dbt is a data transformation workflow tool that lets teams quickly and collaboratively deploy analytics code, following software engineering best practices like modularity, CI/CD, testing, and documentation. It enables anyone who knows SQL to build production-grade data pipelines.
One frequently asked question in the context of using dbt
tool is:
Can I connect my dbt project to two databases?
(see the answered question on the dbt website).
TL;DR dbt
stands for transformation as in T
within ELT
pipelines, it doesn't move data from source to a warehouse.
dbt-trino
adapter uses Trino as a underlying query engine to perform query federation across disperse data sources. Trino connects to multiple and diverse data sources (available connectors) via one dbt connection and process SQL queries at scale. Transformations defined in dbt are passed to Trino which handles these SQL transformation queries and translates them to queries specific to the systems it connects to create tables or views and manipulate data.
This repository represents a fork of the dbt-presto with adaptations to make it work with Trino.
This dbt plugin has been tested against Trino
version 393
and Starburst Enterprise
version 393-e.1
.
This dbt adapter can be installed via pip:
$ pip install dbt-trino
A dbt profile can be configured to run against Trino using the following configuration:
Option | Description | Required? | Example |
---|---|---|---|
method | The Trino authentication method to use | Optional (default is none , supported methods are ldap , kerberos , jwt , oauth or certificate ) |
none or kerberos |
user | Username for authentication | Optional (required if method is none , ldap or kerberos ) |
commander |
password | Password for authentication | Optional (required if method is ldap ) |
none or abc123 |
keytab | Path to keytab for kerberos authentication | Optional (may be required if method is kerberos ) |
/tmp/trino.keytab |
krb5_config | Path to config for kerberos authentication | Optional (may be required if method is kerberos ) |
/tmp/krb5.conf |
principal | Principal for kerberos authentication | Optional (may be required if method is kerberos ) |
trino@EXAMPLE.COM |
service_name | Service name for kerberos authentication | Optional (default is trino ) |
abc123 |
jwt_token | JWT token for authentication | Optional (required if method is jwt ) |
none or abc123 |
client_certificate | Path to client certificate to be used for certificate based authentication | Optional (required if method is certificate ) |
/tmp/tls.crt |
client_private_key | Path to client private key to be used for certificate based authentication | Optional (required if method is certificate ) |
/tmp/tls.key |
http_headers | HTTP Headers to send alongside requests to Trino, specified as a yaml dictionary of (header, value) pairs. | Optional | X-Trino-Client-Info: dbt-trino |
http_scheme | The HTTP scheme to use for requests to Trino | Optional (default is http , or https for method: kerberos , ldap or jwt ) |
https or http |
cert | The full path to a certificate file for authentication with trino | Optional | |
session_properties | Sets Trino session properties used in the connection | Optional | query_max_run_time: 5d |
database | Specify the database to build models into | Required | analytics |
schema | Specify the schema to build models into. Note: it is not recommended to use upper or mixed case schema names | Required | public |
host | The hostname to connect to | Required | 127.0.0.1 |
port | The port to connect to the host on | Required | 8080 |
threads | How many threads dbt should use | Optional (default is 1 ) |
8 |
prepared_statements_enabled | Enable usage of Trino prepared statements (used in dbt seed commands) |
Optional (default is true ) |
true or false |
retries | Configure how many times a database operation is retried when connection issues arise | Optional (default is 3 ) |
10 |
Example profiles.yml entry:
my-trino-db:
target: dev
outputs:
dev:
type: trino
user: commander
host: 127.0.0.1
port: 8080
database: analytics
schema: public
threads: 8
http_scheme: http
session_properties:
query_max_run_time: 5d
exchange_compression: True
Example profiles.yml entry for kerberos authentication:
my-trino-db:
target: dev
outputs:
dev:
type: trino
method: kerberos
user: commander
keytab: /tmp/trino.keytab
krb5_config: /tmp/krb5.conf
principal: trino@EXAMPLE.COM
host: trino.example.com
port: 443
database: analytics
schema: public
For reference on which session properties can be set on the the dbt profile do execute
SHOW SESSION;
on your Trino instance.
- none - No authentication
- ldap - Specify username in
user
and password inpassword
- kerberos - Specify username in
user
- jwt - Specify JWT token in
jwt_token
- certificate - Specify a client certificate in
client_certificate
and private key inclient_private_key
- oauth - It is recommended to install keyring to cache the OAuth2 token over multiple dbt invocations by running
pip install 'trino[external-authentication-token-cache]'
, keyring is not installed by default.
See also: https://trino.io/docs/current/security/authentication-types.html
dbt fundamentally works by dropping and creating tables and views in databases. As such, the following Trino configs must be set for dbt to work properly on Trino:
hive.metastore-cache-ttl=0s
hive.metastore-refresh-interval = 5s
hive.allow-drop-table=true
hive.allow-rename-table=true
In some specific cases, there may be needed tuning through the Trino session properties only for a specific dbt model. In such cases, using the dbt hooks may come to the rescue:
{{
config(
pre_hook="set session query_max_run_time='10m'"
)
}}
dbt-trino
supports two modes in table
materialization rename
and drop
configured using on_table_exists
.
rename
- creates intermediate table, then renames the target to backup one and renames intermediate to target one.drop
- drops and recreates a table. It overcomes table rename limitation in AWS Glue.
By default table
materialization uses on_table_exists = 'rename'
, see an examples below how to change it.
In model add:
{{
config(
materialized = 'table',
on_table_exists = 'drop`
)
}}
or in dbt_project.yaml
:
models:
path:
materialized: table
+on_table_exists: drop
Using table
materialization and on_table_exists = 'rename'
with AWS Glue may result in below error:
TrinoUserError(type=USER_ERROR, name=NOT_SUPPORTED, message="Table rename is not yet supported by Glue service")
Adapter supports two security modes in view
materialization DEFINER
and INVOKER
configured using view_security
.
See Trino docs for more details about security modes in views.
By default view
materialization uses view_security = 'definer'
, see an examples below how to change it.
In model add:
{{
config(
materialized = 'view',
view_security = 'invoker'
)
}}
or in dbt_project.yaml
:
models:
path:
materialized: view
+view_security: invoker
Using an incremental model limits the amount of data that needs to be transformed, vastly reducing the runtime of your transformations. This improves performance and reduces compute costs.
{{
config(
materialized = 'incremental',
unique_key='<optional>',
incremental_strategy='<optional>',)
}}
select * from {{ ref('events') }}
{% if is_incremental() %}
where event_ts > (select max(event_ts) from {{ this }})
{% endif %}
The default incremental strategy is append
. append
only adds the new records based on the condition specified in the is_incremental()
conditional block.
{{
config(
materialized = 'incremental')
}}
select * from {{ ref('events') }}
{% if is_incremental() %}
where event_ts > (select max(event_ts) from {{ this }})
{% endif %}
Through the delete+insert
incremental strategy, you can instruct dbt to use a two-step incremental approach. It will first delete the records detected through the configured is_incremental()
block and re-insert them.
{{
config(
materialized = 'incremental',
unique_key='user_id',
incremental_strategy='delete+insert',
)
}}
select * from {{ ref('users') }}
{% if is_incremental() %}
where updated_ts > (select max(updated_ts) from {{ this }})
{% endif %}
Through the merge
incremental strategy, dbt-trino constructs a MERGE
statement which INSERT
s new and UPDATE
s existing records based on the unique key (specified by unique_key
).
If unique_key
is not unique delete+insert
strategy can be used.
Note that some connectors in Trino have limited or no support for MERGE
.
{{
config(
materialized = 'incremental',
unique_key='user_id',
incremental_strategy='merge',
)
}}
select * from {{ ref('users') }}
{% if is_incremental() %}
where updated_ts > (select max(updated_ts) from {{ this }})
{% endif %}
In case that the target incremental model is being accessed with
hive Trino connector, an insert overwrite
functionality can be achieved when using:
<hive-catalog-name>.insert-existing-partitions-behavior=OVERWRITE
setting on the Trino hive connector configuration.
Below is a sample hive profile entry to deal with OVERWRITE
functionality for the hive connector called minio
:
trino-incremental-hive:
target: dev
outputs:
dev:
type: trino
method: none
user: admin
password:
catalog: minio
schema: tiny
host: localhost
port: 8080
http_scheme: http
session_properties:
minio.insert_existing_partitions_behavior: OVERWRITE
threads: 1
Existing partitions in the target model that match the staged data will be overwritten. The rest of the partitions will be simply appended to the target model.
NOTE that this functionality works on incremental models that use partitioning:
{{
config(
materialized = 'incremental',
properties={
"format": "'PARQUET'",
"partitioned_by": "ARRAY['day']",
}
)
}}
Commonly, analysts need to "look back in time" at some previous state of data in their mutable tables. While some source data systems are built in a way that makes accessing historical data possible, this is often not the case. dbt provides a mechanism, snapshots, which records changes to a mutable table over time.
Snapshots implement type-2 Slowly Changing Dimensions over mutable source tables. These Slowly Changing Dimensions (or SCDs) identify how a row in a table changes over time. Imagine you have an orders table where the status field can be overwritten as the order is processed. See also the dbt docs about snapshots.
An example is given below.
{% snapshot orders_snapshot %}
{{
config(
target_database='analytics',
target_schema='snapshots',
unique_key='id',
strategy='timestamp',
updated_at='updated_at',
)
}}
select * from {{ source('jaffle_shop', 'orders') }}
{% endsnapshot %}
Note that the Snapshot feature depends on the current_timestamp
macro. In some connectors the standard precision (TIMESTAMP(3) WITH TIME ZONE
) is not supported by the connector eg. Iceberg.
If necessary, you can override the standard precision by providing your own version of the trino__current_timestamp()
macro as in following example:
{% macro trino__current_timestamp() %}
current_timestamp(6)
{% endmacro %}
Trino connectors use table properties to configure connector specifics.
Check the Trino connector documentation for more information.
{{
config(
materialized='table',
properties={
"format": "'PARQUET'",
"partitioning": "ARRAY['bucket(id, 2)']",
}
)
}}
Seeds are CSV files in your dbt project (typically in your data directory), that dbt can load into your data warehouse using the dbt seed command.
For dbt-trino batch_size is defined in macro trino__get_batch_size()
and default value is 1000
.
In order to override default value define within your project a macro like the following:
{% macro default__get_batch_size() %}
{{ return(10000) }}
{% endmacro %}
Persist docs optionally persist resource descriptions as column and relation comments in the database. By default, documentation persistence is disabled, but it can be enabled for specific resources or groups of resources as needed.
Column-level comments are not supported in Trino views. Detailed documentation can be found here.
In order to generate lineage flow in docs use ref
function in the place of table names in the query. It builts dependencies between models and allows to create DAG with data flow. Refer to examples here.
dbt docs generate # generate docs
dbt docs serve --port 8081 # starts local server (by default docs server runs on 8080 port, it may cause conflict with Trino in case of local development)
By default, all dbt models are built in the schema specified in your target. But sometimes you wish to build some of the models in a custom schema. In order to do so, use the schema
configuration key to specify a custom schema for a model. See here for the documentation. It is important to note that by default, dbt will generate the schema name for a model by concatenating the custom schema to the target schema, as in: <target_schema>_<custom_schema>
.
The dbt seed
feature uses Trino's prepared statements.
Python's http client has a hardcoded limit of 65536 bytes for a header line.
When executing a prepared statement with a large number of parameters, you might encounter following error:
requests.exceptions.ConnectionError: ('Connection aborted.', LineTooLong('got more than 65536 bytes when reading header line'))
.
The prepared statements can be disabled by setting prepared_statements_enabled
to true
in your dbt profile (reverting back to the legacy behavior using Python string interpolation). This flag may be removed in later releases.
- Want to report a bug or request a feature? Let us know on Slack in the #db-presto-trino channel, or open an issue
- Want to help us build dbt-trino? Check out the Contributing Guide
Before doing a release, it is required to bump the dbt-trino version by triggering release workflow version-bump.yml
. The major and minor part of the dbt version are used to associate dbt-trino's version with the dbt version.
Next step is to merge the bump PR and making sure that test suite pass.
Finally, to release dbt-trino
to PyPi and GitHub trigger release workflow release.yml
.
Everyone interacting in the dbt project's codebases, issue trackers, chat rooms, and mailing lists is expected to follow the PyPA Code of Conduct.