def test_parse_strings(self): in_data = tags.string_tag('stra', '') + \ tags.string_tag('strb', 'test string') parsed = parser.parse(in_data, lookup_tag) self.assertEqual(2, len(parsed)) self.assertEqual('', parser.first(parsed, 'stra')) self.assertEqual('test string', parser.first(parsed, 'strb'))
def test_parse_bool(self): in_data = tags.bool_tag('bola', True) + \ tags.bool_tag('bolb', False) parsed = parser.parse(in_data, lookup_tag) self.assertEqual(2, len(parsed)) self.assertTrue(parser.first(parsed, 'bola')) self.assertFalse(parser.first(parsed, 'bolb'))
def test_parse_binary_plist(): data = {"key": "value"} in_data = tags.raw_tag("plst", plistlib.dumps(data, fmt=plistlib.FMT_BINARY)) parsed = parser.parse(in_data, lookup_tag) assert 1 == len(parsed) assert data, parser.first(parsed, "plst")
def test_parse_binary_plist(self): data = {"key": "value"} in_data = tags.raw_tag("plst", plistlib.dumps(data, fmt=plistlib.FMT_BINARY)) parsed = parser.parse(in_data, lookup_tag) self.assertEqual(1, len(parsed)) self.assertEqual(data, parser.first(parsed, "plst"))
def test_parse_strings(): in_data = tags.string_tag("stra", "") + tags.string_tag( "strb", "test string") parsed = parser.parse(in_data, lookup_tag) assert 2 == len(parsed) assert "" == parser.first(parsed, "stra") assert "test string" == parser.first(parsed, "strb")
def test_parse_strings(self): in_data = tags.string_tag("stra", "") + tags.string_tag( "strb", "test string") parsed = parser.parse(in_data, lookup_tag) self.assertEqual(2, len(parsed)) self.assertEqual("", parser.first(parsed, "stra")) self.assertEqual("test string", parser.first(parsed, "strb"))
async def _do(self, action, retry=True, is_login=False, is_daap=True): resp, status = await action() if is_daap: resp = parser.parse(resp, lookup_tag) self._log_response(action.log_text, resp, is_daap) if 200 <= status < 300: return resp # Seems to be the case? if status == 500: raise exceptions.NotSupportedError( "command not supported at this stage") if not is_login: # If a request fails, try to login again before retrying _LOGGER.info("implicitly logged out, logging in again") await self.login() # Retry once if we got a bad response, otherwise bail out if retry: return await self._do(action, False, is_login=is_login, is_daap=is_daap) raise exceptions.AuthenticationError("failed to login: " + str(status))
async def handle_remote_button(self, request): """Handle remote control buttons.""" self._verify_auth_parameters(request) content = await request.content.read() parsed = parser.parse(content, tag_definitions.lookup_tag) self.last_button_pressed = self._convert_button(parsed) self.buttons_press_count += 1 return web.Response(status=200)
def test_simple_pprint(): elem = tags.uint8_tag("uuu8", 12) inner = tags.container_tag("conb", elem) in_data = tags.container_tag("cona", inner) parsed = parser.parse(in_data, lookup_tag) assert (parser.pprint(parsed, lookup_tag) == "cona: [container, container]\n" " conb: [container, container 2]\n" " uuu8: 12 [uint, uint8]\n")
def test_simple_pprint(self): elem = tags.uint8_tag('uuu8', 12) inner = tags.container_tag('conb', elem) in_data = tags.container_tag('cona', inner) parsed = parser.parse(in_data, lookup_tag) self.assertEqual(parser.pprint(parsed, lookup_tag), 'cona: [container, container]\n' + ' conb: [container, container 2]\n' + ' uuu8: 12 [uint, uint8]\n')
def test_parse_value_in_container(): in_data = tags.container_tag( "cona", tags.uint8_tag("uuu8", 36) + tags.uint16_tag("uu16", 13000)) parsed = parser.parse(in_data, lookup_tag) assert 1 == len(parsed) inner = parser.first(parsed, "cona") assert 2 == len(inner) assert 36 == parser.first(inner, "uuu8") assert 13000 == parser.first(inner, "uu16")
def test_parse_value_in_container(self): in_data = tags.container_tag( "cona", tags.uint8_tag("uuu8", 36) + tags.uint16_tag("uu16", 13000)) parsed = parser.parse(in_data, lookup_tag) self.assertEqual(1, len(parsed)) inner = parser.first(parsed, "cona") self.assertEqual(2, len(inner)) self.assertEqual(36, parser.first(inner, "uuu8")) self.assertEqual(13000, parser.first(inner, "uu16"))
async def test_pair_custom_pairing_guid(self): await self._start(pin_code=PIN_CODE2, pairing_guid=PAIRING_GUID2) url = self._pairing_url(PAIRING_CODE2) data, _ = await utils.simple_get(url, self.loop) # Verify content returned in pairingresponse parsed = parser.parse(data, tag_definitions.lookup_tag) self.assertEqual(parser.first(parsed, 'cmpa', 'cmpg'), int(PAIRING_GUID2, 16))
def test_parse_uint_of_various_lengths(): in_data = (tags.uint8_tag("uuu8", 12) + tags.uint16_tag("uu16", 37888) + tags.uint32_tag("uu32", 305419896) + tags.uint64_tag("uu64", 8982983289232)) parsed = parser.parse(in_data, lookup_tag) assert 4 == len(parsed) assert 12 == parser.first(parsed, "uuu8") assert 37888 == parser.first(parsed, "uu16") assert 305419896 == parser.first(parsed, "uu32") assert 8982983289232 == parser.first(parsed, "uu64")
def test_parse_value_in_container(self): in_data = tags.container_tag('cona', tags.uint8_tag('uuu8', 36) + tags.uint16_tag('uu16', 13000)) parsed = parser.parse(in_data, lookup_tag) self.assertEqual(1, len(parsed)) inner = parser.first(parsed, 'cona') self.assertEqual(2, len(inner)) self.assertEqual(36, parser.first(inner, 'uuu8')) self.assertEqual(13000, parser.first(inner, 'uu16'))
def test_parse_uint_of_various_lengths(self): in_data = (tags.uint8_tag("uuu8", 12) + tags.uint16_tag("uu16", 37888) + tags.uint32_tag("uu32", 305419896) + tags.uint64_tag("uu64", 8982983289232)) parsed = parser.parse(in_data, lookup_tag) self.assertEqual(4, len(parsed)) self.assertEqual(12, parser.first(parsed, "uuu8")) self.assertEqual(37888, parser.first(parsed, "uu16")) self.assertEqual(305419896, parser.first(parsed, "uu32")) self.assertEqual(8982983289232, parser.first(parsed, "uu64"))
def test_parse_uint_of_various_lengths(self): in_data = tags.uint8_tag('uuu8', 12) + \ tags.uint16_tag('uu16', 37888) + \ tags.uint32_tag('uu32', 305419896) + \ tags.uint64_tag('uu64', 8982983289232) parsed = parser.parse(in_data, lookup_tag) self.assertEqual(4, len(parsed)) self.assertEqual(12, parser.first(parsed, 'uuu8')) self.assertEqual(37888, parser.first(parsed, 'uu16')) self.assertEqual(305419896, parser.first(parsed, 'uu32')) self.assertEqual(8982983289232, parser.first(parsed, 'uu64'))
async def test_succesful_pairing(self): await self._start() url = self._pairing_url(PAIRING_CODE) data, _ = await utils.simple_get(url, self.loop) # Verify content returned in pairingresponse parsed = parser.parse(data, tag_definitions.lookup_tag) self.assertEqual(parser.first(parsed, 'cmpa', 'cmpg'), 1) self.assertEqual(parser.first(parsed, 'cmpa', 'cmnm'), REMOTE_NAME) self.assertEqual(parser.first(parsed, 'cmpa', 'cmty'), 'iPhone')
def test_simple_pprint(self): elem = tags.uint8_tag("uuu8", 12) inner = tags.container_tag("conb", elem) in_data = tags.container_tag("cona", inner) parsed = parser.parse(in_data, lookup_tag) self.assertEqual( parser.pprint(parsed, lookup_tag), "cona: [container, container]\n" + " conb: [container, container 2]\n" + " uuu8: 12 [uint, uint8]\n", )
def handle_set_parameter(self, request: HttpRequest) -> Optional[HttpResponse]: """Handle incoming SET_PARAMETER request.""" _LOGGER.debug("Received SET_PARAMETER: %s", request) if request.headers["Content-Type"] == "application/x-dmap-tagged": tags = parser.parse(request.body, lookup_tag) self.state.metadata.title = parser.first(tags, "mlit", "minm") self.state.metadata.artist = parser.first(tags, "mlit", "asar") self.state.metadata.album = parser.first(tags, "mlit", "asal") return HttpResponse("RTSP", "1.0", 200, "OK", {"CSeq": request.headers["CSeq"]}, b"")
async def test_pair_custom_pairing_guid(mock_pairing): pairing, zeroconf, service = await mock_pairing(pin_code=PIN_CODE2, pairing_guid=PAIRING_GUID2) url = pairing_url(zeroconf, PAIRING_CODE2) data, _ = await utils.simple_get(url) await pairing.finish() # Verify content returned in pairingresponse parsed = parser.parse(data, tag_definitions.lookup_tag) assert parser.first(parsed, "cmpa", "cmpg") == int(PAIRING_GUID2, 16) assert service.credentials == PAIRING_GUID2
async def test_succesful_pairing(mock_pairing): pairing, zeroconf, service = await mock_pairing() url = pairing_url(zeroconf, PAIRING_CODE) data, _ = await utils.simple_get(url) await pairing.finish() # Verify content returned in pairingresponse parsed = parser.parse(data, tag_definitions.lookup_tag) assert parser.first(parsed, "cmpa", "cmpg") == 1 assert parser.first(parsed, "cmpa", "cmnm") == REMOTE_NAME assert parser.first(parsed, "cmpa", "cmty") == "iPhone" assert service.credentials == PAIRING_GUID
async def perform_pairing(self, remote_name, expected_code, port): """Pair with a remote client. This will perform a GET-request to the specified port and hand over information to the client (pyatv) so that the pairing process can be completed. """ server = f"http://127.0.0.1:{port}" url = f"{server}/pairing?pairingcode={expected_code}&servicename=test" data, _ = await utils.simple_get(url) # Verify content returned in pairingresponse parsed = parser.parse(data, tag_definitions.lookup_tag) assert parser.first(parsed, "cmpa", "cmpg") == 1 assert parser.first(parsed, "cmpa", "cmnm") == remote_name assert parser.first(parsed, "cmpa", "cmty") == "iPhone"
async def perform_pairing(self, pairing_response, port): """Pair with a remote client. This will perform a GET-request to the specified port and hand over information to the client (pyatv) so that the pairing process can be completed. """ server = 'http://127.0.0.1:{}'.format(port) url = '{}/pairing?pairingcode={}&servicename=test'.format( server, pairing_response.pairing_code) data, _ = await utils.simple_get(url, self.loop) # Verify content returned in pairingresponse parsed = parser.parse(data, tag_definitions.lookup_tag) self.tc.assertEqual(parser.first(parsed, 'cmpa', 'cmpg'), 1) self.tc.assertEqual(parser.first(parsed, 'cmpa', 'cmnm'), pairing_response.remote_name) self.tc.assertEqual(parser.first(parsed, 'cmpa', 'cmty'), 'iPhone')
async def _do(self, action, retry=True, is_login=False, is_daap=True): resp, status = await action() if is_daap: resp = parser.parse(resp, lookup_tag) self._log_response(str(action.__name__) + ': %s', resp, is_daap) if 200 <= status < 300: return resp if not is_login: # If a request fails, try to login again before retrying _LOGGER.info('implicitly logged out, logging in again') await self.login() # Retry once if we got a bad response, otherwise bail out if retry: return (await self._do( action, False, is_login=is_login, is_daap=is_daap)) raise exceptions.AuthenticationError( 'failed to login: ' + str(status))
def _do(self, action, retry=True, is_login=False, is_daap=True): resp, status = yield from action() if is_daap: resp = parser.parse(resp, lookup_tag) self._log_response(str(action.__name__) + ': %s', resp, is_daap) if status >= 200 and status < 300: return resp # When a 403 is received we are likely logged out, so a new # login must be performed to get a new session id if status == 403: _LOGGER.info('implicitly logged out, logging in again') yield from self.login() # Retry once if we got a bad response, otherwise bail out if retry: return (yield from self._do(action, False, is_login=is_login, is_daap=is_daap)) else: raise exceptions.AuthenticationError('failed to login: ' + str(status))
def test_parse_bool(self): in_data = tags.bool_tag("bola", True) + tags.bool_tag("bolb", False) parsed = parser.parse(in_data, lookup_tag) self.assertEqual(2, len(parsed)) self.assertTrue(parser.first(parsed, "bola")) self.assertFalse(parser.first(parsed, "bolb"))
def test_parse_bytes(self): in_data = tags.raw_tag("byte", b"\x01\xAA\xFF\x45") parsed = parser.parse(in_data, lookup_tag) self.assertEqual(1, len(parsed)) self.assertEqual("0x01aaff45", parser.first(parsed, "byte"))
def test_extract_simplified_container(self): elem = tags.uint8_tag("uuu8", 12) inner = tags.container_tag("conb", elem) in_data = tags.container_tag("cona", inner) parsed = parser.parse(in_data, lookup_tag) self.assertEqual(12, parser.first(parsed, "cona", "conb", "uuu8"))
def test_ignore_value(self): elem = tags.uint8_tag("igno", 44) parsed = parser.parse(elem, lookup_tag) self.assertEqual(parser.first(parsed, "igno"), None)