
print "NS3_ACTIVE_VARIANT == %s" % NS3_ACTIVE_VARIANT
#
# In general, the build process itself naturally takes care of figuring out
# which tests are built into the test runner. For example, if waf configure
# determines that ENABLE_EMU is false due to some missing dependency,
# the tests for the emu net device simply will not be built and will
# therefore not be included in the built test runner.
#
# Examples, however, are a different story. In that case, we are just given
# a list of examples that could be run. Instead of just failing, for example,
# nsc-tcp-zoo if NSC is not present, we look into the waf saved configuration
# for relevant configuration items.
#
# XXX This function pokes around in the waf internal state file. To be a
# little less hacky, we should add a commmand to waf to return this info
# and use that result.
#
def read_waf_config():
for line in open("build/c4che/%s.cache.py" % NS3_ACTIVE_VARIANT).readlines():
for item in interesting_config_items:
if line.startswith(item):
exec(line, globals())
if options.verbose:
for item in interesting_config_items:
print "%s ==" % item, eval(item)
#
# It seems pointless to fork a process to run waf to fork a process to run
# the test runner, so we just run the test runner directly. The main thing
# that waf would do for us would be to sort out the shared library path but
# we can deal with that easily and do here.
#
# There can be many different ns-3 repositories on a system, and each has
# its own shared libraries, so ns-3 doesn't hardcode a shared library search
# path -- it is cooked up dynamically, so we do that too.
#
def make_paths():
have_DYLD_LIBRARY_PATH = False
have_LD_LIBRARY_PATH = False
have_PATH = False
have_PYTHONPATH = False
keys = os.environ.keys()
for key in keys:
if key == "DYLD_LIBRARY_PATH":
have_DYLD_LIBRARY_PATH = True
if key == "LD_LIBRARY_PATH":
have_LD_LIBRARY_PATH = True
if key == "PATH":
have_PATH = True
if key == "PYTHONPATH":
have_PYTHONPATH = True
pypath = os.environ["PYTHONPATH"] = os.path.join (NS3_BUILDDIR, NS3_ACTIVE_VARIANT, "bindings", "python")
if not have_PYTHONPATH:
os.environ["PYTHONPATH"] = pypath
else:
os.environ["PYTHONPATH"] += ":" + pypath
if options.verbose:
print "os.environ[\"PYTHONPATH\"] == %s" % os.environ["PYTHONPATH"]
if sys.platform == "darwin":
if not have_DYLD_LIBRARY_PATH:
os.environ["DYLD_LIBRARY_PATH"] = ""
for path in NS3_MODULE_PATH:
os.environ["DYLD_LIBRARY_PATH"] += ":" + path
if options.verbose:
print "os.environ[\"DYLD_LIBRARY_PATH\"] == %s" % os.environ["DYLD_LIBRARY_PATH"]
elif sys.platform == "win32":
if not have_PATH:
os.environ["PATH"] = ""
for path in NS3_MODULE_PATH:
os.environ["PATH"] += ';' + path
if options.verbose:
print "os.environ[\"PATH\"] == %s" % os.environ["PATH"]
elif sys.platform == "cygwin":
if not have_PATH:
os.environ["PATH"] = ""
for path in NS3_MODULE_PATH:
os.environ["PATH"] += ":" + path
if options.verbose:
print "os.environ[\"PATH\"] == %s" % os.environ["PATH"]
else:
if not have_LD_LIBRARY_PATH:
os.environ["LD_LIBRARY_PATH"] = ""
for path in NS3_MODULE_PATH:
os.environ["LD_LIBRARY_PATH"] += ":" + path
if options.verbose:
print "os.environ[\"LD_LIBRARY_PATH\"] == %s" % os.environ["LD_LIBRARY_PATH"]
#
# Short note on generating suppressions:
#
# See the valgrind documentation for a description of suppressions. The easiest
# way to generate a suppression expression is by using the valgrind
# --gen-suppressions option. To do that you have to figure out how to run the
# test in question.
#
# If you do "test.py -v -g -s <suitename> then test.py will output most of what
# you need. For example, if you are getting a valgrind error in the
# devices-mesh-dot11s-regression test suite, you can run:
#
# ./test.py -v -g -s devices-mesh-dot11s-regression
#
# You should see in the verbose output something that looks like:
#
# Synchronously execute valgrind --suppressions=/home/craigdo/repos/ns-3-allinone-dev/ns-3-dev/testpy.supp
# --leak-check=full --error-exitcode=2 /home/craigdo/repos/ns-3-allinone-dev/ns-3-dev/build/debug/utils/test-runner
# --suite=devices-mesh-dot11s-regression --basedir=/home/craigdo/repos/ns-3-allinone-dev/ns-3-dev
# --tempdir=testpy-output/2010-01-12-22-47-50-CUT
# --out=testpy-output/2010-01-12-22-47-50-CUT/devices-mesh-dot11s-regression.xml
#
# You need to pull out the useful pieces, and so could run the following to
# reproduce your error:
#
# valgrind --suppressions=/home/craigdo/repos/ns-3-allinone-dev/ns-3-dev/testpy.supp
# --leak-check=full --error-exitcode=2 /home/craigdo/repos/ns-3-allinone-dev/ns-3-dev/build/debug/utils/test-runner
# --suite=devices-mesh-dot11s-regression --basedir=/home/craigdo/repos/ns-3-allinone-dev/ns-3-dev
# --tempdir=testpy-output
#
# Hint: Use the first part of the command as is, and point the "tempdir" to
# somewhere real. You don't need to specify an "out" file.
#
# When you run the above command you should see your valgrind error. The
# suppression expression(s) can be generated by adding the --gen-suppressions=yes
# option to valgrind. Use something like:
#
# valgrind --gen-suppressions=yes --suppressions=/home/craigdo/repos/ns-3-allinone-dev/ns-3-dev/testpy.supp
# --leak-check=full --error-exitcode=2 /home/craigdo/repos/ns-3-allinone-dev/ns-3-dev/build/debug/utils/test-runner
# --suite=devices-mesh-dot11s-regression --basedir=/home/craigdo/repos/ns-3-allinone-dev/ns-3-dev
# --tempdir=testpy-output
#
# Now when valgrind detects an error it will ask:
#
# ==27235== ---- Print suppression ? --- [Return/N/n/Y/y/C/c] ----
#
# to which you just enter 'y'<ret>.
#
# You will be provided with a suppression expression that looks something like
# the following:
# {
# <insert_a_suppression_name_here>
# Memcheck:Addr8
# fun:_ZN3ns36dot11s15HwmpProtocolMac8SendPreqESt6vectorINS0_6IePreqESaIS3_EE
# fun:_ZN3ns36dot11s15HwmpProtocolMac10SendMyPreqEv
# fun:_ZN3ns36dot11s15HwmpProtocolMac18RequestDestinationENS_12Mac48AddressEjj
# ...
# the rest of the stack frame
# ...
# }
#
# You need to add a supression name which will only be printed out by valgrind in
# verbose mode (but it needs to be there in any case). The entire stack frame is
# shown to completely characterize the error, but in most cases you won't need
# all of that info. For example, if you want to turn off all errors that happen
# when the function (fun:) is called, you can just delete the rest of the stack
# frame. You can also use wildcards to make the mangled signatures more readable.
#
# I added the following to the testpy.supp file for this particular error:
#
# {
# Supress invalid read size errors in SendPreq() when using HwmpProtocolMac
# Memcheck:Addr8
# fun:*HwmpProtocolMac*SendPreq*
# }
#
# Now, when you run valgrind the error will be suppressed.
#
VALGRIND_SUPPRESSIONS_FILE = "testpy.supp"
def run_job_synchronously(shell_command, directory, valgrind, is_python):
(base, build) = os.path.split (NS3_BUILDDIR)
suppressions_path = os.path.join (base, VALGRIND_SUPPRESSIONS_FILE)
if is_python:
path_cmd = "python " + os.path.join (base, shell_command)
else:
path_cmd = os.path.join (NS3_BUILDDIR, NS3_ACTIVE_VARIANT, shell_command)
if valgrind:
cmd = "valgrind --suppressions=%s --leak-check=full --show-reachable=yes --error-exitcode=2 %s" % (suppressions_path,
path_cmd)
else:
cmd = path_cmd
if options.verbose:
print "Synchronously execute %s" % cmd
start_time = time.time()
proc = subprocess.Popen(cmd, shell = True, cwd = directory, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
stdout_results, stderr_results = proc.communicate()
elapsed_time = time.time() - start_time
retval = proc.returncode
#
# valgrind sometimes has its own idea about what kind of memory management
# errors are important. We want to detect *any* leaks, so the way to do
# that is to look for the presence of a valgrind leak summary section.
#
# If another error has occurred (like a test suite has failed), we don't
# want to trump that error, so only do the valgrind output scan if the
# test has otherwise passed (return code was zero).
#
if valgrind and retval == 0 and "== LEAK SUMMARY:" in stderr_results:
retval = 2
if options.verbose:
print "Return code = ", retval
print "stderr = ", stderr_results
return (retval, stdout_results, stderr_results, elapsed_time)
#
# This class defines a unit of testing work. It will typically refer to
# a test suite to run using the test-runner, or an example to run directly.
#
class Job:
def __init__(self):
self.is_break = False
self.is_skip = False
self.is_example = False
self.is_pyexample = False
self.shell_command = ""
self.display_name = ""
self.basedir = ""
self.tempdir = ""
self.cwd = ""
self.tmp_file_name = ""
self.returncode = False
self.elapsed_time = 0
#
# A job is either a standard job or a special job indicating that a worker
# thread should exist. This special job is indicated by setting is_break
# to true.
#
def set_is_break(self, is_break):
self.is_break = is_break
#
# If a job is to be skipped, we actually run it through the worker threads
# to keep the PASS, FAIL, CRASH and SKIP processing all in one place.
#
def set_is_skip(self, is_skip):
self.is_skip = is_skip
#
# Examples are treated differently than standard test suites. This is
# mostly because they are completely unaware that they are being run as
# tests. So we have to do some special case processing to make them look
# like tests.
#
def set_is_example(self, is_example):
self.is_example = is_example
#
# Examples are treated differently than standard test suites. This is
# mostly because they are completely unaware that they are being run as
# tests. So we have to do some special case processing to make them look
# like tests.
#
def set_is_pyexample(self, is_pyexample):
self.is_pyexample = is_pyexample
#
# This is the shell command that will be executed in the job. For example,
#
# "utils/test-runner --suite=some-test-suite"
#
def set_shell_command(self, shell_command):
self.shell_command = shell_command
#
# This is the dispaly name of the job, typically the test suite or example
# name. For example,
#
# "some-test-suite" or "udp-echo"
#
def set_display_name(self, display_name):
self.display_name = display_name
#
# This is the base directory of the repository out of which the tests are
# being run. It will be used deep down in the testing framework to determine
# where the source directory of the test was, and therefore where to find
# provided test vectors. For example,
#
# "/home/user/repos/ns-3-dev"
#
def set_basedir(self, basedir):
self.basedir = basedir
#
# This is the directory to which a running test suite should write any
# temporary files.
#
def set_tempdir(self, tempdir):
self.tempdir = tempdir
#
# This is the current working directory that will be given to an executing
# test as it is being run. It will be used for examples to tell them where
# to write all of the pcap files that we will be carefully ignoring. For
# example,
#
# "/tmp/unchecked-traces"
#
def set_cwd(self, cwd):
self.cwd = cwd
#
# This is the temporary results file name that will be given to an executing
# test as it is being run. We will be running all of our tests in parallel
# so there must be multiple temporary output files. These will be collected
# into a single XML file at the end and then be deleted.
#
def set_tmp_file_name(self, tmp_file_name):
self.tmp_file_name = tmp_file_name
#
# The return code received when the job process is executed.
#
def set_returncode(self, returncode):
self.returncode = returncode
#
# The elapsed real time for the job execution.
#
def set_elapsed_time(self, elapsed_time):
self.elapsed_time = elapsed_time
#
# The worker thread class that handles the actual running of a given test.
# Once spawned, it receives requests for work through its input_queue and
# ships the results back through the output_queue.
#
class worker_thread(threading.Thread):
def __init__(self, input_queue, output_queue):
threading.Thread.__init__(self)
self.input_queue = input_queue
self.output_queue = output_queue
def run(self):
while True:
job = self.input_queue.get()
#
# Worker threads continue running until explicitly told to stop with
# a special job.
#
if job.is_break:
return
#
# If the global interrupt handler sets the thread_exit variable,
# we stop doing real work and just report back a "break" in the
# normal command processing has happened.
#
if thread_exit == True:
job.set_is_break(True)
self.output_queue.put(job)
continue
#
# If we are actually supposed to skip this job, do so. Note that
# if is_skip is true, returncode is undefined.
#
if job.is_skip:
if options.verbose:
print "Skip %s" % job.shell_command
self.output_queue.put(job)
continue
#
# Otherwise go about the business of running tests as normal.
#
else:
if options.verbose:
print "Launch %s" % job.shell_command
if job.is_example or job.is_pyexample:
#
# If we have an example, the shell command is all we need to
# know. It will be something like "examples/udp-echo" or
# "examples/mixed-wireless.py"
#
(job.returncode, standard_out, standard_err, et) = run_job_synchronously(job.shell_command,
job.cwd, options.valgrind, job.is_pyexample)
else:
#
# If we're a test suite, we need to provide a little more info
# to the test runner, specifically the base directory and temp
# file name
#
(job.returncode, standard_out, standard_err, et) = run_job_synchronously(job.shell_command +
" --basedir=%s --tempdir=%s --out=%s" % (job.basedir, job.tempdir, job.tmp_file_name),
job.cwd, options.valgrind, False)
job.set_elapsed_time(et)
if options.verbose:
print "returncode = %d" % job.returncode
print "---------- begin standard out ----------"
print standard_out
print "---------- begin standard err ----------"
print standard_err
print "---------- end standard err ----------"
self.output_queue.put(job)
#
# This is the main function that does the work of interacting with the test-runner
# itself.
#
def run_tests():
#
# Run waf to make sure that everything is built, configured and ready to go
# unless we are explicitly told not to. We want to be careful about causing
# our users pain while waiting for extraneous stuff to compile and link, so
# we allow users that know what they''re doing to not invoke waf at all.
#
if not options.nowaf:
#
# If the user is running the "kinds" or "list" options, there is an
# implied dependency on the test-runner since we call that program
# if those options are selected. We will exit after processing those
# options, so if we see them, we can safely only build the test-runner.
#
# If the user has constrained us to running only a particular type of
# file, we can only ask waf to build what we know will be necessary.
# For example, if the user only wants to run BVT tests, we only have
# to build the test-runner and can ignore all of the examples.
#
# If the user only wants to run a single example, then we can just build
# that example.
#
# If there is no constraint, then we have to build everything since the
# user wants to run everything.
#
if options.kinds or options.list or (len(options.constrain) and options.constrain in core_kinds):
if sys.platform == "win32":
waf_cmd = "waf --target=test-runner"
else:
waf_cmd = "./waf --target=test-runner"
elif len(options.example):
if sys.platform == "win32":