Starburst IBM Db2 connector#
The IBM Db2 connector allows querying and creating tables in an external Db2 database.
Requirements#
To connect to IBM Db2, you need:
Db2 for Linux, Unix, and Windows (LUW) 11.5 or higher. Db2 for z/OS and Db2 for IBM i are not supported.
Network access from the coordinator and workers to the Db2 server. Port 51000 is the default port.
A valid Starburst Enterprise license.
Configuration#
Any of the below installation and configuration methods require the following artifacts:
Db2 JDBC driver file
db2jcc-db2jcc4.jarobtained from IBMJDBC connection details to connect to Db2 in a catalog properties file (e.g.
example.propertiesfor a catalog namedexample). File should contain the following contents, replacing the connection properties as appropriate for your setup:
connector.name=db2
connection-url=jdbc:db2://HOST:PORT/DATABASE
connection-user=USERNAME
connection-password=PASSWORD
The Db2 JDBC driver documentation contains information about format and parameters of the JDBC URL.
To install the Db2 Database connector, use the following steps:
Add the Db2 JDBC driver JAR files to the
plugin/db2directory.Add a catalog properties file (e.g.
example.propertiesfor a catalog namedexample).Perform the above steps on every node.
Restart SEP on every node.
General configuration properties#
The following table describes general catalog configuration properties for the connector:
Property name |
Description |
|---|---|
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Support case insensitive schema and table names. Defaults to |
|
Duration for which case insensitive schema and table
names are cached. Defaults to |
|
Path to a name mapping configuration file in JSON format that allows
Trino to disambiguate between schemas and tables with similar names in
different cases. Defaults to |
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Frequency with which Trino checks the name matching configuration file
for changes. The duration value defaults to |
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Duration for which metadata, including table and
column statistics, is cached. Defaults to |
|
Cache the fact that metadata, including table and column statistics, is
not available. Defaults to |
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Duration for which schema metadata is cached.
Defaults to the value of |
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Duration for which table metadata is cached.
Defaults to the value of |
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Duration for which tables statistics are cached.
Defaults to the value of |
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Maximum number of objects stored in the metadata cache. Defaults to |
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Maximum number of statements in a batched execution. Do not change
this setting from the default. Non-default values may negatively
impact performance. Defaults to |
|
Push down dynamic filters into JDBC queries. Defaults to |
|
Maximum duration for which Trino waits for dynamic
filters to be collected from the build side of joins before starting a
JDBC query. Using a large timeout can potentially result in more detailed
dynamic filters. However, it can also increase latency for some queries.
Defaults to |
Type mapping#
Because Trino and Db2 each support types that the other does not, this connector modifies some types when reading or writing data. Data types may not map the same way in both directions between Trino and the data source. Refer to the following sections for type mapping in each direction.
Db2 to Trino type mapping#
The connector maps Db2 types to the corresponding Trino types according to the following table:
Db2 type |
Trino type |
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No other types are supported.
Trino to Db2 type mapping#
The connector maps Trino types to the corresponding Db2 types according to the following table:
Trino type |
Db2 type |
Notes |
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For |
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For |
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When no bound is given. |
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For |
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No other types are supported.
Mapping datetime types#
Selecting a Db2 timestamp value with fractional second precision greater than 9 truncates (not rounds) the fractional seconds to nine digits.
Inserting a TIME value with fractional seconds into Db2 truncates (not
rounds) the time to second precision, as Db2 does not support fractional seconds
in TIME values.
Warning
Because of differences in date and time representation in Db2 and JDBC,
attempting to insert or select a datetime value earlier than 1582-10-15
results in an incorrect date being stored/retrieved.
Type mapping configuration properties#
The following properties can be used to configure how data types from the connected data source are mapped to Trino data types and how the metadata is cached in Trino.
Property name |
Description |
Default value |
|---|---|---|
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Configure how unsupported column data types are handled:
The respective catalog session property is |
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Allow forced mapping of comma separated lists of data types to convert to
unbounded |
SQL support#
The connector provides read and write access to data and metadata in the Db2 database. In addition to the globally available and read operation statements, the connector supports the following features:
SQL DELETE#
If a WHERE clause is specified, the DELETE operation only works if the
predicate in the clause can be fully pushed down to the data source.
ALTER TABLE RENAME TO#
The connector does not support renaming tables across multiple schemas. For example, the following statement is supported:
ALTER TABLE example.schema_one.table_one RENAME TO example.schema_one.table_two
The following statement attempts to rename a table across schemas, and therefore is not supported:
ALTER TABLE example.schema_one.table_one RENAME TO example.schema_two.table_two
ALTER TABLE EXECUTE#
The connector supports the following commands for use with ALTER TABLE EXECUTE:
collect_statistics#
The collect_statistics command is used with
Managed statistics to collect statistics for a table
and its columns.
The following statement collects statistics for the example_table table
and all of its columns:
ALTER TABLE example_table EXECUTE collect_statistics;
Collecting statistics for all columns in a table may be unnecessarily
performance-intensive, especially for wide tables. To only collect statistics
for a subset of columns, you can include the columns parameter with an
array of column names. For example:
ALTER TABLE example_table
EXECUTE collect_statistics(columns => ARRAY['customer','line_item']);
Table functions#
The connector provides specific table functions to access Db2.
query(VARCHAR) -> table#
The query function allows you to query the underlying database directly. It
requires syntax native to the data source, because the full query is pushed down
and processed in the data source. This can be useful for accessing native
features or for improving query performance in situations where running a query
natively may be faster.
The query table function is available in the system schema of any
catalog that uses the Db2 connector, such as example. The following
example passes myQuery to the data source. myQuery has to be a valid
query for the data source, and is required to return a table as a result:
SELECT
*
FROM
TABLE(
example.system.query(
query => 'myQuery'
)
);
Fault-tolerant execution support#
The connector supports Fault-tolerant execution of query processing. Read and write operations are both supported with any retry policy.
Performance#
The connector includes a number of performance improvements, detailed in the following sections.
Table statistics#
The Db2 connector can use table and column statistics for cost based optimizations, to improve query processing performance based on the actual data in the data source.
The statistics are collected by Db2 and retrieved by the connector.
To collect statistics for a table, execute the following statements in Db2.
CALL SYSPROC.ADMIN_CMD('RUNSTATS ON TABLE table_name');
Managed statistics#
The connector supports Managed statistics allowing SEP to collect and store its own table and column statistics that can then be used for performance optimizations in query planning.
Statistics must be collected manually using the built-in collect_statistics
command, see collect_statistics for details and
examples.
Pushdown#
The connector supports pushdown for a number of operations:
Aggregate pushdown for the following functions:
count(), alsocount(distinct x)variance()andvar_samp()
Cost-based join pushdown#
The connector supports cost-based Join pushdown to make intelligent decisions about whether to push down a join operation to the data source.
When cost-based join pushdown is enabled, the connector only pushes down join operations if the available Table statistics suggest that doing so improves performance. Note that if no table statistics are available, join operation pushdown does not occur to avoid a potential decrease in query performance.
The following table describes catalog configuration properties for join pushdown:
Property name |
Description |
Default value |
|---|---|---|
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Enable join pushdown. Equivalent catalog
session property is
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Strategy used to evaluate whether join operations are pushed down. Set to
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Dynamic filtering#
Dynamic filtering is enabled by default. It causes the connector to wait for dynamic filtering to complete before starting a JDBC query.
You can disable dynamic filtering by setting the dynamic-filtering.enabled
property in your catalog configuration file to false.
Wait timeout#
By default, table scans on the connector are delayed up to 20 seconds until dynamic filters are collected from the build side of joins. Using a large timeout can potentially result in more detailed dynamic filters. However, it can also increase latency for some queries.
You can configure the dynamic-filtering.wait-timeout property in your
catalog properties file:
dynamic-filtering.wait-timeout=1m
You can use the dynamic_filtering_wait_timeout catalog session property in a specific session:
SET SESSION example.dynamic_filtering_wait_timeout = 1s;
Compaction#
The maximum size of dynamic filter predicate, that is pushed down to the
connector during table scan for a column, is configured using the
domain-compaction-threshold property in the catalog
properties file:
domain-compaction-threshold=100
You can use the domain_compaction_threshold catalog
session property:
SET SESSION domain_compaction_threshold = 10;
By default, domain-compaction-threshold is set to 32.
When the dynamic predicate for a column exceeds this threshold, it is compacted
into a single range predicate.
For example, if the dynamic filter collected for a date column dt on the
fact table selects more than 32 days, the filtering condition is simplified from
dt IN ('2020-01-10', '2020-01-12',..., '2020-05-30') to dt BETWEEN '2020-01-10' AND '2020-05-30'. Using a large threshold can result in increased
table scan overhead due to a large IN list getting pushed down to the data
source.
Metrics#
Metrics about dynamic filtering are reported in a JMX table for each catalog:
jmx.current."io.trino.plugin.jdbc:name=example,type=dynamicfilteringstats"
Metrics include information about the total number of dynamic filters, the number of completed dynamic filters, the number of available dynamic filters and the time spent waiting for dynamic filters.
JDBC connection pooling#
When JDBC connection pooling is enabled, each node creates and maintains a connection pool instead of opening and closing separate connections to the data source. Each connection is available to connect to the data source and retrieve data. After completion of an operation, the connection is returned to the pool and can be reused. This improves performance by a small amount, reduces the load on any required authentication system used for establishing the connection, and helps avoid running into connection limits on data sources.
JDBC connection pooling is disabled by default. You can enable JDBC connection
pooling by setting the connection-pool.enabled property to true in your
catalog configuration file:
connection-pool.enabled=true
The following catalog configuration properties can be used to tune connection pooling:
Property name |
Description |
Default value |
|---|---|---|
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Enable connection pooling for the catalog. |
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The maximum number of idle and active connections in the pool. |
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The maximum lifetime of a connection. When a connection reaches this lifetime it is removed, regardless of how recently it has been active. |
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The maximum size of the JDBC data source cache. |
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The expiration time of a cached data source when it is no longer accessed. |
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Starburst Cached Views#
The connectors supports table scan redirection to improve performance and reduce load on the data source.
Security#
The connector includes a number of security-related features, detailed in the following sections.
User impersonation#
Db2 connector supports user impersonation.
User impersonation can be enabled in your catalog file:
db2.impersonation.enabled=true
User impersonation is based on SET SESSION_USER detailed in the IBM
documentation.
Note
Running SET SESSION_USER in Db2 requires the user to have a
SETSESSIONUSER privilege.
Password credential pass-through#
The connector supports password credential pass-through. To enable it, edit the catalog properties file to include the authentication type:
db2.authentication.type=PASSWORD_PASS_THROUGH
For more information about configurations and limitations, see Password credential pass-through.
