Kafka Connector
Overview
This connector allows the use of Apache Kafka topics as tables in Presto. Each message is presented as a row in Presto.
Topics can be live: rows will appear as data arrives and disappear as messages get dropped. This can result in strange behavior if accessing the same table multiple times in a single query (e.g., performing a self join).
Note
Apache Kafka 2.3.1+ is supported.
Configuration
To configure the Kafka connector, create a catalog properties file etc/catalog/kafka.properties
with the following contents, replacing the properties as appropriate:
connector.name=kafka
kafka.table-names=table1,table2
kafka.nodes=host1:port,host2:port
Multiple Kafka Clusters
You can have as many catalogs as you need, so if you have additional Kafka clusters, simply add another properties file to etc/catalog
with a different name (making sure it ends in .properties
). For example, if you name the property file sales.properties
, Presto will create a catalog named sales
using the configured connector.
Configuration Properties
The following configuration properties are available:
Property Name | Description |
---|---|
| List of all tables provided by the catalog |
| Default schema name for tables |
| List of nodes in the Kafka cluster |
| Timeout for connecting to the Kafka cluster |
| Maximum number of records per poll |
| Maximum number of bytes from one partition per poll |
| Directory containing topic description files |
| Controls whether internal columns are part of the table schema or not |
kafka.table-names
Comma-separated list of all tables provided by this catalog. A table name can be unqualified (simple name) and will be put into the default schema (see below) or qualified with a schema name (<schema-name>.<table-name>
).
For each table defined here, a table description file (see below) may exist. If no table description file exists, the table name is used as the topic name on Kafka and no data columns are mapped into the table. The table will still contain all internal columns (see below).
This property is required; there is no default and at least one table must be defined.
kafka.default-schema
Defines the schema which will contain all tables that were defined without a qualifying schema name.
This property is optional; the default is default
.
kafka.nodes
A comma separated list of hostname:port
pairs for the Kafka data nodes.
This property is required; there is no default and at least one node must be defined.
Note
Presto must still be able to connect to all nodes of the cluster even if only a subset is specified here as messages may be located only on a specific node.
kafka.connect-timeout
Timeout for connecting to a data node. A busy Kafka cluster may take quite some time before accepting a connection; when seeing failed queries due to timeouts, increasing this value is a good strategy.
This property is optional; the default is 10 seconds (10s
).
kafka.max-poll-records
The maximum number of records per poll() from Kafka.
This property is optional; the default is 500
.
kafka.max-partition-fetch-bytes``
Maximum number of bytes from one partition per poll
This property is optional; the default is 1MB
.
kafka.table-description-dir
References a folder within Presto deployment that holds one or more JSON files (must end with .json
) which contain table description files.
This property is optional; the default is etc/kafka
.
kafka.hide-internal-columns
In addition to the data columns defined in a table description file, the connector maintains a number of additional columns for each table. If these columns are hidden, they can still be used in queries but do not show up in DESCRIBE <table-name>
or SELECT *
.
This property is optional; the default is true
.
Internal Columns
For each defined table, the connector maintains the following columns:
Column name | Type | Description |
---|---|---|
| BIGINT | ID of the Kafka partition which contains this row. |
| BIGINT | Offset within the Kafka partition for this row. |
| BOOLEAN | True if the decoder could not decode the message for this row. When true, data columns mapped from the message should be treated as invalid. |
| VARCHAR | Message bytes as an UTF-8 encoded string. This is only useful for a text topic. |
| BIGINT | Number of bytes in the message. |
| BOOLEAN | True if the key decoder could not decode the key for this row. When true, data columns mapped from the key should be treated as invalid. |
| VARCHAR | Key bytes as an UTF-8 encoded string. This is only useful for textual keys. |
| BIGINT | Number of bytes in the key. |
For tables without a table definition file, the _key_corrupt
and _message_corrupt
columns will always be false
.
Table Definition Files
Kafka maintains topics only as byte messages and leaves it to producers and consumers to define how a message should be interpreted. For Presto, this data must be mapped into columns to allow queries against the data.
Note
For textual topics that contain JSON data, it is entirely possible to not use any table definition files, but instead use the Presto JSON Functions and Operators to parse the _message
column which contains the bytes mapped into an UTF-8 string. This is, however, pretty cumbersome and makes it difficult to write SQL queries.
A table definition file consists of a JSON definition for a table. The name of the file can be arbitrary but must end in .json
.
{
"tableName": ...,
"schemaName": ...,
"topicName": ...,
"key": {
"dataFormat": ...,
"fields": [
...
]
},
"message": {
"dataFormat": ...,
"fields": [
...
]
}
}
Field | Required | Type | Description |
---|---|---|---|
| required | string | Presto table name defined by this file. |
| optional | string | Schema which will contain the table. If omitted, the default schema name is used. |
| required | string | Kafka topic that is mapped. |
| optional | JSON object | Field definitions for data columns mapped to the message key. |
| optional | JSON object | Field definitions for data columns mapped to the message itself. |
Key and Message in Kafka
Starting with Kafka 0.8, each message in a topic can have an optional key. A table definition file contains sections for both key and message to map the data onto table columns.
Each of the key
and message
fields in the table definition is a JSON object that must contain two fields:
Field | Required | Type | Description |
---|---|---|---|
| required | string | Selects the decoder for this group of fields. |
| required | JSON array | A list of field definitions. Each field definition creates a new column in the Presto table. |
Each field definition is a JSON object:
{
"name": ...,
"type": ...,
"dataFormat": ...,
"mapping": ...,
"formatHint": ...,
"hidden": ...,
"comment": ...
}
Field | Required | Type | Description |
---|---|---|---|
| required | string | Name of the column in the Presto table. |
| required | string | Presto type of the column. |
| optional | string | Selects the column decoder for this field. Defaults to the default decoder for this row data format and column type. |
| optional | string | The path or URL where the Avro schema resides. Used only for Avro decoder. |
| optional | string | Mapping information for the column. This is decoder specific, see below. |
| optional | string | Sets a column specific format hint to the column decoder. |
| optional | boolean | Hides the column from |
| optional | string | Adds a column comment which is shown with |
There is no limit on field descriptions for either key or message.
Row Decoding
For key and message, a decoder is used to map message and key data onto table columns.
The Kafka connector contains the following decoders:
raw
- Kafka message is not interpreted, ranges of raw message bytes are mapped to table columnscsv
- Kafka message is interpreted as comma separated message, and fields are mapped to table columnsjson
- Kafka message is parsed as JSON and JSON fields are mapped to table columnsavro
- Kafka message is parsed based on an Avro schema and Avro fields are mapped to table columns
Note
If no table definition file exists for a table, the dummy
decoder is used, which does not expose any columns.
raw
Decoder
The raw decoder supports reading of raw (byte based) values from Kafka message or key and converting it into Presto columns.
For fields, the following attributes are supported:
dataFormat
- selects the width of the data type convertedtype
- Presto data type (see table below for list of supported data types)mapping
-<start>[:<end>]
; start and end position of bytes to convert (optional)
The dataFormat
attribute selects the number of bytes converted. If absent, BYTE
is assumed. All values are signed.
Supported values are:
BYTE
- one byteSHORT
- two bytes (big-endian)INT
- four bytes (big-endian)LONG
- eight bytes (big-endian)FLOAT
- four bytes (IEEE 754 format)DOUBLE
- eight bytes (IEEE 754 format)
The type
attribute defines the Presto data type on which the value is mapped.
Depending on Presto type assigned to column different values of dataFormat can be used:
Presto data type | Allowed |
---|---|
|
|
|
|
|
|
|
|
|
|
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|
The mapping
attribute specifies the range of the bytes in a key or message used for decoding. It can be one or two numbers separated by a colon (<start>[:<end>]
).
If only a start position is given:
For fixed width types the column will use the appropriate number of bytes for the specified
dateFormat
(see above).When
VARCHAR
value is decoded all bytes from start position till the end of the message will be used.
If start and end position are given, then:
For fixed width types the size must be equal to number of bytes used by specified
dataFormat
.For
VARCHAR
all bytes between start (inclusive) and end (exclusive) are used.
If no mapping
attribute is specified it is equivalent to setting start position to 0 and leaving end position undefined.
Decoding scheme of numeric data types (BIGINT
, INTEGER
, SMALLINT
, TINYINT
, DOUBLE
) is straightforward. A sequence of bytes is read from input message and decoded according to either:
big-endian encoding (for integer types)
IEEE 754 format for (for
DOUBLE
).
Length of decoded byte sequence is implied by the dataFormat
.
For VARCHAR
data type a sequence of bytes is interpreted according to UTF-8 encoding.
csv
Decoder
The CSV decoder converts the bytes representing a message or key into a string using UTF-8 encoding and then interprets the result as a CSV (comma-separated value) line.
For fields, the type
and mapping
attributes must be defined:
type
- Presto data type (see table below for list of supported data types)mapping
- the index of the field in the CSV record
dataFormat
and formatHint
are not supported and must be omitted.
Table below lists supported Presto types which can be used in type
and decoding scheme:
Presto data type | Decoding rules |
---|---|
BIGINT INTEGER SMALLINT TINYINT | Decoded using Java |
| Decoded using Java |
| “true” character sequence maps to |
| Used as is |
json
Decoder
The JSON decoder converts the bytes representing a message or key into a JSON according to RFC 4627. Note that the message or key MUST convert into a JSON object, not an array or simple type.
For fields, the following attributes are supported:
type
- Presto type of column.dataFormat
- Field decoder to be used for column.mapping
- slash-separated list of field names to select a field from the JSON objectformatHint
- only forcustom-date-time
, see below
The JSON decoder supports multiple field decoders, with _default
being used for standard table columns and a number of decoders for date and time based types.
Table below lists Presto data types which can be used as in type
and matching field decoders which can be specified via dataFormat
attribute
Presto data type | Allowed |
---|---|
BIGINT INTEGER SMALLINT TINYINT DOUBLE BOOLEAN VARCHAR VARCHAR(x) | Default field decoder (omitted |
TIMESTAMP TIMESTAMP WITH TIME ZONE TIME TIME WITH TIME ZONE |
|
|
|
Default Field decoder
This is the standard field decoder supporting all the Presto physical data types. A field value will be coerced by JSON conversion rules into boolean, long, double or string values. For non-date/time based columns, this decoder should be used.
Date and Time Decoders
To convert values from JSON objects into Presto DATE
, TIME
, TIME WITH TIME ZONE`, ``TIMESTAMP
or TIMESTAMP WITH TIME ZONE
columns, special decoders must be selected using the dataFormat
attribute of a field definition.
iso8601
- text based, parses a text field as an ISO 8601 timestamp.rfc2822
- text based, parses a text field as an RFC 2822 timestamp.custom-date-time
- text based, parses a text field according to Joda format patternspecified via
formatHint
attribute. Format pattern should conform to https://www.joda.org/joda-time/apidocs/org/joda/time/format/DateTimeFormat.html.milliseconds-since-epoch
- number based, interprets a text or number as number of milliseconds since the epoch.seconds-since-epoch
- number based, interprets a text or number as number of milliseconds since the epoch.
For TIMESTAMP WITH TIME ZONE
and TIME WITH TIME ZONE
data types, if timezone information is present in decoded value, it will be used in Presto value. Otherwise result time zone will be set to UTC
.
avro
Decoder
The Avro decoder converts the bytes representing a message or key in Avro format based on a schema. The message must have the Avro schema embedded. Presto does not support schema-less Avro decoding.
For key/message, using avro
decoder, the dataSchema
must be defined. This should point to the location of a valid Avro schema file of the message which needs to be decoded. This location can be a remote web server (e.g.: dataSchema: 'http://example.org/schema/avro_data.avsc'
) or local file system(e.g.: dataSchema: '/usr/local/schema/avro_data.avsc'
). The decoder will fail if this location is not accessible from the Presto coordinator node.
For fields, the following attributes are supported:
name
- Name of the column in the Presto table.type
- Presto type of column.mapping
- slash-separated list of field names to select a field from the Avro schema. If field specified inmapping
does not exist in the original Avro schema then a read operation will return NULL.
Table below lists supported Presto types which can be used in type
for the equivalent Avro field type/s.
Presto data type | Allowed Avro data type |
---|---|
|
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|
|
|
|
|
Avro schema evolution
The Avro decoder supports schema evolution feature with backward compatibility. With backward compatibility, a newer schema can be used to read Avro data created with an older schema. Any change in the Avro schema must also be reflected in Presto’s topic definition file. Newly added/renamed fields must have a default value in the Avro schema file.
The schema evolution behavior is as follows:
Column added in new schema: Data created with an older schema will produce a default value when table is using the new schema.
Column removed in new schema: Data created with an older schema will no longer output the data from the column that was removed.
Column is renamed in the new schema: This is equivalent to removing the column and adding a new one, and data created with an older schema will produce a default value when table is using the new schema.
Changing type of column in the new schema: If the type coercion is supported by Avro, then the conversion happens. An error is thrown for incompatible types.