This repository contains the DuckDB BigQuery Extension. This extension lets DuckDB integrate with Google BigQuery, allowing users to directly access, manage, and manipulate their BigQuery datasets/tables using standard SQL statements. Inspired by official DuckDB RDBMS extensions like MySQL, PostgreSQL, and SQLite, this extension offers a similar feel.
Please note that this extension is in a early release. While it covers most of the essentials, you might run into some limitations, issues, or bugs.
This extension only supports the following builds:
linux_amd64
,linux_amd64_gcc4
,osx_arm64
, andwindows_amd64
.
To authenticate using your Google Account, first install the Google Cloud CLI (gcloud). Download the latest version from the Google Cloud CLI installation page and follow the instructions to select and authenticate your Google Cloud project for using BigQuery.
After installation, run the following command to authenticate and follow the steps along:
gcloud auth application-default login
Alternatively, you can authenticate using a service account. First, create a service account in the Google Cloud Console, assign the necessary roles, and download the JSON key file. Next, set the GOOGLE_APPLICATION_CREDENTIALS
environment variable to the file path. For example:
# On Linux or macOS
export GOOGLE_APPLICATION_CREDENTIALS="/path/to/my/service-account-credentials.json"
# On Windows
set GOOGLE_APPLICATION_CREDENTIALS="C:\path\to\my\service-account-credentials.json"
On Windows, gRPC requires an additional environment variable to configure the trust store for SSL certificates. Download and configure it using (see official documentation):
@powershell -NoProfile -ExecutionPolicy unrestricted -Command ^
(new-object System.Net.WebClient).Downloadfile( ^
'https://pki.google.com/roots.pem', 'roots.pem')
set GRPC_DEFAULT_SSL_ROOTS_FILE_PATH=%cd%\roots.pem
This downloads the roots.pem
file and sets the GRPC_DEFAULT_SSL_ROOTS_FILE_PATH
environment variable to its location.
The BigQuery extension can be installed from the official Community Extension Repository, eliminating the need to enable the unsigned
mode. Just use the following command to install and load the extension:
-- Install and load the DuckDB BigQuery extension from the Community Repository
FORCE INSTALL 'bigquery' FROM community;
LOAD 'bigquery';
Note: Windows user require an additional step to configure the gRPC SSL certificates (see here).
After loading the extension, you can connect to your BigQuery project using the ATTACH
statement. Replace my_gcp_project
with the name of your actual Google Cloud Project. Here is an example:
-- Attach to your BigQuery Project
D ATTACH 'project=my_gcp_project' as bq (TYPE bigquery, READ_ONLY);
-- Show all tables in all datasets in the attached BigQuery project
D SHOW ALL TABLES;
┌──────────┬──────────────────┬──────────┬──────────────┬───────────────────┬───────────┐
│ database │ schema │ name │ column_names │ column_types │ temporary │
│ varchar │ varchar │ varchar │ varchar[] │ varchar[] │ boolean │
├──────────┼──────────────────┼──────────┼──────────────┼───────────────────┼───────────┤
│ bq │ quacking_dataset │ duck_tbl │ [i, s] │ [BIGINT, VARCHAR] │ false │
| bq | barking_dataset | dog_tbl | [i, s] | [BIGINT, VARCHAR] │ false |
└──────────┴──────────────────┴──────────┴──────────────┴───────────────────┴───────────┘
-- Select data from a specific table in BigQuery
D SELECT * FROM bq.quacking_dataset.duck_tbl;
┌───────┬────────────────┐
│ i │ s │
│ int32 │ varchar │
├───────┼────────────────┤
│ 12 │ quack 🦆 │
│ 13 │ quack quack 🦆 │
└───────┴────────────────┘
Depending on the number of schemas and tables, initializing the BigQuery catalog may take some time. However, once initialized, the tables are cached. To speed up this process, you also focus the loading process on a particular dataset by specifying a dataset=
parameter as follows.
-- Attach to your BigQuery Project
D ATTACH 'project=my_gcp_project dataset=quacking_dataset' as bq (TYPE bigquery);
-- Show all tables in all datasets in the attached BigQuery project
D SHOW ALL TABLES;
┌──────────┬──────────────────┬──────────┬──────────────┬───────────────────┬───────────┐
│ database │ schema │ name │ column_names │ column_types │ temporary │
│ varchar │ varchar │ varchar │ varchar[] │ varchar[] │ boolean │
├──────────┼──────────────────┼──────────┼──────────────┼───────────────────┼───────────┤
│ bq │ quacking_dataset │ duck_tbl │ [i, s] │ [BIGINT, VARCHAR] │ false │
└──────────┴──────────────────┴──────────┴──────────────┴───────────────────┴───────────┘
The following SQL statements provide a brief overview of supported functionalities and include examples for interacting with BigQuery:
ATTACH 'project=my_gcp_project' as bq (TYPE bigquery);
-- Create a BigQuery dataset
CREATE SCHEMA bq.some_dataset;
-- Create a BigQuery table in some dataset
CREATE TABLE bq.some_dataset.tbl(id INTEGER, some_string VARCHAR);
-- Insert values into the table
INSERT INTO bq.some_dataset.tbl VALUES (42, "my quacking string");
-- Retrieves rows from the table
SELECT some_string FROM bq.some_dataset.tbl;
-- Drop a BigQury table in some dataset
DROP TABLE IF EXISTS bq.some_dataset.tbl;
-- Drop a BigQuery dataset
DROP SCHEMA IF EXISTS bq.some_dataset;
-- Altering tables - rename table
ALTER TABLE bq.some_dataset.tbl RENAME TO tbl_renamed;
-- Altering tables - rename column
ALTER TABLE bq.some_dataset.tbl RENAME COLUMN i TO i2;
-- Altering tables - add column
ALTER TABLE bq.some_dataset.tbl ADD COLUMN j INTEGER;
-- Altering tables - drop column
ALTER TABLE bq.some_dataset.tbl DROP COLUMN i;
-- Altering tables - change column type
ALTER TABLE bq.some_dataset.tbl ALTER COLUMN i TYPE DOUBLE;
-- Altering tables - drop not null condition
ALTER TABLE bq.some_dataset.tbl ALTER COLUMN i DROP NOT NULL;
The bigquery_scan
function provides direct, efficient reads from a single table within your BigQuery project. This function is ideal for simple reads where no complex SQL is required, and it supports simple projection pushdown from DuckDB.
If you would rather query just one table directly instead of attaching all tables, you can achieve this by directly using the bigquery_scan
functions, such as:
D SELECT * FROM bigquery_scan('my_gcp_project.quacking_dataset.duck_tbl');
┌───────┬────────────────┐
│ i │ s │
│ int32 │ varchar │
├───────┼────────────────┤
│ 12 │ quack 🦆 │
│ 13 │ quack quack 🦆 │
└───────┴────────────────┘
While bigquery_scan
offers high-speed data retrieval, it does not support reading from views or external tables due to limitations of the Storage Read API. For those cases, consider using the bigquery_query
function, which allows more complex querying capabilities.
The bigquery_query
function allows you to run custom GoogleSQL read queries within your BigQuery project. This function is also especially useful to get around the limitations of the BigQuery Storage Read API, such as reading from views or external tables.
Note: If your goal is straightforward table reads,
bigquery_scan
is often more efficient, as it bypasses the SQL layer for direct data access. However,bigquery_query
is ideal when you need to execute custom SQL that requires the full querying capabilities of BigQuery expressed in GoogleSQL. In this case, BigQuery transparently creates an anonymous temporary result table, which is fetched in exactly the same way as withbigquery_scan
.
D SELECT * FROM bigquery_query('my_gcp_project', 'SELECT * FROM `my_gcp_project.quacking_dataset.duck_tbl`');
The bigquery_execute
function runs arbitrary GoogleSQL queries directly in BigQuery. These queries are executed without interpretation by DuckDB. The call is synchronous and returns a result with details about the query execution, like the following.
D ATTACH 'project=my_gcp_project' as bq (TYPE bigquery);
D CALL bigquery_execute('bq', '
CREATE SCHEMA deluxe_dataset
OPTIONS(
location="us",
default_table_expiration_days=3.75,
labels=[("label1","value1"),("label2","value2")]
)
');
┌─────────┬──────────────────────────────────┬─────────────────┬──────────┬────────────┬───────────────────────┬───────────────────────┐
│ success │ job_id │ project_id │ location │ total_rows │ total_bytes_processed │ num_dml_affected_rows │
│ boolean │ varchar │ varchar │ varchar │ uint64 │ int64 │ varchar │
├─────────┼──────────────────────────────────┼─────────────────┼──────────┼────────────┼───────────────────────┼───────────────────────┤
│ true │ job_-Xu_D2wxe2Xjh-ArZNwZ6gut5ggi │ my_gcp_project │ US │ 0 │ 0 │ 0 │
└─────────┴──────────────────────────────────┴─────────────────┴──────────┴────────────┴───────────────────────┴───────────────────────┘
The bigquery_jobs
fucntion retrieves a list of jobs within the specified project. It displays job metadata such as
job state, start and end time, configuration, statistics, and many more. More information on the job information can be found here.
D ATTACH 'project=my_gcp_project' as bq (TYPE bigquery);
D SELECT * FROM bigquery_jobs('bq', maxResults=2);
┌───────────┬──────────────────────┬───────────┬───┬──────────────────────┬──────────────────┐
│ state │ job_id │ project │ … │ configuration │ status │
│ varchar │ varchar │ varchar │ │ json │ json │
├───────────┼──────────────────────┼───────────┼───┼──────────────────────┼──────────────────┤
│ Completed │ job_zAAv42SdMT51qk… │ my_gcp_p… │ … │ {"query":{"query":… │ {"state":"DONE"} │
│ Completed │ job_ro2WURJlGlkXCC… │ my_gcp_p… │ … │ {"query":{"query":… │ {"state":"DONE"} │
├───────────┴──────────────────────┴───────────┴───┴──────────────────────┴──────────────────┤
│ 2 rows 16 columns (5 shown) │
└────────────────────────────────────────────────────────────────────────────────────────────┘
The operation supports the following additional named parameters as query arguments:
Parameter | Type | Description |
---|---|---|
jobId |
VARCHAR |
Filters results by job ID. Returns only the matching job, ignoring all other arguments. |
allUsers |
BOOLEAN |
If true, returns jobs for all users in the project. Default is false (only current user's jobs). |
maxResults |
INTEGER |
Limits the number of jobs returned. |
minCreationTime |
TIMESTAMP |
Filters jobs created after the specified time (in milliseconds since the epoch). |
maxCreationTime |
TIMESTAMP |
Filters jobs created before the specified time (in milliseconds since the epoch). |
stateFilter |
VARCHAR |
Filters jobs by state (e.g., PENDING , RUNNING ,DONE ). |
parentJobId |
VARCHAR |
Filters results to only include child jobs of the specified parent job ID. |
DuckDB caches schema metadata, such as datasets and table structures, to avoid repeated fetches from BigQuery. If the schema changes externally, use bigquery_clear_cache
to update the cache and retrieve the latest schema information:
D CALL bigquery_clear_cache();
Public datasets can be accessed by specifying your project as a billing_project
. All queries will then be executed and billed on that project. This works for functions such as bigquery_scan
, bigquery_execute
, and the ATTACH
command.
D SELECT * FROM bigquery_scan('bigquery-public-data.geo_us_boundaries.cnecta', billing_project='my_gcp_project');
┌─────────┬──────────────────┬──────────────────────┬───┬───────────────────┬───────────────┬───────────────┬──────────────────────┐
│ geo_id │ cnecta_fips_code │ name │ … │ area_water_meters │ int_point_lat │ int_point_lon │ cnecta_geom │
│ varchar │ varchar │ varchar │ │ int64 │ double │ double │ varchar │
├─────────┼──────────────────┼──────────────────────┼───┼───────────────────┼───────────────┼───────────────┼──────────────────────┤
│ 710 │ 710 │ Augusta-Waterville… │ … │ 183936850 │ 44.4092939 │ -69.6901717 │ POLYGON((-69.79281… │
│ 775 │ 775 │ Portland-Lewiston-… │ … │ 1537827560 │ 43.8562034 │ -70.3192682 │ POLYGON((-70.48007… │
│ 770 │ 770 │ Pittsfield-North A… │ … │ 24514153 │ 42.5337519 │ -73.1678825 │ POLYGON((-73.30698… │
│ 790 │ 790 │ Springfield-Hartfo… │ … │ 256922043 │ 42.0359069 │ -72.6213616 │ POLYGON((-72.63682… │
│ 715 │ 715 │ Boston-Worcester-P… │ … │ 3004814151 │ 42.3307869 │ -71.3296644 │ MULTIPOLYGON(((-71… │
│ 725 │ 725 │ Lebanon-Claremont,… │ … │ 58476158 │ 43.6727226 │ -72.2484543 │ POLYGON((-72.39601… │
│ 720 │ 720 │ Bridgeport-New Hav… │ … │ 374068423 │ 41.3603421 │ -73.1284227 │ MULTIPOLYGON(((-72… │
├─────────┴──────────────────┴──────────────────────┴───┴───────────────────┴───────────────┴───────────────┴──────────────────────┤
│ 7 rows 11 columns (7 shown) │
└──────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────┘
Setting | Description | Default |
---|---|---|
bq_debug_show_queries | [DEBUG] - whether to print all queries sent to BigQuery to stdout | false |
bq_experimental_filter_pushdown | [EXPERIMENTAL] - Whether or not to use filter pushdown | true |
bq_experimental_use_info_schema | [EXPERIMENTAL] - Use information schema to fetch catalog info (often faster than REST API) | true |
bq_curl_ca_bundle_path | Path to the CA certificates used by cURL for SSL certificate verification |
There are some limitations that arise from the combination of DuckDB and BigQuery. These include:
-
Reading from Views: This DuckDB extension utilizes the BigQuery Storage Read API to optimize reading results. However, this approach has limitations (see here for more information). First, the Storage Read API does not support direct reading from logical or materialized views. Second, reading external tables is not supported. To mitigate these limitations, you can use the
bigquery_query
function to execute the query directly in BigQuery. -
Propagation Delay: After creating a table in BigQuery, there might be a brief propagation delay before the table becomes fully "visible". Therefore, be aware of potential delays when executing
CREATE TABLE ... AS
orCREATE OR REPLACE TABLE ...
statements followed by immediate inserts. This delay is usually just a matter of seconds, but in rare cases, it can take up to a minute. -
Primary Keys and Foreign Keys: While BigQuery recently introduced the concept of primary keys and foreign keys constraints, they differ from what you're accustomed to in DuckDB or other traditional RDBMS. Therefore, this extension does not support this concept.
Updates may not always be immediately available in the Community Extension repository. However, they can be obtained from a custom repository. To get the latest updates, start DuckDB with unsigned extensions setting enabled. Use the allow_unsigned_extensions
flag for client connections, or start the CLI with -unsigned
as follows:
# Example: CLI
duckdb -unsigned
# Example: Python
con = duckdb.connect(':memory:', config={'allow_unsigned_extensions' : 'true'})
Then set the custom repository and install the extension:
-- Set the custom repository, then install and load the DuckDB BigQuery extension
D SET custom_extension_repository = 'http://storage.googleapis.com/hafenkran';
D FORCE INSTALL 'bigquery';
D LOAD 'bigquery';
This extension uses VCPKG for dependency management. Enabling VCPKG is very simple: follow the installation instructions or just run the following:
git clone https://github.com/Microsoft/vcpkg.git
./vcpkg/bootstrap-vcpkg.sh
export VCPKG_TOOLCHAIN_PATH=`pwd`/vcpkg/scripts/buildsystems/vcpkg.cmake
Now to build the extension, run:
make
The main binaries that will be built are:
# the binary for the duckdb shell with the extension code automatically loaded.
./build/release/duckdb
# the test runner of duckdb. Again, the extension is already linked into the binary.
./build/release/test/unittest
# the loadable extension binary as it would be distributed.
./build/release/extension/bigquery/bigquery.duckdb_extension
After this step you can either simply start the shell with ./build/release/duckdb
or by installing/loading the extension from inside your duckdb instance with:
INSTALL './build/release/extension/bigquery/bigquery.duckdb_extension'
LOAD 'bigquery'
Now you can use the features from this extension.
You can also build the project using Docker. This approach simplifies dependencies management and setup. You can build the docker image by using the provided make
command as follows:
make docker-build
To run the Docker container, you'll need to authenticate with Google Cloud using a service account. Ensure you have a service account JSON file for Google Cloud authentication. The service account credentials must be set up as environment variables and mounted to the container. Use the following command to run the Docker container, replacing /path/to/my/service-account-credentials.json
with the actual path to your service account JSON file:
docker run \
-it \
-v /path/to/my/service-account-credentials.json:/creds \
-e GOOGLE_APPLICATION_CREDENTIALS=/creds/service-account-credentials.json \
duckdb-bigquery:v1.1.3
When using this software with Google BigQuery, please ensure your usage complies with the Google API Terms of Service. Be mindful of the usage limits and quotas, and adhere to Google's Fair Use Policy.
Please be aware that using Google BigQuery through this software can incur costs. Google BigQuery is a paid service, and charges may apply based on the amount of data processed, stored, and the number of queries executed. Users are responsible for any costs associated with their use of Google BigQuery. For detailed information on BigQuery pricing, please refer to the Google BigQuery Pricing page. It is recommended to monitor your usage and set up budget alerts in the Google Cloud Console to avoid unexpected charges.
By using this software, you acknowledge and agree that you are solely responsible for any charges incurred from Google BigQuery.