#!/usr/bin/python2
# Copyright 2012 Google Inc. All Rights Reserved.
"""Tests for bisecting tool."""
from __future__ import print_function
__author__ = 'shenhan@google.com (Han Shen)'
import os
import random
import sys
import unittest
from cros_utils import command_executer
from binary_search_tool import binary_search_state
from binary_search_tool import bisect
import common
import gen_obj
def GenObj():
obj_num = random.randint(100, 1000)
bad_obj_num = random.randint(obj_num / 100, obj_num / 20)
if bad_obj_num == 0:
bad_obj_num = 1
gen_obj.Main(['--obj_num', str(obj_num), '--bad_obj_num', str(bad_obj_num)])
def CleanObj():
os.remove(common.OBJECTS_FILE)
os.remove(common.WORKING_SET_FILE)
print('Deleted "{0}" and "{1}"'.format(common.OBJECTS_FILE,
common.WORKING_SET_FILE))
class BisectTest(unittest.TestCase):
"""Tests for bisect.py"""
def setUp(self):
with open('./is_setup', 'w'):
pass
try:
os.remove(binary_search_state.STATE_FILE)
except OSError:
pass
def tearDown(self):
try:
os.remove('./is_setup')
os.remove(os.readlink(binary_search_state.STATE_FILE))
os.remove(binary_search_state.STATE_FILE)
except OSError:
pass
class FullBisector(bisect.Bisector):
"""Test bisector to test bisect.py with"""
def __init__(self, options, overrides):
super(BisectTest.FullBisector, self).__init__(options, overrides)
def PreRun(self):
GenObj()
return 0
def Run(self):
return binary_search_state.Run(get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good.py',
switch_to_bad='./switch_to_bad.py',
test_script='./is_good.py',
prune=True,
file_args=True)
def PostRun(self):
CleanObj()
return 0
def test_full_bisector(self):
ret = bisect.Run(self.FullBisector({}, {}))
self.assertEquals(ret, 0)
self.assertFalse(os.path.exists(common.OBJECTS_FILE))
self.assertFalse(os.path.exists(common.WORKING_SET_FILE))
def check_output(self):
_, out, _ = command_executer.GetCommandExecuter().RunCommandWOutput(
('grep "Bad items are: " logs/binary_search_tool_tester.py.out | '
'tail -n1'))
ls = out.splitlines()
self.assertEqual(len(ls), 1)
line = ls[0]
_, _, bad_ones = line.partition('Bad items are: ')
bad_ones = bad_ones.split()
expected_result = common.ReadObjectsFile()
# Reconstruct objects file from bad_ones and compare
actual_result = [0] * len(expected_result)
for bad_obj in bad_ones:
actual_result[int(bad_obj)] = 1
self.assertEqual(actual_result, expected_result)
class BisectingUtilsTest(unittest.TestCase):
"""Tests for bisecting tool."""
def setUp(self):
"""Generate [100-1000] object files, and 1-5% of which are bad ones."""
GenObj()
with open('./is_setup', 'w'):
pass
try:
os.remove(binary_search_state.STATE_FILE)
except OSError:
pass
def tearDown(self):
"""Cleanup temp files."""
CleanObj()
try:
os.remove(os.readlink(binary_search_state.STATE_FILE))
except OSError:
pass
cleanup_list = ['./is_setup', binary_search_state.STATE_FILE,
'noinc_prune_bad', 'noinc_prune_good']
for f in cleanup_list:
if os.path.exists(f):
os.remove(f)
def runTest(self):
ret = binary_search_state.Run(get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good.py',
switch_to_bad='./switch_to_bad.py',
test_script='./is_good.py',
prune=True,
file_args=True)
self.assertEquals(ret, 0)
self.check_output()
def test_arg_parse(self):
args = ['--get_initial_items', './gen_init_list.py', '--switch_to_good',
'./switch_to_good.py', '--switch_to_bad', './switch_to_bad.py',
'--test_script', './is_good.py', '--prune', '--file_args']
ret = binary_search_state.Main(args)
self.assertEquals(ret, 0)
self.check_output()
def test_test_setup_script(self):
os.remove('./is_setup')
with self.assertRaises(AssertionError):
ret = binary_search_state.Run(get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good.py',
switch_to_bad='./switch_to_bad.py',
test_script='./is_good.py',
prune=True,
file_args=True)
ret = binary_search_state.Run(get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good.py',
switch_to_bad='./switch_to_bad.py',
test_script='./is_good.py',
test_setup_script='./test_setup.py',
prune=True,
file_args=True)
self.assertEquals(ret, 0)
self.check_output()
def test_bad_test_setup_script(self):
with self.assertRaises(AssertionError):
binary_search_state.Run(get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good.py',
switch_to_bad='./switch_to_bad.py',
test_script='./is_good.py',
test_setup_script='./test_setup_bad.py',
prune=True,
file_args=True)
def test_bad_save_state(self):
state_file = binary_search_state.STATE_FILE
hidden_state_file = os.path.basename(binary_search_state.HIDDEN_STATE_FILE)
with open(state_file, 'w') as f:
f.write('test123')
bss = binary_search_state.MockBinarySearchState()
with self.assertRaises(binary_search_state.Error):
bss.SaveState()
with open(state_file, 'r') as f:
self.assertEquals(f.read(), 'test123')
os.remove(state_file)
# Cleanup generated save state that has no symlink
files = os.listdir(os.getcwd())
save_states = [x for x in files if x.startswith(hidden_state_file)]
_ = [os.remove(x) for x in save_states]
def test_save_state(self):
state_file = binary_search_state.STATE_FILE
bss = binary_search_state.MockBinarySearchState()
bss.SaveState()
self.assertTrue(os.path.exists(state_file))
first_state = os.readlink(state_file)
bss.SaveState()
second_state = os.readlink(state_file)
self.assertTrue(os.path.exists(state_file))
self.assertTrue(second_state != first_state)
self.assertFalse(os.path.exists(first_state))
bss.RemoveState()
self.assertFalse(os.path.islink(state_file))
self.assertFalse(os.path.exists(second_state))
def test_load_state(self):
test_items = [1, 2, 3, 4, 5]
bss = binary_search_state.MockBinarySearchState()
bss.all_items = test_items
bss.currently_good_items = set([1, 2, 3])
bss.currently_bad_items = set([4, 5])
bss.SaveState()
bss = None
bss2 = binary_search_state.MockBinarySearchState.LoadState()
self.assertEquals(bss2.all_items, test_items)
self.assertEquals(bss2.currently_good_items, set([]))
self.assertEquals(bss2.currently_bad_items, set([]))
def test_tmp_cleanup(self):
bss = binary_search_state.MockBinarySearchState(
get_initial_items='echo "0\n1\n2\n3"',
switch_to_good='./switch_tmp.py',
file_args=True)
bss.SwitchToGood(['0', '1', '2', '3'])
tmp_file = None
with open('tmp_file', 'r') as f:
tmp_file = f.read()
os.remove('tmp_file')
self.assertFalse(os.path.exists(tmp_file))
ws = common.ReadWorkingSet()
for i in range(3):
self.assertEquals(ws[i], 42)
def test_verify_fail(self):
bss = binary_search_state.MockBinarySearchState(
get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_bad.py',
switch_to_bad='./switch_to_good.py',
test_script='./is_good.py',
prune=True,
file_args=True,
verify=True)
with self.assertRaises(AssertionError):
bss.DoVerify()
def test_early_terminate(self):
bss = binary_search_state.MockBinarySearchState(
get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good.py',
switch_to_bad='./switch_to_bad.py',
test_script='./is_good.py',
prune=True,
file_args=True,
iterations=1)
bss.DoSearch()
self.assertFalse(bss.found_items)
def test_no_prune(self):
bss = binary_search_state.MockBinarySearchState(
get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good.py',
switch_to_bad='./switch_to_bad.py',
test_script='./is_good.py',
test_setup_script='./test_setup.py',
prune=False,
file_args=True)
bss.DoSearch()
self.assertEquals(len(bss.found_items), 1)
bad_objs = common.ReadObjectsFile()
found_obj = int(bss.found_items.pop())
self.assertEquals(bad_objs[found_obj], 1)
def test_set_file(self):
binary_search_state.Run(get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good_set_file.py',
switch_to_bad='./switch_to_bad_set_file.py',
test_script='./is_good.py',
prune=True,
file_args=True,
verify=True)
self.check_output()
def test_noincremental_prune(self):
ret = binary_search_state.Run(
get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good_noinc_prune.py',
switch_to_bad='./switch_to_bad_noinc_prune.py',
test_script='./is_good_noinc_prune.py',
test_setup_script='./test_setup.py',
prune=True,
noincremental=True,
file_args=True,
verify=False)
self.assertEquals(ret, 0)
self.check_output()
def check_output(self):
_, out, _ = command_executer.GetCommandExecuter().RunCommandWOutput(
('grep "Bad items are: " logs/binary_search_tool_tester.py.out | '
'tail -n1'))
ls = out.splitlines()
self.assertEqual(len(ls), 1)
line = ls[0]
_, _, bad_ones = line.partition('Bad items are: ')
bad_ones = bad_ones.split()
expected_result = common.ReadObjectsFile()
# Reconstruct objects file from bad_ones and compare
actual_result = [0] * len(expected_result)
for bad_obj in bad_ones:
actual_result[int(bad_obj)] = 1
self.assertEqual(actual_result, expected_result)
class BisectStressTest(unittest.TestCase):
"""Stress tests for bisecting tool."""
def test_every_obj_bad(self):
amt = 25
gen_obj.Main(['--obj_num', str(amt), '--bad_obj_num', str(amt)])
ret = binary_search_state.Run(get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good.py',
switch_to_bad='./switch_to_bad.py',
test_script='./is_good.py',
prune=True,
file_args=True,
verify=False)
self.assertEquals(ret, 0)
self.check_output()
def test_every_index_is_bad(self):
amt = 25
for i in range(amt):
obj_list = ['0'] * amt
obj_list[i] = '1'
obj_list = ','.join(obj_list)
gen_obj.Main(['--obj_list', obj_list])
ret = binary_search_state.Run(get_initial_items='./gen_init_list.py',
switch_to_good='./switch_to_good.py',
switch_to_bad='./switch_to_bad.py',
test_setup_script='./test_setup.py',
test_script='./is_good.py',
prune=True,
file_args=True)
self.assertEquals(ret, 0)
self.check_output()
def check_output(self):
_, out, _ = command_executer.GetCommandExecuter().RunCommandWOutput(
('grep "Bad items are: " logs/binary_search_tool_tester.py.out | '
'tail -n1'))
ls = out.splitlines()
self.assertEqual(len(ls), 1)
line = ls[0]
_, _, bad_ones = line.partition('Bad items are: ')
bad_ones = bad_ones.split()
expected_result = common.ReadObjectsFile()
# Reconstruct objects file from bad_ones and compare
actual_result = [0] * len(expected_result)
for bad_obj in bad_ones:
actual_result[int(bad_obj)] = 1
self.assertEqual(actual_result, expected_result)
def Main(argv):
num_tests = 2
if len(argv) > 1:
num_tests = int(argv[1])
suite = unittest.TestSuite()
for _ in range(0, num_tests):
suite.addTest(BisectingUtilsTest())
suite.addTest(BisectingUtilsTest('test_arg_parse'))
suite.addTest(BisectingUtilsTest('test_test_setup_script'))
suite.addTest(BisectingUtilsTest('test_bad_test_setup_script'))
suite.addTest(BisectingUtilsTest('test_bad_save_state'))
suite.addTest(BisectingUtilsTest('test_save_state'))
suite.addTest(BisectingUtilsTest('test_load_state'))
suite.addTest(BisectingUtilsTest('test_tmp_cleanup'))
suite.addTest(BisectingUtilsTest('test_verify_fail'))
suite.addTest(BisectingUtilsTest('test_early_terminate'))
suite.addTest(BisectingUtilsTest('test_no_prune'))
suite.addTest(BisectingUtilsTest('test_set_file'))
suite.addTest(BisectingUtilsTest('test_noincremental_prune'))
suite.addTest(BisectTest('test_full_bisector'))
suite.addTest(BisectStressTest('test_every_obj_bad'))
suite.addTest(BisectStressTest('test_every_index_is_bad'))
runner = unittest.TextTestRunner()
runner.run(suite)
if __name__ == '__main__':
Main(sys.argv)