Commit Graph

14036 Commits

Author SHA1 Message Date
zachjsh fb7c84fb5d
Catalog clustering keys fixes (#16351)
* * add another catalog clustering columns unit test

* * dissallow clusterKeys with descending order

* * make more clear that clustering is re-written into ingest node
whether a catalog table or not

* * when partitionedBy is stored in catalog, user shouldnt need to specify
it in order to specify clustering

* * fix intellij inspection failure
2024-05-03 14:02:56 -04:00
Vadim Ogievetsky 4d62c4a917
Web console: concat data when doing a durable storage download (#16375)
* concat data

* fix silly console.error
2024-05-03 08:00:32 -07:00
Rishabh Singh c61c3785a0
Followup changes to 15817 (Segment schema publishing and polling) (#16368)
* Fix build

* Nit changes in KillUnreferencedSegmentSchema

* Replace reference to the abbreviation SMQ with Metadata Query, rename inTransit maps in schema cache

* nitpicks

* Remove reference to smq abbreviation from integration-tests

* Remove reference to smq abbreviation from integration-tests

* minor change

* Update index.md

* Add delimiter while computing schema fingerprint hash
2024-05-03 19:13:52 +05:30
AmatyaAvadhanula 5fae20d287
Do not allocate ids conflicting with existing segment ids (#16380)
* Do not allocate ids conflicting with existing segment ids

* Parameterized tests

* Add doc and retain test for coverage
2024-05-03 19:09:48 +05:30
Jan Werner b16401323b
update dependencies to address CVEs (#16374)
update dependencies to address new batch of CVEs:
- Azure POM from 1.2.19 to 1.2.23 to update transitive dependency nimbus-jose-jwt to address:  CVE-2023-52428
- commons-configuration2 from 2.8.0 to 2.10.1 to address: CVE-2024-29131 CVE-2024-29133
- bcpkix-jdk18on from 1.76 to 1.78.1 to address: CVE-2024-30172 CVE-2024-30171 CVE-2024-29857
2024-05-02 21:35:21 -07:00
Abhishek Radhakrishnan 3717554e16
Web console changes for https://github.com/apache/druid/pull/16288 (#16379)
Adds a text box for delta filter that can accept an optional json
object.
2024-05-02 15:50:17 -07:00
Vadim Ogievetsky 39ada8b9ad
Web console: surface more info on the supervisor view (#16318)
* add rate and stats

* better tabs

* detail

* add recent errors

* update tests

* don't let people hide the actions column because why

* don't sort on actions

* better way to agg

* add timeouts

* show error only once

* fix tests and Explain showing up

* only consider active tasks

* refresh

* fix tests

* better formatting
2024-05-02 08:50:27 -07:00
AmatyaAvadhanula b7ae78296a
Allow different timechunk lock types to coexist in a task group (#16369)
Description:
All the streaming ingestion tasks for a given datasource share the same lock for a given interval.
Changing lock types in the supervisor can lead to segment allocation errors due to lock conflicts
for the new tasks while the older tasks are still running.

Fix:
Allow locks of different types (EXCLUSIVE, SHARED, APPEND, REPLACE) to co-exist if they have
the same interval and the same task group.
2024-05-02 19:54:43 +05:30
Kashif Faraz e5b40b0b8c
Miscellaneous cleanup of load queue references (#16367)
Changes:
- Rename `DataSegmentChangeRequestAndStatus` to `DataSegmentChangeResponse`
- Rename `SegmentLoadDropHandler.Status` to `SegmentChangeStatus`
- Remove method `CoordinatorRunStats.getSnapshotAndReset()` as it was used only in
load queue peon implementations. Using an atomic reference is much simpler.
- Remove `ServerTestHelper.MAPPER`. Use existing `TestHelper.makeJsonMapper()` instead.
2024-05-02 15:59:50 +05:30
Zoltan Haindrich 2d0e86cbdc
Use quidem to run tests (#16249)
* test scoped jdbc driver for druidtest:/// backed DruidAvaticaTestDriver
** DecoupledTestConfig is used inside the URI - this will make it possible to attach to existing things more easily
* DruidQuidemTestBase can be used to create module level set of quidem tests
* added quidem commands: !convertedPlan, !logicalPlan, !druidPlan, !nativePlan
** for these I've used some values of the Hook which was there in calcite
* there are some shortcuts with proxies(they are only used during testing) - we can probably remove those later
2024-05-02 02:12:42 -04:00
Gian Merlino 5d1950d451
MSQ controller: Support in-memory shuffles; towards JVM reuse. (#16168)
* MSQ controller: Support in-memory shuffles; towards JVM reuse.

This patch contains two controller changes that make progress towards a
lower-latency MSQ.

First, support for in-memory shuffles. The main feature of in-memory shuffles,
as far as the controller is concerned, is that they are not fully buffered. That
means that whenever a producer stage uses in-memory output, its consumer must run
concurrently. The controller determines which stages run concurrently, and when
they start and stop.

"Leapfrogging" allows any chain of sort-based stages to use in-memory shuffles
even if we can only run two stages at once. For example, in a linear chain of
stages 0 -> 1 -> 2 where all do sort-based shuffles, we can use in-memory shuffling
for each one while only running two at once. (When stage 1 is done reading input
and about to start writing its output, we can stop 0 and start 2.)

1) New OutputChannelMode enum attached to WorkOrders that tells workers
   whether stage output should be in memory (MEMORY), or use local or durable
   storage.

2) New logic in the ControllerQueryKernel to determine which stages can use
   in-memory shuffling (ControllerUtils#computeStageGroups) and to launch them
   at the appropriate time (ControllerQueryKernel#createNewKernels).

3) New "doneReadingInput" method on Controller (passed down to the stage kernels)
   which allows stages to transition to POST_READING even if they are not
   gathering statistics. This is important because it enables "leapfrogging"
   for HASH_LOCAL_SORT shuffles, and for GLOBAL_SORT shuffles with 1 partition.

4) Moved result-reading from ControllerContext#writeReports to new QueryListener
   interface, which ControllerImpl feeds results to row-by-row while the query
   is still running. Important so we can read query results from the final
   stage using an in-memory channel.

5) New class ControllerQueryKernelConfig holds configs that control kernel
   behavior (such as whether to pipeline, maximum number of concurrent stages,
   etc). Generated by the ControllerContext.

Second, a refactor towards running workers in persistent JVMs that are able to
cache data across queries. This is helpful because I believe we'll want to reuse
JVMs and cached data for latency reasons.

1) Move creation of WorkerManager and TableInputSpecSlicer to the
   ControllerContext, rather than ControllerImpl. This allows managing workers and
   work assignment differently when JVMs are reusable.

2) Lift the Controller Jersey resource out from ControllerChatHandler to a
   reusable resource.

3) Move memory introspection to a MemoryIntrospector interface, and introduce
   ControllerMemoryParameters that uses it. This makes it easier to run MSQ in
   process types other than Indexer and Peon.

Both of these areas will have follow-ups that make similar changes on the
worker side.

* Address static checks.

* Address static checks.

* Fixes.

* Report writer tests.

* Adjustments.

* Fix reports.

* Review updates.

* Adjust name.

* Small changes.
2024-04-30 21:30:27 -07:00
Kashif Faraz 51104e8bb3
Docs: Remove references to Zk-based segment loading (#16360)
Follow up to #15705

Changes:
- Remove references to ZK-based segment loading in the docs
- Fix doc for existing config `druid.coordinator.loadqueuepeon.http.repeatDelay`
2024-05-01 08:06:00 +05:30
John Gozde 834b0eddeb
web-console: ACE editor refactoring (#16359)
* Move druid-sql completions to dsql mode

* Use font-size 12

* Convert ace-modes to typescript

* Move aceCompleters to class member

* Use namespace imports
2024-04-30 11:53:39 -07:00
AmatyaAvadhanula 42e99bf912
Add new index on datasource and task_allocator_id for pending segments (#16355)
* Add pending segments index on datasource and task_allocator_id

* Use both datasource and task_allocator_id in queries
2024-04-30 15:48:16 +05:30
Laksh Singla e695e52d3f
Improve code flow in the First/Last vector aggregators and unify the numeric aggregators with the String implementations (#16230)
This PR fixes the first and last vector aggregators and improves their readability. Following changes are introduced

    The folding is broken in the vectorized versions. We consider time before checking the folded object.

    If the numerical aggregator gets passed any other object type for some other reason (like String), then the aggregator considers it to be folded, even though it shouldn’t be. We should convert these objects to the desired type, and aggregate them properly.

    The aggregators must properly use generics. This would minimize the ClassCastException issues that can happen with mixed segment types. We are unifying the string first/last aggregators with numeric versions as well.

    The aggregators must aggregate null values (https://github.com/apache/druid/blob/master/processing/src/main/java/org/apache/druid/query/aggregation/first/StringFirstLastUtils.java#L55-L56 ). The aggregator should only ignore pairs with time == null, and not value == null

    Time nullity is ignored when trying to vectorize the data.

    String versions initialized with DateTimes.MIN that is equal to Long.MIN / 2. This can cause incorrect results in case the user enters a custom time column. NOTE: This is still present because it would require a larger refactor in all of the versions.

    There is a difference in what users might expect from the results because the code flow is changed (for example, the direction of the for loops, etc), however, this will only change the results, and not the contract set by first/last aggregators, which is that if multiple values have the same timestamp, then any of them can get picked.

    If the column is non-existent, the users might expect a change in the timestamp from DateTime.MAX to Long.MAX, because the code incorrectly used DateTime.MAX to initialize the aggregator, however, in case of a custom timestamp column, this might not be the case. The SQL query might be prohibited from using any Long since it requires a cast to the timestamp function that can fail, but AFAICT native queries don't have such limitations.
2024-04-30 15:13:14 +05:30
Laksh Singla 26d63e7b65
Prevent joining on nested arrays and complex types (#16349)
#16068 modified DimensionHandlerUtils to accept complex types to be dimensions. This had an unintended side effect of allowing complex types to be joined upon (which wasn't guarded explicitly, it doesn't work).
This PR modifies the IndexedTable to reject building the index on the complex types to prevent joining on complex types. The PR adds back the check in the same place, explicitly.
2024-04-30 11:36:53 +05:30
Adarsh Sanjeev fb63520de9
Add tests for ProcessorManager (#16327)
* Add tests for ProcessorManager
2024-04-30 09:35:26 +05:30
Alberic Liu 736a2ab7c1
update code style for task type (#16343)
* update code style for task type

* address the comments
2024-04-29 14:42:55 -07:00
Kashif Faraz aa46314971
Remove usage of skife from DruidCoordinatorConfig (#15705)
* Remove usage of skife from DruidCoordinatorConfig

* Remove old config class

* Address static checks

* Fix tests

* Remove unnecessary mocks

* Fix config typos

* Fix config condition

* Fix test, spotbug check

* Move validation to DruidCoordinatorConfig

* Move DruidCoordinatorConfig to different package

* Fix validation of killunusedconfig

* Simplify and fix KillSupervisorsCustomDuty

* Address review comments

* Fix new tests

* Add KillUnusedSchemasConfig

* Remove KillUnusedSchemasConfig

* Minor renames
2024-04-29 11:37:13 -07:00
Abhishek Radhakrishnan 1d7595f3f7
Support for filters in the Druid Delta Lake connector (#16288)
* Delta Lake support for filters.

* Updates

* cleanup comments

* Docs

* Remmove Enclosed runner

* Rename

* Cleanup test

* Serde test for the Delta input source and fix jackson annotation.

* Updates and docs.

* Update error messages to be clearer

* Fixes

* Handle NumberFormatException to provide a nicer error message.

* Apply suggestions from code review

Co-authored-by: 317brian <53799971+317brian@users.noreply.github.com>

* Doc fixes based on feedback

* Yes -> yes in docs; reword slightly.

* Update docs/ingestion/input-sources.md

Co-authored-by: Laksh Singla <lakshsingla@gmail.com>

* Update docs/ingestion/input-sources.md

Co-authored-by: Laksh Singla <lakshsingla@gmail.com>

* Documentation, javadoc and more updates.

* Not with an or expression end-to-end test.

* Break up =, >, >=, <, <= into its own types instead of sub-classing.

---------

Co-authored-by: 317brian <53799971+317brian@users.noreply.github.com>
Co-authored-by: Laksh Singla <lakshsingla@gmail.com>
2024-04-29 11:31:36 -07:00
Adithya Chakilam f8015eb02a
Add config lagAggregate to LagBasedAutoScalerConfig (#16334)
Changes:
- Add new config `lagAggregate` to `LagBasedAutoScalerConfig`
- Add field `aggregateForScaling` to `LagStats`
- Use the new field/config to determine which aggregate to use to compute lag
- Remove method `Supervisor.computeLagForAutoScaler()`
2024-04-29 22:20:41 +05:30
Kashif Faraz 89ec0da5c5
Disable upload of coverage report to codecov.io (#16347) 2024-04-29 21:04:55 +05:30
Akshat Jain 9d2cae40c3
Add support for selective loading of lookups in the task layer (#16328)
Changes:
- Add `LookupLoadingSpec` to support 3 modes of lookup loading: ALL, NONE, ONLY_REQUIRED
- Add method `Task.getLookupLoadingSpec()`
- Do not load any lookups for `KillUnusedSegmentsTask`
2024-04-29 07:19:59 +05:30
Bünyamin 9aef8e02ef
Expend coverage for default mapping (#16340) 2024-04-27 17:39:07 +05:30
Gian Merlino db82adcdfd
SCALAR_IN_ARRAY: Optimization and behavioral follow-ups. (#16311)
* Four changes to scalar_in_array as follow-ups to #16306:

1) Align behavior for `null` scalars to the behavior of the native `in` and `inType` filters: return `true` if the array itself contains null, else return `null`.

2) Rename the class to more closely match the function name.

3) Add a specialization for constant arrays, where we build a `HashSet`.

4) Use `castForEqualityComparison` to properly handle cross-type comparisons.
   Additional tests verify comparisons between LONG and DOUBLE are now
   handled properly.

* Fix spelling.

* Adjustments from review.
2024-04-26 16:01:17 -07:00
Andreas Maechler 9cd1890855
Fix log count (#16341) 2024-04-26 14:04:19 -07:00
Charles Smith 4e3cb9c251
change ownership of /opt/shared to druid (#16253) 2024-04-26 21:16:00 +05:30
zachjsh 365cd7e8e7
INSERT/REPLACE can omit clustering when catalog has default (#16260)
* * fix

* * fix

* * address review comments

* * fix

* * simplify tests

* * fix complex type nullability issue

* * implement and add tests

* * address review comments

* * address test review comments

* * fix checkstyle

* * fix dependencies

* * all tests passing

* * cleanup

* * remove unneeded code

* * remove unused dependency

* * fix checkstyle
2024-04-26 10:19:45 -04:00
Gian Merlino 64a6fc8fc0
JSONFlattenerMaker: Speed up charsetFix. (#16212)
JSON parsing has this function "charsetFix" that fixes up strings
so they can round-trip through UTF-8 encoding without loss of
fidelity. It was originally introduced to fix a bug where strings
could be sorted, encoded, then decoded, and the resulting decoded
strings could end up no longer in sorted order (due to character
swaps during the encode operation).

The code has been in place for some time, and only applies to JSON.
I am not sure if it needs to apply to other formats; it's certainly
more difficult to get broken strings from other formats. It's easy
in JSON because you can write a JSON string like "foo\uD900".

At any rate, this patch does not revisit whether charsetFix should
be applied to all formats. It merely optimizes it for the JSON case.
The function works by using CharsetEncoder.canEncode, which is
a relatively slow method (just as expensive as actually encoding).
This patch adds a short-circuit to skip canEncode if all chars in
a string are in the basic multilingual plane (i.e. if no chars are
surrogates).
2024-04-26 10:46:07 +05:30
Adarsh Sanjeev 9a2d7c28bc
Prepare master branch for 31.0.0 release (#16333) 2024-04-26 09:22:43 +05:30
Arun Ramani 126a0c219a
Surface lock revocation exceptions in task status (#16325) 2024-04-26 08:39:44 +05:30
Kashif Faraz 4b6748bdc9
Update default value of useMaxMemoryEstimates for Hadoop jobs (#16280) 2024-04-26 08:07:21 +05:30
Gian Merlino 68d6e682e8
Fix TimeBoundary planning when filters require virtual columns. (#16337)
The timeBoundary query does not support virtual columns, so we should
avoid it if the query requires virtual columns.
2024-04-25 16:49:40 -07:00
AmatyaAvadhanula 31eee7d51e
Check for handoff of upgraded segments (#16162)
Changes:
1) Check for handoff of upgraded realtime segments.
2) Drop sink only when all associated realtime segments have been abandoned.
3) Delete pending segments upon commit to prevent unnecessary upgrades and
partition space exhaustion when a concurrent replace happens. This also prevents
potential data duplication.
4) Register pending segment upgrade only on those tasks to which the segment is associated.
2024-04-25 22:03:38 +05:30
Jakub Matyszewski 5061507541
pacj4: add UserProfile attributes to AuthenticationResult context (#16109)
I'm adding OIDC context to the AuthenticationResult returned by pac4j extension. I wanted to use this context as input in OpenPolicyAgent authorization. Since AuthenticationResult already accepts context as a parameter it felt okay to pass the profile attributes there.
2024-04-25 12:10:12 +05:30
Zoltan Haindrich 9c0bd56f5b
Make QueryComponentSupliers independent from test classes (#16275) 2024-04-25 02:12:07 -04:00
Atul Mohan 77333e56fa
Docs: Add missing kafka emitter config (#16332) 2024-04-25 10:37:14 +05:30
Gian Merlino 8a5cc976a9
ArrayOfDoublesSketchBuildAggregator: Fix NPE in get() for empty sketch. (#16330)
Fixes a bug introduced in #16296, where the sketch might not be
initialized if get() is called without calling aggregate(). Also adds
a test for this case.
2024-04-25 00:59:59 -04:00
Bünyamin e74da6a6b6
Add new metrics for prometheus emitter (#16329) 2024-04-25 07:16:24 +05:30
Katya Macedo ceb6646dec
Add supervisor actions (#16276)
* Add supervisor actions

* Update text

* Update text

* Update after review

* Update after review
2024-04-24 13:14:01 -07:00
Laksh Singla 6bca406d31
Grouping on complex columns aka unifying GroupBy strategies (#16068)
Users can pass complex types as dimensions to the group by queries. For example:

SELECT nested_col1, count(*) FROM foo GROUP BY nested_col1
2024-04-24 23:00:14 +05:30
Rishabh Singh e30790e013
Introduce Segment Schema Publishing and Polling for Efficient Datasource Schema Building (#15817)
Issue: #14989

The initial step in optimizing segment metadata was to centralize the construction of datasource schema in the Coordinator (#14985). Thereafter, we addressed the problem of publishing schema for realtime segments (#15475). Subsequently, our goal is to eliminate the requirement for regularly executing queries to obtain segment schema information.

This is the final change which involves publishing segment schema for finalized segments from task and periodically polling them in the Coordinator.
2024-04-24 22:22:53 +05:30
Sree Charan Manamala 080476f9ea
WINDOWING - Fix 2 nodes with same digest causing mapping issue (#16301)
Fixes the mapping issue in window fucntions where 2 nodes get the same reference.
2024-04-24 16:45:02 +05:30
Gian Merlino 274ccbfd85
Reset buffer aggregators when resetting Groupers. (#16296)
Buffer aggregators can contain some cached objects within them, such as
Memory references or HLL Unions. Prior to this patch, various Grouper
implementations were not releasing this state when resetting their own
internal state, which could lead to excessive memory use.

This patch renames AggregatorAdapater#close to "reset", and updates
Grouper implementations to call this reset method whenever they reset
their internal state.

The base method on BufferAggregator and VectorAggregator remains named
"close", for compatibility with existing extensions, but the contract
is adjusted to say that the aggregator may be reused after the method
is called. All existing implementations in core already adhere to this
new contract, except for the ArrayOfDoubles build flavors, which are
updated in this patch to adhere.

Additionally, this patch harmonizes buffer sketch helpers to call their
clear method "clear" rather than a mix of "clear" and "close". (Others
were already using "clear".)
2024-04-24 05:39:24 -04:00
Kashif Faraz 1dabb02843
Fix `ForkingTaskRunnerTest` (#16323)
Changes:
- Use non-static fields to track task counts in `ForkingTaskRunner`
- Update assertions in `ForkingTaskRunnerTest` to ensure that the tests are idempotent
2024-04-24 14:05:05 +05:30
Tim Williamson 4bdc1890f7
Improve worst-case performance of LIKE filters by 20x (#16153)
* Expected-linear-time LIKE

`LikeDimFilter` was compiling the `LIKE` clause down to a `java.util.regex.Pattern`. Unfortunately, even seemingly simply regexes can lead to [catastrophic backtracking](https://www.regular-expressions.info/catastrophic.html). In particular, something as simple as a few `%` wildcards can end up in [exploding the time complexity](https://www.rexegg.com/regex-explosive-quantifiers.html#remote). This MR implements a simple greedy algorithm that avoids backtracking.

Technically, the algorithm runs in `O(nm)`, where `n` is the length of the string to match and `m` is the length of the pattern. In practice, it should run in linear time: essentially as fast as `String.indexOf()` can search for the next match. Running an updated version of the `LikeFilterBenchmark` with Java 11 on a `t2.xlarge` instance showed at least a 1.7x speed up for a simple "contains" query (`%50%`), and more than a 20x speed up for a "killer" query with four wildcards but no matches (`%%%%x`). The benchmark uses short strings: cases with longer strings should benefit more.

Note that the `REGEX` operator still suffers from the same potentially-catastrophic runtimes. Using a better library than the built-in `java.util.regex.Pattern` (e.g., [joni](https://github.com/jruby/joni)) would be a good idea to avoid accidental — or intentional — DoSing.

```
Benchmark                                (cardinality)  Mode  Cnt  Before Score       Error  After Score       Error  Units  Before / After
LikeFilterBenchmark.matchBoundPrefix              1000  avgt   10         6.686 ±     0.026        6.765 ±     0.087  us/op           0.99x
LikeFilterBenchmark.matchBoundPrefix            100000  avgt   10       163.936 ±     1.589      140.014 ±     0.563  us/op           1.17x
LikeFilterBenchmark.matchBoundPrefix           1000000  avgt   10      1235.259 ±     7.318     1165.330 ±     9.300  us/op           1.06x
LikeFilterBenchmark.matchLikeContains             1000  avgt   10       255.074 ±     1.530      130.212 ±     3.314  us/op           1.96x
LikeFilterBenchmark.matchLikeContains           100000  avgt   10     34789.639 ±   210.219    18563.644 ±   100.030  us/op           1.87x
LikeFilterBenchmark.matchLikeContains          1000000  avgt   10    287265.302 ±  1790.957   164684.778 ±   317.698  us/op           1.74x
LikeFilterBenchmark.matchLikeEquals               1000  avgt   10         0.410 ±     0.003        0.399 ±     0.001  us/op           1.03x
LikeFilterBenchmark.matchLikeEquals             100000  avgt   10         0.793 ±     0.005        0.719 ±     0.003  us/op           1.10x
LikeFilterBenchmark.matchLikeEquals            1000000  avgt   10         0.864 ±     0.004        0.839 ±     0.005  us/op           1.03x
LikeFilterBenchmark.matchLikeKiller               1000  avgt   10      3077.629 ±     7.928      103.714 ±     2.417  us/op          29.67x
LikeFilterBenchmark.matchLikeKiller             100000  avgt   10    311048.049 ± 13466.911    14777.567 ±    70.242  us/op          21.05x
LikeFilterBenchmark.matchLikeKiller            1000000  avgt   10   3055855.099 ± 18387.839    92476.621 ±  1198.255  us/op          33.04x
LikeFilterBenchmark.matchLikePrefix               1000  avgt   10         6.711 ±     0.035        6.653 ±     0.046  us/op           1.01x
LikeFilterBenchmark.matchLikePrefix             100000  avgt   10       161.535 ±     0.574      163.740 ±     0.833  us/op           0.99x
LikeFilterBenchmark.matchLikePrefix            1000000  avgt   10      1255.696 ±     5.207     1201.378 ±     3.466  us/op           1.05x
LikeFilterBenchmark.matchRegexContains            1000  avgt   10       467.736 ±     2.546      481.431 ±     5.647  us/op           0.97x
LikeFilterBenchmark.matchRegexContains          100000  avgt   10     64871.766 ±   223.341    65483.992 ±   391.249  us/op           0.99x
LikeFilterBenchmark.matchRegexContains         1000000  avgt   10    482906.004 ±  2003.583   477195.835 ±  3094.605  us/op           1.01x
LikeFilterBenchmark.matchRegexKiller              1000  avgt   10      8071.881 ±    18.026     8052.322 ±    17.336  us/op           1.00x
LikeFilterBenchmark.matchRegexKiller            100000  avgt   10   1120094.520 ±  2428.172   808321.542 ±  2411.032  us/op           1.39x
LikeFilterBenchmark.matchRegexKiller           1000000  avgt   10   8096745.012 ± 40782.747  8114114.896 ± 43250.204  us/op           1.00x
LikeFilterBenchmark.matchRegexPrefix              1000  avgt   10       170.843 ±     1.095      175.924 ±     1.144  us/op           0.97x
LikeFilterBenchmark.matchRegexPrefix            100000  avgt   10     17785.280 ±   116.813    18708.888 ±    61.857  us/op           0.95x
LikeFilterBenchmark.matchRegexPrefix           1000000  avgt   10    174415.586 ±  1827.478   173190.799 ±   949.224  us/op           1.01x
LikeFilterBenchmark.matchSelectorEquals           1000  avgt   10         0.411 ±     0.003        0.416 ±     0.002  us/op           0.99x
LikeFilterBenchmark.matchSelectorEquals         100000  avgt   10         0.728 ±     0.003        0.739 ±     0.003  us/op           0.99x
LikeFilterBenchmark.matchSelectorEquals        1000000  avgt   10         0.842 ±     0.002        0.879 ±     0.007  us/op           0.96x
```

* Take into account whether druid.generic.useDefaultValueForNull is set in LikeDimFilterTest assertions.

* Attempt to placate CodeQL.

* Fix handling of multi-pattern suffixes.

* Expected-linear-time LIKE

`LikeDimFilter` was compiling the `LIKE` clause down to a `java.util.regex.Pattern`. Unfortunately, even seemingly simply regexes can lead to [catastrophic backtracking](https://www.regular-expressions.info/catastrophic.html). In particular, something as simple as a few `%` wildcards can end up in [exploding the time complexity](https://www.rexegg.com/regex-explosive-quantifiers.html#remote). This MR implements a simple greedy algorithm that avoids the catastrophic backtracking, converting the `LIKE` pattern into a list of `java.util.regex.Pattern` by splitting on the `%` wildcard. The resulting sub-patterns do no backtracking, and a simple greedy loop using `Matcher.find()` to progress through the string is used.

Running an updated version of the `LikeFilterBenchmark` with Java 11 on a `t2.xlarge` instance showed at least a 1.15x speed up for a simple "contains" query (`%50%`), and more than a 20x speed up for a "killer" query with four wildcards but no matches (`%%%%x`). The benchmark uses short strings: cases with longer strings should benefit more.

Note that the `REGEX` operator still suffers from the same potentially-catastrophic runtimes. Using a better library than the built-in `java.util.regex.Pattern` (e.g., [joni](https://github.com/jruby/joni)) would be a good idea to avoid accidental — or intentional — DoSing.

```
Benchmark                                      (cardinality)  Mode  Cnt  Before Score       Error      After Score     Error  Units  Before/After
LikeFilterBenchmark.matchBoundPrefix                    1000  avgt   10         5.410 ±     0.010          5.582 ±     0.004  us/op         0.97x
LikeFilterBenchmark.matchBoundPrefix                  100000  avgt   10       140.920 ±     0.306        141.082 ±     0.391  us/op         1.00x
LikeFilterBenchmark.matchBoundPrefix                 1000000  avgt   10      1082.762 ±     1.070       1171.407 ±     1.628  us/op         0.92x
LikeFilterBenchmark.matchLikeComplexContains            1000  avgt   10       221.572 ±     0.228        183.742 ±     0.210  us/op         1.21x
LikeFilterBenchmark.matchLikeComplexContains          100000  avgt   10     25461.362 ±    21.481      17373.828 ±    42.577  us/op         1.47x
LikeFilterBenchmark.matchLikeComplexContains         1000000  avgt   10    221075.917 ±   919.238     177454.683 ±   506.420  us/op         1.25x
LikeFilterBenchmark.matchLikeContains                   1000  avgt   10       283.015 ±     0.219        218.835 ±     3.126  us/op         1.29x
LikeFilterBenchmark.matchLikeContains                 100000  avgt   10     30202.910 ±    32.697      26713.488 ±    49.525  us/op         1.13x
LikeFilterBenchmark.matchLikeContains                1000000  avgt   10    284661.411 ±   130.324     243381.857 ±   540.143  us/op         1.17x
LikeFilterBenchmark.matchLikeEquals                     1000  avgt   10         0.386 ±     0.001          0.380 ±     0.001  us/op         1.02x
LikeFilterBenchmark.matchLikeEquals                   100000  avgt   10         0.670 ±     0.001          0.705 ±     0.002  us/op         0.95x
LikeFilterBenchmark.matchLikeEquals                  1000000  avgt   10         0.839 ±     0.001          0.796 ±     0.001  us/op         1.05x
LikeFilterBenchmark.matchLikeKiller                     1000  avgt   10      4882.099 ±     7.953        170.142 ±     0.494  us/op        28.69x
LikeFilterBenchmark.matchLikeKiller                   100000  avgt   10    524122.010 ±   390.170      19461.637 ±   117.090  us/op        26.93x
LikeFilterBenchmark.matchLikeKiller                  1000000  avgt   10   5121795.377 ±  4176.052     181162.978 ±   368.443  us/op        28.27x
LikeFilterBenchmark.matchLikePrefix                     1000  avgt   10         5.708 ±     0.005          5.677 ±     0.011  us/op         1.01x
LikeFilterBenchmark.matchLikePrefix                   100000  avgt   10       141.853 ±     0.554        108.313 ±     0.330  us/op         1.31x
LikeFilterBenchmark.matchLikePrefix                  1000000  avgt   10      1199.148 ±     1.298       1153.297 ±     1.575  us/op         1.04x
LikeFilterBenchmark.matchLikeSuffix                     1000  avgt   10       256.020 ±     0.283        196.339 ±     0.564  us/op         1.30x
LikeFilterBenchmark.matchLikeSuffix                   100000  avgt   10     29917.931 ±    28.218      21450.997 ±    20.341  us/op         1.39x
LikeFilterBenchmark.matchLikeSuffix                  1000000  avgt   10    241225.193 ±   465.824     194034.292 ±   362.312  us/op         1.24x
LikeFilterBenchmark.matchRegexComplexContains           1000  avgt   10       119.597 ±     0.635        135.550 ±     0.697  us/op         0.88x
LikeFilterBenchmark.matchRegexComplexContains         100000  avgt   10     13089.670 ±    13.738      13766.712 ±    12.802  us/op         0.95x
LikeFilterBenchmark.matchRegexComplexContains        1000000  avgt   10    130822.830 ±  1624.048     131076.029 ±  1636.811  us/op         1.00x
LikeFilterBenchmark.matchRegexContains                  1000  avgt   10       573.273 ±     0.421        615.399 ±     0.633  us/op         0.93x
LikeFilterBenchmark.matchRegexContains                100000  avgt   10     57259.313 ±   162.747      62900.380 ±    44.746  us/op         0.91x
LikeFilterBenchmark.matchRegexContains               1000000  avgt   10    571335.768 ±  2822.776     542536.982 ±   780.290  us/op         1.05x
LikeFilterBenchmark.matchRegexKiller                    1000  avgt   10     11525.499 ±     8.741      11061.791 ±    21.746  us/op         1.04x
LikeFilterBenchmark.matchRegexKiller                  100000  avgt   10   1170414.723 ±   766.160    1144437.291 ±   886.263  us/op         1.02x
LikeFilterBenchmark.matchRegexKiller                 1000000  avgt   10  11507668.302 ± 11318.176  110381620.014 ± 10707.974  us/op         1.11x
LikeFilterBenchmark.matchRegexPrefix                    1000  avgt   10       156.460 ±     0.097        155.217 ±     0.431  us/op         1.01x
LikeFilterBenchmark.matchRegexPrefix                  100000  avgt   10     15056.491 ±    23.906      15508.965 ±   763.976  us/op         0.97x
LikeFilterBenchmark.matchRegexPrefix                 1000000  avgt   10    154416.563 ±   473.108     153737.912 ±   273.347  us/op         1.00x
LikeFilterBenchmark.matchRegexSuffix                    1000  avgt   10       610.684 ±     0.462        590.352 ±     0.334  us/op         1.03x
LikeFilterBenchmark.matchRegexSuffix                  100000  avgt   10     53196.517 ±    78.155      59460.261 ±    56.934  us/op         0.89x
LikeFilterBenchmark.matchRegexSuffix                 1000000  avgt   10    536100.944 ±   440.353     550098.917 ±   740.464  us/op         0.97x
LikeFilterBenchmark.matchSelectorEquals                 1000  avgt   10         0.390 ±     0.001          0.366 ±     0.001  us/op         1.07x
LikeFilterBenchmark.matchSelectorEquals               100000  avgt   10         0.724 ±     0.001          0.714 ±     0.001  us/op         1.01x
LikeFilterBenchmark.matchSelectorEquals              1000000  avgt   10         0.826 ±     0.001          0.847 ±     0.001  us/op         0.98x
```
2024-04-23 22:45:23 -07:00
Parth Agrawal f1d24c868f
[CVE Fixes] Update version of Nimbus.jose.jwt (#16320)
* Update version of nimbus.jose.jwt.version

* update licenses.yaml
2024-04-23 15:11:54 +05:30
Charles Smith 65412f80ab
remove additional column marks (#16319) 2024-04-22 19:41:54 -07:00
AmatyaAvadhanula 08b5a8b88e
Ignore append locks for compaction when using concurrent locks (#16316)
* Ignore append locks for compaction when using concurrent locks
2024-04-22 23:26:45 +05:30
Vishesh Garg 173a206829
Fix incorrect check of InvalidFieldException to InvalidFieldFault while generating MSQ Error Report (#16273)
InvalidFieldFault is incorrectly checked as InvalidFieldException in mapQueryColumnNameToOutputColumnName. This fixes the bug.
2024-04-22 15:18:49 +05:30