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Version: 0.10.0

Concurrency Control

In this section, we will cover Hudi's concurrency model and describe ways to ingest data into a Hudi Table from multiple writers; using the DeltaStreamer tool as well as using the Hudi datasource.

Supported Concurrency Controls

  • MVCC : Hudi table services such as compaction, cleaning, clustering leverage Multi Version Concurrency Control to provide snapshot isolation between multiple table service writers and readers. Additionally, using MVCC, Hudi provides snapshot isolation between an ingestion writer and multiple concurrent readers. With this model, Hudi supports running any number of table service jobs concurrently, without any concurrency conflict. This is made possible by ensuring that scheduling plans of such table services always happens in a single writer mode to ensure no conflict and avoids race conditions.

  • [NEW] OPTIMISTIC CONCURRENCY : Write operations such as the ones described above (UPSERT, INSERT) etc, leverage optimistic concurrency control to enable multiple ingestion writers to the same Hudi Table. Hudi supports file level OCC, i.e., for any 2 commits (or writers) happening to the same table, if they do not have writes to overlapping files being changed, both writers are allowed to succeed. This feature is currently experimental and requires either Zookeeper or HiveMetastore to acquire locks.

It may be helpful to understand the different guarantees provided by write operations via Hudi datasource or the delta streamer.

Single Writer Guarantees

  • UPSERT Guarantee: The target table will NEVER show duplicates.
  • INSERT Guarantee: The target table wilL NEVER have duplicates if dedup is enabled.
  • BULK_INSERT Guarantee: The target table will NEVER have duplicates if dedup is enabled.
  • INCREMENTAL PULL Guarantee: Data consumption and checkpoints are NEVER out of order.

Multi Writer Guarantees

With multiple writers using OCC, some of the above guarantees change as follows

  • UPSERT Guarantee: The target table will NEVER show duplicates.
  • INSERT Guarantee: The target table MIGHT have duplicates even if dedup is enabled.
  • BULK_INSERT Guarantee: The target table MIGHT have duplicates even if dedup is enabled.
  • INCREMENTAL PULL Guarantee: Data consumption and checkpoints MIGHT be out of order due to multiple writer jobs finishing at different times.

Enabling Multi Writing

The following properties are needed to be set properly to turn on optimistic concurrency control.

hoodie.write.concurrency.mode=optimistic_concurrency_control
hoodie.cleaner.policy.failed.writes=LAZY
hoodie.write.lock.provider=<lock-provider-classname>

There are 3 different server based lock providers that require different configuration to be set.

Zookeeper based lock provider

hoodie.write.lock.provider=org.apache.hudi.client.transaction.lock.ZookeeperBasedLockProvider
hoodie.write.lock.zookeeper.url
hoodie.write.lock.zookeeper.port
hoodie.write.lock.zookeeper.lock_key
hoodie.write.lock.zookeeper.base_path

HiveMetastore based lock provider

hoodie.write.lock.provider=org.apache.hudi.hive.HiveMetastoreBasedLockProvider
hoodie.write.lock.hivemetastore.database
hoodie.write.lock.hivemetastore.table

The HiveMetastore URI's are picked up from the hadoop configuration file loaded during runtime.

Amazon DynamoDB based lock provider

Amazon DynamoDB based lock provides a simple way to support multi writing across different clusters. You can refer to the DynamoDB based Locks Configurations section for the details of each related configuration knob.

hoodie.write.lock.provider=org.apache.hudi.aws.transaction.lock.DynamoDBBasedLockProvider
hoodie.write.lock.dynamodb.table (required)
hoodie.write.lock.dynamodb.partition_key (optional)
hoodie.write.lock.dynamodb.region (optional)
hoodie.write.lock.dynamodb.endpoint_url (optional)
hoodie.write.lock.dynamodb.billing_mode (optional)

When using the DynamoDB-based lock provider, the name of the DynamoDB table acting as the lock table for Hudi is specified by the config hoodie.write.lock.dynamodb.table. This DynamoDB table is automatically created by Hudi, so you don't have to create the table yourself. If you want to use an existing DynamoDB table, make sure that an attribute with the name key is present in the table. The key attribute should be the partition key of the DynamoDB table. The config hoodie.write.lock.dynamodb.partition_key specifies the value to put for the key attribute (not the attribute name), which is used for the lock on the same table. By default, hoodie.write.lock.dynamodb.partition_key is set to the table name, so that multiple writers writing to the same table share the same lock. If you customize the name, make sure it's the same across multiple writers.

Also, to set up the credentials for accessing AWS resources, customers can pass the following props to Hudi jobs:

hoodie.aws.access.key
hoodie.aws.secret.key
hoodie.aws.session.token

If not configured, Hudi falls back to use DefaultAWSCredentialsProviderChain.

IAM policy for your service instance will need to add the following permissions:

{
"Sid":"DynamoDBLocksTable",
"Effect": "Allow",
"Action": [
"dynamodb:CreateTable",
"dynamodb:DeleteItem",
"dynamodb:DescribeTable",
"dynamodb:GetItem",
"dynamodb:PutItem",
"dynamodb:Scan",
"dynamodb:UpdateItem"
],
"Resource": "arn:${Partition}:dynamodb:${Region}:${Account}:table/${TableName}"
}
  • TableName : same as hoodie.write.lock.dynamodb.partition_key
  • Region: same as hoodie.write.lock.dynamodb.region

AWS SDK dependencies are not bundled with Hudi from v0.10.x and will need to be added to your classpath. Add the following Maven packages (check the latest versions at time of install):

com.amazonaws:dynamodb-lock-client
com.amazonaws:aws-java-sdk-dynamodb
com.amazonaws:aws-java-sdk-core

Datasource Writer

The hudi-spark module offers the DataSource API to write (and read) a Spark DataFrame into a Hudi table.

Following is an example of how to use optimistic_concurrency_control via spark datasource

inputDF.write.format("hudi")
.options(getQuickstartWriteConfigs)
.option(PRECOMBINE_FIELD_OPT_KEY, "ts")
.option("hoodie.cleaner.policy.failed.writes", "LAZY")
.option("hoodie.write.concurrency.mode", "optimistic_concurrency_control")
.option("hoodie.write.lock.zookeeper.url", "zookeeper")
.option("hoodie.write.lock.zookeeper.port", "2181")
.option("hoodie.write.lock.zookeeper.lock_key", "test_table")
.option("hoodie.write.lock.zookeeper.base_path", "/test")
.option(RECORDKEY_FIELD_OPT_KEY, "uuid")
.option(PARTITIONPATH_FIELD_OPT_KEY, "partitionpath")
.option(TABLE_NAME, tableName)
.mode(Overwrite)
.save(basePath)

DeltaStreamer

The HoodieDeltaStreamer utility (part of hudi-utilities-bundle) provides ways to ingest from different sources such as DFS or Kafka, with the following capabilities.

Using optimistic_concurrency_control via delta streamer requires adding the above configs to the properties file that can be passed to the job. For example below, adding the configs to kafka-source.properties file and passing them to deltastreamer will enable optimistic concurrency. A deltastreamer job can then be triggered as follows:

[hoodie]$ spark-submit --class org.apache.hudi.utilities.deltastreamer.HoodieDeltaStreamer `ls packaging/hudi-utilities-bundle/target/hudi-utilities-bundle-*.jar` \
--props file://${PWD}/hudi-utilities/src/test/resources/delta-streamer-config/kafka-source.properties \
--schemaprovider-class org.apache.hudi.utilities.schema.SchemaRegistryProvider \
--source-class org.apache.hudi.utilities.sources.AvroKafkaSource \
--source-ordering-field impresssiontime \
--target-base-path file:\/\/\/tmp/hudi-deltastreamer-op \
--target-table uber.impressions \
--op BULK_INSERT

Best Practices when using Optimistic Concurrency Control

Concurrent Writing to Hudi tables requires acquiring a lock with either Zookeeper or HiveMetastore. Due to several reasons you might want to configure retries to allow your application to acquire the lock.

  1. Network connectivity or excessive load on servers increasing time for lock acquisition resulting in timeouts
  2. Running a large number of concurrent jobs that are writing to the same hudi table can result in contention during lock acquisition can cause timeouts
  3. In some scenarios of conflict resolution, Hudi commit operations might take upto 10's of seconds while the lock is being held. This can result in timeouts for other jobs waiting to acquire a lock.

Set the correct native lock provider client retries. NOTE that sometimes these settings are set on the server once and all clients inherit the same configs. Please check your settings before enabling optimistic concurrency.

hoodie.write.lock.wait_time_ms
hoodie.write.lock.num_retries

Set the correct hudi client retries for Zookeeper & HiveMetastore. This is useful in cases when native client retry settings cannot be changed. Please note that these retries will happen in addition to any native client retries that you may have set.

hoodie.write.lock.client.wait_time_ms
hoodie.write.lock.client.num_retries

Setting the right values for these depends on a case by case basis; some defaults have been provided for general cases.

Disabling Multi Writing

Remove the following settings that were used to enable multi-writer or override with default values.

hoodie.write.concurrency.mode=single_writer
hoodie.cleaner.policy.failed.writes=EAGER

Caveats

If you are using the WriteClient API, please note that multiple writes to the table need to be initiated from 2 different instances of the write client. It is NOT recommended to use the same instance of the write client to perform multi writing.