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test_base.py
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test_base.py
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# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements. See the NOTICE file
# 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
import os
import subprocess
import tempfile
import time
from datetime import datetime
from pathlib import Path
from subprocess import check_call, check_output
import pytest
import re2
import requests
import requests.exceptions
from requests.adapters import HTTPAdapter
from urllib3.util.retry import Retry
CLUSTER_FORWARDED_PORT = os.environ.get("CLUSTER_FORWARDED_PORT") or "8080"
KUBERNETES_HOST_PORT = (os.environ.get("CLUSTER_HOST") or "localhost") + ":" + CLUSTER_FORWARDED_PORT
EXECUTOR = os.environ.get("EXECUTOR")
print()
print(f"Cluster host/port used: ${KUBERNETES_HOST_PORT}")
print(f"Executor: {EXECUTOR}")
print()
class StringContainingId(str):
def __eq__(self, other):
return self in other
class BaseK8STest:
"""Base class for K8S Tests."""
host: str = KUBERNETES_HOST_PORT
temp_dir = Path(tempfile.gettempdir()) # Refers to global temp directory, in linux it usual "/tmp"
session: requests.Session
test_id: str
@pytest.fixture(autouse=True)
def base_tests_setup(self, request):
# Replacement for unittests.TestCase.id()
self.test_id = f"{request.node.cls.__name__}_{request.node.name}"
self.session = self._get_session_with_retries()
try:
self._ensure_airflow_webserver_is_healthy()
yield
finally:
self.session.close()
def _describe_resources(self, namespace: str):
kubeconfig_basename = os.path.basename(os.environ.get("KUBECONFIG", "default"))
output_file_path = (
self.temp_dir / f"k8s_test_resources_{namespace}_{kubeconfig_basename}_{self.test_id}.txt"
)
print(f"Dumping resources to {output_file_path}")
ci = os.environ.get("CI")
if ci and ci.lower() == "true":
print("The resource dump will be uploaded as artifact of the CI job")
with open(output_file_path, "w") as output_file:
print("=" * 80, file=output_file)
print(f"Describe resources for namespace {namespace}", file=output_file)
print(f"Datetime: {datetime.utcnow()}", file=output_file)
print("=" * 80, file=output_file)
print("Describing pods", file=output_file)
print("-" * 80, file=output_file)
subprocess.call(
["kubectl", "describe", "pod", "--namespace", namespace],
stdout=output_file,
stderr=subprocess.STDOUT,
)
print("=" * 80, file=output_file)
print("Describing persistent volumes", file=output_file)
print("-" * 80, file=output_file)
subprocess.call(
["kubectl", "describe", "pv", "--namespace", namespace],
stdout=output_file,
stderr=subprocess.STDOUT,
)
print("=" * 80, file=output_file)
print("Describing persistent volume claims", file=output_file)
print("-" * 80, file=output_file)
subprocess.call(
["kubectl", "describe", "pvc", "--namespace", namespace],
stdout=output_file,
stderr=subprocess.STDOUT,
)
print("=" * 80, file=output_file)
@staticmethod
def _num_pods_in_namespace(namespace):
air_pod = check_output(["kubectl", "get", "pods", "-n", namespace]).decode()
air_pod = air_pod.splitlines()
names = [re2.compile(r"\s+").split(x)[0] for x in air_pod if "airflow" in x]
return len(names)
@staticmethod
def _delete_airflow_pod(name=""):
suffix = f"-{name}" if name else ""
air_pod = check_output(["kubectl", "get", "pods"]).decode()
air_pod = air_pod.splitlines()
names = [re2.compile(r"\s+").split(x)[0] for x in air_pod if "airflow" + suffix in x]
if names:
check_call(["kubectl", "delete", "pod", names[0]])
def _get_session_with_retries(self):
session = requests.Session()
session.auth = ("admin", "admin")
retries = Retry(total=3, backoff_factor=1)
session.mount("http://", HTTPAdapter(max_retries=retries))
session.mount("https://", HTTPAdapter(max_retries=retries))
return session
def _ensure_airflow_webserver_is_healthy(self):
max_tries = 10
timeout_seconds = 5
for i in range(max_tries):
try:
response = self.session.get(
f"http://{KUBERNETES_HOST_PORT}/health",
timeout=1,
)
if response.status_code == 200:
print("Airflow webserver is healthy!")
return
except Exception as e:
print(f"Exception when checking if webserver is healthy {e}")
if i < max_tries - 1:
print(f"Waiting {timeout_seconds} s and retrying.")
time.sleep(timeout_seconds)
raise Exception(
f"Giving up. The webserver of Airflow was not healthy after {max_tries} tries "
f"with {timeout_seconds} s delays"
)
def monitor_task(self, host, dag_run_id, dag_id, task_id, expected_final_state, timeout):
tries = 0
state = ""
max_tries = max(int(timeout / 5), 1)
# Wait some time for the operator to complete
while tries < max_tries:
time.sleep(5)
# Check task state
try:
get_string = (
f"http://{host}/api/v1/dags/{dag_id}/dagRuns/{dag_run_id}/taskInstances/{task_id}"
)
print(f"Calling [monitor_task]#1 {get_string}")
result = self.session.get(get_string)
if result.status_code == 404:
check_call(["echo", "api returned 404."])
tries += 1
continue
assert result.status_code == 200, "Could not get the status"
result_json = result.json()
print(f"Received [monitor_task]#2: {result_json}")
state = result_json["state"]
print(f"Attempt {tries}: Current state of operator is {state}")
if state == expected_final_state:
break
self._describe_resources(namespace="airflow")
self._describe_resources(namespace="default")
tries += 1
except requests.exceptions.ConnectionError as e:
check_call(["echo", f"api call failed. trying again. error {e}"])
if state != expected_final_state:
print(f"The expected state is wrong {state} != {expected_final_state} (expected)!")
assert state == expected_final_state
def ensure_dag_expected_state(self, host, execution_date, dag_id, expected_final_state, timeout):
tries = 0
state = ""
max_tries = max(int(timeout / 5), 1)
# Wait some time for the operator to complete
while tries < max_tries:
time.sleep(5)
get_string = f"http://{host}/api/v1/dags/{dag_id}/dagRuns"
print(f"Calling {get_string}")
# Get all dagruns
result = self.session.get(get_string)
assert result.status_code == 200, "Could not get the status"
result_json = result.json()
print(f"Received: {result}")
state = None
for dag_run in result_json["dag_runs"]:
if dag_run["execution_date"] == execution_date:
state = dag_run["state"]
check_call(["echo", f"Attempt {tries}: Current state of dag is {state}"])
print(f"Attempt {tries}: Current state of dag is {state}")
if state == expected_final_state:
break
self._describe_resources("airflow")
self._describe_resources("default")
tries += 1
assert state == expected_final_state
# Maybe check if we can retrieve the logs, but then we need to extend the API
def start_dag(self, dag_id, host):
patch_string = f"http://{host}/api/v1/dags/{dag_id}"
print(f"Calling [start_dag]#1 {patch_string}")
result = self.session.patch(patch_string, json={"is_paused": False})
try:
result_json = result.json()
except ValueError:
result_json = str(result)
print(f"Received [start_dag]#1 {result_json}")
assert result.status_code == 200, f"Could not enable DAG: {result_json}"
post_string = f"http://{host}/api/v1/dags/{dag_id}/dagRuns"
print(f"Calling [start_dag]#2 {post_string}")
# Trigger a new dagrun
result = self.session.post(post_string, json={})
try:
result_json = result.json()
except ValueError:
result_json = str(result)
print(f"Received [start_dag]#2 {result_json}")
assert result.status_code == 200, f"Could not trigger a DAG-run: {result_json}"
time.sleep(1)
get_string = f"http://{host}/api/v1/dags/{dag_id}/dagRuns"
print(f"Calling [start_dag]#3 {get_string}")
result = self.session.get(get_string)
assert result.status_code == 200, f"Could not get DAGRuns: {result.json()}"
result_json = result.json()
print(f"Received: [start_dag]#3 {result_json}")
return result_json
def start_job_in_kubernetes(self, dag_id, host):
result_json = self.start_dag(dag_id=dag_id, host=host)
dag_runs = result_json["dag_runs"]
assert len(dag_runs) > 0
execution_date = None
dag_run_id = None
for dag_run in dag_runs:
if dag_run["dag_id"] == dag_id:
execution_date = dag_run["execution_date"]
dag_run_id = dag_run["dag_run_id"]
break
assert execution_date is not None, f"No execution_date can be found for the dag with {dag_id}"
return dag_run_id, execution_date