We never want to listen on port 0, even if configured so.
When the listen port is set to 0, the OS will choose the
port randomly, which makes it useless for communicating
with other nodes in the cluster, since we don't support that.
Also, it causes the listen_ports_conf_test internode_ssl_test
to fail since it expects to disable listening on storage_port
or ssl_storage_port when set to 0, as seen in
https://github.com/scylladb/scylla-dtest/issues/2174.
Signed-off-by: Benny Halevy <bhalevy@scylladb.com>
Each CDC generation always has a timestamp, but the fact that the
timestamp identifies the generation is an implementation detail.
We abstract away from this detail by using a more generic naming scheme:
a generation "identifier" (whatever that is - a timestamp or something
else).
It's possible that a CDC generation will be identified by more than a
timestamp in the (near) future.
The actual string gossiped by nodes in their application state is left
as "CDC_STREAMS_TIMESTAMP" for backward compatibility.
Some stale comments have been updated.
The Thrift layer is functional, but it's not usually the first-choice protocol for Scylla users, so it's hereby disabled by default.
Fixes#8336Closes#8338
* github.com:scylladb/scylla:
docs: mention disabling Thrift by default
db,config: disable Thrift by default
Refs #8093
Refs /scylladb/scylla-tools-java#218
Adds keyword that can preface value tuples in (a, b, c) > (1, 2, 3)
expressions, forcing the restriction to bypass column sort order
treatment, and instead just create the raw ck bounds accordningly.
This is a very limited, and simple version, but since we only need
to cover this above exact syntax, this should be sufficient.
v2:
* Add small cql test
v3:
* Added comment in multi_column_restriction::slice, on what "mode" means and is for
* Added small document of our internal CQL extension keywords, including this.
v4:
* Added a few more cases to tests to verify multi-column restrictions
* Reworded docs a bit
v5:
* Fixed copy-paste error in comment
v6:
* Added negative (error) test cases
v7:
* Added check + reject of trying to combine SCYLLA_CLUST... slice and
normal one
Closes#8094
Nodes automatically ensure that the latest CDC generation's list of
streams is present in the streams description table. When a new
generation appears, we only need to update the table for this
generation; old generations are already inserted.
However, we've changed the description table (from
`cdc_streams_descriptions` to `cdc_streams_descriptions_v2`). The
existing mechanism only ensures that the latest generation appears in
the new description table. This commit adds an additional procedure that
rewrites the older generations as well, if we find that it is necessary
to do so (i.e. when some CDC log tables may contain data in these
generations).
Until now, the lists of streams in the `cdc_streams_descriptions` table
for a given generation were stored in a single collection. This solution
has multiple problems when dealing with large clusters (which produce
large lists of streams):
1. large allocations
2. reactor stalls
3. mutations too large to even fit in commitlog segments
This commit changes the schema of the table as described in issue #7993.
The streams are grouped according to token ranges, each token range
being represented by a separate clustering row. Rows are inserted in
reasonably large batches for efficiency.
The table is renamed to enable easy upgrade. On upgrade, the latest CDC
generation's list of streams will be (re-)inserted into the new table.
Yet another table is added: one that contains only the generation
timestamps clustered in a single partition. This makes it easy for CDC
clients to learn about new generations. It also enables an elegant
two-phase insertion procedure of the generation description: first we
insert the streams; only after ensuring that a quorum of replicas
contains them, we insert the timestamp. Thus, if any client observes a
timestamp in the timestamps table (even using a ONE query),
it means that a quorum of replicas must contain the list of streams.
"
Currently inactive readers are stored in two different places:
* reader concurrency semaphore
* querier cache
With the latter registering its inactive readers with the former. This
is an unnecessarily complex (and possibly surprising) setup that we want
to move away from. This series solves this by moving the responsibility
if storing of inactive reads solely to the reader concurrency semaphore,
including all supported eviction policies. The querier cache is now only
responsible for indexing queriers and maintaining relevant stats.
This makes the ownership of the inactive readers much more clear,
hopefully making Benny's work on introducing close() and abort() a
little bit easier.
Tests: unit(release, debug:v1)
"
* 'unify-inactive-readers/v2' of https://github.com/denesb/scylla:
reader_concurrency_semaphore: store inactive readers directly
querier_cache: store readers in the reader concurrency semaphore directly
querier_cache: retire memory based cache eviction
querier_cache: delegate expiry to the reader_concurrency_semaphore
reader_concurrency_semaphore: introduce ttl for inactive reads
querier_cache: use new eviction notify mechanism to maintain stats
reader_concurrency_semaphore: add eviction notification facility
reader_concurrency_semaphore: extract evict code into method evict()
