Currently, when we generate view updates, we skip the view update if
all columns selected by the view are unchanged in the base table update.
However, this does not apply for collection columns - if the base table
has a collection regular column, we never allow skipping generating
view updates and the reason for that is missing implementation.
We can easily relax this for the case where the collection was missing
before and after the update - in this commit we move the check for
collections after the check for missing cells.
Add two test cases to verify the correctness of the perform_component_rewrite
functionality:
- test_perform_component_rewrite_single_sstable: Tests rewriting the Statistics
component of a single sstable
- test_perform_component_rewrite_multiple_sstables: Tests rewriting 5 out of 10
sstables
Adds a generic test helper that writes a random SSTable, reloads it, and
verifies that the persisted CRC32 digest for each component matches the
digest computed from disk. Those covers all checksummed components test cases.
Set enable_schema_commitlog for each group0 tables.
Assert that group0 tables use schema commitlog in ensure_group0_schema
(per each command).
Fixes: https://scylladb.atlassian.net/browse/SCYLLADB-914.
Needs backport to all live releases as all are vulnerable
Closesscylladb/scylladb#28876
* github.com:scylladb/scylladb:
test: add test_group0_tables_use_schema_commitlog
db: service: remove group0 tables from schema commitlog schema initializer
service: ensure that tables updated via group0 use schema commitlog
db: schema: remove set_is_group0_table param
Currently, repair-mode tombstone-gc cannot be used on tables with RF=1. We want to make repair-mode the default for all tablet tables (and more, see https://github.com/scylladb/scylladb/issues/22814), but currently a keyspace created with RF=1 and later altered to RF>1 will end up using timeout-mode tombstone gc. This is because the repair-mode tombstone-gc code relies on repair history to determine the gc-before time for keys/ranges. RF=1 tables cannot run repairs so they will have empty repair history and consequently won't be able to purge tombstones.
This PR solves this by keeping a registry of RF=1 tables and consulting this registry when creating `tombstone_gc_state` objects. If the table is RF=1, tombstone-gc will work as if the table used immediate-mode tombstone-gc. The registry is updated on each replication update. As soon as the table is not RF=1 anymore, the tombstone-gc reverts to the natural repair-mode behaviour.
After this PR, tombstone-gc defaults to repair-mode for all tables, regardless of RF and tablets/vnodes.
Fixes: SCYLLADB-106.
New feature, no backport required.
Closesscylladb/scylladb#22945
* github.com:scylladb/scylladb:
test/{boost,cluster}: add test for tombstone gc mode=repair with RF=1
tombstone_gc: allow use of repair-mode for RF=1 tables
replica/table: update rf=1 table registry in shared tombstone-gc state
tombstone_gc: tombstone_gc_before_getter: consider RF when getting gc before time
tombstone_gc: unpack per_table_history_maps
tombstone_gc: extract _group0_gc_time from per_table_history_map
tombstone_gc: drop tombstone_gc_state(nullptr) ctor and operator bool()
test/lib/random_schema: use timeout-mode tombstone_gc
tombstone_gc_options: add C++ friendly constructor
test: move away from tombstone_gc_state(nullptr) ctor
treewide: move away from tombstone_gc_state(nullptr) ctor
sstable: move away from tombstone_gc_mode::operator bool()
replica/table: add get_tombstone_gc_state()
compaction: use tombstone_gc_state with value semantics
db/row_cache: use tombstone_gc_state with value semantics
tombstone_gc: introduce tombstone_gc_state::for_tests()
set_is_group0_table takes an enabled flag, based on which it decides
whether it's a group0 table. The method is called only with enabled = true.
Drop the param. For not group0 tables nothing should be set.
This series closes a gap in the approx_exponential_histogram implementation to
cover integer values starting from small Min values.
While the original implementation was focused on durations, where this limitation
was not an issue, over time, there has been a growing need for histograms that
cover smaller values, such as the number of SSTables or the number of items in a
batch.
The reason for the original limitation is inherent to the exponential histogram
math. The previous code required Min to be at least Precision to avoid negative
bit shifts in the exponential calculations.
After this series, approx_exponential_histogram allows Min to be smaller than
Precision by scaling values during indexing. The value is shifted left by
log2 Precision minus log2 Min or zero whichever is larger, and the existing
exponential math is applied. Bucket limits are then scaled back to the original
units. This keeps insertion and retrieval O(1) without runtime branching, at the
cost of repeated bucket limits for some values in the Min to Precision range.
Additional tests cover the new behavior.
Relates to #2785
** New feature, no need to backport. **
Closesscylladb/scylladb#28371
* github.com:scylladb/scylladb:
estimated_histogram_test.cc: add to_metrics_histogram test
histogram_metrics_helper.hh: Support Min < Precision
estimated_histogram_test.cc: Add tests for approx_exponential_histogram with Min<Precision
estimated_histogram.hh: support Min less than Precision histograms
Modify the methods which calculate the default gc mode as well as that
which validates whether repair-mode can be used at all, so both accepts
use of repair-mode on RF=1 tables.
This de-facto changes the default tombstone-gc to repair-mode for all
tables. Documentation is updated accordingly.
Some tests need adjusting:
* cqlpy/test_select_from_mutation_fragments.py: disable GC for some test
cases because this patch makes tombstones they write subject to GC
when using defaults.
* test/cluster/test_mv.py::test_mv_tombstone_gc_not_inherited used
repair-mode as a non-default for the base table and expected the MV to
revert to default. Another mode has to be used as the non-default
(immediate).
* test/cqlpy/test_tools.py::test_scylla_sstable_dump_schema: don't
compare tombstone_gc schema extension when comparing dumped schema vs.
original. The tool's schema loader doesn't have access to the keyspace
definition so it will come up with different defaults for
tombstone-gc.
* test/boost/row_cache_test.cc::test_populating_cache_with_expired_and_nonexpired_tombstones
sets tombstone expiry assuming the tombstone-gc timeout-mode default.
Change the CREATE TABLE statement to set the expected mode.
Currently we cannot use repair-mode tombstone gc on RF=1 tables, because
such tables don't need repair and so there won't be repair history to
use to produce gc_before times.
Introduce shared_tombstone_gc_state::_rf_one_tables which will keep a
registry of RF=1 tables. Keeping this up to date is left to outside code
(table.cc). Consult the registry to determine whether a table is RF=1 or
not, so the repair history check can be ellided for rf=1 tables.
Not wired in yet into the table code.
It is ambigous, use the appropriate no-gc or gc-all factories instead,
as appropriate.
A special note for mutation::compacted(): according to the comment above
it, it doesn't drop expired tombstones but as it is currently, it
actually does. Change the tombstone gc param for the underlying call to
compact_for_compaction() to uphold the comment. This is used in tests
mostly, so no fallout expected.
Tests are handled in the next commit, to reduce noise.
Two tests in mutation_test.cc have to be updated:
* test_compactor_range_tombstone_spanning_many_pages
has to be updated in this commit, as it uses
mutation_partition::compact_for_query() as well as
compact_for_query(). The test passes default constructed
tombstone_gc() to the latter while the former now uses no-gc
creating a mismatch in tombstone gc behaviour, resulting in test
failure. Update the test to also pass no-gc to compact_for_query().
* test_query_digest similarly uses mutation_partition::query_mutation()
and another compaction method, having to match the no-gc now used in
query_mutation().
Instead of keeping a pointer to it. Replace nullptr with
tombstone_gc_state::no_gc().
This object is now designed to be used as a value-type, after recent
refactoring.
Introduced a new max_tablet_count tablet option that caps the maximum number of tablets a table can have. This feature is designed primarily for backup and restore workflows.
During backup, when load balancing is disabled for snapshot consistency, the current tablet count is recorded in the backup manifest.
During restore, max_tablet_count is set to this recorded value, ensuring the restored table's tablet count never exceeds the original snapshot's tablet distribution.
This guarantee enables efficient file-based SSTable streaming during restore, as each SSTable remains fully contained within a single tablet boundary.
Closesscylladb/scylladb#28450
3f7ee3ce5d introduced system.batchlog_v2, with a schema designed to speed up batchlog replays and make post-replay cleanups much more effective.
It did not introduce a cluster feature for the new table, because it is node local table, so the cluster can switch to the new table gradually, one node at a time.
However, https://github.com/scylladb/scylladb/issues/27886 showed that the switching causes timeouts during upgrades, in mixed clusters. Furthermore, switching to the new table unconditionally on upgrades nodes, means that on rollback, the batches saved into the v2 table are lost.
This PR introduces re-introduces v1 (`system.batchlog`) support and guards the use of the v2 table with a cluster feature, so mixed clusters keep using v1 and thus be rollback-compatible.
The re-introduced v1 support doesn't support post-replay cleanups for simplicity. The cleanup in v1 was never particularly effective anyway and we ended up disabling it for heavy batchlog users, so I don't think the lack of support for cleanup is a problem.
Fixes: https://github.com/scylladb/scylladb/issues/27886
Needs backport to 2026.1, to fix upgrades for clusters using batches
Closesscylladb/scylladb#28736
* github.com:scylladb/scylladb:
test/boost/batchlog_manager_test: add tests for v1 batchlog
test/boost/batchlog_manager_test: make prepare_batches() work with both v1 and v2
test/boost/batchlog_manager_test: fix indentation
test/boost/batchlog_manager_test: extract prepare_batches() method
test/lib/cql_assertions: is_rows(): add dump parameter
tools/scylla-sstable: extract query result printers
tools/scylla-sstable: add std::ostream& arg to query result printers
repair/row_level: repair_flush_hints_batchlog_handler(): add all_replayed to finish log
db/batchlog_manager: re-add v1 support
db/batchlog_manager: return all_replayed from process_batch()
db/batchlog_manager: process_bath() fix indentation
db/batchlog_manager: make batch() a standalone function
db/batchlog_manager: make structs stats public
db/batchlog_manager: allocate limiter on the stack
db/batchlog_manager: add feature_service dependency
gms/feature_service: add batchlog_v2 feature
The PR removes most of the code that assumes that group0 and raft topology is not enabled. It also makes sure that joining a cluster in no raft mode or upgrading a node in a cluster that not yet uses raft topology to this version will fail.
Refs #15422
No backport needed since this removes functionality.
Closesscylladb/scylladb#28514
* https://github.com/scylladb/scylladb:
group0: fix indentation after previous patch
raft_group0: simplify get_group0_upgrade_state function since no upgrade can happen any more
raft_group0: move service::group0_upgrade_state to use fmt::formatter instead of iostream
raft_group0: remove unused code from raft_group0
node_ops: remove topology over node ops code
topology: fix indentation after the previous patch
topology: drop topology_change_enabled parameter from raft_group0 code
storage_service: remove unused handle_state_* functions
gossiper: drop wait_for_gossip_to_settle and deprecate correspondent option
storage_service: fix indentation after the last patch
storage_service: remove gossiper bootstrapping code
storage_service: drop get_group_server_if_raft_topolgy_enabled
storage_service: drop is_topology_coordinator_enabled and its uses
storage_service: drop run_with_api_lock_in_gossiper_mode_only
topology: remove code that assumes raft_topology_change_enabled() may return false
test: schema_change_test: make test_schema_digest_does_not_change_with_disabled_features tests run in raft mode
test: schema_change_test: drop schema tests relevant for no raft mode only
topology: remove upgrade to raft topology code
group0: remove upgrade to group0 code
group0: refuse to boot if a cluster is still is not in a raft topology mode
storage_service: refuse to join a cluster in legacy mode
Previously, rewriting an sstable component (e.g., via rewrite_statistics) created a temporary file that was renamed
to the final name after sealing. This allows crash recovery by simply removing the temporary file on startup.
However, this approach won't work once component digests are stored in scylla_metadata,
as replacing a component like Statistics will require atomically updating both the component
and scylla_metadata with the new digest—impossible with POSIX rename.
The new mechanism creates a clone sstable with a fresh generation:
- Hard-links all components from the source except the component being rewritten and scylla metadata if update_sstable_id is true
- Copies original sstable components pointer and recognized components from the source
- Invokes a modifier callback to adjust the new sstable before rewriting
- Writes the modified component. If update_sstable_id is true, reads scylla metadata, generates new sstable_id and rewrites it.
- Seals the new sstable with a temporary TOC
- Replaces the old sstable atomically, the same way as it is done in compaction
This is built on the rewrite_sstables compaction framework to support batch operations (e.g., following incremental repair).
In case of any failure during the whole process, sstable will be automatically deleted on the node startup due to
temporary toc persistence.
This prepares the infrastructure for component digests. Once digests are introduced in scylla_metadata
this mechanism will be extended to also rewrite scylla metadata with the updated digest alongside the modified component, ensuring atomic updates of both.
Add make_sstable() overload that accepts sstable_version_types parameter
to compaction_group_view interface and all implementations.
This will be useful in rewrite component mechanism, as we
need to preserve sstable version when creating the new one for the replacement.
Add a test that exercises to_metrics_histogram when Min is smaller than
Precision.
The test verifies duplicate integer bounds are collapsed,
counts remain cumulative, and native histogram metadata is still present
with the expected schema and min id.
Signed-off-by: Amnon Heiman <amnon@scylladb.com>
Add three test cases to verify the hybrid linear/exponential bucketing:
- test_histogram_min_1_bucket_limits: Validates bucket lower limits
- test_histogram_min_1_basic: Tests value insertion and bucket distribution
- test_histogram_min_1_statistics: Tests min(), max(), quantile(), and mean()
- test_histogram_min_2_precision_4: Test min == 2 and precision 4.
These tests cover the new Min<Precision mode with Precision=4, verifying both the
linear range and exponential range.
Signed-off-by: Amnon Heiman <amnon@scylladb.com>
This series closes a gap in how CQL request and response sizes are reported.
Previously, request_size and response_size were tracked as simple counters,
providing only cumulative totals per shard. This made it difficult to understand
the distribution of message sizes and identify potential issues with very large
or very small requests.
After this series, the CQL transport reports detailed histogram metrics showing
the distribution of request and response sizes. These histograms are tracked
per-instance, per-type (per ops), and per-scheduling-group, providing
much better visibility into CQL traffic patterns.
The histograms are collected for QUERY, EXECUTE, and BATCH operations, which are
the primary data path operations where message size distribution is most relevant.
This data can help identify:
- Clients sending unexpectedly large requests
- Operations with oversized result sets
- Scheduling group differences in traffic patterns
To support this, the series extends the approx_exponential_histogram template to
handle accurate sum, adds a bytes_histogram type alias optimized for byte-range measurements (1KB to 1GB).
The existing per-shard counter metrics are maintained for backward compatibility.
Metrics example:
```
scylla_transport_cql_request_bytes{kind="BATCH",scheduling_group_name="sl:default",shard="0"} 129808
scylla_transport_cql_request_bytes{kind="EXECUTE",scheduling_group_name="sl:default",shard="0"} 227409
scylla_transport_cql_request_bytes{kind="PREPARE",scheduling_group_name="sl:default",shard="0"} 631
scylla_transport_cql_request_bytes{kind="QUERY",scheduling_group_name="sl:default",shard="0"} 2809
scylla_transport_cql_request_bytes{kind="QUERY",scheduling_group_name="sl:driver",shard="0"} 4079
scylla_transport_cql_request_bytes{kind="REGISTER",scheduling_group_name="sl:default",shard="0"} 98
scylla_transport_cql_request_bytes{kind="STARTUP",scheduling_group_name="sl:driver",shard="0"} 432
scylla_transport_cql_request_histogram_bytes_sum{kind="QUERY",scheduling_group_name="sl:driver"} 4079
scylla_transport_cql_request_histogram_bytes_count{kind="QUERY",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="1024.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="2048.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="4096.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="8192.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="16384.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="32768.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="65536.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="131072.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="262144.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="524288.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="1048576.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="2097152.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="4194304.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="8388608.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="16777216.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="33554432.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="67108864.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="134217728.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="268435456.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="536870912.000000",scheduling_group_name="sl:driver"} 57
scylla_transport_cql_request_histogram_bytes_bucket{kind="QUERY",le="1073741824.000000",scheduling_group_name="sl:driver"} 57
```
**The field sees it as an important issue**
Fixes#14850Closesscylladb/scylladb#28419
* github.com:scylladb/scylladb:
test/boost/estimated_histogram_test.cc: Switch to real Sum
transport/server: to bytes_histogram
approx_exponential_histogram: Add sum() method for accurate value tracking
utils/estimated_histogram.hh: Add bytes_histogram
When a permit is preemptively aborted, store the corresponding
exception in permit's member: `reader_permit::impl::_ex`.
This makes preemptively-aborted permits consistently report aborted()
and prevents them from being treated as eligible for inactive
registration in `register_inactive_read()`, avoiding assertion
failures on unexpected permit state.
Closesscylladb/scylladb#28591
Refs: SCYLLADB-193
Adds a "snapshot_table" topology operation and associated data structure/table columns to support dispatching a snapshot operation as a topo coordinator op.
Logic is similar, and thus broken out and semi-shared with, truncation.
Also adds optional tablet metadata to manifest, listing all tablets present in a given snapshot, as well as
tablet sstable ownership, repair status, and token ranges.
As per description in SCYLLADB-193, the alternative snapshot mechanism is in
a separate namespace under 'tablets', which while dubious is the desired destination.
The API is accessed via `nodetool cluster snapshot`, which more or less mirrors `nodetool snapshot`, but using topo op.
TTL is added to message propagation as a separate patch here, since it is not (yet) used from API (or nodetool).
Requires a syntax for both API and command line.
Closesscylladb/scylladb#28525
* github.com:scylladb/scylladb:
topology::snapshot: Add expiry (ttl) to RPC/topo op
test_snapshot_with_tablets: Extend test to check manifest content
table::manifest: Add tablet info to manifest.json
test::test_snapshot_with_tablets: Add small test for topo coordinated snapshot
scylla-nodetool: Add "cluster snapshot" command
api::storage_service: Add tablets/snapshots command for cluster level snapshot
db::snapshot-ctl: Add method to do snapshot using topo coordinator
storage_proxy: Add snapshot_keyspace method
topology_coordinator: Add handler for snapshot_tables
storage_proxy: Add handler for SNAPSHOT_WITH_TABLETS
messaging_service: Add SNAPSHOT_WITH_TABLETS verb
feature_service: Add SNAPSHOT_AS_TOPOLOGY_OPERATION feature
topology_mutation: Add setter for snapshot part of row
system_keyspace::topology_requests_entry: Add snapshot info to table
topology_state_machine: Add snapshot_tables operation
topology_coordinator: Break out logic from handle_truncate_table
storage_proxy: Break out logic from request_truncate_with_tablets
test/object_store: Remove create_ks_and_cf() helper
test/object_store: Replace create_ks_and_cf() usage with standard methods
test/object_store: Shift indentation right for test cases
This patch adds a unit test for tablet_map::get_secondary_replica().
It was never officially defined how the "primary" and "secondary"
replicas were chosen, and their implementation changed over time,
but the one invariant that this test verifies is that the secondary
replica and the primary replica must be a different node.
This test reproduces issue SCYLLADB-777, where we discovered that
the get_primary_replica() changed without a corresponding change to
get_primary_replica(). So before the previous patch, this test failed,
and after the previous patch - it passes.
Signed-off-by: Nadav Har'El <nyh@scylladb.com>
They were running in recovery to reuse existing system tables without
group0 id, but since we want to remove recovery mode we need to
re-generate the tables.
Make the actual table name a parameter and add logic to adapt to the
variant used.
Also add dump_to_log::yes to is_rows() invokation to help debuging
tests.
There is no point running repair for tables using RF one. Row level
repair will skip it but the auto repair scheduler will keep scheduling
such repairs since repair_time could not be updated.
Skip such repairs at the scheduler level for auto repair.
If the request is issued by user, we will have to schedule such
repair otherwise the user request will never be finished.
Fixes SCYLLADB-561
Closesscylladb/scylladb#28640
This patchset replaces permissions cache based on loading_cache with a new unified (permissions and roles), full, coherent auth cache.
Reason for the change is that we want to improve scenarios under stress and simplify operation manuals. New cache doesn't require any tweaking. And it behaves particularly better in scenarios with lots of schema entities (e.g. tables) combined with unprepared queries. Old cache can generate few thousands of extra internal tps due to cache refresh.
Benchmark of unprepared statements (just to populate the cache) with 1000 tables shows 3k tps of internal reads reduction and 9.1% reduction of median instructions per op. So many tables were used to show resource impact, cache could be filled with other resource types to show the same improvement.
Backport: no, it's a new feature.
Fixes https://github.com/scylladb/scylladb/issues/7397
Fixes https://github.com/scylladb/scylladb/issues/3693
Fixes https://github.com/scylladb/scylladb/issues/2589
Fixes https://scylladb.atlassian.net/browse/SCYLLADB-147Closesscylladb/scylladb#28078
* github.com:scylladb/scylladb:
test: boost: add auth cache tests
auth: add cache size metrics
docs: conf: update permissions cache documentation
auth: remove old permissions cache
auth: use unified cache for permissions
auth: ldap: add permissions reload to unified cache
auth: add permissions cache to auth/cache
auth: add service::revoke_all as main entry point
auth: explicitly life-extend resource in auth_migration_listener
Today S3 client has well established and well testes (hopefully) http request retry strategy, in the rest of clients it looks like we are trying to achieve the same writing the same code over and over again and of course missing corner cases that already been addressed in the S3 client.
This PR aims to extract the code that could assist other clients to detect the retryability of an error originating from the http client, reuse the built in seastar http client retryability and to minimize the boilerplate of http client exception handling
No backport needed since it is only refactoring of the existing code
Closesscylladb/scylladb#28250
* github.com:scylladb/scylladb:
exceptions: add helper to build a chain of error handlers
http: extract error classification code
aws_error: extract `retryable` from aws_error
- Correct `calc_part_size` function since it could return more than 10k parts
- Add tests
- Add more checks in `calc_part_size` to comply with S3 limits
Fixes: https://scylladb.atlassian.net/browse/SCYLLADB-640
Must be ported back to 2025.3/4 and 2026.1 since we may encounter this bug in production clusters
Closesscylladb/scylladb#28592
* github.com:scylladb/scylladb:
s3_client: add more constrains to the calc_part_size
s3_client: add tests for calc_part_size
s3_client: correct multipart part-size logic to respect 10k limit
Improves performance of deserialization of vector data for calculating similarity functions.
Instead of deserializing vector data into a std::vector<data_value>, we deserialize directly into a std::vector<float>
and then pass it to similarity functions as a std::span<const float>.
This avoids overhead of data_value allocations and conversions.
Example QPS of `SELECT id, similarity_cosine({vector<float, 1536>}, {vector<float, 1536>}) ...`:
client concurrency 1: before: ~135 QPS, after: ~1005 QPS
client concurrency 20: before: ~280 QPS, after: ~2097 QPS
Measured using https://github.com/zilliztech/VectorDBBench (modified to call above query without ANN search)
Fixes https://scylladb.atlassian.net/browse/SCYLLADB-471Closesscylladb/scylladb#28615
The cache is covered already with general auth
dtests but some cases are more tricky and easier
to express directly as calls to cache class.
For such tests boost test file was added.
Fixes#28398Fixes#28399
When used as path elements in google storage paths, the object names need to be URL encoded. Due to
a.) tests not really using prefixes including non-url valid chars (i.e. / etc)
and
b.) the mock server used for most testing not enforcing this particular aspect,
this was missed.
Modified unit tests to use prefixing for all names, so when running real GS, any errors like this will show.
"Real" GCS also behaves a bit different when listing with pager, compared to mock;
The former will not give a pager token for last page, only penultimate.
Adds handling for this.
Needs backport to the releases that have (though might not really use) the feature, as it is technically possible to use google storage for backup and whatnot there, and it should work as expected.
Closesscylladb/scylladb#28400
* github.com:scylladb/scylladb:
utils/gcp/object_storage: URL-encode object names in URL:s
utils::gcp::object_storage: Fix list object pager end condition detection
It turns out that the cdc driver requires permissions to two additional system tables. This patch adds them to VECTOR_SEARCH_INDEXING and modifies the unit tests. The integration with vector store was tested manually, integration tests will be added in vector-store repository in a follow up PR.
Fixes: SCYLLADB-522
Closesscylladb/scylladb#28519
