5.9. Kafka Connector Tutorial

Introduction

The Kafka Connector for Presto allows access to live topic data fromApache Kafka using Presto. This tutorial shows how to set up topics andhow to create the topic description files that back Presto tables.

Installation

This tutorial assumes familiarity with Presto and a working local Prestoinstallation (see Deploying Presto). It will focus onsetting up Apache Kafka and integrating it with Presto.

Step 1: Install Apache Kafka

Download and extract Apache Kafka.

Note

This tutorial was tested with Apache Kafka 0.8.1.It should work with any 0.8.x version of Apache Kafka.

Start ZooKeeper and the Kafka server:

  1. $ bin/zookeeper-server-start.sh config/zookeeper.properties
  2. [2013-04-22 15:01:37,495] INFO Reading configuration from: config/zookeeper.properties (org.apache.zookeeper.server.quorum.QuorumPeerConfig)
  3. ...
  1. $ bin/kafka-server-start.sh config/server.properties
  2. [2013-04-22 15:01:47,028] INFO Verifying properties (kafka.utils.VerifiableProperties)
  3. [2013-04-22 15:01:47,051] INFO Property socket.send.buffer.bytes is overridden to 1048576 (kafka.utils.VerifiableProperties)
  4. ...

This will start Zookeeper on port 2181 and Kafka on port 9092.

Step 2: Load data

Download the tpch-kafka loader from Maven central:

  1. $ curl -o kafka-tpch https://repo1.maven.org/maven2/de/softwareforge/kafka_tpch_0811/1.0/kafka_tpch_0811-1.0.sh
  2. $ chmod 755 kafka-tpch

Now run the kafka-tpch program to preload a number of topics with tpch data:

  1. $ ./kafka-tpch load --brokers localhost:9092 --prefix tpch. --tpch-type tiny
  2. 2014-07-28T17:17:07.594-0700 INFO main com.facebook.airlift.log.Logging Logging to stderr
  3. 2014-07-28T17:17:07.623-0700 INFO main de.softwareforge.kafka.LoadCommand Processing tables: [customer, orders, lineitem, part, partsupp, supplier, nation, region]
  4. 2014-07-28T17:17:07.981-0700 INFO pool-1-thread-1 de.softwareforge.kafka.LoadCommand Loading table 'customer' into topic 'tpch.customer'...
  5. 2014-07-28T17:17:07.981-0700 INFO pool-1-thread-2 de.softwareforge.kafka.LoadCommand Loading table 'orders' into topic 'tpch.orders'...
  6. 2014-07-28T17:17:07.981-0700 INFO pool-1-thread-3 de.softwareforge.kafka.LoadCommand Loading table 'lineitem' into topic 'tpch.lineitem'...
  7. 2014-07-28T17:17:07.982-0700 INFO pool-1-thread-4 de.softwareforge.kafka.LoadCommand Loading table 'part' into topic 'tpch.part'...
  8. 2014-07-28T17:17:07.982-0700 INFO pool-1-thread-5 de.softwareforge.kafka.LoadCommand Loading table 'partsupp' into topic 'tpch.partsupp'...
  9. 2014-07-28T17:17:07.982-0700 INFO pool-1-thread-6 de.softwareforge.kafka.LoadCommand Loading table 'supplier' into topic 'tpch.supplier'...
  10. 2014-07-28T17:17:07.982-0700 INFO pool-1-thread-7 de.softwareforge.kafka.LoadCommand Loading table 'nation' into topic 'tpch.nation'...
  11. 2014-07-28T17:17:07.982-0700 INFO pool-1-thread-8 de.softwareforge.kafka.LoadCommand Loading table 'region' into topic 'tpch.region'...
  12. 2014-07-28T17:17:10.612-0700 ERROR pool-1-thread-8 kafka.producer.async.DefaultEventHandler Failed to collate messages by topic, partition due to: Failed to fetch topic metadata for topic: tpch.region
  13. 2014-07-28T17:17:10.781-0700 INFO pool-1-thread-8 de.softwareforge.kafka.LoadCommand Generated 5 rows for table 'region'.
  14. 2014-07-28T17:17:10.797-0700 ERROR pool-1-thread-3 kafka.producer.async.DefaultEventHandler Failed to collate messages by topic, partition due to: Failed to fetch topic metadata for topic: tpch.lineitem
  15. 2014-07-28T17:17:10.932-0700 ERROR pool-1-thread-1 kafka.producer.async.DefaultEventHandler Failed to collate messages by topic, partition due to: Failed to fetch topic metadata for topic: tpch.customer
  16. 2014-07-28T17:17:11.068-0700 ERROR pool-1-thread-2 kafka.producer.async.DefaultEventHandler Failed to collate messages by topic, partition due to: Failed to fetch topic metadata for topic: tpch.orders
  17. 2014-07-28T17:17:11.200-0700 ERROR pool-1-thread-6 kafka.producer.async.DefaultEventHandler Failed to collate messages by topic, partition due to: Failed to fetch topic metadata for topic: tpch.supplier
  18. 2014-07-28T17:17:11.319-0700 INFO pool-1-thread-6 de.softwareforge.kafka.LoadCommand Generated 100 rows for table 'supplier'.
  19. 2014-07-28T17:17:11.333-0700 ERROR pool-1-thread-4 kafka.producer.async.DefaultEventHandler Failed to collate messages by topic, partition due to: Failed to fetch topic metadata for topic: tpch.part
  20. 2014-07-28T17:17:11.466-0700 ERROR pool-1-thread-5 kafka.producer.async.DefaultEventHandler Failed to collate messages by topic, partition due to: Failed to fetch topic metadata for topic: tpch.partsupp
  21. 2014-07-28T17:17:11.597-0700 ERROR pool-1-thread-7 kafka.producer.async.DefaultEventHandler Failed to collate messages by topic, partition due to: Failed to fetch topic metadata for topic: tpch.nation
  22. 2014-07-28T17:17:11.706-0700 INFO pool-1-thread-7 de.softwareforge.kafka.LoadCommand Generated 25 rows for table 'nation'.
  23. 2014-07-28T17:17:12.180-0700 INFO pool-1-thread-1 de.softwareforge.kafka.LoadCommand Generated 1500 rows for table 'customer'.
  24. 2014-07-28T17:17:12.251-0700 INFO pool-1-thread-4 de.softwareforge.kafka.LoadCommand Generated 2000 rows for table 'part'.
  25. 2014-07-28T17:17:12.905-0700 INFO pool-1-thread-2 de.softwareforge.kafka.LoadCommand Generated 15000 rows for table 'orders'.
  26. 2014-07-28T17:17:12.919-0700 INFO pool-1-thread-5 de.softwareforge.kafka.LoadCommand Generated 8000 rows for table 'partsupp'.
  27. 2014-07-28T17:17:13.877-0700 INFO pool-1-thread-3 de.softwareforge.kafka.LoadCommand Generated 60175 rows for table 'lineitem'.

Kafka now has a number of topics that are preloaded with data to query.

Step 3: Make the Kafka topics known to Presto

In your Presto installation, add a catalog properties fileetc/catalog/kafka.properties for the Kafka connector.This file lists the Kafka nodes and topics:

  1. connector.name=kafka
  2. kafka.nodes=localhost:9092
  3. kafka.table-names=tpch.customer,tpch.orders,tpch.lineitem,tpch.part,tpch.partsupp,tpch.supplier,tpch.nation,tpch.region
  4. kafka.hide-internal-columns=false

Now start Presto:

  1. $ bin/launcher start

Because the Kafka tables all have the tpch. prefix in the configuration,the tables are in the tpch schema. The connector is mounted into thekafka catalog because the properties file is named kafka.properties.

Start the Presto CLI:

  1. $ ./presto --catalog kafka --schema tpch

List the tables to verify that things are working:

  1. presto:tpch> SHOW TABLES;
  2. Table
  3. ----------
  4. customer
  5. lineitem
  6. nation
  7. orders
  8. part
  9. partsupp
  10. region
  11. supplier
  12. (8 rows)

Step 4: Basic data querying

Kafka data is unstructured and it has no metadata to describe the format ofthe messages. Without further configuration, the Kafka connector can accessthe data and map it in raw form but there are no actual columns besides thebuilt-in ones:

  1. presto:tpch> DESCRIBE customer;
  2. Column | Type | Extra | Comment
  3. -------------------+---------+-------+---------------------------------------------
  4. _partition_id | bigint | | Partition Id
  5. _partition_offset | bigint | | Offset for the message within the partition
  6. _segment_start | bigint | | Segment start offset
  7. _segment_end | bigint | | Segment end offset
  8. _segment_count | bigint | | Running message count per segment
  9. _key | varchar | | Key text
  10. _key_corrupt | boolean | | Key data is corrupt
  11. _key_length | bigint | | Total number of key bytes
  12. _message | varchar | | Message text
  13. _message_corrupt | boolean | | Message data is corrupt
  14. _message_length | bigint | | Total number of message bytes
  15. (11 rows)
  16.  
  17. presto:tpch> SELECT count(*) FROM customer;
  18. _col0
  19. -------
  20. 1500
  21.  
  22. presto:tpch> SELECT _message FROM customer LIMIT 5;
  23. _message
  24. --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
  25. {"rowNumber":1,"customerKey":1,"name":"Customer#000000001","address":"IVhzIApeRb ot,c,E","nationKey":15,"phone":"25-989-741-2988","accountBalance":711.56,"marketSegment":"BUILDING","comment":"to the even, regular platelets. regular, ironic epitaphs nag e"}
  26. {"rowNumber":3,"customerKey":3,"name":"Customer#000000003","address":"MG9kdTD2WBHm","nationKey":1,"phone":"11-719-748-3364","accountBalance":7498.12,"marketSegment":"AUTOMOBILE","comment":" deposits eat slyly ironic, even instructions. express foxes detect slyly. blithel
  27. {"rowNumber":5,"customerKey":5,"name":"Customer#000000005","address":"KvpyuHCplrB84WgAiGV6sYpZq7Tj","nationKey":3,"phone":"13-750-942-6364","accountBalance":794.47,"marketSegment":"HOUSEHOLD","comment":"n accounts will have to unwind. foxes cajole accor"}
  28. {"rowNumber":7,"customerKey":7,"name":"Customer#000000007","address":"TcGe5gaZNgVePxU5kRrvXBfkasDTea","nationKey":18,"phone":"28-190-982-9759","accountBalance":9561.95,"marketSegment":"AUTOMOBILE","comment":"ainst the ironic, express theodolites. express, even pinto bean
  29. {"rowNumber":9,"customerKey":9,"name":"Customer#000000009","address":"xKiAFTjUsCuxfeleNqefumTrjS","nationKey":8,"phone":"18-338-906-3675","accountBalance":8324.07,"marketSegment":"FURNITURE","comment":"r theodolites according to the requests wake thinly excuses: pending
  30. (5 rows)
  31.  
  32. presto:tpch> SELECT sum(cast(json_extract_scalar(_message, '$.accountBalance') AS double)) FROM customer LIMIT 10;
  33. _col0
  34. ------------
  35. 6681865.59
  36. (1 row)

The data from Kafka can be queried using Presto but it is not yet inactual table shape. The raw data is available through the _message and_key columns but it is not decoded into columns. As the sample data isin JSON format, the JSON Functions and Operators built into Presto can be usedto slice the data.

Step 5: Add a topic description file

The Kafka connector supports topic description files to turn raw data intotable format. These files are located in the etc/kafka folder in thePresto installation and must end with .json. It is recommended thatthe file name matches the table name but this is not necessary.

Add the following file as etc/kafka/tpch.customer.json and restart Presto:

  1. {
  2. "tableName": "customer",
  3. "schemaName": "tpch",
  4. "topicName": "tpch.customer",
  5. "key": {
  6. "dataFormat": "raw",
  7. "fields": [
  8. {
  9. "name": "kafka_key",
  10. "dataFormat": "LONG",
  11. "type": "BIGINT",
  12. "hidden": "false"
  13. }
  14. ]
  15. }
  16. }

The customer table now has an additional column: kafka_key.

  1. presto:tpch> DESCRIBE customer;
  2. Column | Type | Extra | Comment
  3. -------------------+---------+-------+---------------------------------------------
  4. kafka_key | bigint | |
  5. _partition_id | bigint | | Partition Id
  6. _partition_offset | bigint | | Offset for the message within the partition
  7. _segment_start | bigint | | Segment start offset
  8. _segment_end | bigint | | Segment end offset
  9. _segment_count | bigint | | Running message count per segment
  10. _key | varchar | | Key text
  11. _key_corrupt | boolean | | Key data is corrupt
  12. _key_length | bigint | | Total number of key bytes
  13. _message | varchar | | Message text
  14. _message_corrupt | boolean | | Message data is corrupt
  15. _message_length | bigint | | Total number of message bytes
  16. (12 rows)
  17.  
  18. presto:tpch> SELECT kafka_key FROM customer ORDER BY kafka_key LIMIT 10;
  19. kafka_key
  20. -----------
  21. 0
  22. 1
  23. 2
  24. 3
  25. 4
  26. 5
  27. 6
  28. 7
  29. 8
  30. 9
  31. (10 rows)

The topic definition file maps the internal Kafka key (which is a raw longin eight bytes) onto a Presto BIGINT column.

Step 6: Map all the values from the topic message onto columns

Update the etc/kafka/tpch.customer.json file to add fields for themessage and restart Presto. As the fields in the message are JSON, it usesthe json data format. This is an example where different data formatsare used for the key and the message.

  1. {
  2. "tableName": "customer",
  3. "schemaName": "tpch",
  4. "topicName": "tpch.customer",
  5. "key": {
  6. "dataFormat": "raw",
  7. "fields": [
  8. {
  9. "name": "kafka_key",
  10. "dataFormat": "LONG",
  11. "type": "BIGINT",
  12. "hidden": "false"
  13. }
  14. ]
  15. },
  16. "message": {
  17. "dataFormat": "json",
  18. "fields": [
  19. {
  20. "name": "row_number",
  21. "mapping": "rowNumber",
  22. "type": "BIGINT"
  23. },
  24. {
  25. "name": "customer_key",
  26. "mapping": "customerKey",
  27. "type": "BIGINT"
  28. },
  29. {
  30. "name": "name",
  31. "mapping": "name",
  32. "type": "VARCHAR"
  33. },
  34. {
  35. "name": "address",
  36. "mapping": "address",
  37. "type": "VARCHAR"
  38. },
  39. {
  40. "name": "nation_key",
  41. "mapping": "nationKey",
  42. "type": "BIGINT"
  43. },
  44. {
  45. "name": "phone",
  46. "mapping": "phone",
  47. "type": "VARCHAR"
  48. },
  49. {
  50. "name": "account_balance",
  51. "mapping": "accountBalance",
  52. "type": "DOUBLE"
  53. },
  54. {
  55. "name": "market_segment",
  56. "mapping": "marketSegment",
  57. "type": "VARCHAR"
  58. },
  59. {
  60. "name": "comment",
  61. "mapping": "comment",
  62. "type": "VARCHAR"
  63. }
  64. ]
  65. }
  66. }

Now for all the fields in the JSON of the message, columns are defined andthe sum query from earlier can operate on the account_balance column directly:

  1. presto:tpch> DESCRIBE customer;
  2. Column | Type | Extra | Comment
  3. -------------------+---------+-------+---------------------------------------------
  4. kafka_key | bigint | |
  5. row_number | bigint | |
  6. customer_key | bigint | |
  7. name | varchar | |
  8. address | varchar | |
  9. nation_key | bigint | |
  10. phone | varchar | |
  11. account_balance | double | |
  12. market_segment | varchar | |
  13. comment | varchar | |
  14. _partition_id | bigint | | Partition Id
  15. _partition_offset | bigint | | Offset for the message within the partition
  16. _segment_start | bigint | | Segment start offset
  17. _segment_end | bigint | | Segment end offset
  18. _segment_count | bigint | | Running message count per segment
  19. _key | varchar | | Key text
  20. _key_corrupt | boolean | | Key data is corrupt
  21. _key_length | bigint | | Total number of key bytes
  22. _message | varchar | | Message text
  23. _message_corrupt | boolean | | Message data is corrupt
  24. _message_length | bigint | | Total number of message bytes
  25. (21 rows)
  26.  
  27. presto:tpch> SELECT * FROM customer LIMIT 5;
  28. kafka_key | row_number | customer_key | name | address | nation_key | phone | account_balance | market_segment | comment
  29. -----------+------------+--------------+--------------------+---------------------------------------+------------+-----------------+-----------------+----------------+---------------------------------------------------------------------------------------------------------
  30. 1 | 2 | 2 | Customer#000000002 | XSTf4,NCwDVaWNe6tEgvwfmRchLXak | 13 | 23-768-687-3665 | 121.65 | AUTOMOBILE | l accounts. blithely ironic theodolites integrate boldly: caref
  31. 3 | 4 | 4 | Customer#000000004 | XxVSJsLAGtn | 4 | 14-128-190-5944 | 2866.83 | MACHINERY | requests. final, regular ideas sleep final accou
  32. 5 | 6 | 6 | Customer#000000006 | sKZz0CsnMD7mp4Xd0YrBvx,LREYKUWAh yVn | 20 | 30-114-968-4951 | 7638.57 | AUTOMOBILE | tions. even deposits boost according to the slyly bold packages. final accounts cajole requests. furious
  33. 7 | 8 | 8 | Customer#000000008 | I0B10bB0AymmC, 0PrRYBCP1yGJ8xcBPmWhl5 | 17 | 27-147-574-9335 | 6819.74 | BUILDING | among the slyly regular theodolites kindle blithely courts. carefully even theodolites haggle slyly alon
  34. 9 | 10 | 10 | Customer#000000010 | 6LrEaV6KR6PLVcgl2ArL Q3rqzLzcT1 v2 | 5 | 15-741-346-9870 | 2753.54 | HOUSEHOLD | es regular deposits haggle. fur
  35. (5 rows)
  36.  
  37. presto:tpch> SELECT sum(account_balance) FROM customer LIMIT 10;
  38. _col0
  39. ------------
  40. 6681865.59
  41. (1 row)

Now all the fields from the customer topic messages are available asPresto table columns.

Step 7: Use live data

Presto can query live data in Kafka as it arrives. To simulate a live feedof data, this tutorial sets up a feed of live tweets into Kafka.

Setup a live Twitter feed

  • Download the twistr tool
  1. $ curl -o twistr https://repo1.maven.org/maven2/de/softwareforge/twistr_kafka_0811/1.2/twistr_kafka_0811-1.2.sh
  2. $ chmod 755 twistr
  • Create a developer account at https://dev.twitter.com/ and set up anaccess and consumer token.
  • Create a twistr.properties file and put the access and consumer keyand secrets into it:
  1. twistr.access-token-key=...
  2. twistr.access-token-secret=...
  3. twistr.consumer-key=...
  4. twistr.consumer-secret=...
  5. twistr.kafka.brokers=localhost:9092

Create a tweets table on Presto

Add the tweets table to the etc/catalog/kafka.properties file:

  1. connector.name=kafka
  2. kafka.nodes=localhost:9092
  3. kafka.table-names=tpch.customer,tpch.orders,tpch.lineitem,tpch.part,tpch.partsupp,tpch.supplier,tpch.nation,tpch.region,tweets
  4. kafka.hide-internal-columns=false

Add a topic definition file for the Twitter feed as etc/kafka/tweets.json:

  1. {
  2. "tableName": "tweets",
  3. "topicName": "twitter_feed",
  4. "dataFormat": "json",
  5. "key": {
  6. "dataFormat": "raw",
  7. "fields": [
  8. {
  9. "name": "kafka_key",
  10. "dataFormat": "LONG",
  11. "type": "BIGINT",
  12. "hidden": "false"
  13. }
  14. ]
  15. },
  16. "message": {
  17. "dataFormat":"json",
  18. "fields": [
  19. {
  20. "name": "text",
  21. "mapping": "text",
  22. "type": "VARCHAR"
  23. },
  24. {
  25. "name": "user_name",
  26. "mapping": "user/screen_name",
  27. "type": "VARCHAR"
  28. },
  29. {
  30. "name": "lang",
  31. "mapping": "lang",
  32. "type": "VARCHAR"
  33. },
  34. {
  35. "name": "created_at",
  36. "mapping": "created_at",
  37. "type": "TIMESTAMP",
  38. "dataFormat": "rfc2822"
  39. },
  40. {
  41. "name": "favorite_count",
  42. "mapping": "favorite_count",
  43. "type": "BIGINT"
  44. },
  45. {
  46. "name": "retweet_count",
  47. "mapping": "retweet_count",
  48. "type": "BIGINT"
  49. },
  50. {
  51. "name": "favorited",
  52. "mapping": "favorited",
  53. "type": "BOOLEAN"
  54. },
  55. {
  56. "name": "id",
  57. "mapping": "id_str",
  58. "type": "VARCHAR"
  59. },
  60. {
  61. "name": "in_reply_to_screen_name",
  62. "mapping": "in_reply_to_screen_name",
  63. "type": "VARCHAR"
  64. },
  65. {
  66. "name": "place_name",
  67. "mapping": "place/full_name",
  68. "type": "VARCHAR"
  69. }
  70. ]
  71. }
  72. }

As this table does not have an explicit schema name, it will be placedinto the default schema.

Feed live data

Start the twistr tool:

  1. $ java -Dness.config.location=file:$(pwd) -Dness.config=twistr -jar ./twistr

twistr connects to the Twitter API and feeds the “sample tweet” feedinto a Kafka topic called twitter_feed.

Now run queries against live data:

  1. $ ./presto-cli --catalog kafka --schema default
  2.  
  3. presto:default> SELECT count(*) FROM tweets;
  4. _col0
  5. -------
  6. 4467
  7. (1 row)
  8.  
  9. presto:default> SELECT count(*) FROM tweets;
  10. _col0
  11. -------
  12. 4517
  13. (1 row)
  14.  
  15. presto:default> SELECT count(*) FROM tweets;
  16. _col0
  17. -------
  18. 4572
  19. (1 row)
  20.  
  21. presto:default> SELECT kafka_key, user_name, lang, created_at FROM tweets LIMIT 10;
  22. kafka_key | user_name | lang | created_at
  23. --------------------+-----------------+------+-------------------------
  24. 494227746231685121 | burncaniff | en | 2014-07-29 14:07:31.000
  25. 494227746214535169 | gu8tn | ja | 2014-07-29 14:07:31.000
  26. 494227746219126785 | pequitamedicen | es | 2014-07-29 14:07:31.000
  27. 494227746201931777 | josnyS | ht | 2014-07-29 14:07:31.000
  28. 494227746219110401 | Cafe510 | en | 2014-07-29 14:07:31.000
  29. 494227746210332673 | Da_JuanAnd_Only | en | 2014-07-29 14:07:31.000
  30. 494227746193956865 | Smile_Kidrauhl6 | pt | 2014-07-29 14:07:31.000
  31. 494227750426017793 | CashforeverCD | en | 2014-07-29 14:07:32.000
  32. 494227750396653569 | FilmArsivimiz | tr | 2014-07-29 14:07:32.000
  33. 494227750388256769 | jmolas | es | 2014-07-29 14:07:32.000
  34. (10 rows)

There is now a live feed into Kafka which can be queried using Presto.

Epilogue: Time stamps

The tweets feed that was set up in the last step contains a time stamp inRFC 2822 format as created_at attribute in each tweet.

  1. presto:default> SELECT DISTINCT json_extract_scalar(_message, '$.created_at')) AS raw_date
  2. -> FROM tweets LIMIT 5;
  3. raw_date
  4. --------------------------------
  5. Tue Jul 29 21:07:31 +0000 2014
  6. Tue Jul 29 21:07:32 +0000 2014
  7. Tue Jul 29 21:07:33 +0000 2014
  8. Tue Jul 29 21:07:34 +0000 2014
  9. Tue Jul 29 21:07:35 +0000 2014
  10. (5 rows)

The topic definition file for the tweets table contains a mapping onto atimestamp using the rfc2822 converter:

  1. ...
  2. {
  3. "name": "created_at",
  4. "mapping": "created_at",
  5. "type": "TIMESTAMP",
  6. "dataFormat": "rfc2822"
  7. },
  8. ...

This allows the raw data to be mapped onto a Presto timestamp column:

  1. presto:default> SELECT created_at, raw_date FROM (
  2. -> SELECT created_at, json_extract_scalar(_message, '$.created_at') AS raw_date
  3. -> FROM tweets)
  4. -> GROUP BY 1, 2 LIMIT 5;
  5. created_at | raw_date
  6. -------------------------+--------------------------------
  7. 2014-07-29 14:07:20.000 | Tue Jul 29 21:07:20 +0000 2014
  8. 2014-07-29 14:07:21.000 | Tue Jul 29 21:07:21 +0000 2014
  9. 2014-07-29 14:07:22.000 | Tue Jul 29 21:07:22 +0000 2014
  10. 2014-07-29 14:07:23.000 | Tue Jul 29 21:07:23 +0000 2014
  11. 2014-07-29 14:07:24.000 | Tue Jul 29 21:07:24 +0000 2014
  12. (5 rows)

The Kafka connector contains converters for ISO 8601, RFC 2822 textformats and for number-based timestamps using seconds or miillisecondssince the epoch. There is also a generic, text-based formatter which usesJoda-Time format strings to parse text columns.