Loading Data from Microsoft SQL Server
to DuckDB
with dlt
in Python
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Microsoft SQL Server
is a Relational Database Management System (RDBMS) developed by Microsoft, based on a Relational Model architecture. DuckDB
is a fast in-process analytical database that supports a feature-rich SQL dialect and has deep integrations into client APIs. Using the open-source Python library dlt
, you can efficiently load data from Microsoft SQL Server
to DuckDB
. This documentation provides detailed instructions and best practices for this process. For more information about Microsoft SQL Server
, visit here.
dlt
Key Features
- Easy to get started:
dlt
is a Python library that is easy to use and understand. It is designed to be simple to use and easy to understand. Typepip install dlt
and you are ready to go. - DuckDB Integration: Seamlessly integrate with DuckDB for efficient data storage and retrieval. Learn more at DuckDB.
- Microsoft SQL Server Support: Load data into Microsoft SQL Server with full support for all write dispositions. Details can be found at Microsoft SQL Server.
- MotherDuck Compatibility: Utilize MotherDuck for remote DuckDB database management, including support for all write dispositions. Check out MotherDuck.
- Comprehensive Tutorial: Follow a step-by-step guide to build a data pipeline that loads data from the GitHub API into DuckDB. Start the tutorial at Tutorial.
Getting started with your pipeline locally
0. Prerequisites
dlt
requires Python 3.8 or higher. Additionally, you need to have the pip
package manager installed, and we recommend using a virtual environment to manage your dependencies. You can learn more about preparing your computer for dlt in our installation reference.
1. Install dlt
First you need to install the dlt
library with the correct extras for DuckDB
:
pip install "dlt[duckdb]"
The dlt
cli has a useful command to get you started with any combination of source and destination. For this example, we want to load data from Microsoft SQL Server
to DuckDB
. You can run the following commands to create a starting point for loading data from Microsoft SQL Server
to DuckDB
:
# create a new directory
mkdir sql_database_mssql_pipeline
cd sql_database_mssql_pipeline
# initialize a new pipeline with your source and destination
dlt init sql_database duckdb
# install the required dependencies
pip install -r requirements.txt
The last command will install the required dependencies for your pipeline. The dependencies are listed in the requirements.txt
:
sqlalchemy>=1.4
dlt[duckdb]>=0.4.7
You now have the following folder structure in your project:
sql_database_mssql_pipeline/
├── .dlt/
│ ├── config.toml # configs for your pipeline
│ └── secrets.toml # secrets for your pipeline
├── sql_database/ # folder with source specific files
│ └── ...
├── sql_database_pipeline.py # your main pipeline script
├── requirements.txt # dependencies for your pipeline
└── .gitignore # ignore files for git (not required)
2. Configuring your source and destination credentials
The dlt
cli will have created a .dlt
directory in your project folder. This directory contains a config.toml
file and a secrets.toml
file that you can use to configure your pipeline. The automatically created version of these files look like this:
generated config.toml
# put your configuration values here
[runtime]
log_level="WARNING" # the system log level of dlt
# use the dlthub_telemetry setting to enable/disable anonymous usage data reporting, see https://dlthub.com/docs/telemetry
dlthub_telemetry = true
generated secrets.toml
# put your secret values and credentials here. do not share this file and do not push it to github
[sources.sql_database.credentials]
drivername = "drivername" # please set me up!
database = "database" # please set me up!
password = "password" # please set me up!
username = "username" # please set me up!
host = "host" # please set me up!
port = 0 # please set me up!
[destination.duckdb]
dataset_name = "dataset_name" # please set me up!
2.1. Adjust the generated code to your usecase
The default sql_database
pipeline is configured to connect to an example postgres database. The sql_database
source supports all sql dialects
supported by SQLAlchemy. Please refer to the MS SQL Server Section
of the SQLAlchemy docs for additional info about SQLAlchemy and MS SQL Server.
To connect to MS SQL Server with this example pipeline, you'll need to install an MS SQL Server Python DB API driver:
pip install pymssql
And use an MS SQL Server connection String in your code:
credentials = ConnectionStringCredentials(
"mssql+pymssql://username:password@host:1433/database"
)
Or your secrets.toml
:
[sources.sql_database.credentials]
drivername = "mssql+pymssql"
database = "database"
password = "password"
username = "username"
host = "host"
port = 1433
3. Running your pipeline for the first time
The dlt
cli has also created a main pipeline script for you at sql_database_pipeline.py
, as well as a folder sql_database
that contains additional python files for your source. These files are your local copies which you can modify to fit your needs. In some cases you may find that you only need to do small changes to your pipelines or add some configurations, in other cases these files can serve as a working starting point for your code, but will need to be adjusted to do what you need them to do.
The main pipeline script will look something like this:
import sqlalchemy as sa
import humanize
import dlt
from dlt.common import pendulum
from dlt.sources.credentials import ConnectionStringCredentials
from sql_database import sql_database, sql_table, Table
def load_select_tables_from_database() -> None:
"""Use the sql_database source to reflect an entire database schema and load select tables from it.
This example sources data from the public Rfam MySQL database.
"""
# Create a pipeline
pipeline = dlt.pipeline(
pipeline_name="rfam", destination='duckdb', dataset_name="rfam_data"
)
# Credentials for the sample database.
# Note: It is recommended to configure credentials in `.dlt/secrets.toml` under `sources.sql_database.credentials`
credentials = ConnectionStringCredentials(
"mysql+pymysql://rfamro@mysql-rfam-public.ebi.ac.uk:4497/Rfam"
)
# To pass the credentials from `secrets.toml`, comment out the above credentials.
# And the credentials will be automatically read from `secrets.toml`.
# Configure the source to load a few select tables incrementally
source_1 = sql_database(credentials).with_resources("family", "clan")
# Add incremental config to the resources. "updated" is a timestamp column in these tables that gets used as a cursor
source_1.family.apply_hints(incremental=dlt.sources.incremental("updated"))
source_1.clan.apply_hints(incremental=dlt.sources.incremental("updated"))
# Run the pipeline. The merge write disposition merges existing rows in the destination by primary key
info = pipeline.run(source_1, write_disposition="merge")
print(info)
# Load some other tables with replace write disposition. This overwrites the existing tables in destination
source_2 = sql_database(credentials).with_resources("features", "author")
info = pipeline.run(source_2, write_disposition="replace")
print(info)
# Load a table incrementally with append write disposition
# this is good when a table only has new rows inserted, but not updated
source_3 = sql_database(credentials).with_resources("genome")
source_3.genome.apply_hints(incremental=dlt.sources.incremental("created"))
info = pipeline.run(source_3, write_disposition="append")
print(info)
def load_entire_database() -> None:
"""Use the sql_database source to completely load all tables in a database"""
pipeline = dlt.pipeline(
pipeline_name="rfam", destination='duckdb', dataset_name="rfam_data"
)
# By default the sql_database source reflects all tables in the schema
# The database credentials are sourced from the `.dlt/secrets.toml` configuration
source = sql_database()
# Run the pipeline. For a large db this may take a while
info = pipeline.run(source, write_disposition="replace")
print(
humanize.precisedelta(
pipeline.last_trace.finished_at - pipeline.last_trace.started_at
)
)
print(info)
def load_standalone_table_resource() -> None:
"""Load a few known tables with the standalone sql_table resource, request full schema and deferred
table reflection"""
pipeline = dlt.pipeline(
pipeline_name="rfam_database",
destination='duckdb',
dataset_name="rfam_data",
full_refresh=True,
)
# Load a table incrementally starting at a given date
# Adding incremental via argument like this makes extraction more efficient
# as only rows newer than the start date are fetched from the table
# we also use `detect_precision_hints` to get detailed column schema
# and defer_table_reflect to reflect schema only during execution
family = sql_table(
credentials="mysql+pymysql://rfamro@mysql-rfam-public.ebi.ac.uk:4497/Rfam",
table="family",
incremental=dlt.sources.incremental(
"updated",
),
detect_precision_hints=True,
defer_table_reflect=True,
)
# columns will be empty here due to defer_table_reflect set to True
print(family.compute_table_schema())
# Load all data from another table
genome = sql_table(
credentials="mysql+pymysql://rfamro@mysql-rfam-public.ebi.ac.uk:4497/Rfam",
table="genome",
detect_precision_hints=True,
defer_table_reflect=True,
)
# Run the resources together
info = pipeline.extract([family, genome], write_disposition="merge")
print(info)
# Show inferred columns
print(pipeline.default_schema.to_pretty_yaml())
def select_columns() -> None:
"""Uses table adapter callback to modify list of columns to be selected"""
pipeline = dlt.pipeline(
pipeline_name="rfam_database",
destination='duckdb',
dataset_name="rfam_data_cols",
full_refresh=True,
)
def table_adapter(table: Table) -> None:
print(table.name)
if table.name == "family":
# this is SqlAlchemy table. _columns are writable
# let's drop updated column
table._columns.remove(table.columns["updated"])
family = sql_table(
credentials="mysql+pymysql://rfamro@mysql-rfam-public.ebi.ac.uk:4497/Rfam",
table="family",
chunk_size=10,
detect_precision_hints=True,
table_adapter_callback=table_adapter,
)
# also we do not want the whole table, so we add limit to get just one chunk (10 records)
pipeline.run(family.add_limit(1))
# only 10 rows
print(pipeline.last_trace.last_normalize_info)
# no "updated" column in "family" table
print(pipeline.default_schema.to_pretty_yaml())
def select_with_end_value_and_row_order() -> None:
"""Gets data from a table withing a specified range and sorts rows descending"""
pipeline = dlt.pipeline(
pipeline_name="rfam_database",
destination='duckdb',
dataset_name="rfam_data",
full_refresh=True,
)
# gets data from this range
start_date = pendulum.now().subtract(years=1)
end_date = pendulum.now()
family = sql_table(
credentials="mysql+pymysql://rfamro@mysql-rfam-public.ebi.ac.uk:4497/Rfam",
table="family",
incremental=dlt.sources.incremental( # declares desc row order
"updated", initial_value=start_date, end_value=end_date, row_order="desc"
),
chunk_size=10,
)
# also we do not want the whole table, so we add limit to get just one chunk (10 records)
pipeline.run(family.add_limit(1))
# only 10 rows
print(pipeline.last_trace.last_normalize_info)
def my_sql_via_pyarrow() -> None:
"""Uses pyarrow backend to load tables from mysql"""
# uncomment line below to get load_id into your data (slows pyarrow loading down)
# dlt.config["normalize.parquet_normalizer.add_dlt_load_id"] = True
# Create a pipeline
pipeline = dlt.pipeline(
pipeline_name="rfam_cx",
destination='duckdb',
dataset_name="rfam_data_arrow_4",
)
def _double_as_decimal_adapter(table: sa.Table) -> None:
"""Return double as double, not decimals"""
for column in table.columns.values():
if isinstance(column.type, sa.Double):
column.type.asdecimal = False
sql_alchemy_source = sql_database(
"mysql+pymysql://rfamro@mysql-rfam-public.ebi.ac.uk:4497/Rfam?&binary_prefix=true",
backend="pyarrow",
table_adapter_callback=_double_as_decimal_adapter,
).with_resources("family", "genome")
info = pipeline.run(sql_alchemy_source)
print(info)
def create_unsw_flow() -> None:
"""Uploads UNSW_Flow dataset to postgres via csv stream skipping dlt normalizer.
You need to download the dataset from https://github.com/rdpahalavan/nids-datasets
"""
from pyarrow.parquet import ParquetFile
# from dlt.destinations import postgres
# use those config to get 3x speedup on parallelism
# [sources.data_writer]
# file_max_bytes=3000000
# buffer_max_items=200000
# [normalize]
# workers=3
data_iter = ParquetFile("UNSW-NB15/Network-Flows/UNSW_Flow.parquet").iter_batches(
batch_size=128 * 1024
)
pipeline = dlt.pipeline(
pipeline_name="unsw_upload",
# destination=postgres("postgres://loader:loader@localhost:5432/dlt_data"),
destination='duckdb',
progress="log",
)
pipeline.run(
data_iter,
dataset_name="speed_test",
table_name="unsw_flow_7",
loader_file_format="csv",
)
def test_connectorx_speed() -> None:
"""Uses unsw_flow dataset (~2mln rows, 25+ columns) to test connectorx speed"""
import os
# from dlt.destinations import filesystem
unsw_table = sql_table(
"postgresql://loader:loader@localhost:5432/dlt_data",
"unsw_flow_7",
"speed_test",
# this is ignored by connectorx
chunk_size=100000,
backend="connectorx",
# keep source data types
detect_precision_hints=True,
# just to demonstrate how to setup a separate connection string for connectorx
backend_kwargs={"conn": "postgresql://loader:loader@localhost:5432/dlt_data"},
)
pipeline = dlt.pipeline(
pipeline_name="unsw_download",
destination='duckdb',
# destination=filesystem(os.path.abspath("../_storage/unsw")),
progress="log",
full_refresh=True,
)
info = pipeline.run(
unsw_table,
dataset_name="speed_test",
table_name="unsw_flow",
loader_file_format="parquet",
)
print(info)
def test_pandas_backend_verbatim_decimals() -> None:
pipeline = dlt.pipeline(
pipeline_name="rfam_cx",
destination='duckdb',
dataset_name="rfam_data_pandas_2",
)
def _double_as_decimal_adapter(table: sa.Table) -> None:
"""Emits decimals instead of floats."""
for column in table.columns.values():
if isinstance(column.type, sa.Float):
column.type.asdecimal = True
sql_alchemy_source = sql_database(
"mysql+pymysql://rfamro@mysql-rfam-public.ebi.ac.uk:4497/Rfam?&binary_prefix=true",
backend="pandas",
table_adapter_callback=_double_as_decimal_adapter,
chunk_size=100000,
# set coerce_float to False to represent them as string
backend_kwargs={"coerce_float": False, "dtype_backend": "numpy_nullable"},
# preserve full typing info. this will parse
detect_precision_hints=True,
).with_resources("family", "genome")
info = pipeline.run(sql_alchemy_source)
print(info)
if __name__ == "__main__":
# Load selected tables with different settings
load_select_tables_from_database()
# load a table and select columns
# select_columns()
# load_entire_database()
# select_with_end_value_and_row_order()
# Load tables with the standalone table resource
# load_standalone_table_resource()
# Load all tables from the database.
# Warning: The sample database is very large
# load_entire_database()
Provided you have set up your credentials, you can run your pipeline like a regular python script with the following command:
python sql_database_pipeline.py
4. Inspecting your load result
You can now inspect the state of your pipeline with the dlt
cli:
dlt pipeline sql_database info
You can also use streamlit to inspect the contents of your DuckDB
destination for this:
# install streamlit
pip install streamlit
# run the streamlit app for your pipeline with the dlt cli:
dlt pipeline sql_database show
5. Next steps to get your pipeline running in production
One of the beauties of dlt
is, that we are just a plain Python library, so you can run your pipeline in any environment that supports Python >= 3.8. We have a couple of helpers and guides in our docs to get you there:
The Deploy section will show you how to deploy your pipeline to
- Deploy with GitHub Actions: Learn how to deploy a pipeline using GitHub Actions, a CI/CD runner that you can use for free. Follow the guide here.
- Deploy with Airflow: Discover how to deploy a pipeline with Airflow and Google Composer, a managed Airflow environment provided by Google. Detailed instructions can be found here.
- Deploy with Google Cloud Functions: Understand the steps to deploy a pipeline using Google Cloud Functions by following the guide here.
- Explore other deployment options: Check out additional methods for deploying your pipeline, including various cloud services and CI/CD tools, here.
The running in production section will teach you about:
- How to Monitor your pipeline: Learn how to effectively monitor your
dlt
pipeline in production to ensure it runs smoothly and efficiently. How to Monitor your pipeline - Set up alerts: Implement alerting mechanisms to get notified of any issues or anomalies in your
dlt
pipeline, ensuring quick responses to potential problems. Set up alerts - And set up tracing: Enable tracing in your
dlt
pipeline to gain insights into its execution, helping you diagnose issues and understand its performance better. And set up tracing
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