#!/usr/bin/python
import errno
import logging
import os
import select
import shutil
import socket
import StringIO
import subprocess
import time
import unittest
import urllib2
import common
from autotest_lib.client.common_lib import base_utils, autotemp
from autotest_lib.client.common_lib.test_utils import mock
class test_read_one_line(unittest.TestCase):
def setUp(self):
self.god = mock.mock_god(ut=self)
self.god.stub_function(base_utils, "open")
def tearDown(self):
self.god.unstub_all()
def test_ip_to_long(self):
self.assertEqual(base_utils.ip_to_long('0.0.0.0'), 0)
self.assertEqual(base_utils.ip_to_long('255.255.255.255'), 4294967295)
self.assertEqual(base_utils.ip_to_long('192.168.0.1'), 3232235521)
self.assertEqual(base_utils.ip_to_long('1.2.4.8'), 16909320)
def test_long_to_ip(self):
self.assertEqual(base_utils.long_to_ip(0), '0.0.0.0')
self.assertEqual(base_utils.long_to_ip(4294967295), '255.255.255.255')
self.assertEqual(base_utils.long_to_ip(3232235521), '192.168.0.1')
self.assertEqual(base_utils.long_to_ip(16909320), '1.2.4.8')
def test_create_subnet_mask(self):
self.assertEqual(base_utils.create_subnet_mask(0), 0)
self.assertEqual(base_utils.create_subnet_mask(32), 4294967295)
self.assertEqual(base_utils.create_subnet_mask(25), 4294967168)
def test_format_ip_with_mask(self):
self.assertEqual(base_utils.format_ip_with_mask('192.168.0.1', 0),
'0.0.0.0/0')
self.assertEqual(base_utils.format_ip_with_mask('192.168.0.1', 32),
'192.168.0.1/32')
self.assertEqual(base_utils.format_ip_with_mask('192.168.0.1', 26),
'192.168.0.0/26')
self.assertEqual(base_utils.format_ip_with_mask('192.168.0.255', 26),
'192.168.0.192/26')
def create_test_file(self, contents):
test_file = StringIO.StringIO(contents)
base_utils.open.expect_call("filename", "r").and_return(test_file)
def test_reads_one_line_file(self):
self.create_test_file("abc\n")
self.assertEqual("abc", base_utils.read_one_line("filename"))
self.god.check_playback()
def test_strips_read_lines(self):
self.create_test_file("abc \n")
self.assertEqual("abc ", base_utils.read_one_line("filename"))
self.god.check_playback()
def test_drops_extra_lines(self):
self.create_test_file("line 1\nline 2\nline 3\n")
self.assertEqual("line 1", base_utils.read_one_line("filename"))
self.god.check_playback()
def test_works_on_empty_file(self):
self.create_test_file("")
self.assertEqual("", base_utils.read_one_line("filename"))
self.god.check_playback()
def test_works_on_file_with_no_newlines(self):
self.create_test_file("line but no newline")
self.assertEqual("line but no newline",
base_utils.read_one_line("filename"))
self.god.check_playback()
def test_preserves_leading_whitespace(self):
self.create_test_file(" has leading whitespace")
self.assertEqual(" has leading whitespace",
base_utils.read_one_line("filename"))
class test_write_one_line(unittest.TestCase):
def setUp(self):
self.god = mock.mock_god(ut=self)
self.god.stub_function(base_utils, "open")
def tearDown(self):
self.god.unstub_all()
def get_write_one_line_output(self, content):
test_file = mock.SaveDataAfterCloseStringIO()
base_utils.open.expect_call("filename", "w").and_return(test_file)
base_utils.write_one_line("filename", content)
self.god.check_playback()
return test_file.final_data
def test_writes_one_line_file(self):
self.assertEqual("abc\n", self.get_write_one_line_output("abc"))
def test_preserves_existing_newline(self):
self.assertEqual("abc\n", self.get_write_one_line_output("abc\n"))
def test_preserves_leading_whitespace(self):
self.assertEqual(" abc\n", self.get_write_one_line_output(" abc"))
def test_preserves_trailing_whitespace(self):
self.assertEqual("abc \n", self.get_write_one_line_output("abc "))
def test_handles_empty_input(self):
self.assertEqual("\n", self.get_write_one_line_output(""))
class test_open_write_close(unittest.TestCase):
def setUp(self):
self.god = mock.mock_god(ut=self)
self.god.stub_function(base_utils, "open")
def tearDown(self):
self.god.unstub_all()
def test_simple_functionality(self):
data = "\n\nwhee\n"
test_file = mock.SaveDataAfterCloseStringIO()
base_utils.open.expect_call("filename", "w").and_return(test_file)
base_utils.open_write_close("filename", data)
self.god.check_playback()
self.assertEqual(data, test_file.final_data)
class test_read_keyval(unittest.TestCase):
def setUp(self):
self.god = mock.mock_god(ut=self)
self.god.stub_function(base_utils, "open")
self.god.stub_function(os.path, "isdir")
self.god.stub_function(os.path, "exists")
def tearDown(self):
self.god.unstub_all()
def create_test_file(self, filename, contents):
test_file = StringIO.StringIO(contents)
os.path.exists.expect_call(filename).and_return(True)
base_utils.open.expect_call(filename).and_return(test_file)
def read_keyval(self, contents):
os.path.isdir.expect_call("file").and_return(False)
self.create_test_file("file", contents)
keyval = base_utils.read_keyval("file")
self.god.check_playback()
return keyval
def test_returns_empty_when_file_doesnt_exist(self):
os.path.isdir.expect_call("file").and_return(False)
os.path.exists.expect_call("file").and_return(False)
self.assertEqual({}, base_utils.read_keyval("file"))
self.god.check_playback()
def test_accesses_files_directly(self):
os.path.isdir.expect_call("file").and_return(False)
self.create_test_file("file", "")
base_utils.read_keyval("file")
self.god.check_playback()
def test_accesses_directories_through_keyval_file(self):
os.path.isdir.expect_call("dir").and_return(True)
self.create_test_file("dir/keyval", "")
base_utils.read_keyval("dir")
self.god.check_playback()
def test_values_are_rstripped(self):
keyval = self.read_keyval("a=b \n")
self.assertEquals(keyval, {"a": "b"})
def test_comments_are_ignored(self):
keyval = self.read_keyval("a=b # a comment\n")
self.assertEquals(keyval, {"a": "b"})
def test_integers_become_ints(self):
keyval = self.read_keyval("a=1\n")
self.assertEquals(keyval, {"a": 1})
self.assertEquals(int, type(keyval["a"]))
def test_float_values_become_floats(self):
keyval = self.read_keyval("a=1.5\n")
self.assertEquals(keyval, {"a": 1.5})
self.assertEquals(float, type(keyval["a"]))
def test_multiple_lines(self):
keyval = self.read_keyval("a=one\nb=two\n")
self.assertEquals(keyval, {"a": "one", "b": "two"})
def test_the_last_duplicate_line_is_used(self):
keyval = self.read_keyval("a=one\nb=two\na=three\n")
self.assertEquals(keyval, {"a": "three", "b": "two"})
def test_extra_equals_are_included_in_values(self):
keyval = self.read_keyval("a=b=c\n")
self.assertEquals(keyval, {"a": "b=c"})
def test_non_alphanumeric_keynames_are_rejected(self):
self.assertRaises(ValueError, self.read_keyval, "a$=one\n")
def test_underscores_are_allowed_in_key_names(self):
keyval = self.read_keyval("a_b=value\n")
self.assertEquals(keyval, {"a_b": "value"})
def test_dashes_are_allowed_in_key_names(self):
keyval = self.read_keyval("a-b=value\n")
self.assertEquals(keyval, {"a-b": "value"})
def test_empty_value_is_allowed(self):
keyval = self.read_keyval("a=\n")
self.assertEquals(keyval, {"a": ""})
class test_write_keyval(unittest.TestCase):
def setUp(self):
self.god = mock.mock_god(ut=self)
self.god.stub_function(base_utils, "open")
self.god.stub_function(os.path, "isdir")
def tearDown(self):
self.god.unstub_all()
def assertHasLines(self, value, lines):
vlines = value.splitlines()
vlines.sort()
self.assertEquals(vlines, sorted(lines))
def write_keyval(self, filename, dictionary, expected_filename=None,
type_tag=None):
if expected_filename is None:
expected_filename = filename
test_file = StringIO.StringIO()
self.god.stub_function(test_file, "close")
base_utils.open.expect_call(expected_filename, "a").and_return(test_file)
test_file.close.expect_call()
if type_tag is None:
base_utils.write_keyval(filename, dictionary)
else:
base_utils.write_keyval(filename, dictionary, type_tag)
return test_file.getvalue()
def write_keyval_file(self, dictionary, type_tag=None):
os.path.isdir.expect_call("file").and_return(False)
return self.write_keyval("file", dictionary, type_tag=type_tag)
def test_accesses_files_directly(self):
os.path.isdir.expect_call("file").and_return(False)
result = self.write_keyval("file", {"a": "1"})
self.assertEquals(result, "a=1\n")
def test_accesses_directories_through_keyval_file(self):
os.path.isdir.expect_call("dir").and_return(True)
result = self.write_keyval("dir", {"b": "2"}, "dir/keyval")
self.assertEquals(result, "b=2\n")
def test_numbers_are_stringified(self):
result = self.write_keyval_file({"c": 3})
self.assertEquals(result, "c=3\n")
def test_type_tags_are_excluded_by_default(self):
result = self.write_keyval_file({"d": "a string"})
self.assertEquals(result, "d=a string\n")
self.assertRaises(ValueError, self.write_keyval_file,
{"d{perf}": "a string"})
def test_perf_tags_are_allowed(self):
result = self.write_keyval_file({"a{perf}": 1, "b{perf}": 2},
type_tag="perf")
self.assertHasLines(result, ["a{perf}=1", "b{perf}=2"])
self.assertRaises(ValueError, self.write_keyval_file,
{"a": 1, "b": 2}, type_tag="perf")
def test_non_alphanumeric_keynames_are_rejected(self):
self.assertRaises(ValueError, self.write_keyval_file, {"x$": 0})
def test_underscores_are_allowed_in_key_names(self):
result = self.write_keyval_file({"a_b": "value"})
self.assertEquals(result, "a_b=value\n")
def test_dashes_are_allowed_in_key_names(self):
result = self.write_keyval_file({"a-b": "value"})
self.assertEquals(result, "a-b=value\n")
class test_is_url(unittest.TestCase):
def test_accepts_http(self):
self.assertTrue(base_utils.is_url("http://example.com"))
def test_accepts_ftp(self):
self.assertTrue(base_utils.is_url("ftp://ftp.example.com"))
def test_rejects_local_path(self):
self.assertFalse(base_utils.is_url("/home/username/file"))
def test_rejects_local_filename(self):
self.assertFalse(base_utils.is_url("filename"))
def test_rejects_relative_local_path(self):
self.assertFalse(base_utils.is_url("somedir/somesubdir/file"))
def test_rejects_local_path_containing_url(self):
self.assertFalse(base_utils.is_url("somedir/http://path/file"))
class test_urlopen(unittest.TestCase):
def setUp(self):
self.god = mock.mock_god(ut=self)
def tearDown(self):
self.god.unstub_all()
def stub_urlopen_with_timeout_comparison(self, test_func, expected_return,
*expected_args):
expected_args += (None,) * (2 - len(expected_args))
def urlopen(url, data=None):
self.assertEquals(expected_args, (url,data))
test_func(socket.getdefaulttimeout())
return expected_return
self.god.stub_with(urllib2, "urlopen", urlopen)
def stub_urlopen_with_timeout_check(self, expected_timeout,
expected_return, *expected_args):
def test_func(timeout):
self.assertEquals(timeout, expected_timeout)
self.stub_urlopen_with_timeout_comparison(test_func, expected_return,
*expected_args)
def test_timeout_set_during_call(self):
self.stub_urlopen_with_timeout_check(30, "retval", "url")
retval = base_utils.urlopen("url", timeout=30)
self.assertEquals(retval, "retval")
def test_timeout_reset_after_call(self):
old_timeout = socket.getdefaulttimeout()
self.stub_urlopen_with_timeout_check(30, None, "url")
try:
socket.setdefaulttimeout(1234)
base_utils.urlopen("url", timeout=30)
self.assertEquals(1234, socket.getdefaulttimeout())
finally:
socket.setdefaulttimeout(old_timeout)
def test_timeout_set_by_default(self):
def test_func(timeout):
self.assertTrue(timeout is not None)
self.stub_urlopen_with_timeout_comparison(test_func, None, "url")
base_utils.urlopen("url")
def test_args_are_untouched(self):
self.stub_urlopen_with_timeout_check(30, None, "http://url",
"POST data")
base_utils.urlopen("http://url", timeout=30, data="POST data")
class test_urlretrieve(unittest.TestCase):
def setUp(self):
self.god = mock.mock_god(ut=self)
def tearDown(self):
self.god.unstub_all()
def test_urlopen_passed_arguments(self):
self.god.stub_function(base_utils, "urlopen")
self.god.stub_function(base_utils.shutil, "copyfileobj")
self.god.stub_function(base_utils, "open")
url = "url"
dest = "somefile"
data = object()
timeout = 10
src_file = self.god.create_mock_class(file, "file")
dest_file = self.god.create_mock_class(file, "file")
(base_utils.urlopen.expect_call(url, data=data, timeout=timeout)
.and_return(src_file))
base_utils.open.expect_call(dest, "wb").and_return(dest_file)
base_utils.shutil.copyfileobj.expect_call(src_file, dest_file)
dest_file.close.expect_call()
src_file.close.expect_call()
base_utils.urlretrieve(url, dest, data=data, timeout=timeout)
self.god.check_playback()
class test_merge_trees(unittest.TestCase):
# a some path-handling helper functions
def src(self, *path_segments):
return os.path.join(self.src_tree.name, *path_segments)
def dest(self, *path_segments):
return os.path.join(self.dest_tree.name, *path_segments)
def paths(self, *path_segments):
return self.src(*path_segments), self.dest(*path_segments)
def assertFileEqual(self, *path_segments):
src, dest = self.paths(*path_segments)
self.assertEqual(True, os.path.isfile(src))
self.assertEqual(True, os.path.isfile(dest))
self.assertEqual(os.path.getsize(src), os.path.getsize(dest))
self.assertEqual(open(src).read(), open(dest).read())
def assertFileContents(self, contents, *path_segments):
dest = self.dest(*path_segments)
self.assertEqual(True, os.path.isfile(dest))
self.assertEqual(os.path.getsize(dest), len(contents))
self.assertEqual(contents, open(dest).read())
def setUp(self):
self.src_tree = autotemp.tempdir(unique_id='utilsrc')
self.dest_tree = autotemp.tempdir(unique_id='utilsdest')
# empty subdirs
os.mkdir(self.src("empty"))
os.mkdir(self.dest("empty"))
def tearDown(self):
self.src_tree.clean()
self.dest_tree.clean()
def test_both_dont_exist(self):
base_utils.merge_trees(*self.paths("empty"))
def test_file_only_at_src(self):
print >> open(self.src("src_only"), "w"), "line 1"
base_utils.merge_trees(*self.paths("src_only"))
self.assertFileEqual("src_only")
def test_file_only_at_dest(self):
print >> open(self.dest("dest_only"), "w"), "line 1"
base_utils.merge_trees(*self.paths("dest_only"))
self.assertEqual(False, os.path.exists(self.src("dest_only")))
self.assertFileContents("line 1\n", "dest_only")
def test_file_at_both(self):
print >> open(self.dest("in_both"), "w"), "line 1"
print >> open(self.src("in_both"), "w"), "line 2"
base_utils.merge_trees(*self.paths("in_both"))
self.assertFileContents("line 1\nline 2\n", "in_both")
def test_directory_with_files_in_both(self):
print >> open(self.dest("in_both"), "w"), "line 1"
print >> open(self.src("in_both"), "w"), "line 3"
base_utils.merge_trees(*self.paths())
self.assertFileContents("line 1\nline 3\n", "in_both")
def test_directory_with_mix_of_files(self):
print >> open(self.dest("in_dest"), "w"), "dest line"
print >> open(self.src("in_src"), "w"), "src line"
base_utils.merge_trees(*self.paths())
self.assertFileContents("dest line\n", "in_dest")
self.assertFileContents("src line\n", "in_src")
def test_directory_with_subdirectories(self):
os.mkdir(self.src("src_subdir"))
print >> open(self.src("src_subdir", "subfile"), "w"), "subdir line"
os.mkdir(self.src("both_subdir"))
os.mkdir(self.dest("both_subdir"))
print >> open(self.src("both_subdir", "subfile"), "w"), "src line"
print >> open(self.dest("both_subdir", "subfile"), "w"), "dest line"
base_utils.merge_trees(*self.paths())
self.assertFileContents("subdir line\n", "src_subdir", "subfile")
self.assertFileContents("dest line\nsrc line\n", "both_subdir",
"subfile")
class test_get_relative_path(unittest.TestCase):
def test_not_absolute(self):
self.assertRaises(AssertionError, base_utils.get_relative_path, "a", "b")
def test_same_dir(self):
self.assertEqual(base_utils.get_relative_path("/a/b/c", "/a/b"), "c")
def test_forward_dir(self):
self.assertEqual(base_utils.get_relative_path("/a/b/c/d", "/a/b"), "c/d")
def test_previous_dir(self):
self.assertEqual(base_utils.get_relative_path("/a/b", "/a/b/c/d"), "../..")
def test_parallel_dir(self):
self.assertEqual(base_utils.get_relative_path("/a/c/d", "/a/b/c/d"),
"../../../c/d")
class test_sh_escape(unittest.TestCase):
def _test_in_shell(self, text):
escaped_text = base_utils.sh_escape(text)
proc = subprocess.Popen('echo "%s"' % escaped_text, shell=True,
stdin=open(os.devnull, 'r'),
stdout=subprocess.PIPE,
stderr=open(os.devnull, 'w'))
stdout, _ = proc.communicate()
self.assertEqual(proc.returncode, 0)
self.assertEqual(stdout[:-1], text)
def test_normal_string(self):
self._test_in_shell('abcd')
def test_spaced_string(self):
self._test_in_shell('abcd efgh')
def test_dollar(self):
self._test_in_shell('$')
def test_single_quote(self):
self._test_in_shell('\'')
def test_single_quoted_string(self):
self._test_in_shell('\'efgh\'')
def test_string_with_single_quote(self):
self._test_in_shell("a'b")
def test_string_with_escaped_single_quote(self):
self._test_in_shell(r"a\'b")
def test_double_quote(self):
self._test_in_shell('"')
def test_double_quoted_string(self):
self._test_in_shell('"abcd"')
def test_backtick(self):
self._test_in_shell('`')
def test_backticked_string(self):
self._test_in_shell('`jklm`')
def test_backslash(self):
self._test_in_shell('\\')
def test_backslashed_special_characters(self):
self._test_in_shell('\\$')
self._test_in_shell('\\"')
self._test_in_shell('\\\'')
self._test_in_shell('\\`')
def test_backslash_codes(self):
self._test_in_shell('\\n')
self._test_in_shell('\\r')
self._test_in_shell('\\t')
self._test_in_shell('\\v')
self._test_in_shell('\\b')
self._test_in_shell('\\a')
self._test_in_shell('\\000')
def test_real_newline(self):
self._test_in_shell('\n')
self._test_in_shell('\\\n')
class test_sh_quote_word(test_sh_escape):
"""Run tests on sh_quote_word.
Inherit from test_sh_escape to get the same tests to run on both.
"""
def _test_in_shell(self, text):
quoted_word = base_utils.sh_quote_word(text)
echoed_value = subprocess.check_output('echo %s' % quoted_word,
shell=True)
self.assertEqual(echoed_value, text + '\n')
class test_nested_sh_quote_word(test_sh_quote_word):
"""Run nested tests on sh_quote_word.
Inherit from test_sh_quote_word to get the same tests to run on both.
"""
def _test_in_shell(self, text):
command = 'echo ' + base_utils.sh_quote_word(text)
nested_command = 'echo ' + base_utils.sh_quote_word(command)
produced_command = subprocess.check_output(nested_command, shell=True)
echoed_value = subprocess.check_output(produced_command, shell=True)
self.assertEqual(echoed_value, text + '\n')
class test_run(unittest.TestCase):
"""
Test the base_utils.run() function.
Note: This test runs simple external commands to test the base_utils.run()
API without assuming implementation details.
"""
def setUp(self):
self.god = mock.mock_god(ut=self)
self.god.stub_function(base_utils.logging, 'warning')
self.god.stub_function(base_utils.logging, 'debug')
def tearDown(self):
self.god.unstub_all()
def __check_result(self, result, command, exit_status=0, stdout='',
stderr=''):
self.assertEquals(result.command, command)
self.assertEquals(result.exit_status, exit_status)
self.assertEquals(result.stdout, stdout)
self.assertEquals(result.stderr, stderr)
def test_default_simple(self):
cmd = 'echo "hello world"'
# expect some king of logging.debug() call but don't care about args
base_utils.logging.debug.expect_any_call()
self.__check_result(base_utils.run(cmd), cmd, stdout='hello world\n')
def test_default_failure(self):
cmd = 'exit 11'
try:
base_utils.run(cmd, verbose=False)
except base_utils.error.CmdError, err:
self.__check_result(err.result_obj, cmd, exit_status=11)
def test_ignore_status(self):
cmd = 'echo error >&2 && exit 11'
self.__check_result(base_utils.run(cmd, ignore_status=True, verbose=False),
cmd, exit_status=11, stderr='error\n')
def test_timeout(self):
# we expect a logging.warning() message, don't care about the contents
base_utils.logging.warning.expect_any_call()
try:
base_utils.run('echo -n output && sleep 10', timeout=1, verbose=False)
except base_utils.error.CmdError, err:
self.assertEquals(err.result_obj.stdout, 'output')
def test_stdout_stderr_tee(self):
cmd = 'echo output && echo error >&2'
stdout_tee = StringIO.StringIO()
stderr_tee = StringIO.StringIO()
self.__check_result(base_utils.run(
cmd, stdout_tee=stdout_tee, stderr_tee=stderr_tee,
verbose=False), cmd, stdout='output\n', stderr='error\n')
self.assertEqual(stdout_tee.getvalue(), 'output\n')
self.assertEqual(stderr_tee.getvalue(), 'error\n')
def test_stdin_string(self):
cmd = 'cat'
self.__check_result(base_utils.run(cmd, verbose=False, stdin='hi!\n'),
cmd, stdout='hi!\n')
def test_safe_args(self):
# NOTE: The string in expected_quoted_cmd depends on the internal
# implementation of shell quoting which is used by base_utils.run(),
# in this case, sh_quote_word().
expected_quoted_cmd = "echo 'hello \"world' again"
self.__check_result(base_utils.run(
'echo', verbose=False, args=('hello "world', 'again')),
expected_quoted_cmd, stdout='hello "world again\n')
def test_safe_args_given_string(self):
self.assertRaises(TypeError, base_utils.run, 'echo', args='hello')
def test_wait_interrupt(self):
"""Test that we actually select twice if the first one returns EINTR."""
base_utils.logging.debug.expect_any_call()
bg_job = base_utils.BgJob('echo "hello world"')
bg_job.result.exit_status = 0
self.god.stub_function(base_utils.select, 'select')
base_utils.select.select.expect_any_call().and_raises(
select.error(errno.EINTR, 'Select interrupted'))
base_utils.logging.warning.expect_any_call()
base_utils.select.select.expect_any_call().and_return(
([bg_job.sp.stdout, bg_job.sp.stderr], [], None))
base_utils.logging.warning.expect_any_call()
self.assertFalse(
base_utils._wait_for_commands([bg_job], time.time(), None))
class test_compare_versions(unittest.TestCase):
def test_zerofill(self):
self.assertEqual(base_utils.compare_versions('1.7', '1.10'), -1)
self.assertEqual(base_utils.compare_versions('1.222', '1.3'), 1)
self.assertEqual(base_utils.compare_versions('1.03', '1.3'), 0)
def test_unequal_len(self):
self.assertEqual(base_utils.compare_versions('1.3', '1.3.4'), -1)
self.assertEqual(base_utils.compare_versions('1.3.1', '1.3'), 1)
def test_dash_delimited(self):
self.assertEqual(base_utils.compare_versions('1-2-3', '1-5-1'), -1)
self.assertEqual(base_utils.compare_versions('1-2-1', '1-1-1'), 1)
self.assertEqual(base_utils.compare_versions('1-2-4', '1-2-4'), 0)
def test_alphabets(self):
self.assertEqual(base_utils.compare_versions('m.l.b', 'n.b.a'), -1)
self.assertEqual(base_utils.compare_versions('n.b.a', 'm.l.b'), 1)
self.assertEqual(base_utils.compare_versions('abc.e', 'abc.e'), 0)
def test_mix_symbols(self):
self.assertEqual(base_utils.compare_versions('k-320.1', 'k-320.3'), -1)
self.assertEqual(base_utils.compare_versions('k-231.5', 'k-231.1'), 1)
self.assertEqual(base_utils.compare_versions('k-231.1', 'k-231.1'), 0)
self.assertEqual(base_utils.compare_versions('k.320-1', 'k.320-3'), -1)
self.assertEqual(base_utils.compare_versions('k.231-5', 'k.231-1'), 1)
self.assertEqual(base_utils.compare_versions('k.231-1', 'k.231-1'), 0)
class test_args_to_dict(unittest.TestCase):
def test_no_args(self):
result = base_utils.args_to_dict([])
self.assertEqual({}, result)
def test_matches(self):
result = base_utils.args_to_dict(['aBc:DeF', 'SyS=DEf', 'XY_Z:',
'F__o0O=', 'B8r:=:=', '_bAZ_=:=:'])
self.assertEqual(result, {'abc':'DeF', 'sys':'DEf', 'xy_z':'',
'f__o0o':'', 'b8r':'=:=', '_baz_':':=:'})
def test_unmatches(self):
# Temporarily shut warning messages from args_to_dict() when an argument
# doesn't match its pattern.
logger = logging.getLogger()
saved_level = logger.level
logger.setLevel(logging.ERROR)
try:
result = base_utils.args_to_dict(['ab-c:DeF', '--SyS=DEf', 'a*=b', 'a*b',
':VAL', '=VVV', 'WORD'])
self.assertEqual({}, result)
finally:
# Restore level.
logger.setLevel(saved_level)
class test_get_random_port(unittest.TestCase):
def do_bind(self, port, socket_type, socket_proto):
s = socket.socket(socket.AF_INET, socket_type, socket_proto)
s.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
s.bind(('', port))
return s
def test_get_port(self):
for _ in xrange(100):
p = base_utils.get_unused_port()
s = self.do_bind(p, socket.SOCK_STREAM, socket.IPPROTO_TCP)
self.assert_(s.getsockname())
s = self.do_bind(p, socket.SOCK_DGRAM, socket.IPPROTO_UDP)
self.assert_(s.getsockname())
if __name__ == "__main__":
unittest.main()