X-Git-Url: https://gerrit.fd.io/r/gitweb?a=blobdiff_plain;f=app%2Ftest%2Fautotest_runner.py;fp=app%2Ftest%2Fautotest_runner.py;h=0000000000000000000000000000000000000000;hb=7595afa4d30097c1177b69257118d8ad89a539be;hp=21d3be2cb2cd2072a729f5adbc9dd5a04338307a;hpb=ce3d555e43e3795b5d9507fcfc76b7a0a92fd0d6;p=deb_dpdk.git

diff --git a/app/test/autotest_runner.py b/app/test/autotest_runner.py
deleted file mode 100644
index 21d3be2c..00000000
--- a/app/test/autotest_runner.py
+++ /dev/null
@@ -1,422 +0,0 @@
-#!/usr/bin/python
-
-#   BSD LICENSE
-#
-#   Copyright(c) 2010-2014 Intel Corporation. All rights reserved.
-#   All rights reserved.
-#
-#   Redistribution and use in source and binary forms, with or without
-#   modification, are permitted provided that the following conditions
-#   are met:
-#
-#     * Redistributions of source code must retain the above copyright
-#       notice, this list of conditions and the following disclaimer.
-#     * Redistributions in binary form must reproduce the above copyright
-#       notice, this list of conditions and the following disclaimer in
-#       the documentation and/or other materials provided with the
-#       distribution.
-#     * Neither the name of Intel Corporation nor the names of its
-#       contributors may be used to endorse or promote products derived
-#       from this software without specific prior written permission.
-#
-#   THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
-#   "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
-#   LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
-#   A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
-#   OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
-#   SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
-#   LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
-#   DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
-#   THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-#   (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
-#   OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-
-# The main logic behind running autotests in parallel
-
-import multiprocessing, subprocess, sys, pexpect, re, time, os, StringIO, csv
-
-# wait for prompt
-def wait_prompt(child):
-	try:
-		child.sendline()
-		result = child.expect(["RTE>>", pexpect.TIMEOUT, pexpect.EOF],
-			timeout = 120)
-	except:
-		return False
-	if result == 0:
-		return True
-	else:
-		return False
-
-# run a test group
-# each result tuple in results list consists of:
-#   result value (0 or -1)
-#   result string
-#   test name
-#   total test run time (double)
-#   raw test log
-#   test report (if not available, should be None)
-#
-# this function needs to be outside AutotestRunner class
-# because otherwise Pool won't work (or rather it will require
-# quite a bit of effort to make it work).
-def run_test_group(cmdline, test_group):
-	results = []
-	child = None
-	start_time = time.time()
-	startuplog = None
-
-	# run test app
-	try:
-		# prepare logging of init
-		startuplog = StringIO.StringIO()
-
-		print >>startuplog, "\n%s %s\n" % ("="*20, test_group["Prefix"])
-		print >>startuplog, "\ncmdline=%s" % cmdline
-
-		child = pexpect.spawn(cmdline, logfile=startuplog)
-
-		# wait for target to boot
-		if not wait_prompt(child):
-			child.close()
-
-			results.append((-1, "Fail [No prompt]", "Start %s" % test_group["Prefix"],
-				time.time() - start_time, startuplog.getvalue(), None))
-
-			# mark all tests as failed
-			for test in test_group["Tests"]:
-				results.append((-1, "Fail [No prompt]", test["Name"],
-				time.time() - start_time, "", None))
-			# exit test
-			return results
-
-	except:
-		results.append((-1, "Fail [Can't run]", "Start %s" % test_group["Prefix"],
-				time.time() - start_time, startuplog.getvalue(), None))
-
-		# mark all tests as failed
-		for t in test_group["Tests"]:
-			results.append((-1, "Fail [Can't run]", t["Name"],
-				time.time() - start_time, "", None))
-		# exit test
-		return results
-
-	# startup was successful
-	results.append((0, "Success", "Start %s" % test_group["Prefix"],
-		time.time() - start_time, startuplog.getvalue(), None))
-
-	# parse the binary for available test commands
-	binary = cmdline.split()[0]
-	stripped = 'not stripped' not in subprocess.check_output(['file', binary])
-	if not stripped:
-		symbols = subprocess.check_output(['nm', binary]).decode('utf-8')
-		avail_cmds = re.findall('test_register_(\w+)', symbols)
-
-	# run all tests in test group
-	for test in test_group["Tests"]:
-
-		# create log buffer for each test
-		# in multiprocessing environment, the logging would be
-		# interleaved and will create a mess, hence the buffering
-		logfile = StringIO.StringIO()
-		child.logfile = logfile
-
-		result = ()
-
-		# make a note when the test started
-		start_time = time.time()
-
-		try:
-			# print test name to log buffer
-			print >>logfile, "\n%s %s\n" % ("-"*20, test["Name"])
-
-			# run test function associated with the test
-			if stripped or test["Command"] in avail_cmds:
-				result = test["Func"](child, test["Command"])
-			else:
-				result = (0, "Skipped [Not Available]")
-
-			# make a note when the test was finished
-			end_time = time.time()
-
-			# append test data to the result tuple
-			result += (test["Name"], end_time - start_time,
-				logfile.getvalue())
-
-			# call report function, if any defined, and supply it with
-			# target and complete log for test run
-			if test["Report"]:
-				report = test["Report"](self.target, log)
-
-				# append report to results tuple
-				result += (report,)
-			else:
-				# report is None
-				result += (None,)
-		except:
-			# make a note when the test crashed
-			end_time = time.time()
-
-			# mark test as failed
-			result = (-1, "Fail [Crash]", test["Name"],
-				end_time - start_time, logfile.getvalue(), None)
-		finally:
-			# append the results to the results list
-			results.append(result)
-
-	# regardless of whether test has crashed, try quitting it
-	try:
-		child.sendline("quit")
-		child.close()
-	# if the test crashed, just do nothing instead
-	except:
-		# nop
-		pass
-
-	# return test results
-	return results
-
-
-
-
-
-# class representing an instance of autotests run
-class AutotestRunner:
-	cmdline = ""
-	parallel_test_groups = []
-	non_parallel_test_groups = []
-	logfile = None
-	csvwriter = None
-	target = ""
-	start = None
-	n_tests = 0
-	fails = 0
-	log_buffers = []
-	blacklist = []
-	whitelist = []
-
-
-	def __init__(self, cmdline, target, blacklist, whitelist):
-		self.cmdline = cmdline
-		self.target = target
-		self.blacklist = blacklist
-		self.whitelist = whitelist
-
-		# log file filename
-		logfile = "%s.log" % target
-		csvfile = "%s.csv" % target
-
-		self.logfile = open(logfile, "w")
-		csvfile = open(csvfile, "w")
-		self.csvwriter = csv.writer(csvfile)
-
-		# prepare results table
-		self.csvwriter.writerow(["test_name","test_result","result_str"])
-
-
-
-	# set up cmdline string
-	def __get_cmdline(self, test):
-		cmdline = self.cmdline
-
-		# append memory limitations for each test
-		# otherwise tests won't run in parallel
-		if not "i686" in self.target:
-			cmdline += " --socket-mem=%s"% test["Memory"]
-		else:
-			# affinitize startup so that tests don't fail on i686
-			cmdline = "taskset 1 " + cmdline
-			cmdline += " -m " + str(sum(map(int,test["Memory"].split(","))))
-
-		# set group prefix for autotest group
-		# otherwise they won't run in parallel
-		cmdline += " --file-prefix=%s"% test["Prefix"]
-
-		return cmdline
-
-
-
-	def add_parallel_test_group(self,test_group):
-		self.parallel_test_groups.append(test_group)
-
-	def add_non_parallel_test_group(self,test_group):
-		self.non_parallel_test_groups.append(test_group)
-
-
-	def __process_results(self, results):
-		# this iterates over individual test results
-		for i, result in enumerate(results):
-
-			# increase total number of tests that were run
-			# do not include "start" test
-			if i > 0:
-				self.n_tests += 1
-
-			# unpack result tuple
-			test_result, result_str, test_name, \
-				test_time, log, report = result
-
-			# get total run time
-			cur_time = time.time()
-			total_time = int(cur_time - self.start)
-
-			# print results, test run time and total time since start
-			print ("%s:" % test_name).ljust(30),
-			print result_str.ljust(29),
-			print "[%02dm %02ds]" % (test_time / 60, test_time % 60),
-
-			# don't print out total time every line, it's the same anyway
-			if i == len(results) - 1:
-				print "[%02dm %02ds]" % (total_time / 60, total_time % 60)
-			else:
-				print ""
-
-			# if test failed and it wasn't a "start" test
-			if test_result < 0 and not i == 0:
-				self.fails += 1
-
-			# collect logs
-			self.log_buffers.append(log)
-
-			# create report if it exists
-			if report:
-				try:
-					f = open("%s_%s_report.rst" % (self.target,test_name), "w")
-				except IOError:
-					print "Report for %s could not be created!" % test_name
-				else:
-					with f:
-						f.write(report)
-
-			# write test result to CSV file
-			if i != 0:
-				self.csvwriter.writerow([test_name, test_result, result_str])
-
-
-
-
-	# this function iterates over test groups and removes each
-	# test that is not in whitelist/blacklist
-	def __filter_groups(self, test_groups):
-		groups_to_remove = []
-
-		# filter out tests from parallel test groups
-		for i, test_group in enumerate(test_groups):
-
-			# iterate over a copy so that we could safely delete individual tests
-			for test in test_group["Tests"][:]:
-				test_id = test["Command"]
-
-				# dump tests are specified in full e.g. "Dump_mempool"
-				if "_autotest" in test_id:
-					test_id = test_id[:-len("_autotest")]
-
-				# filter out blacklisted/whitelisted tests
-				if self.blacklist and test_id in self.blacklist:
-					test_group["Tests"].remove(test)
-					continue
-				if self.whitelist and test_id not in self.whitelist:
-					test_group["Tests"].remove(test)
-					continue
-
-			# modify or remove original group
-			if len(test_group["Tests"]) > 0:
-				test_groups[i] = test_group
-			else:
-				# remember which groups should be deleted
-				# put the numbers backwards so that we start
-				# deleting from the end, not from the beginning
-				groups_to_remove.insert(0, i)
-
-		# remove test groups that need to be removed
-		for i in groups_to_remove:
-			del test_groups[i]
-
-		return test_groups
-
-
-
-	# iterate over test groups and run tests associated with them
-	def run_all_tests(self):
-		# filter groups
-		self.parallel_test_groups = \
-			self.__filter_groups(self.parallel_test_groups)
-		self.non_parallel_test_groups = \
-			self.__filter_groups(self.non_parallel_test_groups)
-
-		# create a pool of worker threads
-		pool = multiprocessing.Pool(processes=1)
-
-		results = []
-
-		# whatever happens, try to save as much logs as possible
-		try:
-
-			# create table header
-			print ""
-			print "Test name".ljust(30),
-			print "Test result".ljust(29),
-			print "Test".center(9),
-			print "Total".center(9)
-			print "=" * 80
-
-			# make a note of tests start time
-			self.start = time.time()
-
-			# assign worker threads to run test groups
-			for test_group in self.parallel_test_groups:
-				result = pool.apply_async(run_test_group,
-					[self.__get_cmdline(test_group), test_group])
-				results.append(result)
-
-			# iterate while we have group execution results to get
-			while len(results) > 0:
-
-				# iterate over a copy to be able to safely delete results
-				# this iterates over a list of group results
-				for group_result in results[:]:
-
-					# if the thread hasn't finished yet, continue
-					if not group_result.ready():
-						continue
-
-					res = group_result.get()
-
-					self.__process_results(res)
-
-					# remove result from results list once we're done with it
-					results.remove(group_result)
-
-			# run non_parallel tests. they are run one by one, synchronously
-			for test_group in self.non_parallel_test_groups:
-				group_result = run_test_group(self.__get_cmdline(test_group), test_group)
-
-				self.__process_results(group_result)
-
-			# get total run time
-			cur_time = time.time()
-			total_time = int(cur_time - self.start)
-
-			# print out summary
-			print "=" * 80
-			print "Total run time: %02dm %02ds" % (total_time / 60, total_time % 60)
-			if self.fails != 0:
-				print "Number of failed tests: %s" % str(self.fails)
-
-			# write summary to logfile
-			self.logfile.write("Summary\n")
-			self.logfile.write("Target: ".ljust(15) + "%s\n" % self.target)
-			self.logfile.write("Tests: ".ljust(15) + "%i\n" % self.n_tests)
-			self.logfile.write("Failed tests: ".ljust(15) + "%i\n" % self.fails)
-		except:
-			print "Exception occured"
-			print sys.exc_info()
-			self.fails = 1
-
-		# drop logs from all executions to a logfile
-		for buf in self.log_buffers:
-			self.logfile.write(buf.replace("\r",""))
-
-		log_buffers = []
-
-		return self.fails