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import io
import subprocess
import sys
import time
import unittest
from typing import IO, Optional
from docker import DockerClient, errors
from docker.models.containers import Container
from docker.models.images import Image
from docker.models.volumes import Volume
from test.python.docker import Podman
from test.python.docker.compat import common, constant
import tarfile
class TestContainers(unittest.TestCase):
podman = None # initialized podman configuration for tests
service = None # podman service instance
topContainerId = ""
def setUp(self):
super().setUp()
self.client = DockerClient(base_url="tcp://127.0.0.1:8080", timeout=15)
TestContainers.podman.restore_image_from_cache(self.client)
TestContainers.topContainerId = common.run_top_container(self.client)
self.assertIsNotNone(TestContainers.topContainerId)
def tearDown(self):
common.remove_all_containers(self.client)
common.remove_all_images(self.client)
self.client.close()
return super().tearDown()
@classmethod
def setUpClass(cls):
super().setUpClass()
TestContainers.podman = Podman()
TestContainers.service = TestContainers.podman.open(
"system", "service", "tcp:127.0.0.1:8080", "--time=0"
)
# give the service some time to be ready...
time.sleep(2)
rc = TestContainers.service.poll()
if rc is not None:
raise subprocess.CalledProcessError(rc, "podman system service")
@classmethod
def tearDownClass(cls):
TestContainers.service.terminate()
stdout, stderr = TestContainers.service.communicate(timeout=0.5)
if stdout:
sys.stdout.write("\nContainers Service Stdout:\n" + stdout.decode("utf-8"))
if stderr:
sys.stderr.write("\nContainers Service Stderr:\n" + stderr.decode("utf-8"))
TestContainers.podman.tear_down()
return super().tearDownClass()
def test_create_container(self):
# Run a container with detach mode
self.client.containers.create(image="alpine", detach=True)
self.assertEqual(len(self.client.containers.list(all=True)), 2)
def test_create_network(self):
net = self.client.networks.create("testNetwork", driver="bridge")
ctnr = self.client.containers.create(image="alpine", detach=True)
# TODO fix when ready
# This test will not work until all connect|disconnect
# code is fixed.
# net.connect(ctnr)
# nets = self.client.networks.list(greedy=True)
# self.assertGreaterEqual(len(nets), 1)
# TODO fix endpoint to include containers
# for n in nets:
# if n.id == "testNetwork":
# self.assertEqual(ctnr.id, n.containers)
# self.assertTrue(False, "testNetwork not found")
def test_start_container(self):
# Podman docs says it should give a 304 but returns with no response
# # Start a already started container should return 304
# response = self.client.api.start(container=TestContainers.topContainerId)
# self.assertEqual(error.exception.response.status_code, 304)
# Create a new container and validate the count
self.client.containers.create(image=constant.ALPINE, name="container2")
containers = self.client.containers.list(all=True)
self.assertEqual(len(containers), 2)
def test_start_container_with_random_port_bind(self):
container = self.client.containers.create(
image=constant.ALPINE,
name="containerWithRandomBind",
ports={"1234/tcp": None},
)
containers = self.client.containers.list(all=True)
self.assertTrue(container in containers)
def test_stop_container(self):
top = self.client.containers.get(TestContainers.topContainerId)
self.assertEqual(top.status, "running")
# Stop a running container and validate the state
top.stop()
top.reload()
self.assertIn(top.status, ("stopped", "exited"))
def test_kill_container(self):
top = self.client.containers.get(TestContainers.topContainerId)
self.assertEqual(top.status, "running")
# Kill a running container and validate the state
top.kill()
top.reload()
self.assertIn(top.status, ("stopped", "exited"))
def test_restart_container(self):
# Validate the container state
top = self.client.containers.get(TestContainers.topContainerId)
top.stop()
top.reload()
self.assertIn(top.status, ("stopped", "exited"))
# restart a running container and validate the state
top.restart()
top.reload()
self.assertEqual(top.status, "running")
def test_remove_container(self):
# Remove container by ID with force
top = self.client.containers.get(TestContainers.topContainerId)
top.remove(force=True)
self.assertEqual(len(self.client.containers.list()), 0)
def test_remove_container_without_force(self):
# Validate current container count
self.assertEqual(len(self.client.containers.list()), 1)
# Remove running container should throw error
top = self.client.containers.get(TestContainers.topContainerId)
with self.assertRaises(errors.APIError) as error:
top.remove()
self.assertEqual(error.exception.response.status_code, 500)
# Remove container by ID without force
top.stop()
top.remove()
self.assertEqual(len(self.client.containers.list()), 0)
def test_pause_container(self):
# Validate the container state
top = self.client.containers.get(TestContainers.topContainerId)
self.assertEqual(top.status, "running")
# Pause a running container and validate the state
top.pause()
top.reload()
self.assertEqual(top.status, "paused")
def test_pause_stopped_container(self):
# Stop the container
top = self.client.containers.get(TestContainers.topContainerId)
top.stop()
# Pause exited container should throw error
with self.assertRaises(errors.APIError) as error:
top.pause()
self.assertEqual(error.exception.response.status_code, 500)
def test_unpause_container(self):
top = self.client.containers.get(TestContainers.topContainerId)
# Validate the container state
top.pause()
top.reload()
self.assertEqual(top.status, "paused")
# Pause a running container and validate the state
top.unpause()
top.reload()
self.assertEqual(top.status, "running")
def test_list_container(self):
# Add container and validate the count
self.client.containers.create(image="alpine", detach=True)
containers = self.client.containers.list(all=True)
self.assertEqual(len(containers), 2)
def test_filters(self):
self.skipTest("TODO Endpoint does not yet support filters")
# List container with filter by id
filters = {"id": TestContainers.topContainerId}
ctnrs = self.client.containers.list(all=True, filters=filters)
self.assertEqual(len(ctnrs), 1)
# List container with filter by name
filters = {"name": "top"}
ctnrs = self.client.containers.list(all=True, filters=filters)
self.assertEqual(len(ctnrs), 1)
def test_copy_to_container(self):
ctr: Optional[Container] = None
vol: Optional[Volume] = None
try:
test_file_content = b"Hello World!"
vol = self.client.volumes.create("test-volume")
ctr = self.client.containers.create(image="alpine",
detach=True,
command="top",
volumes=["test-volume:/test-volume-read-only:ro"])
ctr.start()
buff: IO[bytes] = io.BytesIO()
with tarfile.open(fileobj=buff, mode="w:") as tf:
ti: tarfile.TarInfo = tarfile.TarInfo()
ti.uid = 1042
ti.gid = 1043
ti.name = "a.txt"
ti.path = "a.txt"
ti.mode = 0o644
ti.type = tarfile.REGTYPE
ti.size = len(test_file_content)
tf.addfile(ti, fileobj=io.BytesIO(test_file_content))
buff.seek(0)
ctr.put_archive("/tmp/", buff)
ret, out = ctr.exec_run(["stat", "-c", "%u:%g", "/tmp/a.txt"])
self.assertEqual(ret, 0)
self.assertEqual(out.rstrip(), b'1042:1043', "UID/GID of copied file")
ret, out = ctr.exec_run(["cat", "/tmp/a.txt"])
self.assertEqual(ret, 0)
self.assertEqual(out.rstrip(), test_file_content, "Content of copied file")
buff.seek(0)
with self.assertRaises(errors.APIError):
ctr.put_archive("/test-volume-read-only/", buff)
finally:
if ctr is not None:
ctr.stop()
ctr.remove()
if vol is not None:
vol.remove(force=True)
def test_mount_preexisting_dir(self):
dockerfile = (B'FROM quay.io/libpod/alpine:latest\n'
B'USER root\n'
B'RUN mkdir -p /workspace\n'
B'RUN chown 1042:1043 /workspace')
img: Image
img, out = self.client.images.build(fileobj=io.BytesIO(dockerfile))
ctr: Container = self.client.containers.create(image=img.id, detach=True, command="top",
volumes=["test_mount_preexisting_dir_vol:/workspace"])
ctr.start()
ret, out = ctr.exec_run(["stat", "-c", "%u:%g", "/workspace"])
self.assertEqual(out.rstrip(), b'1042:1043', "UID/GID set in dockerfile")
def test_non_existant_workdir(self):
dockerfile = (B'FROM quay.io/libpod/alpine:latest\n'
B'USER root\n'
B'WORKDIR /workspace/scratch\n'
B'RUN touch test')
img: Image
img, out = self.client.images.build(fileobj=io.BytesIO(dockerfile))
ctr: Container = self.client.containers.create(image=img.id, detach=True, command="top",
volumes=["test_non_existant_workdir:/workspace"])
ctr.start()
ret, out = ctr.exec_run(["stat", "/workspace/scratch/test"])
self.assertEqual(ret, 0, "Working directory created if it doesn't exist")
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