Building a Running Pipeline

Lets look at another example: we need to get some data from a file which is hosted online and insert it into our local database. We also need to look at removing duplicate rows while inserting.

Initial setup

We need to have Docker installed as we will be using the Running Airflow in Docker procedure for this example. The steps below should be sufficient, but see the quick-start documentation for full instructions.

# Download the docker-compose.yaml file
curl -LfO 'https://airflow.apache.org/docs/apache-airflow/stable/docker-compose.yaml'

# Make expected directories and set an expected environment variable
mkdir -p ./dags ./logs ./plugins
echo -e "AIRFLOW_UID=$(id -u)" > .env

# Initialize the database
docker-compose up airflow-init

# Start up all services
docker-compose up

After all services have started up, the web UI will be available at: http://localhost:8080. The default account has the username airflow and the password airflow.

We will also need to create a connection to the postgres db. To create one via the web UI, from the “Admin” menu, select “Connections”, then click the Plus sign to “Add a new record” to the list of connections.

Fill in the fields as shown below. Note the Connection Id value, which we’ll pass as a parameter for the postgres_conn_id kwarg.

  • Connection Id: tutorial_pg_conn

  • Connection Type: postgres

  • Host: postgres

  • Schema: airflow

  • Login: airflow

  • Password: airflow

  • Port: 5432

Test your connection and if the test is successful, save your connection.

Table Creation Tasks

We can use the PostgresOperator to define tasks that create tables in our postgres db.

We’ll create one table to facilitate data cleaning steps (employees_temp) and another table to store our cleaned data (employees).

from airflow.providers.postgres.operators.postgres import PostgresOperator

create_employees_table = PostgresOperator(
    task_id="create_employees_table",
    postgres_conn_id="tutorial_pg_conn",
    sql="""
        CREATE TABLE IF NOT EXISTS employees (
            "Serial Number" NUMERIC PRIMARY KEY,
            "Company Name" TEXT,
            "Employee Markme" TEXT,
            "Description" TEXT,
            "Leave" INTEGER
        );""",
)

create_employees_temp_table = PostgresOperator(
    task_id="create_employees_temp_table",
    postgres_conn_id="tutorial_pg_conn",
    sql="""
        DROP TABLE IF EXISTS employees_temp;
        CREATE TABLE employees_temp (
            "Serial Number" NUMERIC PRIMARY KEY,
            "Company Name" TEXT,
            "Employee Markme" TEXT,
            "Description" TEXT,
            "Leave" INTEGER
        );""",
)

Optional: Using SQL From Files

If you want to abstract these sql statements out of your DAG, you can move the statements sql files somewhere within the dags/ directory and pass the sql file_path (relative to dags/) to the sql kwarg. For employees for example, create a sql directory in dags/, put employees DDL in dags/sql/employees_schema.sql, and modify the PostgresOperator() to:

create_employees_table = PostgresOperator(
    task_id="create_employees_table",
    postgres_conn_id="tutorial_pg_conn",
    sql="sql/employees_schema.sql",
)

and repeat for the employees_temp table.

Data Retrieval Task

Here we retrieve data, save it to a file on our Airflow instance, and load the data from that file into an intermediate table where we can execute data cleaning steps.

import os
import requests
from airflow.decorators import task
from airflow.providers.postgres.hooks.postgres import PostgresHook


@task
def get_data():
    # NOTE: configure this as appropriate for your airflow environment
    data_path = "/opt/airflow/dags/files/employees.csv"
    os.makedirs(os.path.dirname(data_path), exist_ok=True)

    url = "https://raw.githubusercontent.com/apache/airflow/main/docs/apache-airflow/tutorial/pipeline_example.csv"

    response = requests.request("GET", url)

    with open(data_path, "w") as file:
        file.write(response.text)

    postgres_hook = PostgresHook(postgres_conn_id="tutorial_pg_conn")
    conn = postgres_hook.get_conn()
    cur = conn.cursor()
    with open(data_path, "r") as file:
        cur.copy_expert(
            "COPY employees_temp FROM STDIN WITH CSV HEADER DELIMITER AS ',' QUOTE '\"'",
            file,
        )
    conn.commit()

Data Merge Task

Here we select completely unique records from the retrieved data, then we check to see if any employee Serial Numbers are already in the database (if they are, we update those records with the new data).

from airflow.decorators import task
from airflow.providers.postgres.hooks.postgres import PostgresHook


@task
def merge_data():
    query = """
        INSERT INTO employees
        SELECT *
        FROM (
            SELECT DISTINCT *
            FROM employees_temp
        ) t
        ON CONFLICT ("Serial Number") DO UPDATE
        SET
              "Employee Markme" = excluded."Employee Markme",
              "Description" = excluded."Description",
              "Leave" = excluded."Leave";
    """
    try:
        postgres_hook = PostgresHook(postgres_conn_id="tutorial_pg_conn")
        conn = postgres_hook.get_conn()
        cur = conn.cursor()
        cur.execute(query)
        conn.commit()
        return 0
    except Exception as e:
        return 1

Completing our DAG

We’ve developed our tasks, now we need to wrap them in a DAG, which enables us to define when and how tasks should run, and state any dependencies that tasks have on other tasks. The DAG below is configured to:

  • run every day at midnight starting on Jan 1, 2021,

  • only run once in the event that days are missed, and

  • timeout after 60 minutes

And from the last line in the definition of the process-employees DAG, we see:

[create_employees_table, create_employees_temp_table] >> get_data() >> merge_data()

  • the merge_data() task depends on the get_data() task,

  • the get_data() depends on both the create_employees_table and create_employees_temp_table tasks, and

  • the create_employees_table and create_employees_temp_table tasks can run independently.

Putting all of the pieces together, we have our completed DAG.

import datetime
import pendulum
import os

import requests
from airflow.decorators import dag, task
from airflow.providers.postgres.hooks.postgres import PostgresHook
from airflow.providers.postgres.operators.postgres import PostgresOperator


@dag(
    dag_id="process-employees",
    schedule_interval="0 0 * * *",
    start_date=pendulum.datetime(2021, 1, 1, tz="UTC"),
    catchup=False,
    dagrun_timeout=datetime.timedelta(minutes=60),
)
def ProcessEmployees():
    create_employees_table = PostgresOperator(
        task_id="create_employees_table",
        postgres_conn_id="tutorial_pg_conn",
        sql="""
            CREATE TABLE IF NOT EXISTS employees (
                "Serial Number" NUMERIC PRIMARY KEY,
                "Company Name" TEXT,
                "Employee Markme" TEXT,
                "Description" TEXT,
                "Leave" INTEGER
            );""",
    )

    create_employees_temp_table = PostgresOperator(
        task_id="create_employees_temp_table",
        postgres_conn_id="tutorial_pg_conn",
        sql="""
            DROP TABLE IF EXISTS employees_temp;
            CREATE TABLE employees_temp (
                "Serial Number" NUMERIC PRIMARY KEY,
                "Company Name" TEXT,
                "Employee Markme" TEXT,
                "Description" TEXT,
                "Leave" INTEGER
            );""",
    )

    @task
    def get_data():
        # NOTE: configure this as appropriate for your airflow environment
        data_path = "/opt/airflow/dags/files/employees.csv"
        os.makedirs(os.path.dirname(data_path), exist_ok=True)

        url = "https://raw.githubusercontent.com/apache/airflow/main/docs/apache-airflow/tutorial/pipeline_example.csv"

        response = requests.request("GET", url)

        with open(data_path, "w") as file:
            file.write(response.text)

        postgres_hook = PostgresHook(postgres_conn_id="tutorial_pg_conn")
        conn = postgres_hook.get_conn()
        cur = conn.cursor()
        with open(data_path, "r") as file:
            cur.copy_expert(
                "COPY employees_temp FROM STDIN WITH CSV HEADER DELIMITER AS ',' QUOTE '\"'",
                file,
            )
        conn.commit()

    @task
    def merge_data():
        query = """
            INSERT INTO employees
            SELECT *
            FROM (
                SELECT DISTINCT *
                FROM employees_temp
            ) t
            ON CONFLICT ("Serial Number") DO UPDATE
            SET
              "Employee Markme" = excluded."Employee Markme",
              "Description" = excluded."Description",
              "Leave" = excluded."Leave";
        """
        try:
            postgres_hook = PostgresHook(postgres_conn_id="tutorial_pg_conn")
            conn = postgres_hook.get_conn()
            cur = conn.cursor()
            cur.execute(query)
            conn.commit()
            return 0
        except Exception as e:
            return 1

    [create_employees_table, create_employees_temp_table] >> get_data() >> merge_data()


dag = ProcessEmployees()

Save this code to a python file in the /dags folder (e.g. dags/process-employees.py) and (after a brief delay), the process-employees DAG will be included in the list of available DAGs on the web UI.

../_images/tutorial-pipeline-1.png

You can trigger the process-employees DAG by unpausing it (via the slider on the left end) and running it (via the Run button under Actions).

../_images/tutorial-pipeline-2.png

In the process-employees DAG’s Grid view, we see all that all tasks ran successfully in all executed runs. Success!

What’s Next?

You now have a pipeline running inside Airflow using Docker Compose. Here are a few things you might want to do next:

See also

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