While Pinot can work with segments of various sizes, for optimal use of Pinot, you want to get your segments sized in the 100MB to 500MB (un-tarred/uncompressed) range. Please note that having too many (thousands or more) of tiny segments for a single table just creates more overhead in terms of the metadata storage in Zookeeper as well as in the Pinot servers' heap. At the same time, having too few really large (GBs) segments reduces parallelism of query execution, as on the server side, the thread parallelism of query execution is at segment level.
Yes. Each table can be independently configured to consume from any given Kafka topic, regardless of whether there are other tables that are also consuming from the same Kafka topic.
Pinot automatically detects new partitions in Kafka topics. It checks for new partitions whenever RealtimeSegmentValidationManager periodic job runs and starts consumers for new partitions.
You can configure the interval for this job using thecontroller.realtime.segment.validation.frequencyPeriod
property in controller configuration.
Setup partitioner in the Kafka producer: https://docs.confluent.io/current/clients/producer.html
The partitioning logic in the stream should match the partitioning config in Pinot. Kafka uses murmur2
, and the equivalent in Pinot is Murmur
function.
Set partitioning config as below using same column used in Kafka
and also set
More details about how partitioner works in Pinot here.
For JSON, you can use hex encoded string to ingest BYTES
See the json_format(field) function which can store a top level json field as a STRING in Pinot.
Then you can use these json functions during query time, to extract fields from the json string.
NOTE This works well if some of your fields are nested json, but most of your fields are top level json keys. If all of your fields are within a nested JSON key, you will have to store the entire payload as 1 column, which is not ideal.
Support for flattening during ingestion is on the roadmap: https://github.com/apache/pinot/issues/5264
To use explicit code points, you must double-quote (not single-quote) the string, and escape the code point via "\uHHHH", where HHHH is the four digit hex code for the character. See https://yaml.org/spec/spec.html#escaping/in%20double-quoted%20scalars/ for more details.
By default, Pinot limits the length of a String column to 512 bytes. If you want to overwrite this value, you can set the maxLength attribute in the schema as follows:
Events are available to queries as soon as they are ingested. This is because events are instantly indexed in memory upon ingestion.
The ingestion of events into the real-time table is not transactional, so replicas of the open segment are not immediately consistent. Pinot trades consistency for availability upon network partitioning (CAP theorem) to provide ultra-low ingestion latencies at high throughput.
However, when the open segment is closed and its in-memory indexes are flushed to persistent storage, all its replicas are guaranteed to be consistent, with the commit protocol.
This typically happens if
The consumer is lagging a lot
The consumer was down (server down, cluster down), and the stream moved on, resulting in offset not found when consumer comes back up.
In case of Kafka, to recover, set property "auto.offset.reset":"earliest" in the streamConfigs section and reset the CONSUMING segment. See Realtime table configs for more details about the config.
You can also also use the "Resume Consumption" endpoint with "resumeFrom" parameter set to "smallest" (or "largest" if you want). Refer to Pause Stream Ingestion for more details.
Inverted indexes are set in the tableConfig's tableIndexConfig -> invertedIndexColumns list. For documentation on table config, see Table Config Reference. For an example showing how to configure an inverted index, see Inverted Index.
Applying inverted indexes to a table config will generate an inverted index for all new segments. To apply the inverted indexes to all existing segments, see How to apply an inverted index to existing segments?
Add the columns you wish to index to the tableIndexConfig-> invertedIndexColumns list. To update the table config use the Pinot Swagger API: http://localhost:9000/help#!/Table/updateTableConfig
Invoke the reload API: http://localhost:9000/help#!/Segment/reloadAllSegments
Once you've done that, you can check whether the index has been applied by querying the segment metadata API at http://localhost:9000/help#/Segment/getServerMetadata. Don't forget to include the names of the column on which you have applied the index.
The output from this API should look something like the following:
Not all indexes can be retrospectively applied to existing segments.
If you want to add or change the sorted index column or adjust the dictionary encoding of the default forward index you will need to manually re-load any existing segments.
Star-tree indexes are configured in the table config under the tableIndexConfig -> starTreeIndexConfigs (list) and enableDefaultStarTree (boolean). Read more about how to configure star-tree indexes: https://docs.pinot.apache.org/basics/indexing/star-tree-index#index-generation
The new segments will have star-tree indexes generated after applying the star-tree index configs to the table config. Currently, Pinot does not support adding star-tree indexes to the existing segments.
Pinot does not require ordering of event time stamps. Out of order events are still consumed and indexed into the "currently consuming" segment. In a pathological case, if you have a 2 day old event come in "now", it will still be stored in the segment that is open for consumption "now". There is no strict time-based partitioning for segments, but star-indexes and hybrid tables will handle this as appropriate.
See the Components > Broker for more details about how hybrid tables handle this. Specifically, the time-boundary is computed as max(OfflineTIme) - 1 unit of granularity
. Pinot does store the min-max time for each segment and uses it for pruning segments, so segments with multiple time intervals may not be perfectly pruned.
When generating star-indexes, the time column will be part of the star-tree so the tree can still be efficiently queried for segments with multiple time intervals.
max(OfflineTime)
to determine the time-boundary, and instead using an offset?This lets you have an old event up come in without building complex offline pipelines that perfectly partition your events by event timestamps. With this offset, even if your offline data pipeline produces segments with a maximum timestamp, Pinot will not use the offline dataset for that last chunk of segments. The expectation is if you process offline the next time-range of data, your data pipeline will include any late events.
It might seem odd that segments are not strictly time-partitioned, unlike similar systems such as Apache Druid. This allows real-time ingestion to consume out-of-order events. Even though segments are not strictly time-partitioned, Pinot will still index, prune, and query segments intelligently by time intervals for the performance of hybrid tables and time-filtered data.
When generating offline segments, the segments generated such that segments only contain one time interval and are well partitioned by the time column.
Typically, Pinot components try to use as much off-heap (MMAP/DirectMemory) wherever possible. For example, Pinot servers load segments in memory-mapped files in MMAP mode (recommended), or direct memory in HEAP mode. Heap memory is used mostly for query execution and storing some metadata. We have seen production deployments with high throughput and low-latency work well with just 16 GB of heap for Pinot servers and brokers. Pinot controller may also cache some metadata (table configs etc) in heap, so if there are just a few tables in the Pinot cluster, a few GB of heap should suffice.
Pinot relies on deep-storage for storing backup copy of segments (offline as well as realtime). It relies on Zookeeper to store metadata (table configs, schema, cluster state, etc). It does not explicitly provide tools to take backups or restore these data, but relies on the deep-storage (ADLS/S3/GCP/etc), and ZK to persist these data/metadata.
Changing a column name or data type is considered backward incompatible change. While Pinot does support schema evolution for backward compatible changes, it does not support backward incompatible changes like changing name/data-type of a column.
You can change the number of replicas by updating the table config's section. Make sure you have at least as many servers as the replication.
For OFFLINE table, update
Likely explanation: num partitions * num replicas < num servers
In realtime tables, segments of the same partition always continue to remain on the same node. This sticky assignment is needed for replica groups and is critical if using upserts. For instance, if you have 3 partitions, 1 replica, and 4 nodes, only ¾ nodes will be used, and all of p0 segments will be on 1 node, p1 on 1 node, and p2 on 1 node. One server will be unused, and will remain unused through rebalances.
There’s nothing we can do about CONSUMING segments, they will continue to use only 3 nodes if you have 3 partitions. But we can rebalance such that completed segments use all nodes. If you want to force the completed segments of the table to use the new server, use this config
The number of segments generated depends on the number of input files. If you provide only 1 input file, you will get 1 segment. If you break up the input file into multiple files, you will get as many segments as the input files.
This typically happens when the server is unable to load the segment. Possible causes: Out-Of-Memory, no-disk space, unable to download segment from deep-store, and similar other errors. Please check server logs for more information.
Use the segment reset controller REST API to reset the segment:
RESET: this gets a segment in ERROR state back to ONLINE or CONSUMING state. Behind the scenes, Pinot controller takes the segment to OFFLINE state, waits for External View to stabilize, and then moves it back to ONLINE/CONSUMING state, thus effectively resetting segments or consumers in error states.
REFRESH: this replaces the segment with a new one, with the same name but often different data. Under the hood, Pinot controller sets new segment metadata in Zookeeper, and notifies brokers and servers to check their local states about this segment and update accordingly. Servers also download the new segment to replace the old one, when both have different checksums. There is no separate rest API for refreshing, and it is done as part of SegmentUpload API today.
RELOAD: this reloads the segment, often to generate a new index as updated in table config. Underlying, Pinot server gets the new table config from Zookeeper, and uses it to guide the segment reloading. In fact, the last step of REFRESH as explained above is to load the segment into memory to serve queries. There is a dedicated rest API for reloading. By default, it doesn't download segment. But option is provided to force server to download segment to replace the local one cleanly.
In addition, RESET brings the segment OFFLINE temporarily; while REFRESH and RELOAD swap the segment on server atomically without bringing down the segment or affecting ongoing queries.
Set this property in your controller.conf file
Now your brokers and servers should join the cluster as broker_untagged
and server_untagged
. You can then directly use the POST /tenants
API to create the desired tenants
There are two task configs but set as part of cluster configs like below. One controls task's overall timeout (1hr by default) and one for how many tasks to run on a single minion worker (1 by default). The <taskType> is the task to tune, e.g. MergeRollupTask or RealtimeToOfflineSegmentsTask etc.
Yes, replica groups work for realtime. There's 2 parts to enabling replica groups:
Replica groups segment assignment
Replica group query routing
Replica group segment assignment
Replica group segment assignment is achieved in realtime, if number of servers is a multiple of number of replicas. The partitions get uniformly sprayed across the servers, creating replica groups. For example, consider we have 6 partitions, 2 replicas, and 4 servers.
Replica group query routing
This essentially implies that the Pinot Broker assigned to the table specified in the query was not found. A common root cause for this is a typo in the table name in the query. Another uncommon reason could be if there wasn't actually a broker with required broker tenant tag for the table.
Here's the page explaining the Pinot response format:
"timestamp" is a reserved keyword in SQL. Escape timestamp with double quotes.
Other commonly encountered reserved keywords are date, time, table.
For filtering on STRING columns, use single quotes
The fields in the ORDER BY
clause must be one of the group by clauses or aggregations, BEFORE applying the alias. Therefore, this will not work
Instead, this will work
No. Pagination only works for SELECTION queries
You can add this at the end of your query: option(timeoutMs=X)
. For eg: the following example will use a timeout of 20 seconds for the query:
You can also use SET "timeoutMs" = 20000; SELECT COUNT(*) from myTable
For changing timeout on the entire cluster, set this property pinot.broker.timeoutMs
in either broker configs or cluster configs (using POST /cluster/configs API from swagger)
Add these two configs for Pinot server and broker to start tracking of running queries. The query tracks are added and cleaned as query starts and ends, so should not consume much resource.
Then use the Rest APIs on Pinot controller to list running queries and cancel them via the query ID and broker ID (as query ID is only local to broker), like below:
There are 2 ways to verify this:
Log in to a server that hosts segments of this table. Inside the data directory, locate the segment directory for this table. In this directory, there is a file named index_map
which lists all the indexes and other data structures created for each segment. Verify that the requested index is present here.
During query: Use the column in the filter predicate and check the value of numEntriesScannedInFilter
. If this value is 0, then indexing is working as expected (works for Inverted index)
Yes, Pinot uses a default value of LIMIT 10 in queries. The reason behind this default value is to avoid unintentionally submitting expensive queries that end up fetching or processing a lot of data from Pinot. Users can always overwrite this by explicitly specifying a LIMIT value.
Pinot does not cache query results, each query is computed in its entirety. Note though, running the same or similar query multiple times will naturally pull in segment pages into memory making subsequent calls faster. Also, for realtime systems, the data is changing in realtime, so results cannot be cached. For offline-only systems, caching layer can be built on top of Pinot, with invalidation mechanism built-in to invalidate the cache when data is pushed into Pinot.
Pinot memory maps segments. It warms up during the first query, when segments are pulled into the memory by the OS. Subsequent queries will have the segment already loaded in memory, and hence will be faster. The OS is responsible for bringing the segments into memory, and also removing them in favor of other segments when other segments not already in memory are accessed.
The query execution engine will prefer to use StarTree index for all queries where it can be used. The criteria to determine whether StarTree index can be used is as follows:
All aggregation function + column pairs in the query must exist in the StarTree index.
All dimensions that appear in filter predicates and group-by should be StarTree dimensions.
For queries where above is true, StarTree index is used. For other queries, the execution engine will default to using the next best index available.
For REALTIME table update
After changing the replication, run a .
Refer to .
Refer to .
Refer to
r1 | r2 |
---|
As you can see, the set (S0, S2) contains r1 of every partition, and (s1, S3) contains r2 of every partition. The query will only be routed to one of the sets, and not span every server. If you are are adding/removing servers from an existing table setup, you have to run for segment assignment changes to take effect.
Once replica group segment assignment is in effect, the query routing can take advantage of it. For replica group based query routing, set the following in the table config's section, and then restart brokers
In order to speed up aggregations, you can enable metrics aggregation on the required column by adding a in the corresponding schema and setting aggregateMetrics
to true in the table config. You can also use a star-tree index config for such columns ()
p1 | S0 | S1 |
p2 | S2 | S3 |
p3 | S0 | S1 |
p4 | S2 | S3 |
p5 | S0 | S1 |
p6 | S2 | S3 |
Below is an example of AWS EKS.
In the K8s cluster, check the storage class: in AWS, it should be gp2.
Then update StorageClass to ensure:
Once StorageClass is updated, it should be like:
Once the storage class is updated, then we can update PVC for the server disk size.
Now we want to double the disk size for pinot-server-3.
Below is an example of current disks:
Below is the output of data-pinot-server-3
Now, let's change the PVC size to 2T by editing the server PVC.
Once updated, the spec's PVC size is updated to 2T, but the status's PVC size is still 1T.
Restart pinot-server-3 pod:
Recheck PVC size:
This page has a collection of frequently asked questions with answers from the community.
This is a list of frequent questions most often asked in our troubleshooting channel on Slack. Please feel free to contribute your questions and answers here and make a pull request.
FAQ for general questions around Pinot
When data is pushed in to Pinot, it makes a backup copy of the data and stores it on the configured deep-storage (S3/GCP/ADLS/NFS/etc). This copy is stored as tar.gz Pinot segments. Note, that pinot servers keep a (untarred) copy of the segments on their local disk as well. This is done for performance reasons.
Pinot uses Apache Helix for cluster management, which in turn is built on top of Zookeeper. Helix uses Zookeeper to store the cluster state, including Ideal State, External View, Participants, etc. Besides that, Pinot uses Zookeeper to store other information such as Table configs, schema, Segment Metadata, etc.
Please check the JDK version you are using. The release 0.8.0 binary is on JDK 11. You may be getting this error if you are using JDK8. In that case, please consider using JDK11, or you will need to download the source code for the release and build it locally.