def test_query(self): result = Client.query(None) self.assertEqual(0, len(result)) dic = { 'str_test': 'test', 'bytes_test': b'test', 'none_test': None, 'int_test': 1 } result = Client.query(dic) self.assertEqual('test', result.get('str_test')) self.assertEqual('test', result.get('bytes_test')) self.assertIsNone(result.get("none_test")) self.assertEqual("1", result.get("int_test")) with open(os.path.join(module_path, "test_open.txt")) as f: fl = [1, None] sub_dict_fl = { 'none_test': None, 'int_test': 2, 'str_test': 'test', 'file_test': f } fl.append(sub_dict_fl) sl = [1, None] fl.append(sl) dic['list'] = fl result = Client.query(dic) self.assertEqual("1", result.get("list.1")) self.assertIsNone(result.get("list.2")) self.assertEqual("1", result.get("int_test")) self.assertEqual("2", result.get("list.3.int_test")) self.assertIsNone(result.get("list.3.none_test")) self.assertEqual("test", result.get("list.3.str_test")) self.assertEqual("1", result.get("list.4.1")) self.assertEqual(None, result.get("list.3.file_test")) sub_map_fd = {'none_test': None, 'int_test': 2, 'str_test': 'test'} fd = { 'first_map_map': sub_map_fd, 'first_map_list': sl, 'none_test': None, 'int_test': 2, 'str_test': 'test' } dic['map'] = fd result = Client.query(dic) self.assertEqual("1", result.get("map.first_map_list.1")) self.assertIsNone(result.get("map.none_test")) self.assertEqual("2", result.get("map.int_test")) self.assertEqual("test", result.get("map.str_test")) self.assertIsNone(result.get("map.first_map_map.none_test")) self.assertEqual("2", result.get("map.first_map_map.int_test")) self.assertEqual("test", result.get("map.first_map_map.str_test"))
def do_request( self, version: str, action: str, protocol: str, method: str, pathname: str, request: dict, headers: Dict[str, str], runtime: util_models.RuntimeOptions, ) -> dict: """ Encapsulate the request and invoke the network @param action: api name @param protocol: http or https @param method: e.g. GET @param pathname: pathname of every api @param request: which contains request params @param runtime: which controls some details of call api, such as retry times @return: the response """ runtime.validate() _runtime = { 'timeouted': 'retry', 'readTimeout': UtilClient.default_number(runtime.read_timeout, self._read_timeout), 'connectTimeout': UtilClient.default_number(runtime.connect_timeout, self._connect_timeout), 'httpProxy': UtilClient.default_string(runtime.http_proxy, self._http_proxy), 'httpsProxy': UtilClient.default_string(runtime.https_proxy, self._https_proxy), 'noProxy': UtilClient.default_string(runtime.no_proxy, self._no_proxy), 'maxIdleConns': UtilClient.default_number(runtime.max_idle_conns, self._max_idle_conns), 'maxIdleTimeMillis': self._max_idle_time_millis, 'keepAliveDurationMillis': self._keep_alive_duration_millis, 'maxRequests': self._max_requests, 'maxRequestsPerHost': self._max_requests_per_host, 'retry': { 'retryable': runtime.autoretry, 'maxAttempts': UtilClient.default_number(runtime.max_attempts, 3) }, 'backoff': { 'policy': UtilClient.default_string(runtime.backoff_policy, 'no'), 'period': UtilClient.default_number(runtime.backoff_period, 1) }, 'ignoreSSL': runtime.ignore_ssl } _last_request = None _last_exception = None _now = time.time() _retry_times = 0 while TeaCore.allow_retry(_runtime.get('retry'), _retry_times, _now): if _retry_times > 0: _backoff_time = TeaCore.get_backoff_time( _runtime.get('backoff'), _retry_times) if _backoff_time > 0: TeaCore.sleep(_backoff_time) _retry_times = _retry_times + 1 try: _request = TeaRequest() _request.protocol = UtilClient.default_string( self._protocol, protocol) _request.method = method _request.pathname = pathname _request.query = { 'method': action, 'version': version, 'sign_type': 'HmacSHA1', 'req_time': AntchainUtils.get_timestamp(), 'req_msg_id': AntchainUtils.get_nonce(), 'access_key': self._access_key_id, 'base_sdk_version': 'TeaSDK-2.0', 'sdk_version': '1.1.8' } if not UtilClient.empty(self._security_token): _request.query['security_token'] = self._security_token _request.headers = TeaCore.merge( { 'host': UtilClient.default_string( self._endpoint, 'openapi.antchain.antgroup.com'), 'user-agent': UtilClient.get_user_agent(self._user_agent) }, headers) tmp = UtilClient.anyify_map_value(RPCUtilClient.query(request)) _request.body = UtilClient.to_form_string(tmp) _request.headers[ 'content-type'] = 'application/x-www-form-urlencoded' signed_param = TeaCore.merge(_request.query, RPCUtilClient.query(request)) _request.query['sign'] = AntchainUtils.get_signature( signed_param, self._access_key_secret) _last_request = _request _response = TeaCore.do_action(_request, _runtime) raw = UtilClient.read_as_string(_response.body) obj = UtilClient.parse_json(raw) res = UtilClient.assert_as_map(obj) resp = UtilClient.assert_as_map(res.get('response')) if AntchainUtils.has_error(raw, self._access_key_secret): raise TeaException({ 'message': resp.get('result_msg'), 'data': resp, 'code': resp.get('result_code') }) return resp except Exception as e: if TeaCore.is_retryable(e): _last_exception = e continue raise e raise UnretryableException(_last_request, _last_exception)
def do_request(self, version, action, protocol, method, pathname, request, runtime): """ Encapsulate the request and invoke the network :type action: str :param action: api name :type protocol: str :param protocol: http or https :type method: str :param method: e.g. GET :type pathname: str :param pathname: pathname of every api :type request: dict :param request: which contains request params :param runtime: which controls some details of call api, such as retry times :return: the response """ runtime.validate() _runtime = { "timeouted": "retry", "readTimeout": UtilClient.default_number(runtime.read_timeout, self._read_timeout), "connectTimeout": UtilClient.default_number(runtime.connect_timeout, self._connect_timeout), "httpProxy": UtilClient.default_string(runtime.http_proxy, self._http_proxy), "httpsProxy": UtilClient.default_string(runtime.https_proxy, self._https_proxy), "noProxy": UtilClient.default_string(runtime.no_proxy, self._no_proxy), "maxIdleConns": UtilClient.default_number(runtime.max_idle_conns, self._max_idle_conns), "retry": { "retryable": runtime.autoretry, "maxAttempts": UtilClient.default_number(runtime.max_attempts, 3) }, "backoff": { "policy": UtilClient.default_string(runtime.backoff_policy, "no"), "period": UtilClient.default_number(runtime.backoff_period, 1) }, "ignoreSSL": runtime.ignore_ssl } _last_request = None _last_exception = None _now = time.time() _retry_times = 0 while TeaCore.allow_retry(_runtime.get('retry'), _retry_times, _now): if _retry_times > 0: _backoff_time = TeaCore.get_backoff_time(_runtime.get('backoff'), _retry_times) if _backoff_time > 0: TeaCore.sleep(_backoff_time) _retry_times = _retry_times + 1 try: _request = TeaRequest() _request.protocol = UtilClient.default_string(self._protocol, protocol) _request.method = method _request.pathname = pathname _request.query = { "method": action, "version": version, "sign_type": "HmacSHA1", "req_time": AlipayUtilClient.get_timestamp(), "req_msg_id": UtilClient.get_nonce(), "access_key": self._access_key_id, "charset": "UTF-8", "baseSdkVersion": "Tea-SDK", "sdkVersion": "Tea-SDK-20200804" } if not UtilClient.empty(self._security_token): _request.query["security_token"] = self._security_token _request.headers = { "host": self._endpoint, "user-agent": self.get_user_agent() } tmp = UtilClient.anyify_map_value(RPCUtilClient.query(request)) _request.body = UtilClient.to_form_string(tmp) _request.headers["content-type"] = "application/x-www-form-urlencoded" signed_param = TeaCore.merge(_request.query, RPCUtilClient.query(request)) _request.query["sign"] = AlipayUtilClient.get_signature(signed_param, self._access_key_secret) _last_request = _request _response = TeaCore.do_action(_request, _runtime) obj = UtilClient.read_as_json(_response.body) res = UtilClient.assert_as_map(obj) resp = UtilClient.assert_as_map(res.get('response')) if AlipayUtilClient.has_error(res): raise TeaException({ "message": resp.get('result_msg'), "data": resp, "code": resp.get('result_code') }) return resp except Exception as e: if TeaCore.is_retryable(e): _last_exception = e continue raise e raise UnretryableException(_last_request, _last_exception)
def do_request(self, action, protocol, method, version, auth_type, query, body, runtime): """ Encapsulate the request and invoke the network @type action: unicode @param action: api name @type protocol: unicode @param protocol: http or https @type method: unicode @param method: e.g. GET @type version: unicode @param version: product version @type auth_type: unicode @param auth_type: when authType is Anonymous, the signature will not be calculate @param pathname: pathname of every api @type query: dict @param query: which contains request params @type body: dict @param body: content of request @param runtime: which controls some details of call api, such as retry times @rtype: dict @return: the response """ runtime.validate() _runtime = { 'timeouted': 'retry', 'readTimeout': UtilClient.default_number(runtime.read_timeout, self._read_timeout), 'connectTimeout': UtilClient.default_number(runtime.connect_timeout, self._connect_timeout), 'httpProxy': UtilClient.default_string(runtime.http_proxy, self._http_proxy), 'httpsProxy': UtilClient.default_string(runtime.https_proxy, self._https_proxy), 'noProxy': UtilClient.default_string(runtime.no_proxy, self._no_proxy), 'maxIdleConns': UtilClient.default_number(runtime.max_idle_conns, self._max_idle_conns), 'retry': { 'retryable': runtime.autoretry, 'maxAttempts': UtilClient.default_number(runtime.max_attempts, 3) }, 'backoff': { 'policy': UtilClient.default_string(runtime.backoff_policy, 'no'), 'period': UtilClient.default_number(runtime.backoff_period, 1) }, 'ignoreSSL': runtime.ignore_ssl } _last_request = None _last_exception = None _now = time.time() _retry_times = 0 while TeaCore.allow_retry(_runtime.get('retry'), _retry_times, _now): if _retry_times > 0: _backoff_time = TeaCore.get_backoff_time(_runtime.get('backoff'), _retry_times) if _backoff_time > 0: TeaCore.sleep(_backoff_time) _retry_times = _retry_times + 1 try: _request = TeaRequest() _request.protocol = UtilClient.default_string(self._protocol, protocol) _request.method = method _request.pathname = '/' _request.query = RPCUtilClient.query(TeaCore.merge({ 'Action': action, 'Format': 'json', 'Timestamp': RPCUtilClient.get_timestamp(), 'Version': version, 'SignatureNonce': UtilClient.get_nonce() }, query)) # endpoint is setted in product client _request.headers = { 'x-acs-version': version, 'x-acs-action': action, 'host': self._endpoint, 'user-agent': self.get_user_agent() } if not UtilClient.is_unset(body): tmp = UtilClient.anyify_map_value(RPCUtilClient.query(body)) _request.body = UtilClient.to_form_string(tmp) _request.headers['content-type'] = 'application/x-www-form-urlencoded' if not UtilClient.equal_string(auth_type, 'Anonymous'): access_key_id = self.get_access_key_id() access_key_secret = self.get_access_key_secret() security_token = self.get_security_token() if not UtilClient.empty(security_token): _request.query['SecurityToken'] = security_token _request.query['SignatureMethod'] = 'HMAC-SHA1' _request.query['SignatureVersion'] = '1.0' _request.query['AccessKeyId'] = access_key_id signed_param = TeaCore.merge(_request.query, RPCUtilClient.query(body)) _request.query['Signature'] = RPCUtilClient.get_signature_v1(signed_param, _request.method, access_key_secret) _last_request = _request _response = TeaCore.do_action(_request, _runtime) obj = UtilClient.read_as_json(_response.body) res = UtilClient.assert_as_map(obj) if UtilClient.is_4xx(_response.status_code) or UtilClient.is_5xx(_response.status_code): raise TeaException({ 'code': '%s' % TeaConverter.to_unicode(self.default_any(res.get('Code'), res.get('code'))), 'message': 'code: %s, %s request id: %s' % (TeaConverter.to_unicode(_response.status_code), TeaConverter.to_unicode(self.default_any(res.get('Message'), res.get('message'))), TeaConverter.to_unicode(self.default_any(res.get('RequestId'), res.get('requestId')))), 'data': res }) return res except Exception as e: if TeaCore.is_retryable(e): _last_exception = e continue raise e raise UnretryableException(_last_request, _last_exception)