- Transition the prepared statements caches for both CQL and Trhift to the cql3::prepared_statements_cache class.
- Add the corresponding metrics to the query_processor:
- Evictions count.
- Current entries count.
- Current memory footprint.
Fixes#2474
Signed-off-by: Vlad Zolotarov <vladz@scylladb.com>
- introcduced "seastarx.hh" header, which does a "using namespace seastar";
- 'net' namespace conflicts with seastar::net, renamed to 'netw'.
- 'transport' namespace conflicts with seastar::transport, renamed to
cql_transport.
- "logger" global variables now conflict with logger global type, renamed
to xlogger.
- other minor changes
Currently, the code is using bytes_opt and bytes_view_opt to represent
CQL values, which can hold a value or null. In preparation for
supporting a third state, unset value introduced in CQL v4, introduce
new raw_value and raw_value_view types and use them instead.
The new types are based on boost::variant<> and are capable of holding
null, unset values, and blobs that represent a value.
This patch introduces the do_with_cql_env_thread() function, which
behaves like do_with_cql_env() except that it executes the
user-specified function in the context of a Seastar thread.
Signed-off-by: Duarte Nunes <duarte@scylladb.com>
Currently start() is not prepared to handle exceptions thrown from
service initialization. It's easy to trigger such exceprion by
starting two tests at the same time, which will result in socket bind
error.
Exception thrown from start() typically results in assertion failures
like this one:
seastar::sharded<Service>::~sharded() [with Service = database]: Assertion `_instances.empty()' failed.
This patch fixes the problem by combining start() and stop() in a
single do_with() and using RAII for stopping services.
Now exceptions thrown from service initialization should stop services
in proper order and let the original exception to pass
through. Example result:
fatal error in "test_new_schema_with_no_structural_change_is_propagated": std::runtime_error: bind: Address already in use
Message-Id: <1458768018-27662-1-git-send-email-tgrabiec@scylladb.com>
We use boost::any to convert to and from database values (stored in
serlialized form) and native C++ values. boost::any captures information
about the data type (how to copy/move/delete etc.) and stores it inside
the boost::any instance. We later retrieve the real value using
boost::any_cast.
However, data_value (which has a boost::any member) already has type
information as a data_type instance. By teaching data_type intances about
the corresponding native type, we can elimiante the use of boost::any.
While boost::any is evil and eliminating it improves efficiency somewhat,
the real goal is growing native type support in data_type. We will use that
later to store native types in the cache, enabling O(log n) access to
collections, O(1) access to tuples, and more efficient large blob support.
