with C/C.
The patch introduces mariadb_capi_rename.h which is included into
mysql.h. The hew header contains macro definitions for the names being
renamed. In versions 10.6+(i.e. where sql service exists) the renaming
condition in the mariadb_capi_rename.h should be added with
&& !defined(MYSQL_DYNAMIC_PLUGIN)
and look like
The patch also contains removal of mysql.h from the api check.
Disabling false_duper-6543 test for embedded.
ha_federated.so uses C API. C API functions are being renamed in the server,
but not renamed in embedded, since embedded server library should have proper
C API, as expected by programs using it.
Thus the same ha_federated.so cannot work both for server and embedded
server library.
As all federated tests are already disabled for embedded,
federated isn't supposed to work for embedded anyway, and thus the test
is being disabled.
The problem happened because the the new client capability flag
CLIENT_EXTENDED_METADATA was not put into the cache entry key.
So results cached by a new client were sent to the old client (and vica versa)
with a mis-matching metadata, which made the client abort the connection on
an unexpected result set metadata packet format.
The problem was caused by the patch for:
MDEV-17832 Protocol: extensions for Pluggable types and JSON, GEOMETRY
which forgot to adjust the query cache code.
Fix:
- Adding a new member Query_cache_query_flags::client_extended_metadata,
so only clients with equal CLIENT_EXTENDED_METADATA flag values can
reuse results.
- Adding a new column CLIENT_EXTENDED_METADATA into
INFORMATION_SCHEMA.QUERY_CACHE_INFO (privided by the qc_info plugin).
SET PASSWORD = PASSWORD('foo') would fail for pam plugin with
ERROR HY000: SET PASSWORD is ignored for users authenticating via pam plugin
but SET PASSWORD = 'foo' would not.
Now it will.
bzip2/lz4/lzma/lzo/snappy compression is now provided via *services*
they're almost like normal services, but in include/providers/
and they're supposed to provide exactly the same interface
as original compression libraries (but not everything,
only enough of if for the code to compile).
the services are implemented via dummy functions that return
corresponding error values (LZMA_PROG_ERROR, LZO_E_INTERNAL_ERROR, etc).
the actual compression libraries are linked into corresponding
provider plugins. Providers are daemon plugins that when loaded
replace service pointers to point to actual compression functions.
That is, run-time dependency on compression libraries is now on plugins,
and the server doesn't need any compression libraries to run, but
will automatically support the compression when a plugin is loaded.
InnoDB and Mroonga use compression plugins now. RocksDB doesn't,
because it comes with standalone utility binaries that cannot
load plugins.
