Source code for baseplate.clients.cassandra

import logging

from threading import Event
from typing import Any
from typing import Callable
from typing import Dict
from typing import List
from typing import Mapping
from typing import Optional
from typing import Sequence
from typing import Tuple
from typing import TYPE_CHECKING
from typing import Union

from cassandra.auth import PlainTextAuthProvider
from cassandra.cluster import _NOT_SET  # pylint: disable=no-name-in-module
from cassandra.cluster import Cluster  # pylint: disable=no-name-in-module
from cassandra.cluster import ExecutionProfile  # pylint: disable=no-name-in-module
from cassandra.cluster import ResponseFuture  # pylint: disable=no-name-in-module
from cassandra.cluster import Session  # pylint: disable=no-name-in-module
from cassandra.query import BoundStatement  # pylint: disable=no-name-in-module
from cassandra.query import PreparedStatement  # pylint: disable=no-name-in-module
from cassandra.query import SimpleStatement  # pylint: disable=no-name-in-module

from baseplate import Span
from baseplate.clients import ContextFactory
from baseplate.lib import config
from baseplate.lib.secrets import SecretsStore


if TYPE_CHECKING:
    import cqlmapper.connection


logger = logging.getLogger(__name__)


[docs]def cluster_from_config( app_config: config.RawConfig, secrets: Optional[SecretsStore] = None, prefix: str = "cassandra.", execution_profiles: Optional[Dict[str, ExecutionProfile]] = None, **kwargs: Any, ) -> Cluster: """Make a Cluster from a configuration dictionary. The keys useful to :py:func:`cluster_from_config` should be prefixed, e.g. ``cassandra.contact_points`` etc. The ``prefix`` argument specifies the prefix used to filter keys. Each key is mapped to a corresponding keyword argument on the :py:class:`~cassandra.cluster.Cluster` constructor. Any keyword arguments given to this function will be passed through to the :py:class:`~cassandra.cluster.Cluster` constructor. Keyword arguments take precedence over the configuration file. Supported keys: * ``contact_points`` (required): comma delimited list of contact points to try connecting for cluster discovery * ``port``: The server-side port to open connections to. * ``credentials_secret`` (optional): the key used to retrieve the database credentials from ``secrets`` as a :py:class:`~baseplate.lib.secrets.CredentialSecret`. :param execution_profiles: Configured execution profiles to provide to the rest of the application. """ assert prefix.endswith(".") parser = config.SpecParser( { "contact_points": config.TupleOf(config.String), "port": config.Optional(config.Integer, default=None), "credentials_secret": config.Optional(config.String), } ) options = parser.parse(prefix[:-1], app_config) if options.port: kwargs.setdefault("port", options.port) if options.credentials_secret: if not secrets: raise TypeError("'secrets' is required if 'credentials_secret' is set") credentials = secrets.get_credentials(options.credentials_secret) kwargs.setdefault( "auth_provider", PlainTextAuthProvider(username=credentials.username, password=credentials.password), ) return Cluster(options.contact_points, execution_profiles=execution_profiles, **kwargs)
[docs]class CassandraClient(config.Parser): """Configure a Cassandra client. This is meant to be used with :py:meth:`baseplate.Baseplate.configure_context`. See :py:func:`cluster_from_config` for available configuration settings. :param keyspace: Which keyspace to set as the default for operations. """ def __init__(self, keyspace: str, **kwargs: Any): self.keyspace = keyspace self.kwargs = kwargs def parse(self, key_path: str, raw_config: config.RawConfig) -> "CassandraContextFactory": cluster = cluster_from_config(raw_config, prefix=f"{key_path}.", **self.kwargs) session = cluster.connect(keyspace=self.keyspace) return CassandraContextFactory(session)
[docs]class CassandraContextFactory(ContextFactory): """Cassandra session context factory. This factory will attach a proxy object which acts like a :py:class:`cassandra.cluster.Session` to an attribute on the :py:class:`~baseplate.RequestContext`. The :py:meth:`execute`, :py:meth:`execute_async` and :py:meth:`prepare` methods will automatically record diagnostic information. :param cassandra.cluster.Session session: A configured session object. """ def __init__(self, session: Session): self.session = session self.prepared_statements: Dict[str, PreparedStatement] = {} def make_object_for_context(self, name: str, span: Span) -> "CassandraSessionAdapter": return CassandraSessionAdapter(name, span, self.session, self.prepared_statements)
[docs]class CQLMapperClient(config.Parser): """Configure a CQLMapper client. This is meant to be used with :py:meth:`baseplate.Baseplate.configure_context`. See :py:func:`cluster_from_config` for available configuration settings. :param keyspace: Which keyspace to set as the default for operations. """ def __init__(self, keyspace: str, **kwargs: Any): self.keyspace = keyspace self.kwargs = kwargs def parse(self, key_path: str, raw_config: config.RawConfig) -> "CQLMapperContextFactory": cluster = cluster_from_config(raw_config, prefix=f"{key_path}.", **self.kwargs) session = cluster.connect(keyspace=self.keyspace) return CQLMapperContextFactory(session)
[docs]class CQLMapperContextFactory(CassandraContextFactory): """CQLMapper ORM connection context factory. This factory will attach a new CQLMapper :py:class:`cqlmapper.connection.Connection` to an attribute on the :py:class:`~baseplate.RequestContext`. This Connection object will use the same proxy object that CassandraContextFactory attaches to a context to run queries so the `execute` command will automatically record diagnostic information. :param cassandra.cluster.Session session: A configured session object. """ def make_object_for_context(self, name: str, span: Span) -> "cqlmapper.connection.Connection": # Import inline so you can still use the regular Cassandra integration # without installing cqlmapper # pylint: disable=redefined-outer-name import cqlmapper.connection session_adapter = super().make_object_for_context(name, span) return cqlmapper.connection.Connection(session_adapter)
def wrap_future( response_future: ResponseFuture, callback_fn: Callable[..., None], callback_args: Any, errback_fn: Callable[..., None], errback_args: Any, ) -> ResponseFuture: """Patch ResponseFuture.result() to wait for callback or errback to complete. The callback_fn and errback_fn are given special treatment: they must be complete before a result will be returned from ResponseFuture.result(). They are not given precedence over other callbacks or errbacks, so if another callback triggers the response from the service (and the server span is closed) the special callback might not complete. The special callback is added first and callbacks are executed in order, so generally the special callback should finish before any other callbacks. This fixes a race condition where the server span can complete before the callback has closed out the child span. """ response_future._callback_event = Event() response_future.add_callback(callback_fn, callback_args, response_future._callback_event) response_future.add_errback(errback_fn, errback_args, response_future._callback_event) def wait_for_callbacks_result(self: ResponseFuture) -> Any: exc = None try: result = ResponseFuture.result(self) except Exception as e: exc = e # wait for either _on_execute_complete or _on_execute_failed to run wait_result = self._callback_event.wait(timeout=0.01) if not wait_result: logger.warning("Cassandra metrics callback took too long. Some metrics may be lost.") if exc: raise exc # pylint: disable=E0702 return result # call __get__ to turn wait_for_callbacks_result into a bound method bound_method = wait_for_callbacks_result.__get__( # type: ignore response_future, ResponseFuture ) # patch the ResponseFuture instance response_future.result = bound_method return response_future def _on_execute_complete(_result: Any, span: Span, event: Event) -> None: # TODO: tag with anything from the result set? # TODO: tag with any returned warnings try: span.finish() finally: event.set() def _on_execute_failed(exc: BaseException, span: Span, event: Event) -> None: try: exc_info = (type(exc), exc, None) span.finish(exc_info=exc_info) finally: event.set() RowFactory = Callable[[List[str], List[Tuple]], Any] Query = Union[str, SimpleStatement, PreparedStatement, BoundStatement] Parameters = Union[Sequence[Any], Mapping[str, Any]] class CassandraSessionAdapter: def __init__( self, context_name: str, server_span: Span, session: Session, prepared_statements: Dict[str, PreparedStatement], ): self.context_name = context_name self.server_span = server_span self.session = session self.prepared_statements = prepared_statements def __getattr__(self, name: str) -> Any: return getattr(self.session, name) def execute( self, query: Query, parameters: Optional[Parameters] = None, timeout: Union[float, object] = _NOT_SET, **kwargs: Any, ) -> Any: return self.execute_async(query, parameters, timeout, **kwargs).result() def execute_async( self, query: Query, parameters: Optional[Parameters] = None, timeout: Union[float, object] = _NOT_SET, **kwargs: Any, ) -> ResponseFuture: trace_name = "{}.{}".format(self.context_name, "execute") span = self.server_span.make_child(trace_name) span.start() # TODO: include custom payload if isinstance(query, str): span.set_tag("statement", query) elif isinstance(query, (SimpleStatement, PreparedStatement)): span.set_tag("statement", query.query_string) elif isinstance(query, BoundStatement): span.set_tag("statement", query.prepared_statement.query_string) future = self.session.execute_async(query, parameters=parameters, timeout=timeout, **kwargs) future = wrap_future( response_future=future, callback_fn=_on_execute_complete, callback_args=span, errback_fn=_on_execute_failed, errback_args=span, ) return future def prepare(self, query: str, cache: bool = True) -> PreparedStatement: """Prepare a CQL statement. :param cache: If set to True (default), prepared statements will be automatically cached and reused. The cache is keyed on the text of the statement. Set to False if you don't want your prepared statements cached, which might be advisable if you have a very high-cardinality query set. Prepared statements are cached indefinitely, so be wary of memory usage. """ if cache: try: return self.prepared_statements[query] except KeyError: pass trace_name = "{}.{}".format(self.context_name, "prepare") with self.server_span.make_child(trace_name) as span: span.set_tag("statement", query) prepared = self.session.prepare(query) if cache: self.prepared_statements[query] = prepared return prepared