from onionshare import * import tempfile def test_get_platform_on_tails(): "get_platform() returns 'Tails' when hostname is 'amnesia'" onionshare.platform.uname = lambda: ('Linux', 'amnesia', '3.14-1-amd64', '#1 SMP Debian 3.14.4-1 (2014-05-13)', 'x86_64', '') assert get_platform() == 'Tails' def test_get_platform_returns_platform_system(): "get_platform() returns platform.system() when ONIONSHARE_PLATFORM is not defined" onionshare.platform.system = lambda: 'Sega Saturn' assert get_platform() == 'Sega Saturn' class MockSubprocess(): def __init__(self): self.last_call = None def call(self, args): self.last_call = args def last_call_args(self): return self.last_call def test_tails_open_port(): "tails_open_port() calls iptables with ACCEPT arg" onionshare.get_platform = lambda: 'Tails' onionshare.strings = {'punching_a_hole': ''} mock_subprocess = MockSubprocess() onionshare.subprocess = mock_subprocess onionshare.tails_open_port('port') expected_call = [ '/sbin/iptables', '-I', 'OUTPUT', '-o', 'lo', '-p', 'tcp', '--dport', 'port', '-j', 'ACCEPT' ] actual_call = mock_subprocess.last_call_args() assert actual_call == expected_call def test_tails_close_port(): "tails_close_port() calls iptables with REJECT arg" onionshare.get_platform = lambda: 'Tails' onionshare.strings = {'closing_hole': ''} mock_subprocess = MockSubprocess() onionshare.subprocess = mock_subprocess onionshare.tails_close_port('port') expected_call = [ '/sbin/iptables', '-I', 'OUTPUT', '-o', 'lo', '-p', 'tcp', '--dport', 'port', '-j', 'REJECT' ] actual_call = mock_subprocess.last_call_args() assert actual_call == expected_call def test_load_strings_defaults_to_english(): "load_strings() loads English by default" locale.getdefaultlocale = lambda: ('en_US', 'UTF-8') load_strings() assert onionshare.strings['calculating_sha1'] == "Calculating SHA1 checksum." def test_load_strings_loads_other_languages(): "load_strings() loads other languages in different locales" locale.getdefaultlocale = lambda: ('fr_FR', 'UTF-8') load_strings("fr") assert onionshare.strings['calculating_sha1'] == "Calculer un hachage SHA-1." def test_generate_slug_length(): "generates a 32-character slug" assert len(slug) == 32 def test_generate_slug_characters(): "generates a hex slug" def is_hex(string): hex_alphabet = "01234556789abcdef" return all(char in hex_alphabet for char in string) assert is_hex(slug) def test_starts_with_empty_strings(): "creates an empty strings dict by default" assert strings == {} def test_choose_port_returns_a_port_number(): "choose_port() returns a port number" assert 1024 <= choose_port() <= 65535 def test_choose_port_returns_an_open_port(): "choose_port() returns an open port" port = choose_port() socket.socket().bind(("127.0.0.1", port)) def write_tempfile(text): tempdir = tempfile.mkdtemp() path = tempdir + "/test-file.txt" with open(path, "w") as f: f.write(text) f.close() return path def test_filehash_returns_correct_hash(): "file_crunching() returns correct hash" text = """ If you want a picture of the future, imagine a boot stamping on an encrypted, redundant, distributed filesystem -- forever. """ tempfile = write_tempfile(text) filehash, _ = file_crunching(tempfile) assert filehash == 'bc004fe72e6530a545570b4c6ce76bcb78ea526b' def test_filehash_returns_correct_size(): "file_crunching() returns correct size" text = "AUSCANNZUKUS has always been at war with Eastasia." tempfile = write_tempfile(text) _, filesize = file_crunching(tempfile) assert filesize == 50