Apache Kudu (incubating) Release Notes

Introducing Kudu

Kudu is a columnar storage manager developed for the Hadoop platform. Kudu shares the common technical properties of Hadoop ecosystem applications: it runs on commodity hardware, is horizontally scalable, and supports highly available operation.

Kudu’s design sets it apart. Some of Kudu’s benefits include:

  • Fast processing of OLAP workloads.

  • Integration with MapReduce, Spark, and other Hadoop ecosystem components.

  • Tight integration with Apache Impala (incubating), making it a good, mutable alternative to using HDFS with Parquet. See Kudu Impala Integration.

  • Strong but flexible consistency model.

  • Strong performance for running sequential and random workloads simultaneously.

  • Efficient utilization of hardware resources.

  • High availability. Tablet Servers and Masters use the Raft Consensus Algorithm. Given a replication factor of 2f+1, if f tablet servers serving a given tablet fail, the tablet is still available.

    High availability for masters is not supported during the public beta.

By combining all of these properties, Kudu targets support for families of applications that are difficult or impossible to implement on current-generation Hadoop storage technologies.

Release notes specific to 0.7.1

Kudu 0.7.1 is a bug fix release for 0.7.0.

Fixed Issues

  1. KUDU-1325 fixes a tablet server crash that could occur during table deletion. In some cases, while a table was being deleted, other replicas would attempt to re-replicate tablets to servers that had already processed the deletion. This could trigger a race condition that caused a crash.

  2. KUDU-1341 fixes a potential data corruption and crash that could happen shortly after tablet server restarts in workloads that repeatedly delete and re-insert rows with the same primary key. In most cases, this corruption affected only a single replica and could be repaired by re-replicating from another.

  3. KUDU-1343 fixes a bug in the Java client that occurs when a scanner has to scan multiple batches from one tablet and then start scanning from another. In particular, this would affect any scans using the Java client that read large numbers of rows from multi-tablet tables.

  4. KUDU-1345 fixes a bug where in some cases the hybrid clock could jump backwards, resulting in a crash followed by an inability to restart the affected tablet server.

  5. KUDU-1360 fixes a bug in the kudu-spark module which prevented reading rows with NULL values.

Release notes specific to 0.7.0

Kudu 0.7.0 is the first release done as part of the Apache Incubator and includes a number of changes, new features, improvements, and fixes.

The upgrade instructions can be found at Upgrade from 0.6.0 to 0.7.0.

Incompatible changes

  1. The C++ client includes a new API, KuduScanBatch, which performs better when a large number of small rows are returned in a batch. The old API of vector<KuduRowResult> is deprecated.

    This change is API-compatible but not ABI-compatible.
  2. The default replication factor has been changed from 1 to 3. Existing tables will continue to use the replication factor they were created with. Applications that create tables may not work properly if they assume a replication factor of 1 and fewer than 3 replicas are available. To use the previous default replication factor, start the master with the configuration flag --default_num_replicas=1.

  3. The Python client has been completely rewritten, with a focus on improving code quality and testing. The read path (scanners) has been improved by adding many of the features already supported by the C++ and Java clients. The Python client is no longer considered experimental.

New features

  1. With the goal of Spark integration in mind, a new kuduRDD API has been added, which wraps newAPIHadoopRDD and includes a default source for Spark SQL.

Improvements

  1. The Java client includes new methods countPendingErrors() and getPendingErrors() on KuduSession. These methods allow you to count and retrieve outstanding row errors when configuring sessions with AUTO_FLUSH_BACKGROUND.

  2. New server-level metrics allow you to monitor CPU usage and context switching.

  3. Kudu now builds on RHEL 7, CentOS 7, and SLES 12. Extra instructions are included for SLES 12.

Fixed Issues

  1. KUDU-1288 fixes a severe file descriptor leak, which could previously only be resolved by restarting the tablet server.

  2. KUDU-1250 fixes a hang in the Java client when processing an in-flight batch and the previous batch encountered an error.

Other noteworthy changes

  1. The file block manager’s performance was improved, but it is still not recommended for real-world use.

  2. The master now attempts to spread tablets more evenly across the cluster during table creation. This has no impact on existing tables, but will improve the speed at which under-replicated tabletsare re-replicated after a tablet server failure.

  3. All licensing documents have been modified to adhere to ASF guidelines.

  4. Kudu now requires an out-of-tree build directory. Review the build instructions for additional information.

  5. The C` client library is now explicitly built against the link:https://gcc.gnu.org/onlinedocs/libstdc/manual/using_dual_abi.html[old gcc5 ABI]. If you use gcc5 to build a Kudu application, your application must use the old ABI as well. This is typically achieved by defining the `_GLIBCXX_USE_CXX11_ABI macro at compile-time when building your application. For more information, see the previous link and link:http://developerblog.redhat.com/2015/02/05/gcc5-and-the-c11-abi/.

  6. The Python client is no longer considered experimental.

Limitations

See also Limitations of the Kudu Public Beta. Where applicable, this list adds to or overrides that list.

Operating System Limitations
  • Kudu 0.7 is known to work on RHEL 7 or 6.4 or newer, CentOS 7 or 6.4 or newer, Ubuntu Trusty, and SLES 12. Other operating systems may work but have not been tested.

Release notes specific to 0.6.0

The 0.6.0 release contains incremental improvements and bug fixes. The most notable changes are:

  1. The Java client’s CreateTableBuilder and AlterTableBuilder classes have been renamed to CreateTableOptions and AlterTableOptions. Their methods now also return this objects, allowing them to be used as builders.

  2. The Java client’s AbstractKuduScannerBuilder#maxNumBytes() setter is now called batchSizeBytes as is the corresponding property in AsyncKuduScanner. This makes it consistent with the C++ client.

  3. The "kudu-admin" tool can now list and delete tables via its new subcommands "list_tables" and "delete_table <table_name>".

  4. OSX is now supported for single-host development. Please consult its specific installation instructions in OS X.

Limitations

See also Limitations of the Kudu Public Beta. Where applicable, this list adds to or overrides that list.

Operating System Limitations
  • Kudu 0.6 is known to work on RHEL 6.4 or newer, CentOS 6.4 or newer, and Ubuntu Trusty. Other operating systems may work but have not been tested.

API Limitations
  • The Python client is still considered experimental.

Release Notes Specific to 0.5.0

Limitations

See also Limitations of the Kudu Public Beta. Where applicable, this list adds to or overrides that list.

Operating System Limitations
  • Kudu 0.5 is known to work on RHEL 7 or 6.4 or newer, CentOS 7 or 6.4 or newer, Ubuntu Trusty, and SLES 12. Other operating systems may work but have not been tested.

API Limitations
  • The Python client is considered experimental.

About the Kudu Public Beta

This release of Kudu is a public beta. Do not run this beta release on production clusters. During the public beta period, Kudu will be supported via a public JIRA and a public mailing list, which will be monitored by the Kudu development team and community members. Commercial support is not available at this time.

  • You can submit any issues or feedback related to your Kudu experience via either the JIRA system or the mailing list. The Kudu development team and community members will respond and assist as quickly as possible.

  • The Kudu team will work with early adopters to fix bugs and release new binary drops when fixes or features are ready. However, we cannot commit to issue resolution or bug fix delivery times during the public beta period, and it is possible that some fixes or enhancements will not be selected for a release.

  • We can’t guarantee time frames or contents for future beta code drops. However, they will be announced to the user group when they occur.

  • No guarantees are made regarding upgrades from this release to follow-on releases. While multiple drops of beta code are planned, we can’t guarantee their schedules or contents.

Kudu-Impala Integration Features

CREATE TABLE

Impala supports creating and dropping tables using Kudu as the persistence layer. The tables follow the same internal / external approach as other tables in Impala, allowing for flexible data ingestion and querying.

INSERT

Data can be inserted into Kudu tables in Impala using the same mechanisms as any other table with HDFS or HBase persistence.

UPDATE / DELETE

Impala supports the UPDATE and DELETE SQL commands to modify existing data in a Kudu table row-by-row or as a batch. The syntax of the SQL commands is chosen to be as compatible as possible to existing solutions. In addition to simple DELETE or UPDATE commands, you can specify complex joins in the FROM clause of the query using the same syntax as a regular SELECT statement.

Flexible Partitioning

Similar to partitioning of tables in Hive, Kudu allows you to dynamically pre-split tables by hash or range into a predefined number of tablets, in order to distribute writes and queries evenly across your cluster. You can partition by any number of primary key columns, by any number of hashes and an optional list of split rows. See Schema Design.

Parallel Scan

To achieve the highest possible performance on modern hardware, the Kudu client within Impala parallelizes scans to multiple tablets.

High-efficiency queries

Where possible, Impala pushes down predicate evaluation to Kudu, so that predicates are evaluated as close as possible to the data. Query performance is comparable to Parquet in many workloads.

Limitations of the Kudu Public Beta

Items in this list may be amended or superseded by limitations listed in the release notes for specific Kudu releases above.

Schema Limitations
  • Kudu is primarily designed for analytic use cases and, in the beta release, you are likely to encounter issues if a single row contains multiple kilobytes of data.

  • The columns which make up the primary key must be listed first in the schema.

  • Key columns cannot be altered. You must drop and recreate a table to change its keys.

  • Key columns must not be null.

  • Columns with DOUBLE, FLOAT, or BOOL types are not allowed as part of a primary key definition.

  • Type and nullability of existing columns cannot be changed by altering the table.

  • A table’s primary key cannot be changed.

  • Dropping a column does not immediately reclaim space. Compaction must run first. There is no way to run compaction manually, but dropping the table will reclaim the space immediately.

Ingest Limitations
  • Ingest via Sqoop or Flume is not supported in the public beta. The recommended approach for bulk ingest is to use Impala’s CREATE TABLE AS SELECT functionality or use the Kudu Java or C++ API.

  • Tables must be manually pre-split into tablets using simple or compound primary keys. Automatic splitting is not yet possible. See Schema Design.

  • Tablets cannot currently be merged. Instead, create a new table with the contents of the old tables to be merged.

Replication and Backup Limitations
  • Replication and failover of Kudu masters is considered experimental. It is recommended to run a single master and periodically perform a manual backup of its data directories.

Impala Limitations
  • To use Kudu with Impala, you must install a special release of Impala called Impala_Kudu. Obtaining and installing a compatible Impala release is detailed in Kudu’s Impala Integration documentation.

  • To use Impala_Kudu alongside an existing Impala instance, you must install using parcels.

  • Updates, inserts, and deletes via Impala are non-transactional. If a query fails part of the way through, its partial effects will not be rolled back.

  • All queries will be distributed across all Impala hosts which host a replica of the target table(s), even if a predicate on a primary key could correctly restrict the query to a single tablet. This limits the maximum concurrency of short queries made via Impala.

  • No timestamp and decimal type support.

  • The maximum parallelism of a single query is limited to the number of tablets in a table. For good analytic performance, aim for 10 or more tablets per host or use large tables.

  • Impala is only able to push down predicates involving =, , >=, or BETWEEN comparisons between any column and a literal value, and < and > for integer columns only. For example, for a table with an integer key ts, and a string key name, the predicate WHERE ts >= 12345 will convert into an efficient range scan, whereas where name > 'lipcon' will currently fetch all data from the table and evaluate the predicate within Impala.

Security Limitations
  • Authentication and authorization are not included in the public beta.

  • Data encryption is not included in the public beta.

Client and API Limitations
  • Potentially-incompatible C++, Java and Python API changes may be required during the public beta.

  • ALTER TABLE is not yet fully supported via the client APIs. More ALTER TABLE operations will become available in future betas.

Application Integration Limitations
  • The Spark DataFrame implementation is not yet complete.

Other Known Issues

The following are known bugs and issues with the current beta release. They will be addressed in later beta releases.

  • Building Kudu from source using gcc 4.6 or 4.7 causes runtime and test failures. Be sure you are using a different version of gcc if you build Kudu from source.

  • If the Kudu master is configured with the -log_fsync_all option, tablet servers and clients will experience frequent timeouts, and the cluster may become unusable.

  • If a tablet server has a very large number of tablets, it may take several minutes to start up. It is recommended to limit the number of tablets per server to 100 or fewer. Consider this limitation when pre-splitting your tables. If you notice slow start-up times, you can monitor the number of tablets per server in the web UI.

Disclaimer on Apache Incubation

Apache Kudu (incubating) is an effort undergoing incubation at The Apache Software Foundation (ASF), sponsored by the Apache Incubator PMC. Incubation is required of all newly accepted projects until a further review indicates that the infrastructure, communications, and decision making process have stabilized in a manner consistent with other successful ASF projects. While incubation status is not necessarily a reflection of the completeness or stability of the code, it does indicate that the project has yet to be fully endorsed by the ASF.

Installation Options

  • A Quickstart VM is provided to get you up and running quickly.

  • You can install Kudu using provided deb/yum packages.

  • You can install Kudu, in clusters managed by Cloudera Manager, using parcels or deb/yum packages.

  • You can build Kudu from source.

For full installation details, see Kudu Installation.