# -*- coding: utf-8 -*- ''' Integration tests for the docker_container states ''' # Import Python Libs from __future__ import absolute_import, print_function, unicode_literals import errno import functools import logging import os import subprocess import tempfile # Import Salt Testing Libs from tests.support.unit import skipIf from tests.support.case import ModuleCase from tests.support.docker import with_network, random_name from tests.support.paths import FILES, TMP from tests.support.helpers import destructiveTest from tests.support.mixins import SaltReturnAssertsMixin # Import Salt Libs import salt.utils.files import salt.utils.network import salt.utils.path from salt.exceptions import CommandExecutionError # Import 3rd-party libs from salt.ext import six log = logging.getLogger(__name__) IPV6_ENABLED = bool(salt.utils.network.ip_addrs6(include_loopback=True)) def with_temp_dir(func): ''' Generate a temp directory for a test ''' @functools.wraps(func) def wrapper(self, *args, **kwargs): tempdir = tempfile.mkdtemp(dir=TMP) try: return func(self, tempdir, *args, **kwargs) finally: try: salt.utils.files.rm_rf(tempdir) except OSError as exc: if exc.errno != errno.ENOENT: raise return wrapper def container_name(func): ''' Generate a randomized name for a container and clean it up afterward ''' @functools.wraps(func) def wrapper(self, *args, **kwargs): name = random_name(prefix='salt_test_') try: return func(self, name, *args, **kwargs) finally: try: self.run_function('docker.rm', [name], force=True) except CommandExecutionError as exc: if 'No such container' not in exc.__str__(): raise return wrapper @destructiveTest @skipIf(not salt.utils.path.which('busybox'), 'Busybox not installed') @skipIf(not salt.utils.path.which('dockerd'), 'Docker not installed') class DockerContainerTestCase(ModuleCase, SaltReturnAssertsMixin): ''' Test docker_container states ''' @classmethod def setUpClass(cls): ''' ''' # Create temp dir cls.image_build_rootdir = tempfile.mkdtemp(dir=TMP) # Generate image name cls.image = random_name(prefix='salt_busybox_') script_path = \ os.path.join(FILES, 'file/base/mkimage-busybox-static') cmd = [script_path, cls.image_build_rootdir, cls.image] log.debug('Running \'%s\' to build busybox image', ' '.join(cmd)) process = subprocess.Popen( cmd, close_fds=True, stdout=subprocess.PIPE, stderr=subprocess.STDOUT) output = process.communicate()[0] log.debug('Output from mkimge-busybox-static:\n%s', output) if process.returncode != 0: raise Exception('Failed to build image') try: salt.utils.files.rm_rf(cls.image_build_rootdir) except OSError as exc: if exc.errno != errno.ENOENT: raise @classmethod def tearDownClass(cls): cmd = ['docker', 'rmi', '--force', cls.image] log.debug('Running \'%s\' to destroy busybox image', ' '.join(cmd)) process = subprocess.Popen( cmd, close_fds=True, stdout=subprocess.PIPE, stderr=subprocess.STDOUT) output = process.communicate()[0] log.debug('Output from %s:\n%s', ' '.join(cmd), output) if process.returncode != 0: raise Exception('Failed to destroy image') def run_state(self, function, **kwargs): ret = super(DockerContainerTestCase, self).run_state(function, **kwargs) log.debug('ret = %s', ret) return ret @with_temp_dir @container_name def test_running_with_no_predefined_volume(self, name, bind_dir_host): ''' This tests that a container created using the docker_container.running state, with binds defined, will also create the corresponding volumes if they aren't pre-defined in the image. ''' ret = self.run_state( 'docker_container.running', name=name, image=self.image, binds=bind_dir_host + ':/foo', shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Now check to ensure that the container has volumes to match the # binds that we used when creating it. ret = self.run_function('docker.inspect_container', [name]) self.assertTrue('/foo' in ret['Config']['Volumes']) @container_name def test_running_with_no_predefined_ports(self, name): ''' This tests that a container created using the docker_container.running state, with port_bindings defined, will also configure the corresponding ports if they aren't pre-defined in the image. ''' ret = self.run_state( 'docker_container.running', name=name, image=self.image, port_bindings='14505-14506:24505-24506,2123:2123/udp,8080', shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Now check to ensure that the container has ports to match the # port_bindings that we used when creating it. expected_ports = (4505, 4506, 8080, '2123/udp') ret = self.run_function('docker.inspect_container', [name]) self.assertTrue(x in ret['NetworkSettings']['Ports'] for x in expected_ports) @container_name def test_running_updated_image_id(self, name): ''' This tests the case of an image being changed after the container is created. The next time the state is run, the container should be replaced because the image ID is now different. ''' # Create and start a container ret = self.run_state( 'docker_container.running', name=name, image=self.image, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Get the container's info c_info = self.run_function('docker.inspect_container', [name]) c_name, c_id = (c_info[x] for x in ('Name', 'Id')) # Alter the filesystem inside the container self.assertEqual( self.run_function('docker.retcode', [name, 'touch /.salttest']), 0 ) # Commit the changes and overwrite the test class' image self.run_function('docker.commit', [c_id, self.image]) # Re-run the state ret = self.run_state( 'docker_container.running', name=name, image=self.image, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Check to make sure that the container was replaced self.assertTrue('container_id' in ret['changes']) # Check to make sure that the image is in the changes dict, since # it should have changed self.assertTrue('image' in ret['changes']) # Check that the comment in the state return states that # container's image has changed self.assertTrue('Container has a new image' in ret['comment']) @container_name def test_running_start_false_without_replace(self, name): ''' Test that we do not start a container which is stopped, when it is not being replaced. ''' # Create a container ret = self.run_state( 'docker_container.running', name=name, image=self.image, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Stop the container self.run_function('docker.stop', [name], force=True) # Re-run the state with start=False ret = self.run_state( 'docker_container.running', name=name, image=self.image, start=False, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Check to make sure that the container was not replaced self.assertTrue('container_id' not in ret['changes']) # Check to make sure that the state is not the changes dict, since # it should not have changed self.assertTrue('state' not in ret['changes']) @container_name def test_running_start_false_with_replace(self, name): ''' Test that we do start a container which was previously stopped, even though start=False, because the container was replaced. ''' # Create a container ret = self.run_state( 'docker_container.running', name=name, image=self.image, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Stop the container self.run_function('docker.stop', [name], force=True) # Re-run the state with start=False but also change the command to # trigger the container being replaced. ret = self.run_state( 'docker_container.running', name=name, image=self.image, command='sleep 600', start=False, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Check to make sure that the container was not replaced self.assertTrue('container_id' in ret['changes']) # Check to make sure that the state is not the changes dict, since # it should not have changed self.assertTrue('state' not in ret['changes']) @container_name def test_running_start_true(self, name): ''' This tests that we *do* start a container that is stopped, when the "start" argument is set to True. ''' # Create a container ret = self.run_state( 'docker_container.running', name=name, image=self.image, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Stop the container self.run_function('docker.stop', [name], force=True) # Re-run the state with start=True ret = self.run_state( 'docker_container.running', name=name, image=self.image, start=True, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Check to make sure that the container was not replaced self.assertTrue('container_id' not in ret['changes']) # Check to make sure that the state is in the changes dict, since # it should have changed self.assertTrue('state' in ret['changes']) # Check that the comment in the state return states that # container's state has changed self.assertTrue( "State changed from 'stopped' to 'running'" in ret['comment']) @container_name def test_running_with_invalid_input(self, name): ''' This tests that the input tranlation code identifies invalid input and includes information about that invalid argument in the state return. ''' # Try to create a container with invalid input ret = self.run_state( 'docker_container.running', name=name, image=self.image, ulimits='nofile:2048', shutdown_timeout=1, ) self.assertSaltFalseReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Check to make sure that the container was not created self.assertTrue('container_id' not in ret['changes']) # Check that the error message about the invalid argument is # included in the comment for the state self.assertTrue( 'Ulimit definition \'nofile:2048\' is not in the format ' 'type=soft_limit[:hard_limit]' in ret['comment'] ) @container_name def test_running_with_argument_collision(self, name): ''' this tests that the input tranlation code identifies an argument collision (API args and their aliases being simultaneously used) and includes information about them in the state return. ''' # try to create a container with invalid input ret = self.run_state( 'docker_container.running', name=name, image=self.image, ulimits='nofile=2048', ulimit='nofile=1024:2048', shutdown_timeout=1, ) self.assertSaltFalseReturn(ret) # Ciscard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Check to make sure that the container was not created self.assertTrue('container_id' not in ret['changes']) # Check that the error message about the collision is included in # the comment for the state self.assertTrue( '\'ulimit\' is an alias for \'ulimits\'' in ret['comment']) @container_name def test_running_with_ignore_collisions(self, name): ''' This tests that the input tranlation code identifies an argument collision (API args and their aliases being simultaneously used) includes information about them in the state return. ''' # try to create a container with invalid input ret = self.run_state( 'docker_container.running', name=name, image=self.image, ignore_collisions=True, ulimits='nofile=2048', ulimit='nofile=1024:2048', shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Check to make sure that the container was created self.assertTrue('container_id' in ret['changes']) # Check that the value from the API argument was one that was used # to create the container c_info = self.run_function('docker.inspect_container', [name]) actual = c_info['HostConfig']['Ulimits'] expected = [{'Name': 'nofile', 'Soft': 2048, 'Hard': 2048}] self.assertEqual(actual, expected) @container_name def test_running_with_removed_argument(self, name): ''' This tests that removing an argument from a created container will be detected and result in the container being replaced. It also tests that we revert back to the value from the image. This way, when the "command" argument is removed, we confirm that we are reverting back to the image's command. ''' # Create the container ret = self.run_state( 'docker_container.running', name=name, image=self.image, command='sleep 600', shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Run the state again with the "command" argument removed ret = self.run_state( 'docker_container.running', name=name, image=self.image, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Now check to ensure that the changes include the command # reverting back to the image's command. image_info = self.run_function('docker.inspect_image', [self.image]) self.assertEqual( ret['changes']['container']['Config']['Cmd']['new'], image_info['Config']['Cmd'] ) @container_name def test_running_with_port_bindings(self, name): ''' This tests that the ports which are being bound are also exposed, even when not explicitly configured. This test will create a container with only some of the ports exposed, including some which aren't even bound. The resulting containers exposed ports should contain all of the ports defined in the "ports" argument, as well as each of the ports which are being bound. ''' # Create the container ret = self.run_state( 'docker_container.running', name=name, image=self.image, command='sleep 600', shutdown_timeout=1, port_bindings=[1234, '1235-1236', '2234/udp', '2235-2236/udp'], ports=[1235, '2235/udp', 9999], ) self.assertSaltTrueReturn(ret) # Check the created container's port bindings and exposed ports. The # port bindings should only contain the ports defined in the # port_bindings argument, while the exposed ports should also contain # the extra port (9999/tcp) which was included in the ports argument. cinfo = self.run_function('docker.inspect_container', [name]) ports = ['1234/tcp', '1235/tcp', '1236/tcp', '2234/udp', '2235/udp', '2236/udp'] self.assertEqual( sorted(cinfo['HostConfig']['PortBindings']), ports ) self.assertEqual( sorted(cinfo['Config']['ExposedPorts']), ports + ['9999/tcp'] ) @container_name def test_absent_with_stopped_container(self, name): ''' This tests the docker_container.absent state on a stopped container ''' # Create the container self.run_function('docker.create', [self.image], name=name) # Remove the container ret = self.run_state( 'docker_container.absent', name=name, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Check that we have a removed container ID in the changes dict self.assertTrue('removed' in ret['changes']) # Run the state again to confirm it changes nothing ret = self.run_state( 'docker_container.absent', name=name, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Nothing should have changed self.assertEqual(ret['changes'], {}) # Ensure that the comment field says the container does not exist self.assertEqual( ret['comment'], 'Container \'{0}\' does not exist'.format(name) ) @container_name def test_absent_with_running_container(self, name): ''' This tests the docker_container.absent state and ''' # Create the container ret = self.run_state( 'docker_container.running', name=name, image=self.image, command='sleep 600', shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Try to remove the container. This should fail because force=True # is needed to remove a container that is running. ret = self.run_state( 'docker_container.absent', name=name, shutdown_timeout=1, ) self.assertSaltFalseReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Nothing should have changed self.assertEqual(ret['changes'], {}) # Ensure that the comment states that force=True is required self.assertEqual( ret['comment'], 'Container is running, set force to True to forcibly remove it' ) # Try again with force=True. This should succeed. ret = self.run_state('docker_container.absent', name=name, force=True, shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) # Discard the outer dict with the state compiler data to make below # asserts easier to read/write ret = ret[next(iter(ret))] # Check that we have a removed container ID in the changes dict self.assertTrue('removed' in ret['changes']) # The comment should mention that the container was removed self.assertEqual( ret['comment'], 'Forcibly removed container \'{0}\''.format(name) ) @container_name def test_env_with_running_container(self, name): ''' docker_container.running environnment part. Testing issue 39838. ''' ret = self.run_state( 'docker_container.running', name=name, image=self.image, env='VAR1=value1,VAR2=value2,VAR3=value3', shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) ret = self.run_function('docker.inspect_container', [name]) self.assertTrue('VAR1=value1' in ret['Config']['Env']) self.assertTrue('VAR2=value2' in ret['Config']['Env']) self.assertTrue('VAR3=value3' in ret['Config']['Env']) ret = self.run_state( 'docker_container.running', name=name, image=self.image, env='VAR1=value1,VAR2=value2', shutdown_timeout=1, ) self.assertSaltTrueReturn(ret) ret = self.run_function('docker.inspect_container', [name]) self.assertTrue('VAR1=value1' in ret['Config']['Env']) self.assertTrue('VAR2=value2' in ret['Config']['Env']) self.assertTrue('VAR3=value3' not in ret['Config']['Env']) def _test_running(self, container_name, *nets): ''' DRY function for testing static IPs ''' networks = [] for net in nets: net_def = { net.name: [ {net.ip_arg: net[0]} ] } networks.append(net_def) kwargs = { 'name': container_name, 'image': self.image, 'networks': networks, 'shutdown_timeout': 1, } # Create a container ret = self.run_state('docker_container.running', **kwargs) self.assertSaltTrueReturn(ret) inspect_result = self.run_function('docker.inspect_container', [container_name]) connected_networks = inspect_result['NetworkSettings']['Networks'] # Check that the correct IP was set try: for net in nets: self.assertEqual( connected_networks[net.name]['IPAMConfig'][net.arg_map(net.ip_arg)], net[0] ) except KeyError: # Fail with a meaningful error msg = ( 'Container does not have the expected network config for ' 'network {0}'.format(net.name) ) log.error(msg) log.error('Connected networks: %s', connected_networks) self.fail('{0}. See log for more information.'.format(msg)) # Check that container continued running and didn't immediately exit self.assertTrue(inspect_result['State']['Running']) # Update the SLS configuration to use the second random IP so that we # can test updating a container's network configuration without # replacing the container. for idx, net in enumerate(nets): kwargs['networks'][idx][net.name][0][net.ip_arg] = net[1] ret = self.run_state('docker_container.running', **kwargs) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] expected = {'container': {'Networks': {}}} for net in nets: expected['container']['Networks'][net.name] = { 'IPAMConfig': { 'old': {net.arg_map(net.ip_arg): net[0]}, 'new': {net.arg_map(net.ip_arg): net[1]}, } } self.assertEqual(ret['changes'], expected) expected = [ "Container '{0}' is already configured as specified.".format( container_name ) ] expected.extend([ "Reconnected to network '{0}' with updated configuration.".format( x.name ) for x in sorted(nets, key=lambda y: y.name) ]) expected = ' '.join(expected) self.assertEqual(ret['comment'], expected) # Update the SLS configuration to remove the last network log.critical('networks = %s', kwargs['networks']) kwargs['networks'].pop(-1) ret = self.run_state('docker_container.running', **kwargs) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] expected = { 'container': { 'Networks': { nets[-1].name: { 'IPAMConfig': { 'old': { nets[-1].arg_map(nets[-1].ip_arg): nets[-1][1] }, 'new': None, } } } } } self.assertEqual(ret['changes'], expected) expected = ( "Container '{0}' is already configured as specified. Disconnected " "from network '{1}'.".format(container_name, nets[-1].name) ) self.assertEqual(ret['comment'], expected) # Update the SLS configuration to add back the last network, only use # an automatic IP instead of static IP. kwargs['networks'].append(nets[-1].name) ret = self.run_state('docker_container.running', **kwargs) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] # Get the automatic IP by inspecting the container, and use it to build # the expected changes. container_netinfo = self.run_function( 'docker.inspect_container', [container_name]).get('NetworkSettings', {}).get('Networks', {})[nets[-1].name] autoip_keys = self.minion_opts['docker.compare_container_networks']['automatic'] autoip_config = { x: y for x, y in six.iteritems(container_netinfo) if x in autoip_keys and y } expected = {'container': {'Networks': {nets[-1].name: {}}}} for key, val in six.iteritems(autoip_config): expected['container']['Networks'][nets[-1].name][key] = { 'old': None, 'new': val } self.assertEqual(ret['changes'], expected) expected = ( "Container '{0}' is already configured as specified. Connected " "to network '{1}'.".format(container_name, nets[-1].name) ) self.assertEqual(ret['comment'], expected) # Update the SLS configuration to remove the last network kwargs['networks'].pop(-1) ret = self.run_state('docker_container.running', **kwargs) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] expected = {'container': {'Networks': {nets[-1].name: {}}}} for key, val in six.iteritems(autoip_config): expected['container']['Networks'][nets[-1].name][key] = { 'old': val, 'new': None } self.assertEqual(ret['changes'], expected) expected = ( "Container '{0}' is already configured as specified. Disconnected " "from network '{1}'.".format(container_name, nets[-1].name) ) self.assertEqual(ret['comment'], expected) @with_network(subnet='10.247.197.96/27', create=True) @container_name def test_running_ipv4(self, container_name, *nets): self._test_running(container_name, *nets) @with_network(subnet='10.247.197.128/27', create=True) @with_network(subnet='10.247.197.96/27', create=True) @container_name def test_running_dual_ipv4(self, container_name, *nets): self._test_running(container_name, *nets) @with_network(subnet='fe3f:2180:26:1::/123', create=True) @container_name @skipIf(not IPV6_ENABLED, 'IPv6 not enabled') def test_running_ipv6(self, container_name, *nets): self._test_running(container_name, *nets) @with_network(subnet='fe3f:2180:26:1::20/123', create=True) @with_network(subnet='fe3f:2180:26:1::/123', create=True) @container_name @skipIf(not IPV6_ENABLED, 'IPv6 not enabled') def test_running_dual_ipv6(self, container_name, *nets): self._test_running(container_name, *nets) @with_network(subnet='fe3f:2180:26:1::/123', create=True) @with_network(subnet='10.247.197.96/27', create=True) @container_name @skipIf(not IPV6_ENABLED, 'IPv6 not enabled') def test_running_mixed_ipv4_and_ipv6(self, container_name, *nets): self._test_running(container_name, *nets) @container_name def test_run_with_onlyif(self, name): ''' Test docker_container.run with onlyif. The container should not run (and the state should return a True result) if the onlyif has a nonzero return code, but if the onlyif has a zero return code the container should run. ''' for cmd in ('/bin/false', ['/bin/true', '/bin/false']): log.debug('Trying %s', cmd) ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami', onlyif=cmd) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertFalse(ret['changes']) self.assertTrue( ret['comment'].startswith( 'onlyif command /bin/false returned exit code of' ) ) self.run_function('docker.rm', [name], force=True) for cmd in ('/bin/true', ['/bin/true', 'ls /']): log.debug('Trying %s', cmd) ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami', onlyif=cmd) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertEqual(ret['changes']['Logs'], 'root\n') self.assertEqual( ret['comment'], 'Container ran and exited with a return code of 0' ) self.run_function('docker.rm', [name], force=True) @container_name def test_run_with_unless(self, name): ''' Test docker_container.run with unless. The container should not run (and the state should return a True result) if the unless has a zero return code, but if the unless has a nonzero return code the container should run. ''' for cmd in ('/bin/true', ['/bin/false', '/bin/true']): log.debug('Trying %s', cmd) ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami', unless=cmd) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertFalse(ret['changes']) self.assertEqual( ret['comment'], 'unless command /bin/true returned exit code of 0' ) self.run_function('docker.rm', [name], force=True) for cmd in ('/bin/false', ['/bin/false', 'ls /paththatdoesnotexist']): log.debug('Trying %s', cmd) ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami', unless=cmd) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertEqual(ret['changes']['Logs'], 'root\n') self.assertEqual( ret['comment'], 'Container ran and exited with a return code of 0' ) self.run_function('docker.rm', [name], force=True) @container_name def test_run_with_creates(self, name): ''' Test docker_container.run with creates. The container should not run (and the state should return a True result) if all of the files exist, but if if any of the files do not exist the container should run. ''' def _mkstemp(): fd, ret = tempfile.mkstemp() try: os.close(fd) except OSError as exc: if exc.errno != errno.EBADF: raise exc else: self.addCleanup(os.remove, ret) return ret bad_file = '/tmp/filethatdoesnotexist' good_file1 = _mkstemp() good_file2 = _mkstemp() for path in (good_file1, [good_file1, good_file2]): log.debug('Trying %s', path) ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami', creates=path) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertFalse(ret['changes']) self.assertEqual( ret['comment'], 'All specified paths in \'creates\' argument exist' ) self.run_function('docker.rm', [name], force=True) for path in (bad_file, [good_file1, bad_file]): log.debug('Trying %s', path) ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami', creates=path) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertEqual(ret['changes']['Logs'], 'root\n') self.assertEqual( ret['comment'], 'Container ran and exited with a return code of 0' ) self.run_function('docker.rm', [name], force=True) @container_name def test_run_replace(self, name): ''' Test the replace and force arguments to make sure they work properly ''' # Run once to create the container ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami') self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertEqual(ret['changes']['Logs'], 'root\n') self.assertEqual( ret['comment'], 'Container ran and exited with a return code of 0' ) # Run again with replace=False, this should fail ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami', replace=False) self.assertSaltFalseReturn(ret) ret = ret[next(iter(ret))] self.assertFalse(ret['changes']) self.assertEqual( ret['comment'], 'Encountered error running container: Container \'{0}\' exists. ' 'Run with replace=True to remove the existing container'.format(name) ) # Run again with replace=True, this should proceed and there should be # a "Replaces" key in the changes dict to show that a container was # replaced. ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami', replace=True) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertEqual(ret['changes']['Logs'], 'root\n') self.assertTrue('Replaces' in ret['changes']) self.assertEqual( ret['comment'], 'Container ran and exited with a return code of 0' ) @container_name def test_run_force(self, name): ''' Test the replace and force arguments to make sure they work properly ''' # Start up a container that will stay running ret = self.run_state( 'docker_container.running', name=name, image=self.image) self.assertSaltTrueReturn(ret) # Run again with replace=True, this should fail because the container # is still running ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami', replace=True, force=False) self.assertSaltFalseReturn(ret) ret = ret[next(iter(ret))] self.assertFalse(ret['changes']) self.assertEqual( ret['comment'], 'Encountered error running container: Container \'{0}\' exists ' 'and is running. Run with replace=True and force=True to force ' 'removal of the existing container.'.format(name) ) # Run again with replace=True and force=True, this should proceed and # there should be a "Replaces" key in the changes dict to show that a # container was replaced. ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='whoami', replace=True, force=True) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertEqual(ret['changes']['Logs'], 'root\n') self.assertTrue('Replaces' in ret['changes']) self.assertEqual( ret['comment'], 'Container ran and exited with a return code of 0' ) @container_name def test_run_failhard(self, name): ''' Test to make sure that we fail a state when the container exits with nonzero status if failhard is set to True, and that we don't when it is set to False. ''' ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='/bin/false', failhard=True) self.assertSaltFalseReturn(ret) ret = ret[next(iter(ret))] self.assertEqual(ret['changes']['Logs'], '') self.assertTrue( ret['comment'].startswith( 'Container ran and exited with a return code of' ) ) self.run_function('docker.rm', [name], force=True) ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='/bin/false', failhard=False) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertEqual(ret['changes']['Logs'], '') self.assertTrue( ret['comment'].startswith( 'Container ran and exited with a return code of' ) ) self.run_function('docker.rm', [name], force=True) @container_name def test_run_bg(self, name): ''' Test to make sure that if the container is run in the background, we do not include an ExitCode or Logs key in the return. Then check the logs for the container to ensure that it ran as expected. ''' ret = self.run_state( 'docker_container.run', name=name, image=self.image, command='sh -c "sleep 5 && whoami"', bg=True) self.assertSaltTrueReturn(ret) ret = ret[next(iter(ret))] self.assertTrue('Logs' not in ret['changes']) self.assertTrue('ExitCode' not in ret['changes']) self.assertEqual(ret['comment'], 'Container was run in the background') # Now check the logs. The expectation is that the above asserts # completed during the 5-second sleep. self.assertEqual( self.run_function('docker.logs', [name], follow=True), 'root\n' )