def client(connection_param): client = Client(partition_aware=True, timeout=CLIENT_SOCKET_TIMEOUT) try: client.connect(connection_param) yield client finally: client.close()
def client(): client = Client(partition_aware=True) try: client.connect('127.0.0.1', 10801) yield client finally: client.close()
def client(): client = Client() try: client.connect('127.0.0.1', 10801) yield client finally: client.close()
def client(): client = Client(event_listeners=[QueryRouteListener()]) try: client.connect('127.0.0.1', 10801) yield client finally: client.close() events.clear()
def client(): client = Client(partition_aware=True, event_listeners=[QueryRouteListener()]) try: client.connect(client_connection_string) yield client finally: requests.clear() client.close()
def sync_client_connect(): hs_to_listener = HandshakeTimeoutListener() client = Client(handshake_timeout=3.0, event_listeners=[hs_to_listener]) start = time.monotonic() try: client.connect(DEFAULT_HOST, DEFAULT_PORT) except Exception as e: return time.monotonic() - start, hs_to_listener.events, e return time.monotonic() - start, hs_to_listener.events, None
def client(request, connection_param): client = Client(partition_aware=request.param == 'with-partition-awareness') try: client.connect(connection_param) if not client.protocol_context.is_transactions_supported(): pytest.skip(f'skipped {request.node.name}, transaction api is not supported.') else: yield client finally: client.close()
def sync_client_connect(): hs_to_listener = HandshakeTimeoutListener() client = Client(timeout=5.0, handshake_timeout=3.0, event_listeners=[hs_to_listener]) start = time.monotonic() try: client.connect(DEFAULT_HOST, DEFAULT_PORT) assert all(n.alive for n in client._nodes) client.get_cache_names() except Exception as e: return time.monotonic() - start, hs_to_listener.events, e return time.monotonic() - start, hs_to_listener.events, None
def inner(): client = Client(**kwargs) with client.connect("127.0.0.1", 10801): with get_or_create_cache(client, 'test-cache') as cache: cache.put(1, 1) assert cache.get(1) == 1
def test_connection_context(connection_param, partition_aware): is_partition_aware = partition_aware == 'with_partition_aware' client = Client(partition_aware=is_partition_aware) # Check context manager with client.connect(connection_param): __check_open(client, is_partition_aware) __check_closed(client) # Check standard way try: client.connect(connection_param) __check_open(client, is_partition_aware) finally: client.close() __check_closed(client)
def skip_if_no_affinity(request, server1): client = Client(partition_aware=True) with client.connect('127.0.0.1', 10801): if not client.partition_awareness_supported_by_protocol: pytest.skip( f'skipped {request.node.name}, partition awareness is not supported.' )
def expiry_policy_supported(request, server1): client = Client() with client.connect('127.0.0.1', 10801): result = client.protocol_context.is_expiry_policy_supported() if not result and request.node.get_closest_marker('skip_if_no_expiry_policy'): pytest.skip(f'skipped {request.node.name}, ExpiryPolicy APIis not supported.') return result
def test_connection_error_with_incorrect_config(invalid_ssl_params, caplog): listener = AccumulatingConnectionListener() with pytest.raises(ReconnectError): client = Client(event_listeners=[listener], **invalid_ssl_params) with client.connect([("127.0.0.1", 10801)]): pass __assert_handshake_failed_log(caplog) __assert_handshake_failed_listener(listener)
def test_get_large_value(buf_len): with mock.patch.object(socket.socket, 'recv_into', new=patched_recv_into_factory(buf_len)): c = Client() with c.connect("127.0.0.1", 10801): with get_or_create_cache(c, 'test') as cache: value = secrets.token_hex((1 << 16) + 1) cache.put(1, value) assert value == cache.get(1)
def test_auth_failed(username, password, with_ssl, ssl_params, caplog): ssl_params['use_ssl'] = with_ssl listener = AccumulatingConnectionListener() with pytest.raises(AuthenticationError): client = Client(username=username, password=password, event_listeners=[listener], **ssl_params) with client.connect("127.0.0.1", 10801): pass __assert_auth_failed_log(caplog) __assert_auth_failed_listener(listener)
def client( node, timeout, affinity_aware, use_ssl, ssl_keyfile, ssl_certfile, ssl_ca_certfile, ssl_cert_reqs, ssl_ciphers, ssl_version, username, password, ): client = Client( timeout=timeout, affinity_aware=affinity_aware, use_ssl=use_ssl, ssl_keyfile=ssl_keyfile, ssl_certfile=ssl_certfile, ssl_ca_certfile=ssl_ca_certfile, ssl_cert_reqs=ssl_cert_reqs, ssl_ciphers=ssl_ciphers, ssl_version=ssl_version, username=username, password=password, ) nodes = [] for n in node: host, port = n.split(':') port = int(port) nodes.append((host, port)) client.connect(nodes) yield client conn = client.random_node for cache_name in cache_get_names(conn).value: cache_destroy(conn, cache_name) client.close()
def test_auth_success(with_ssl, ssl_params, caplog): ssl_params['use_ssl'] = with_ssl listener = AccumulatingConnectionListener() client = Client(username=DEFAULT_IGNITE_USERNAME, password=DEFAULT_IGNITE_PASSWORD, event_listeners=[listener], **ssl_params) with caplog.at_level(logger='pygridgain', level=logging.DEBUG): with client.connect("127.0.0.1", 10801): assert all(node.alive for node in client._nodes) conn = client._nodes[0] __assert_successful_connect_log(conn, caplog) __assert_successful_connect_events(conn, listener)
def sync_example(): client = Client() with client.connect('127.0.0.1', 10800): cache = client.get_or_create_cache({ PROP_NAME: 'tx_cache', PROP_CACHE_ATOMICITY_MODE: CacheAtomicityMode.TRANSACTIONAL }) # starting transaction key = 1 with client.tx_start( isolation=TransactionIsolation.REPEATABLE_READ, concurrency=TransactionConcurrency.PESSIMISTIC ) as tx: cache.put(key, 'success') tx.commit() # key=1 value=success print(f"key={key} value={cache.get(key)}") # rollback transaction. try: with client.tx_start( isolation=TransactionIsolation.REPEATABLE_READ, concurrency=TransactionConcurrency.PESSIMISTIC ): cache.put(key, 'fail') raise RuntimeError('test') except RuntimeError: pass # key=1 value=success print(f"key={key} value={cache.get(key)}") # rollback transaction on timeout. try: with client.tx_start(timeout=1000, label='long-tx') as tx: cache.put(key, 'fail') time.sleep(2.0) tx.commit() except CacheError as e: # Cache transaction timed out: GridNearTxLocal[...timeout=1000, ... label=long-tx] print(e) # key=1 value=success print(f"key={key} value={cache.get(key)}") # destroy cache cache.destroy()
def test_client_with_failed_server(request, with_partition_awareness): srv = start_ignite(idx=4) try: client = Client(partition_aware=with_partition_awareness) with client.connect([("127.0.0.1", 10804)]): cache = client.get_or_create_cache(request.node.name) cache.put(1, 1) kill_process_tree(srv.pid) if with_partition_awareness: ex_class = (ReconnectError, ConnectionResetError) else: ex_class = ConnectionResetError with pytest.raises(ex_class): cache.get(1) finally: kill_process_tree(srv.pid)
def test_cluster_set_state(with_persistence): key = 42 val = 42 start_state = ClusterState.INACTIVE if with_persistence else ClusterState.ACTIVE client = Client() with client.connect([("127.0.0.1", 10801), ("127.0.0.1", 10802)]): cluster = client.get_cluster() assert cluster.get_state() == start_state cluster.set_state(ClusterState.ACTIVE) assert cluster.get_state() == ClusterState.ACTIVE check_cluster_state_error(cluster, 3) check_cluster_state_error(cluster, 42) check_cluster_state_error(cluster, 1234567890987654321) check_cluster_state_error(cluster, -1) cache = client.get_or_create_cache("test_cache") cache.put(key, val) assert cache.get(key) == val cluster.set_state(ClusterState.ACTIVE_READ_ONLY) assert cluster.get_state() == ClusterState.ACTIVE_READ_ONLY assert cache.get(key) == val with pytest.raises(CacheError): cache.put(key, val + 1) cluster.set_state(ClusterState.INACTIVE) assert cluster.get_state() == ClusterState.INACTIVE with pytest.raises(CacheError): cache.get(key) with pytest.raises(CacheError): cache.put(key, val + 1) cluster.set_state(ClusterState.ACTIVE) assert cluster.get_state() == ClusterState.ACTIVE cache.put(key, val + 2) assert cache.get(key) == val + 2
def sync_actions(): print("Running sync ExpiryPolicy example.") client = Client() with client.connect('127.0.0.1', 10800): print("Create cache with expiry policy.") try: ttl_cache = client.create_cache({ PROP_NAME: 'test', PROP_EXPIRY_POLICY: ExpiryPolicy(create=timedelta(seconds=1.0)) }) except NotSupportedByClusterError: print( "'ExpiryPolicy' API is not supported by cluster. Finishing...") return try: ttl_cache.put(1, 1) time.sleep(0.5) print(f"key = {1}, value = {ttl_cache.get(1)}") # key = 1, value = 1 time.sleep(1.2) print(f"key = {1}, value = {ttl_cache.get(1)}") # key = 1, value = None finally: ttl_cache.destroy() print("Create simple Cache and set TTL through `with_expire_policy`") simple_cache = client.create_cache('test') try: ttl_cache = simple_cache.with_expire_policy(access=timedelta( seconds=1.0)) ttl_cache.put(1, 1) time.sleep(0.5) print(f"key = {1}, value = {ttl_cache.get(1)}") # key = 1, value = 1 time.sleep(1.7) print(f"key = {1}, value = {ttl_cache.get(1)}") # key = 1, value = None finally: simple_cache.destroy()
def test_client_with_recovered_server(request, with_partition_awareness): srv = start_ignite(idx=4) try: client = Client(partition_aware=with_partition_awareness, timeout=CLIENT_SOCKET_TIMEOUT) with client.connect([("127.0.0.1", 10804)]): cache = client.get_or_create_cache(request.node.name) cache.put(1, 1) # Kill and restart server kill_process_tree(srv.pid) srv = start_ignite(idx=4) # First request may fail. try: cache.put(1, 2) except connection_errors: pass # Retry succeeds cache.put(1, 2) assert cache.get(1) == 2 finally: kill_process_tree(srv.pid)
def test_events(request, server2): client = Client(event_listeners=[RecordingConnectionEventListener()]) with client.connect([('127.0.0.1', 10800 + idx) for idx in range(1, 3)]): protocol_context = client.protocol_context nodes = {conn.port: conn for conn in client._nodes} cache = client.get_or_create_cache({ PROP_NAME: request.node.name, PROP_CACHE_MODE: CacheMode.REPLICATED, }) kill_process_tree(server2.pid) for _ in range(0, 100): try: cache.put(1, 1) except: # noqa 13 pass if any(isinstance(e, ConnectionLostEvent) for e in events): break __assert_events(nodes, protocol_context)
# limitations under the License. # from pygridgain import Client from pygridgain.datatypes.cache_config import CacheMode from pygridgain.datatypes.prop_codes import * from pygridgain.exceptions import SocketError nodes = [ ('127.0.0.1', 10800), ('127.0.0.1', 10801), ('127.0.0.1', 10802), ] client = Client(timeout=4.0) client.connect(nodes) print('Connected') my_cache = client.get_or_create_cache({ PROP_NAME: 'my_cache', PROP_CACHE_MODE: CacheMode.PARTITIONED, PROP_BACKUPS_NUMBER: 2, }) my_cache.put('test_key', 0) test_value = 0 # abstract main loop while True: try: # do the work test_value = my_cache.get('test_key') or 0
# 'sum': DecimalObject, # 'recipient': String, # 'cashier_id': LongObject, # } class ExpenseVoucher( metaclass=GenericObjectMeta, schema=old_schema, ): pass client = Client() with client.connect('127.0.0.1', 10800): accounting = client.get_or_create_cache('accounting') for item, value in old_data.items(): print(item) accounting.put(item, ExpenseVoucher(**value)) data_classes = client.query_binary_type('ExpenseVoucher') print(data_classes) # { # {547629991: <class 'pygridgain.binary.ExpenseVoucher'>, -231598180: <class '__main__.ExpenseVoucher'>} # } s_id, data_class = data_classes.popitem() schema = data_class.schema
def check_is_transactions_supported(): client = Client() with client.connect('127.0.0.1', 10800): if not client.protocol_context.is_transactions_supported(): print("'Transactions' API is not supported by cluster. Finishing...") exit(0)
def cluster_api_supported(request, server1): client = Client() with client.connect('127.0.0.1', 10801): if not client.protocol_context.is_cluster_api_supported(): pytest.skip( f'skipped {request.node.name}, Cluster API is not supported.')
# https://www.gridgain.com/products/software/community-edition/gridgain-community-edition-license # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # from collections import OrderedDict from pygridgain import Client, GenericObjectMeta from pygridgain.datatypes import DoubleObject, IntObject, String from pygridgain.datatypes.prop_codes import * client = Client() client.connect('127.0.0.1', 10800) student_cache = client.create_cache({ PROP_NAME: 'SQL_PUBLIC_STUDENT', PROP_SQL_SCHEMA: 'PUBLIC', PROP_QUERY_ENTITIES: [ { 'table_name': 'Student'.upper(), 'key_field_name': 'SID', 'key_type_name': 'java.lang.Integer', 'field_name_aliases': [],
# See the License for the specific language governing permissions and # limitations under the License. # from pygridgain import Client from pygridgain.datatypes.cache_config import CacheMode from pygridgain.datatypes.prop_codes import PROP_NAME, PROP_CACHE_MODE, PROP_BACKUPS_NUMBER from pygridgain.exceptions import SocketError nodes = [ ('127.0.0.1', 10800), ('127.0.0.1', 10801), ('127.0.0.1', 10802), ] client = Client(timeout=4.0) with client.connect(nodes): print('Connected') my_cache = client.get_or_create_cache({ PROP_NAME: 'my_cache', PROP_CACHE_MODE: CacheMode.PARTITIONED, PROP_BACKUPS_NUMBER: 2, }) my_cache.put('test_key', 0) test_value = 0 # abstract main loop while True: try: # do the work test_value = my_cache.get('test_key') or 0
def test_client_with_multiple_bad_servers(with_partition_awareness): with pytest.raises(ReconnectError, match="Can not connect."): client = Client(partition_aware=with_partition_awareness) with client.connect([("127.0.0.1", 10900), ("127.0.0.1", 10901)]): pass