Split the `log_record` to `log_record_header` type that has the record
metadata fields and the mutation as a separate field which is the actual
record data:
struct log_record {
log_record_header header;
canonical_mutation mut;
};
Both the header and mutation have variable serialized size. When a
record is serialized in a write_buffer, we first put a small
`record_header` that has the header size and data size, then the
serialized header and data follow. The `log_location` of a record points
to the beginning of the `record_header`, and the size includes the
`record_header`.
This allows us to read a record header without reading the data when
it's not needed and avoid deserializing it:
* on recovery, when scanning all segments, we read only the record
headers.
* on compaction, we read the record header first to determine if the
record is alive, if yes then we read the data.
Closesscylladb/scylladb#29457
There are several reasons we want to do that.
One is that it will give us more flexibility in distributing the
load. We can subdivide tablets at any token, and achieve more
evenly-sized tablets. In particular, we can isolate large partitions
into separate tablets.
We can also split and merge incrementally individual tablets.
Currently, we do it for the whole table or nothing, which makes
splits and merges take longer and cause wide swings of the count.
This is not implemented in this PR yet, we still split/merge the whole table.
Another reason is vnode to tablets migration. We now could construct a
tablet map which matches exactly the vnode boundaries, so migration
can happen transparently from CQL-coordinator point of view.
Tablet count is still a power-of-two by default for newly created tables.
It may be different if tablet map is created by non-standard means,
or if per-table tablet option "pow2_count" is set to "false".
build/release/scylla perf-tablets:
Memory footprint for 131k tablets increased from 56 MiB to 58.1 MiB (+3.5%)
Before:
```
Generating tablet metadata
Total tablet count: 131072
Size of tablet_metadata in memory: 57456 KiB
Copied in 0.014346 [ms]
Cleared in 0.002698 [ms]
Saved in 1234.685303 [ms]
Read in 445.577881 [ms]
Read mutations in 299.596313 [ms] 128 mutations
Read required hosts in 247.482742 [ms]
Size of canonical mutations: 33.945053 [MiB]
Disk space used by system.tablets: 1.456761 [MiB]
Tablet metadata reload:
full 407.69ms
partial 2.65ms
```
After:
```
Generating tablet metadata
Total tablet count: 131072
Size of tablet_metadata in memory: 59504 KiB
Copied in 0.032475 [ms]
Cleared in 0.002965 [ms]
Saved in 1093.877441 [ms]
Read in 387.027100 [ms]
Read mutations in 255.752121 [ms] 128 mutations
Read required hosts in 211.202805 [ms]
Size of canonical mutations: 33.954453 [MiB]
Disk space used by system.tablets: 1.450162 [MiB]
Tablet metadata reload:
full 354.50ms
partial 2.19ms
```
Closesscylladb/scylladb#28459
* github.com:scylladb/scylladb:
test: boost: tablets: Add test for merge with arbitrary tablet count
tablets, database: Advertise 'arbitrary' layout in snapshot manifest
tablets: Introduce pow2_count per-table tablet option
tablets: Prepare for non-power-of-two tablet count
tablets: Implement merged tablet_map constructor on top of for_each_sibling_tablets()
tablets: Prepare resize_decision to hold data in decisions
tablets: table: Make storage_group handle arbitrary merge boundaries
tablets: Make stats update post-merge work with arbitrary merge boundaries
locator: tablets: Support arbitrary tablet boundaries
locator: tablets: Introduce tablet_map::get_split_token()
dht: Introduce get_uniform_tokens()
This series allows creating multiple vector indexes on the same column so users can rebuild an index without losing query availability.
The intended flow is:
1. Create a new vector index on a column that already has one.
2. Keep serving ANN queries from the old index while the new one is being built.
3. Verify the new index is ready.
4. Automatically switch to the remaining index.
5. Drop the old index.
To make that deterministic, `index_version` is changed from the base table schema version to a real creation timeuuid. When multiple vector indexes exist on the same column, ANN query planning now picks the index according to the routing implemented in Vector Store (newest serving index). This keeps queries on the old index until it the new one is up and ready.
This patch also removes the create-time restriction that rejected a second vector index on the same column. Name collisions are still rejected as before.
Test coverage is updated accordingly:
- Scylla now verifies that two vector indexes can coexist on the same column.
- Cassandra/SAI behavior is still covered and is still expected to reject duplicate indexes on the same column.
Fixes: VECTOR-610
Closesscylladb/scylladb#29407
* github.com:scylladb/scylladb:
docs: document vector index metadata and duplicate handling
test/cqlpy: cover vector index duplicate creation rules
vector_index: allow multiple named indexes on one column
vector_index: store `index_version` as creation timeuuid
Commit 234f905 (sstables: scylla_metadata: add schema member) added a
new Schema subcomponent (tag 11) to scylla_metadata. Document it in the
sstable Scylla format reference:
- Add schema to the subcomponent grammar enumeration
- Add a summary entry describing the subcomponent (tag 11) and its purpose
- Add a detailed ## schema subcomponent section with the binary grammar,
covering table_id, table_schema_version, keyspace_name, table_name and
the column_description array (column_kind, column_name, column_type)
Fixes https://github.com/scylladb/scylladb/issues/27960
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
Closesscylladb/scylladb#28983
RF change of tablet keyspace starts tablet rebuilds. Even if any of the rebuilds is rolled back (because pending replica was excluded), rf change request finishes successfully. In this case we end up with the state of the replicas that isn't compatible with the expected keyspace replication.
Modify topology coordinator so that if it were to be idle, it starts checking if there are any missing replicas. It moves to transition_state::tablet_migration and run required rebuilds.
If a new RF change request encounters invalid state of replicas it fails. The state will be fixed later and the analogical ALTER KEYSPACE statement will be allowed.
Fixes: SCYLLADB-109.
Requires backport to all versions with tablet keyspace rf change.
Closesscylladb/scylladb#28709
* github.com:scylladb/scylladb:
test: add test_failed_tablet_rebuild_is_retried_on_alter
test: add a test to ensure that failed rebuilds are retried
service: fail ALTER KEYSPACE if replicas do not satisfy the replication
service: retry failed tablet rebuilds
service: maybe_start_tablet_migration returns std::optional<group0_guard>
Related scylladb/scylladb-docs-homepage#153.
make multiversion failed under Sphinx 8+ with:
```
sphinx-build: error: argument --tag/-t: expected one argument
subprocess.CalledProcessError: Command '(..., '-m', 'sphinx', '-t', '-D', 'smv_metadata_path=...', ..., 'manual')' returned non-zero exit status 2.
make: *** [multiversion] Error 1
```
sphinx-multiversion's arg forwarding splits `-t manual`, sending `-t` into the options slot and `manual` to the trailing FILENAMES positional.
Sphinx 7 silently tolerated the dangling `-t`; Sphinx 8+'s stricter
argparse CLI rejects it. Instead, it now reads FLAGS from an env variable.
How to test:
````
make multiversion
make FLAG=opensource multiversion
````
Both complete and switch variants correctly.
chore: rm empty lines
Closesscylladb/scylladb#29472
The enable_logstor configuration option is redundant with the 'logstor'
experimental feature flag. Consolidate to a single gate: use the
experimental feature to control both whether logstor is available for
table creation and whether it is initialized at database startup.
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
Signed-off-by: Pavel Emelyanov <xemul@scylladb.com>
Closesscylladb/scylladb#29427
`LDAPRoleManager` interpolated usernames directly into `ldap_url_template`,
allowing LDAP filter injection and URL structure manipulation via crafted
usernames.
This PR adds two layers of encoding when substituting `{USER}`:
1. **RFC 4515 filter escaping** — neutralises `*`, `(`, `)`, `\`, NUL
2. **URL percent-encoding** — prevents `%`, `?`, `#` from breaking
`ldap_url_parse`'s component splitting or undoing the filter escaping
It also adds `validate_query_template()` at startup to reject templates
that place `{USER}` outside the filter component (e.g. in the host or
base DN), where filter escaping would be the wrong defense.
Fixes: SCYLLADB-1309
Compatibility note:
Templates with `{USER}` in the host, base DN, attributes, or extensions
were previously silently accepted. They are now rejected at startup with
a descriptive error. Only templates with `{USER}` in the filter component
(after the third `?`) are valid.
Fixes: SCYLLADB-1309
Due to severeness, should be backported to all maintained versions.
Closesscylladb/scylladb#29388
* github.com:scylladb/scylladb:
auth: sanitize {USER} substitution in LDAP URL templates
test/ldap: add LDAP filter-injection reproducers
Currently, the manifest advertises "powof2", which is wrong for
arbitrary count and boundaries.
Introduce a new kind of layout called "arbitrary", and produce it if
the tablet map doesn't conform to "powof2" layout.
We should also produce tablet boundaries in this case, but that's
worked on in a different PR: https://github.com/scylladb/scylladb/pull/28525
By default it's true, in which case tablet count of the table is
rounded up to a power of two. This option allows lifting this, in
which case the count can be arbitrary. This will allow testing the
logic of arbitrary tablet count.
In commit 727f68e0f5 we added the ability to SELECT:
* Individual elements of a map: `SELECT map_col[key]`.
* Individual elements of a set: `SELECT set_col[key]` returns key if the key exists in the set, or null if it doesn't, allowing to check if the element exists in the set.
* Individual pieces of a UDT: `SELECT udt_col.field`.
But at the time, we didn't provide any way to retrieve the **meta-data** for this value, namely its timestamp and TTL. We did not support `SELECT TIMESTAMP(collection[key])`, or `SELECT TIMESTAMP(udt.field)`.
Users requested to support such SELECTs in the past (see issue #15427), and Cassandra 5.0 added support for this feature - for both maps and sets and udts - so we also need this feature for compatibility. This feature was also requested recently by vector-search developers, who wanted to read Alternator columns - stored as map elements, not individual columns - with their WRITETIME information.
The first four patches in this series adds the feature (in four smaller patches instead one big one), the fifth and sixth patches add tests (cqlpy and boost tests, respectively). The seventh patch adds documentation.
All the new tests pass on Cassandra 5, failed on Scylla before the present fix, and pass with it.
The fix was surprisingly difficult. Our existing implementation (from 727f68e0f5 building on earlier machinery) doesn't just "read" `map_col[key]` and allow us to return just its timestamp. Rather, the implementation reads the entire map, serializes it in some temporary format that does **not** include the timestamps and ttls, and then takes the subscript key, at which point we no longer have the timestamp or ttl of the element. So the fix had to cross all these layers of the implementation.
While adding support for UDT fields in a pre-existing grammar nonterminal "subscriptExpr", we unintentionally added support for UDT fields also in LWT expressions (which used this nonterminal). LWT missing support for UDT fields was a long-time known compatibility issue (#13624) so we unintentionally fixed it :-) Actually, to completely fix it we needed another small change in the expression implementation, so the eighth patch in this series does this.
Fixes#15427Fixes#13624Closesscylladb/scylladb#29134
* github.com:scylladb/scylladb:
cql3: support UDT fields in LWT expressions
cql3: document WRITETIME() and TTL() for elements of map, set or UDT
test/boost: test WRITETIME() and TTL() on map collection elements
test/cqlpy: test WRITETIME() and TTL() on element of map, set or UDT
cql3: prepare and evaluate WRITETIME/TTL on collection elements and UDT fields
cql3: parse per-element timestamps/TTLs in the selection layer
cql3: add extended wire format for per-element timestamps and TTLs
cql3: extend WRITETIME/TTL grammar to accept collection and UDT elements
Document the new vector index behavior in the user-facing and developer
docs.
Describe `index_version` as a creation timeuuid stored in
`system_schema.indexes`, clarify that recreating an index changes it
while ALTER TABLE does not, and document that Scylla allows multiple
named vector indexes on the same column while still rejecting unnamed
duplicates.
implement tablet split, tablet merge and tablet migration for tables that use the experimental logstor storage engine.
* tablet merge simply merges the histograms of segments of one compaction group with another.
* for tablet split we take the segments from the source compaction group, read them and write all live records to separate segments according to the split classifier, and move separated segments to the target compaction groups.
* for tablet migration we use stream_blob, similarly to file streaming of sstables. we add a new op type for streaming a logstor segment. on the source we take a snapshot of the segments with an input stream that reads the segment, and on the target we create a sink that allocates a new segment on the target shard and writes to it.
* we also do some improvements for recovery and loading of segments. we add a segment header that contains useful information for non-mixed segments, such as the table and token range.
Refs SCYLLADB-770
no backport - still a new and experimental feature
Closesscylladb/scylladb#29207
* github.com:scylladb/scylladb:
test: logstor: additional logstor tests
docs/dev: add logstor on-disk format section
logstor: add version and crc to buffer header
test: logstor: tablet split/merge and migration
logstor: enable tablet balancing
logstor: streaming of logstor segments using stream_blob
logstor: add take_logstor_snapshot
logstor: segment input/output stream
logstor: implement compaction_group::cleanup
logstor: tablet split
logstor: tablet merge
logstor: add compaction reenabler
logstor: add segment header
logstor: serialize writes to active segment
replica: extend compaction_group functions for logstor
replica: add compaction_group_for_logstor_segment
logstor: code cleanup
Add to the SELECT documentation (docs/cql/dml/select.rst) documentation
of the new ability to select WRITETIME() and TTL() of a single element
of map, set or UDT.
Also in the TTL documentation (docs/cql/time-to-live.rst), which already
had a section on "TTL for a collection", add a mention of the ability
to read a single element's TTL(), and an example.
Signed-off-by: Nadav Har'El <nyh@scylladb.com>
LDAPRoleManager interpolated usernames directly into ldap_url_template.
That allowed LDAP filter metacharacters to change the query, and URL
metacharacters such as %, ?, and # to change how ldap_url_parse()
split the URL.
Apply two layers of encoding when substituting {USER}:
1. RFC 4515 filter escaping -- neutralises filter operators.
2. URL percent-encoding -- prevents ldap_url_parse from
misinterpreting %-sequences, ? delimiters, or # fragments.
Add validate_query_template() (called from start()) which uses a
sentinel round-trip through ldap_url_parse to reject templates
that place {USER} outside the filter component. Templates that
previously placed {USER} in the host or base DN were silently
accepted; they are now rejected at startup with a descriptive
error.
Change parse_url() to take const sstring& instead of string_view
to enforce the null-termination requirement of ldap_url_parse()
at the type level.
Add regression coverage for %2a, ?, #, and invalid {USER}
placement in the base DN, host, attributes, and extensions.
Update LDAP authorization docs to document the escaping behavior
and the {USER} placement restriction.
Fixes: SCYLLADB-1309
For counter updates, use a counter ID that is constructed from the
node's rack instead of the node's host ID.
A rack can have at most two active tablet replicas at a time: a single
normal tablet replica, and during tablet migration there are two active
replicas, the normal and pending replica. Therefore we can have two
unique counter IDs per rack that are reused by all replicas in the rack.
We construct the counter ID from the rack UUID, which is constructed
from the name "dc:rack". The pending replica uses a deterministic
variation of the rack's counter ID by negating it.
This improves the performance and size of counter cells by having less
unique counter IDs and less counter shards in a counter cell.
Previously the number of counter shards was the number of different
host_id's that updated the counter, which can be typically the number of
nodes in the cluster and continue growing indefinitely when nodes are
replaced. with the rack-based counter id the number of counter shards
will be at most twice the number of different racks (including removed
racks, which should not be significant).
Fixes SCYLLADB-356
backport not needed - an enhancement
Closesscylladb/scylladb#28901
* github.com:scylladb/scylladb:
docs/dev: add counters doc
counters: reuse counter IDs by rack
Cassandra's native vector index type is StorageAttachedIndex (SAI). Libraries such as CassIO, LangChain, and LlamaIndex generate `CREATE CUSTOM INDEX` statements using the SAI class name. Previously, ScyllaDB rejected these with "Non-supported custom class".
This PR adds compatibility so that SAI-style CQL statements work on ScyllaDB without modification.
1. **test: enable SAI_VECTOR_ALLOW_CUSTOM_PARAMETERS for Cassandra tests**
Enables the `SAI_VECTOR_ALLOW_CUSTOM_PARAMETERS` Cassandra system property so that `search_beam_width` tests pass against Cassandra 5.0.7.
2. **test: modernize vector index test comments and fix xfail**
Updates test comments from "Reproduces" to "Validates fix for" for clarity, and converts the `test_ann_query_with_pk_restriction` xfail into a stripped-down CREATE INDEX syntax test (removing unused INSERT/SELECT lines). Removes the redundant `test_ann_query_with_non_pk_restriction` test.
3. **cql: add Cassandra SAI (StorageAttachedIndex) compatibility**
Core implementation: the SAI class name is detected and translated to ScyllaDB's native `vector_index`. The fully-qualified class name (`org.apache.cassandra.index.sai.StorageAttachedIndex`) requires exact case; short names (`StorageAttachedIndex`, `sai`) are matched case-insensitively — matching Cassandra's behavior. Non-vector and multi-column SAI targets are rejected with clear errors. Adds `skip_on_scylla_vnodes` fixture, SAI compatibility docs, and the Cassandra compatibility table entry (split into "SAI general" vs "SAI for vector search").
4. **cql: accept source_model option for Cassandra SAI compatibility**
The `source_model` option is a Cassandra SAI property used by Cassandra libraries (e.g., CassIO) to tag vector indexes with the name of the embedding model. ScyllaDB accepts it for compatibility but does not use it — the validator is a no-op lambda. The option is preserved in index metadata and returned in DESCRIBE INDEX output.
- `cql3/statements/create_index_statement.cc`: SAI class detection and rewriting logic
- `index/secondary_index_manager.cc`: case-insensitive class name lookup (lowercasing restored before `classes.find()`)
- `index/vector_index.cc`: `source_model` accepted as a valid option with no-op validator
- `docs/cql/secondary-indexes.rst`: SAI compatibility documentation with `source_model` table row
- `docs/using-scylla/cassandra-compatibility.rst`: SAI entry split into general (not supported) and vector search (supported)
- `test/cqlpy/conftest.py`: `scylla_with_tablets` renamed to `skip_on_scylla_vnodes`
- `test/cqlpy/test_vector_index.py`: SAI tests inlined (no constants), `check_bad_option()` helper for numeric validation, uppercase class name test, merged `source_model` tests with DESCRIBE check
| Backend | Passed | Skipped | Failed |
|--------------------|--------|---------|--------|
| ScyllaDB (dev) | 42 | 0 | 0 |
| Cassandra 5.0.7 | 16 | 26 | 0 |
None: new feature.
Fixes: SCYLLADB-239
Closesscylladb/scylladb#28645
* github.com:scylladb/scylladb:
cql: accept source_model option and show options in DESCRIBE
cql: add Cassandra SAI (StorageAttachedIndex) compatibility
test: modernize vector index test comments and fix xfail
test: enable SAI_VECTOR_ALLOW_CUSTOM_PARAMETERS for Cassandra tests
Accept the Cassandra SAI 'source_model' option for vector indexes.
This option is used by Cassandra libraries (e.g., CassIO, LangChain)
to tag vector indexes with the name of the embedding model that
produced the vectors.
ScyllaDB does not use the source_model value but stores it and
includes it in the DESCRIBE INDEX output for Cassandra compatibility.
Additionally, extend vector_index::describe() to emit a
WITH OPTIONS = {...} clause containing all user-provided index options
(filtering out system keys: target, class_name, index_version).
This makes options like similarity_function, source_model, etc.
visible in DESCRIBE output.
Libraries such as CassIO, LangChain, and LlamaIndex create vector
indexes using Cassandra's StorageAttachedIndex (SAI) class name.
This commit lets ScyllaDB accept these statements without modification.
When a CREATE CUSTOM INDEX statement specifies an SAI class name on a
vector column, ScyllaDB automatically rewrites it to the native
vector_index implementation. Accepted class names (case-insensitive):
- org.apache.cassandra.index.sai.StorageAttachedIndex
- StorageAttachedIndex
- sai
SAI on non-vector columns is rejected with a clear error directing
users to a secondary index instead.
The SAI detection and rewriting logic is extracted into a dedicated
static function (maybe_rewrite_sai_to_vector_index) to keep the
already-long validate_while_executing method manageable.
Multi-column (local index) targets and nonexistent columns are
skipped with continue — the former are treated as filtering columns
by vector_index::check_target(), and the latter are caught later by
vector_index::validate().
Tests that exercise features common to both backends (basic creation,
similarity_function, IF NOT EXISTS, bad options, etc.) now use the
SAI class name with the skip_on_scylla_vnodes fixture so they run
against both ScyllaDB and Cassandra. ScyllaDB-specific tests continue
to use USING 'vector_index' with scylla_only.
Every time someone modifies the build system — adding a source file, changing a compilation flag, or wiring a new test — the change tends to land in only one of our two build systems (configure.py or CMake). Over time this causes three classes of problems:
1. **CMake stops compiling entirely.** Missing defines, wrong sanitizer flags, or misplaced subdirectory ordering cause hard build failures that are only discovered when someone tries to use CMake (e.g. for IDE integration).
2. **Missing build targets.** Tests or binaries present in configure.py are never added to CMake, so `cmake --build` silently skips them. This PR fixes several such cases (e.g. `symmetric_key_test`, `auth_cache_test`, `sstable_tablet_streaming`).
3. **Missing compilation units in targets.** A `.cc` file is added to a test binary in one system but not the other, causing link errors or silently omitted test coverage.
To fix the existing drift and prevent future divergence, this series:
**Adds a build-system comparison script**
(`scripts/compare_build_systems.py`) that configures both systems into a temporary directory, parses their generated `build.ninja` files, and compares per-file compilation flags, link target sets, and per-target libraries. configure.py is treated as the baseline; CMake must match it. The script supports a `--ci` mode suitable for gating PRs that touch
build files.
**Fixes all current mismatches** found by the script:
- Mode flag alignment in `mode.common.cmake` and `mode.Coverage.cmake`
(sanitizer flags, `-fno-lto`, stack-usage warnings, coverage defines).
- Global define alignment (`SEASTAR_NO_EXCEPTION_HACK`, `XXH_PRIVATE_API`,
`BOOST_ALL_DYN_LINK`, `SEASTAR_TESTING_MAIN` placement).
- Seastar build configuration (shared vs static per mode, coverage
sanitizer link options).
- Abseil sanitizer flags (`-fno-sanitize=vptr`).
- Missing test targets in `test/boost/CMakeLists.txt`.
- Redundant per-test flags now covered by global settings.
- Lua library resolution via a custom `cmake/FindLua.cmake` using
pkg-config, matching configure.py's approach.
**Adds documentation** (`docs/dev/compare-build-systems.md`) describing how to run the script and interpret its output.
No backport needed — this is build infrastructure improvement only.
Closesscylladb/scylladb#29273
* github.com:scylladb/scylladb:
scripts: remove lua library rename workaround from comparison script
cmake: add custom FindLua using pkg-config to match configure.py
test/cmake: add missing tests to boost test suite
test/cmake: remove per-test LTO disable
cmake: add BOOST_ALL_DYN_LINK and strip per-component defines
cmake: move SEASTAR_TESTING_MAIN after seastar and abseil subdirs
cmake: add -fno-sanitize=vptr for abseil sanitizer flags
cmake: align Seastar build configuration with configure.py
cmake: align global compile defines and options with configure.py
cmake: fix Coverage mode in mode.Coverage.cmake
cmake: align mode.common.cmake flags with configure.py
configure.py: add sstable_tablet_streaming to combined_tests
docs: add compare-build-systems.md
scripts: add compare_build_systems.py to compare ninja build files
Add a documentation of the counters feature implementation in
docs/dev/counters.md.
The documentation is taken from the wiki and updated according to the
current state of the code - legacy details are removed, and a section
about the counter id is added.
- Document Alternator (DynamoDB-compatible API) auditing support in
the operator-facing auditing guide (docs/operating-scylla/security/auditing.rst)
- Cover operation-to-category mapping, operation field format,
keyspace/table filtering, and audit log examples
- Document the audit_tables=alternator.<table> shorthand format
- Minor wording improvements throughout (Scylla -> ScyllaDB,
clarify default audit backend)
Closesscylladb/scylladb#29231
Fixes#29043 with the following docs changes:
- docs/dev/system-keyspaces.md: Added a new file that documents all keyspaces created internally
Closesscylladb/scylladb#29044
This commit removes references ScyllaDB versions ("Since x.y")
from the ScyllaDB documentation on Docker Hub, as they are
redundant and confusing (some versions are super ancient).
Fixes SCYLLADB-1212
Closesscylladb/scylladb#29204
The rack option was fully implemented in the code but omitted from
both docs/operating-scylla/admin.rst and conf/scylla.yaml comments.
Closesscylladb/scylladb#29239
Queries against local vector indexes were failing with the error:
```ANN ordering by vector requires the column to be indexed using 'vector_index'```
This was a regression introduced by 15788c3734, which incorrectly
assumed the first column in the targets list is always the vector column.
For local vector indexes, the first column is the partition key, causing
the failure.
Previously, serialization logic for the target index option was shared
between vector and secondary indexes. This is no longer viable due to
the introduction of local vector indexes and vector indexes with filtering
columns, which have different target format.
This commit introduces a dedicated JSON-based serialization format for
vector index targets, identifying the target column (tc), filtering
columns (fc), and partition key columns (pk). This ensures unambiguous
serialization and deserialization for all vector index types.
This change is backward compatible for regular vector indexes. However,
it breaks compatibility for local vector indexes and vector indexes with
filtering columns created in version 2026.1.0. To mitigate this, usage
of these specific index types will be blocked in the 2026.1.0 release
by failing ANN queries against them in vector-store service.
Fixes: SCYLLADB-895
Backport to 2026.1 is required as this issue occurs also on this branch.
Closesscylladb/scylladb#28862
* github.com:scylladb/scylladb:
index: fix DESC INDEX for vector index
vector_search: test: refactor boilerplate setup
vector_search: fix SELECT on local vector index
index: test: vector index target option serialization test
index: test: secondary index target option serialization test
This issue adds the upgrade guide for all patch releases within 2026.x major release.
In addition, it fixes the link to Upgrade Policy in the 2025.x-to-2026.1 upgrade guide.
Fixes SCYLLADB-1247
Closesscylladb/scylladb#29307
This PR introduces the vnodes-to-tablets migration procedure, which enables converting an existing vnode-based keyspace to tablets.
The migration is implemented as a manual, operator-driven process executed in several stages. The core idea is to first create tablet maps with the same token boundaries and replica hosts as the vnodes, and then incrementally convert the storage of each node to the tablets layout. At a high level, the procedure is the following:
1. Create tablet maps for all tables in the keyspace.
2. Sequentially upgrade all nodes from vnodes to tablets:
1. Mark a node for upgrade in the topology state.
2. Restart the node. During startup, while the node is offline, it reshards the SSTables on vnode boundaries and switches to a tablet ERM.
3. Wait for the node to return online before proceeding to the next node.
4. Finalize the migration:
1. Update the keyspace schema to mark it as tablet-based.
2. Clear the group0 state related to the migration.
From the client's perspective, the migration is online; the cluster can still serve requests on that keyspace, although performance may be temporarily degraded.
During the migration, some nodes use vnode ERMs while others use tablet ERMs. Cluster-level algorithms such as load balancing will treat the keyspace's tables as vnode-based. Once migration is finalized, the keyspace is permanently switched to tablets and cannot be reverted back to vnodes. However, a rollback procedure is available before finalization.
The patch series consists of:
* Load balancer adjustments to ignore tablets belonging to a migrating keyspace.
* A new vnode-based resharding mode, where SSTables are segregated on vnode boundaries rather than with the static sharder.
* A new per-node `intended_storage_mode` column in `system.topology`. Represents migration intent (whether migration should occur on restart) and direction.
* Four new REST endpoints for driving the migration (start, node upgrade/downgrade, finalize, status), along with `nodetool` wrappers. The finalization is implemented as a global topology request.
* Wiring of the migration process into the startup logic: the `distributed_loader` determines a migrating table's ERM flavor from the `intended_storage_mode` and the ERM flavor determines the `table_populator`'s resharding mode. Token metadata changes have been adjusted to preserve the ERM flavor.
* Cluster tests for the migration process.
Fixes SCYLLADB-722.
Fixes SCYLLADB-723.
Fixes SCYLLADB-725.
Fixes SCYLLADB-779.
Fixes SCYLLADB-948.
New feature, no backport is needed.
Closesscylladb/scylladb#29065
* github.com:scylladb/scylladb:
docs: Add ops guide for vnodes-to-tablets migration
test: cluster: Add test for migration of multiple keyspaces
test: cluster: Add test for error conditions
test: cluster: Add vnodes->tablets migration test (rollback)
test: cluster: Add vnodes->tablets migration test (1 table, 3 nodes)
test: cluster: Add vnodes->tablets migration test (1 table, 1 node)
scylla-nodetool: Add migrate-to-tablets subcommand
api: Add REST endpoint for vnode-to-tablet migration status
api: Add REST endpoint for migration finalization
topology_coordinator: Add `finalize_migration` request
database: Construct migrating tables with tablet ERMs
api: Add REST endpoint for upgrading nodes to tablets
api: Add REST endpoint for starting vnodes-to-tablets migration
topology_state_machine: Add intended_storage_mode to system.topology
distributed_loader: Wire vnode-based resharding into table populator
replica: Pick any compaction group for resharding
compaction: resharding_compaction: add vnodes_resharding option
storage_service: Preserve ERM flavor of migrating tables
tablet_allocator: Exclude migrating tables from load balancing
feature_service: Add vnodes_to_tablets_migrations feature
As discussed with @ScyllaPiotr in
https://github.com/scylladb/scylladb/pull/29232, the doc about to be
removed is just:
> Looking at history, I think this audit.md is a design doc: scylladb/scylla-enterprise@87a5c19, for which the feature has been implemented differently, eventually, and was created around the time when design docs, apparently, where stored within the repository itself. So for me it's some trash (sorry for strong language) that can be safely removed.
Closesscylladb/scylladb#29316
Queries against local vector indexes were failing with the error:
"ANN ordering by vector requires the column to be indexed using 'vector_index'"
This was a regression introduced by 15788c3734, which incorrectly
assumed the first column in the targets list is always the vector column.
For local vector indexes, the first column is the partition key, causing
the failure.
Previously, serialization logic for the target index option was shared
between vector and secondary indexes. This is no longer viable due to
the introduction of local vector indexes and vector indexes with filtering
columns, which have different target format.
This commit introduces a dedicated JSON-based serialization format for
vector index targets, identifying the target column (tc), filtering
columns (fc), and partition key columns (pk). This ensures unambiguous
serialization and deserialization for all vector index types.
This change is backward compatible for regular vector indexes. However,
it breaks compatibility for local vector indexes and vector indexes with
filtering columns created in version 2026.1.0. To mitigate this, usage
of these specific index types will be blocked in the 2026.1.0 release
by failing ANN queries against them in vector-store service.
Fixes: SCYLLADB-895
Target option serialization must remain stable for backward compatibility.
The index is restored from this property on startup, so unintentional
changes to the serialization schema can break indexes after upgrade.
The vnodes-to-tablets migration is a manual procedure, so instructions
need to be provided to the users.
Signed-off-by: Nikos Dragazis <nikolaos.dragazis@scylladb.com>
Document the purpose, usage, and examples for
scripts/compare_build_systems.py which compares the configure.py
and CMake build systems by parsing their ninja build files.
RF change of tablet keyspace starts tablet rebuilds. Even if any of
the rebuilds is rolled back (because pending replica was excluded),
rf change request finishes successfully. Yet, we are left with not
enough replicas. Then, a next new rf change request handler would
generate a rebuild of two replicas of the same tablet. Such a transition
would not be applied, as we don't allow many pending replicas.
An exception would be thrown and the request would be retried infinitely,
blocking the topology coordinator.
Throw and fail rf change request if there is not enough replicas.
The request should be retried later, after the issue is fixed
by the mechanism introduced in previous changes.
Part of the vnodes-to-tablets migration is to reshard the SSTables of
each node on vnode boundaries. Resharding is a heavy operation that
runs on startup while the node is offline. Since nodes can restart
for unexpected reasons, we need a flag to do it in a controllable way.
We also need the ability to roll back the migration, which requires
resharding in the opposite direction. This means a node must be aware of
the intended migration direction.
To address both requirements, this patch introduces a new column,
intended_storage_mode, in system.topology. A non-null value indicates
that a node should perform a migration and specifies the migration
direction.
Signed-off-by: Nikos Dragazis <nikolaos.dragazis@scylladb.com>
This patch series introduces a new documentation for exiting guardrails.
Moreover:
- Warning / failure messages of recently added write CL guardrails (SCYLLADB-259) are rephrased, so all guardrails have similar messages.
- Some new tests are added, to help verify the correctness of the documentation and avoid situations where the documentation and implementation diverge.
Fixes: [SCYLLADB-257](https://scylladb.atlassian.net/browse/SCYLLADB-257)
No backport, just new docs and tests.
[SCYLLADB-257]: https://scylladb.atlassian.net/browse/SCYLLADB-257?atlOrigin=eyJpIjoiNWRkNTljNzYxNjVmNDY3MDlhMDU5Y2ZhYzA5YTRkZjUiLCJwIjoiZ2l0aHViLWNvbS1KU1cifQClosesscylladb/scylladb#29011
* github.com:scylladb/scylladb:
test: add new guardrail tests matching documentation scenarios
test: add metric assertions to guardrail replication strategy tests
test: use regex matching in guardrail replication strategy tests
test: extract ks_opts helper in test_guardrail_replication_strategy
docs: document CQL guardrails
cql: improve write consistency level guardrail messages
Introduce an initial and experimental implementation of an alternative log-structured storage engine for key-value tables.
Main flows and components:
* The storage is composed of 32MB files, each file divided to segments of size 128k. We write to them sequentially records that contain a mutation and additional metadata. Records are written to a buffer first and then written to the active segment sequentially in 4k sized blocks.
* The primary index in memory maps keys to their location on disk. It is a B-tree per-table that is ordered by tokens, similar to a memtable.
* On reads we calculate the key and look it up in the primary index, then read the mutation from disk with a single disk IO.
* On writes we write the record to a buffer, wait for it to be written to disk, then update the index with the new location, and free the previous record.
* We track the used space in each segment. When overwriting a record, we increase the free space counter for the segment of the previous record that becomes dead. We store the segments in a histogram by usage.
* The compaction process takes segments with low utilization, reads them and writes the live records to new segments, and frees the old segments.
* Segments are initially "mixed" - we write to the active segment records from all tables and all tablets. The "separator" process rewrites records from mixed segments into new segments that are organized by compaction groups (tablets), and frees the mixed segments. Each write is written to the active segment and to a separator buffer of the compaction group, which is eventually flushed to a new segment in the compaction group.
Currently this mode is experimental and requires an experimental flag to be enabled.
Some things that are not supported yet are strong consistency, tablet migration, tablet split/merge, big mutations, tombstone gc, ttl.
to use, add to config:
```
enable_logstor: true
experimental_features:
- logstor
```
create a table:
```
CREATE TABLE ks.t(pk int PRIMARY KEY, a int, v text) WITH storage_engine = 'logstor';
```
INSERT, SELECT, DELETE work as expected
UPDATE not supported yet
no backport - new feature
Closesscylladb/scylladb#28706
* github.com:scylladb/scylladb:
logstor: trigger separator flush for buffers that hold old segments
docs/dev: add logstor documentation
logstor: recover segments into compaction groups
logstor: range read
logstor: change index to btree by token per table
logstor: move segments to replica::compaction_group
db: update dirty mem limits dynamically
logstor: track memory usage
logstor: logstor stats api
logstor: compaction buffer pool
logstor: separator: flush buffer when full
logstor: hold segment until index updates
logstor: truncate table
logstor: enable/disable compaction per table
logstor: separator buffer pool
test: logstor: add separator and compaction tests
logstor: segment and separator barrier
logstor: separator debt controller
logstor: compaction controller
logstor: recovery: recover mixed segments using separator
logstor: wait for pending reads in compaction
logstor: separator
logstor: compaction groups
logstor: cache files for read
logstor: recovery: initial
logstor: add segment generation
logstor: reserve segments for compaction
logstor: index: buckets
logstor: add buffer header
logstor: add group_id
logstor: record generation
logstor: generation utility
logstor: use RIPEMD-160 for index key
test: add test_logstor.py
api: add logstor compaction trigger endpoint
replica: add logstor to db
schema: add logstor cf property
logstor: initial commit
db: disable tablet balancing with logstor
db: add logstor experimental feature flag
This PR fixes the Installation page:
- Replaces `http `with `https `in the download command.
- Replaces the Open Source example from the Installation section for CentOS (we overlooked this example before).
Fixes https://github.com/scylladb/scylladb/issues/29087
Fixes https://github.com/scylladb/scylladb/issues/29087
This update affects all supported versions and should be backported as a bug fix.
Closesscylladb/scylladb#29088
* github.com:scylladb/scylladb:
doc: remove the Open Source Example from Installation
doc: replace http with https in the installation instructions
The Web Installer page includes instructions to install the old pre-2025.1 Enterprise versions,
which are no longer supported (since we released 2026.1).
This commit removes those redundant and misleading instructions.
Fixes https://github.com/scylladb/scylladb/issues/29099Closesscylladb/scylladb#29103
Document that `SELECT ... WHERE` clause currently accepts only conjunctions
of relations joined by `AND` (`OR` is not supported), and that
parentheses cannot be used to group boolean subexpressions.
Add an unsupported query example and point readers to equivalent `IN`
rewrites when applicable.
This problem has been raised by one of our users in
https://forum.scylladb.com/t/error-parsing-query-or-unsupported-statement/5299,
and while one could infer answer to user's question by looking at the
syntax of the `SELECT ... WHERE`, it's not immediately obvious to
non-advanced users, so clarifying these concepts is justified.
Fixes: SCYLLADB-1116
Closesscylladb/scylladb#29100
