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# distributed with this work for additional information
# regarding copyright ownership. The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
from __future__ import annotations
from datetime import datetime
import boto3
from airflow import DAG, settings
from airflow.decorators import task
from airflow.models import Connection
from airflow.models.baseoperator import chain
from airflow.providers.amazon.aws.hooks.redshift_cluster import RedshiftHook
from airflow.providers.amazon.aws.operators.redshift_cluster import (
RedshiftCreateClusterOperator,
RedshiftDeleteClusterOperator,
)
from airflow.providers.amazon.aws.operators.s3 import (
S3CreateBucketOperator,
S3CreateObjectOperator,
S3DeleteBucketOperator,
S3DeleteObjectsOperator,
)
from airflow.providers.amazon.aws.sensors.redshift_cluster import RedshiftClusterSensor
from airflow.providers.amazon.aws.transfers.s3_to_sql import S3ToSqlOperator
from airflow.providers.common.sql.operators.sql import SQLExecuteQueryOperator, SQLTableCheckOperator
from airflow.utils.trigger_rule import TriggerRule
from tests.system.providers.amazon.aws.utils import ENV_ID_KEY, SystemTestContextBuilder
from tests.system.providers.amazon.aws.utils.ec2 import get_default_vpc_id
from tests.system.utils.watcher import watcher
[docs]sys_test_context_task = SystemTestContextBuilder().build()
[docs]DAG_ID = "example_s3_to_sql"
[docs]DB_PASS = "MyAmazonPassword1"
[docs]IP_PERMISSION = {
"FromPort": -1,
"IpProtocol": "All",
"IpRanges": [{"CidrIp": "0.0.0.0/0", "Description": "Test description"}],
}
[docs]SQL_TABLE_NAME = "cocktails"
[docs]SQL_COLUMN_LIST = ["cocktail_id", "cocktail_name", "base_spirit"]
[docs]SAMPLE_DATA = r"""1,Caipirinha,Cachaca
2,Bramble,Gin
3,Daiquiri,Rum
"""
@task
[docs]def create_connection(conn_id_name: str, cluster_id: str):
cluster_endpoint = RedshiftHook().conn.describe_clusters(ClusterIdentifier=cluster_id)["Clusters"][0]
conn = Connection(
conn_id=conn_id_name,
conn_type="redshift",
host=cluster_endpoint["Endpoint"]["Address"],
login=DB_LOGIN,
password=DB_PASS,
port=cluster_endpoint["Endpoint"]["Port"],
schema=cluster_endpoint["DBName"],
)
session = settings.Session()
session.add(conn)
session.commit()
@task
[docs]def setup_security_group(sec_group_name: str, ip_permissions: list[dict], vpc_id: str):
client = boto3.client("ec2")
security_group = client.create_security_group(
Description="Redshift-system-test", GroupName=sec_group_name, VpcId=vpc_id
)
client.get_waiter("security_group_exists").wait(
GroupIds=[security_group["GroupId"]], GroupNames=[sec_group_name]
)
client.authorize_security_group_ingress(
GroupId=security_group["GroupId"], GroupName=sec_group_name, IpPermissions=ip_permissions
)
return security_group["GroupId"]
@task(trigger_rule=TriggerRule.ALL_DONE)
[docs]def delete_security_group(sec_group_id: str, sec_group_name: str):
boto3.client("ec2").delete_security_group(GroupId=sec_group_id, GroupName=sec_group_name)
with DAG(
dag_id=DAG_ID,
start_date=datetime(2023, 1, 1),
schedule="@once",
catchup=False,
tags=["example"],
) as dag:
[docs] test_context = sys_test_context_task()
env_id = test_context[ENV_ID_KEY]
conn_id_name = f"{env_id}-conn-id"
redshift_cluster_identifier = f"{env_id}-redshift-cluster"
sg_name = f"{env_id}-sg"
s3_bucket_name = f"{env_id}-bucket"
s3_key = f"{env_id}/files/cocktail_list.csv"
get_vpc_id = get_default_vpc_id()
set_up_sg = setup_security_group(sg_name, [IP_PERMISSION], get_vpc_id)
create_cluster = RedshiftCreateClusterOperator(
task_id="create_cluster",
cluster_identifier=redshift_cluster_identifier,
vpc_security_group_ids=[set_up_sg],
publicly_accessible=True,
cluster_type="single-node",
node_type="dc2.large",
master_username=DB_LOGIN,
master_user_password=DB_PASS,
)
wait_cluster_available = RedshiftClusterSensor(
task_id="wait_cluster_available",
cluster_identifier=redshift_cluster_identifier,
target_status="available",
poke_interval=5,
timeout=60 * 30,
)
set_up_connection = create_connection(conn_id_name, cluster_id=redshift_cluster_identifier)
create_bucket = S3CreateBucketOperator(
task_id="create_bucket",
bucket_name=s3_bucket_name,
)
create_object = S3CreateObjectOperator(
task_id="create_object",
s3_bucket=s3_bucket_name,
s3_key=s3_key,
data=SAMPLE_DATA,
replace=True,
)
create_table = SQLExecuteQueryOperator(
task_id="create_sample_table",
conn_id=conn_id_name,
sql=f"""
CREATE TABLE IF NOT EXISTS {SQL_TABLE_NAME} (
cocktail_id INT NOT NULL,
cocktail_name VARCHAR NOT NULL,
base_spirit VARCHAR NOT NULL);
""",
)
# [START howto_transfer_s3_to_sql]
#
# This operator requires a parser method. The Parser should take a filename as input
# and return an iterable of rows.
# This example parser uses the builtin csv library and returns a list of rows
#
def parse_csv_to_list(filepath):
import csv
with open(filepath, newline="") as file:
return [row for row in csv.reader(file)]
transfer_s3_to_sql = S3ToSqlOperator(
task_id="transfer_s3_to_sql",
s3_bucket=s3_bucket_name,
s3_key=s3_key,
table=SQL_TABLE_NAME,
column_list=SQL_COLUMN_LIST,
parser=parse_csv_to_list,
sql_conn_id=conn_id_name,
)
# [END howto_transfer_s3_to_sql]
# [START howto_transfer_s3_to_sql_generator]
#
# As the parser can return any kind of iterator, a generator is also allowed.
# This example parser returns a generator which prevents python from loading
# the whole file into memory.
#
def parse_csv_to_generator(filepath):
import csv
with open(filepath, newline="") as file:
yield from csv.reader(file)
transfer_s3_to_sql_generator = S3ToSqlOperator(
task_id="transfer_s3_to_sql_paser_to_generator",
s3_bucket=s3_bucket_name,
s3_key=s3_key,
table=SQL_TABLE_NAME,
column_list=SQL_COLUMN_LIST,
parser=parse_csv_to_generator,
sql_conn_id=conn_id_name,
)
# [END howto_transfer_s3_to_sql_generator]
check_table = SQLTableCheckOperator(
task_id="check_table",
conn_id=conn_id_name,
table=SQL_TABLE_NAME,
checks={
"row_count_check": {"check_statement": "COUNT(*) = 6"},
},
)
drop_table = SQLExecuteQueryOperator(
conn_id=conn_id_name,
trigger_rule=TriggerRule.ALL_DONE,
task_id="drop_table",
sql=f"DROP TABLE {SQL_TABLE_NAME}",
)
delete_s3_objects = S3DeleteObjectsOperator(
trigger_rule=TriggerRule.ALL_DONE,
task_id="delete_objects",
bucket=s3_bucket_name,
keys=s3_key,
)
delete_s3_bucket = S3DeleteBucketOperator(
trigger_rule=TriggerRule.ALL_DONE,
task_id="delete_bucket",
bucket_name=s3_bucket_name,
force_delete=True,
)
delete_cluster = RedshiftDeleteClusterOperator(
task_id="delete_cluster",
cluster_identifier=redshift_cluster_identifier,
trigger_rule=TriggerRule.ALL_DONE,
)
delete_sg = delete_security_group(
sec_group_id=set_up_sg,
sec_group_name=sg_name,
)
chain(
# TEST SETUP
test_context,
set_up_sg,
create_cluster,
wait_cluster_available,
set_up_connection,
create_bucket,
create_object,
create_table,
# TEST BODY
transfer_s3_to_sql,
transfer_s3_to_sql_generator,
check_table,
# TEST TEARDOWN
drop_table,
delete_s3_objects,
delete_s3_bucket,
delete_cluster,
delete_sg,
)
list(dag.tasks) >> watcher()
from tests.system.utils import get_test_run # noqa: E402
# Needed to run the example DAG with pytest (see: tests/system/README.md#run_via_pytest)
[docs]test_run = get_test_run(dag)
