If we conditionally do random things, e.g. initialize a node only after the first test, we have to make sure that we unconditionally create a new seed calling random.nextLong(), then initialize the node under a private randomness context. This makes sure that any random usage through Randomness.get() will retrieve the proper random instance through RandomizedContext.current().getRandom(). When running under private randomness, the context will return the Random instance that was created with the provided seed (forked from the main random instance) rather than the main Random that's exposed to tests as well. Otherwise tests become non repeatable because that initialization part happens only before the first executed test.
This adds fromXContent method and unit test for sort values that are part of
InternalSearchHit. In order to centralize serialisation and xContent parsing and
rendering code, move all relevant parts to a new class which can be unit tested
much better in isolation.This is part of the preparation for parsing search
responses on the client side.
Sending a request is not a good indicator as it doesn't mean it's processed yet. Instead we should use one of the first request from source to target.
This caused the cluster state block to be added to early , blocking the recovery it self
A previous fix for the handling of paths on Windows related to paths
containing multiple spaces introduced a issue where if JAVA_HOME ends
with a backslash, then Elasticsearch will refuse to start. This is not a
critical bug as a workaround exists (remove the trailing backslash), but
should be fixed nevertheless. This commit addresses this situation while
not regressing the previous fix.
Relates #22132
The allocation decider explanation messages where improved in #21771 to
include the specific Elasticsearch setting that contributed to the
decision taken by the decider. This commit improves upon the
explanation message output by including whether the setting was an index
level setting or a cluster level setting. This will further help the
user understand and locate the setting that is the cause of shards
remaining unassigned or remaining on their current node.
Introduces `XContentParser#namedObject which works a little like
`StreamInput#readNamedWriteable`: on startup components register
parsers under names and a superclass. At runtime we look up the
parser and call it to parse the object.
Right now the parsers take a context object they use to help with
the parsing but I hope to be able to eliminate the need for this
context as most what it is used for at this point is to move
around parser registries which should be replaced by this method
eventually. I make no effort to do so in this PR because it is
big enough already. This is meant to the a start down a road that
allows us to remove classes like `QueryParseContext`,
`AggregatorParsers`, `IndicesQueriesRegistry`, and
`ParseFieldRegistry`.
The goal here is to reduce the amount of plumbing required to
allow parsing pluggable things. With this you don't have to pass
registries all over the place. Instead you must pass a super
registry to fewer places and use it to wrap the reader. This is
the same tradeoff that we use for NamedWriteable and it allows
much, much simpler binary serialization. We think we want that
same thing for xcontent serialization.
The only parsing actually converted to this method is parsing
`ScoreFunctions` inside of `FunctionScoreQuery`. I chose this
because it is relatively self contained.
It looks like the exception reason can differ in different default
locales, so the build would fail in any non-English locale. This
switches the catch to the name of the exception which shouldn't
vary.
ClusterStateObserver is a utility class that simplifies interacting with the cluster state in cases where an action takes a decision based on the current cluster state but may want to wait for a new state and retry upon failure. The ClusterStateObserver implements its functionality by keeping a reference to the last cluster state that it observed. When a new ClusterStateObserver is created, it samples a cluster state from the cluster service which is subsequently used for change detection. If actions take a long time to process, however, the cluster observer can reference very old cluster states. Due to cluster observers being created very frequently and cluster states being potentially large the referenced cluster states can waste a lot of heap space. A specific example where this can make a node go out of memory is given in point 2 of issue #21568: The action listener in TransportMasterNodeAction.AsyncSingleAction has a ClusterStateObserver to coordinate the retry mechanism if the action on the master node fails due to the node not being master anymore. The ClusterStateObserver in AsyncSingleAction keeps a reference to the full cluster state when the action was initiated. If the pending tasks queue grows quite large and has older items in it lots of cluster states can possibly be referenced.
This commit changes the ClusterStateObserver to hold only onto the part of the cluster state that's needed for change detection.
This changes the class from extending the abstract class to implementing the
ToXContent interface only. The former could lead to unexpected behaviour when
trying to display the object, since the "toString()" method inherited from
ToXContentToBytes would create an error message because the SuggestionBuilders
toXContent() methods don't render complete json objects.
* Internal: Refactor SettingCommand into EnvironmentAwareCommand
This change renames and changes the behavior of SettingCommand to have
its primary method take in a fully initialized Environment for
elasticsearch instead of just a map of settings. All of the subclasses
of SettingCommand already did this at some point, so this just removes
duplication.
We are currenlty checking that no deprecation warnings are emitted in our query tests. That can be moved to ESTestCase (disabled in ESIntegTestCase) as it allows us to easily catch where our tests use deprecated features and assert on the expected warnings.
We return deprecation warnings as response headers, besides logging them. Strict parsing mode stayed around, but was only used in query tests, though we also introduced checks for deprecation warnings there that don't need strict parsing anymore (see #20993).
We can then safely remove support for strict parsing mode. The final goal is to remove the ParseFieldMatcher class, but there are many many users of it. This commit prepares the field for the removal, by deprecating ParseFieldMatcher and making it effectively not needed. Strict parsing is removed from ParseFieldMatcher, and strict parsing is replaced in tests where needed with deprecation warnings checks.
Note that the setting to enable strict parsing was never ported to the new settings infra hance it cannot be set in production. It is really only used in our own tests.
Relates to #19552
Rename the method to assertToXContentEquivalent to highlight that it's tailored to ToXContent comparisons.
Rather than parsing into a map and replacing byte[] in both those maps, add custom equality assertions that recursively walk maps and lists and call Arrays.equals whenever a byte[] is encountered.
Moved field values `toXContent` logic to `GetField` (from `GetResult`), which outputs its own fields, and can also parse them now. Also added `fromXContent` to `GetResult` and `GetResponse`.
The start object and end object for `GetResponse` output have been moved to `GetResult#toXContent`, from the corresponding rest action. This makes it possible to have `toXContent` and `fromXContent` completely symmetric, as parsing requires looping till an end object is found which is weird when the corresponding `toXContent` doesn't print that out.
This also introduces the foundation for testing retrieval of _source and stored field values.
This commit makes mapping updates atomic when multiple types in an index are updated. Mappings for an index are now applied in a single atomic operation, which also allows to optimize some of the cross-type updates and checks.
Subclasses of TransportReplicationAction can currently chose to implement block levels for which the request will be blocked.
- Refresh/Flush was using the block level METADATA_WRITE although they don't operate at the cluster meta data level (but more like shard level meta data which is not represented in the block levels). Their level has been changed to null so that they can operate freely in the presence of blocks.
- GlobChkptSync was using WRITE although it does not make any changes to the actual documents of a shard. The level has been changed to null so that it can operate freely in the presence of blocks.
The commit also adds a check for closed indices in TRA so that the right exception is thrown if refresh/flush/checkpoint syncing is attempted on a closed index (before it was throwing an IndexNotFoundException, now it's throwing IndexClosedException).
Sequence BWC logic consists of two elements:
1) Wire level BWC using stream versions.
2) A changed to the global checkpoint maintenance semantics.
For the sequence number infra to work with a mixed version clusters, we have to consider situation where the primary is on an old node and replicas are on new ones (i.e., the replicas will receive operations without seq#) and also the reverse (i.e., the primary sends operations to a replica but the replica can't process the seq# and respond with local checkpoint). An new primary with an old replica is a rare because we do not allow a replica to recover from a new primary. However, it can occur if the old primary failed and a new replica was promoted or during primary relocation where the source primary is treated as a replica until the master starts the target.
1) Old Primary & New Replica - this case is easy as is taken care of by the wire level BWC. All incoming requests will have their seq# set to `UNASSIGNED_SEQ_NO`, which doesn't confuse the local checkpoint logic (keeping it at `NO_OPS_PERFORMED`)
2) New Primary & Old replica - this one is trickier as the global checkpoint service currently takes all in sync replicas into consideration for the global checkpoint calculation. In order to deal with old replicas, we change the semantics to say all *new node* in sync replicas. That means the replicas on old nodes don't count for the global checkpointing. In this state the seq# infra is not fully operational (you can't search on it, because copies may miss it) but it is maintained on shards that can support it. The old replicas will have to go through a file based recovery at some point and will get the seq# information at that point. There is still an edge case where a new primary fails and an old replica takes over. I'lll discuss this one with @ywelsch as I prefer to avoid it completely.
This PR also re-enables the BWC tests which were disabled. As such it had to fix any BWC issue that had crept in. Most notably an issue with the removal of the `timestamp` field in #21670.
The commit also includes a fix for the default value of the seq number field in replicated write requests (it was 0 but should be -2), that surface some other minor bugs which are fixed as well.
Last - I added some debugging tools like more sane node names and forcing replication request to implement a `toString`
This commit exposes public getters for the aggregations in
AggregatorFactories.Builder. The reason is that it allows to
parse the aggregation object from elsewhere (e.g. a plugin) and then
be able to get the aggregation builders in order to set them in
a SearchSourceBuilder.
The alternative would have been to expose a setter for the
AggregatorFactories.Builder object. But that would be making
the API a bit trappy.
Today if a settings object has many keys ie. if somebody specifies
a gazillion synonym in-line (arrays are keys ending with ordinals) operations like
`Settings#getByPrefix` have a linear runtime. This can cause index creations to be
very slow producing lots of garbage at the same time. Yet, `Settings#getByPrefix` is called
quite frequently by group settings etc. which can cause heavy load on the system.
While it's not recommended to have synonym lists with 25k entries in-line these use-cases should
not have such a large impact on the cluster / node. This change introduces a view-like map
that filters based on the prefixes referencing the actual source map instead of copying all values
over and over again. A benchmark that adds a single key with 25k random synonyms between 2 and 5 chars
takes 16 seconds to get the synonym prefix 200 times while the filtered view takes 4 ms for the 200 iterations.
This relates to https://discuss.elastic.co/t/200-cpu-elasticsearch-5-index-creation-very-slow-with-a-huge-synonyms-list/69052
With this commit, we introduce a cache to the geoip ingest processor.
The cache is enabled by default and caches the 1000 most recent items.
The cache size is controlled by the setting `ingest.geoip.cache_size`.
Closes#22074