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"""High level functions for working with containers.""" from __future__ import annotations import collections.abc as c import contextlib import enum import json import random import time import uuid import threading import typing as t from .util import ( ApplicationError, SubprocessError, display, sanitize_host_name, ) from .util_common import ( ExitHandler, named_temporary_file, ) from .config import ( EnvironmentConfig, IntegrationConfig, SanityConfig, ShellConfig, UnitsConfig, WindowsIntegrationConfig, ) from .docker_util import ( ContainerNotFoundError, DockerInspect, docker_create, docker_exec, docker_inspect, docker_network_inspect, docker_pull, docker_rm, docker_run, docker_start, get_docker_container_id, get_docker_host_ip, get_podman_host_ip, require_docker, detect_host_properties, ) from .ansible_util import ( run_playbook, ) from .core_ci import ( SshKey, ) from .target import ( IntegrationTarget, ) from .ssh import ( SshConnectionDetail, SshProcess, create_ssh_port_forwards, create_ssh_port_redirects, generate_ssh_inventory, ) from .host_configs import ( ControllerConfig, DockerConfig, OriginConfig, PosixSshConfig, PythonConfig, RemoteConfig, WindowsInventoryConfig, ) from .connections import ( SshConnection, ) from .thread import ( mutex, ) # information about support containers provisioned by the current ansible-test instance support_containers: dict[str, ContainerDescriptor] = {} support_containers_mutex = threading.Lock() class HostType: """Enum representing the types of hosts involved in running tests.""" origin = 'origin' control = 'control' managed = 'managed' class CleanupMode(enum.Enum): """How container cleanup should be handled.""" YES = enum.auto() NO = enum.auto() INFO = enum.auto() def run_support_container( args: EnvironmentConfig, context: str, image: str, name: str, ports: list[int], aliases: t.Optional[list[str]] = None, start: bool = True, allow_existing: bool = False, cleanup: t.Optional[CleanupMode] = None, cmd: t.Optional[list[str]] = None, env: t.Optional[dict[str, str]] = None, options: t.Optional[list[str]] = None, publish_ports: bool = True, ) -> t.Optional[ContainerDescriptor]: """ Start a container used to support tests, but not run them. Containers created this way will be accessible from tests. """ if args.prime_containers: docker_pull(args, image) return None # SSH is required for publishing ports, as well as modifying the hosts file. # Initializing the SSH key here makes sure it is available for use after delegation. SshKey(args) aliases = aliases or [sanitize_host_name(name)] docker_command = require_docker().command current_container_id = get_docker_container_id() if docker_command == 'docker': if isinstance(args.controller, DockerConfig) and all(isinstance(target, (ControllerConfig, DockerConfig)) for target in args.targets): publish_ports = False # publishing ports is not needed when test hosts are on the docker network if current_container_id: publish_ports = False # publishing ports is pointless if already running in a docker container options = options or [] if start: options.append('-dt') # the -t option is required to cause systemd in the container to log output to the console if publish_ports: for port in ports: options.extend(['-p', str(port)]) if env: for key, value in env.items(): options.extend(['--env', '%s=%s' % (key, value)]) max_open_files = detect_host_properties(args).max_open_files options.extend(['--ulimit', 'nofile=%s' % max_open_files]) support_container_id = None if allow_existing: try: container = docker_inspect(args, name) except ContainerNotFoundError: container = None if container: support_container_id = container.id if not container.running: display.info('Ignoring existing "%s" container which is not running.' % name, verbosity=1) support_container_id = None elif not container.image: display.info('Ignoring existing "%s" container which has the wrong image.' % name, verbosity=1) support_container_id = None elif publish_ports and not all(port and len(port) == 1 for port in [container.get_tcp_port(port) for port in ports]): display.info('Ignoring existing "%s" container which does not have the required published ports.' % name, verbosity=1) support_container_id = None if not support_container_id: docker_rm(args, name) if args.dev_systemd_debug: options.extend(('--env', 'SYSTEMD_LOG_LEVEL=debug')) if support_container_id: display.info('Using existing "%s" container.' % name) running = True existing = True else: display.info('Starting new "%s" container.' % name) docker_pull(args, image) support_container_id = run_container(args, image, name, options, create_only=not start, cmd=cmd) running = start existing = False if cleanup is None: cleanup = CleanupMode.INFO if existing else CleanupMode.YES descriptor = ContainerDescriptor( image, context, name, support_container_id, ports, aliases, publish_ports, running, existing, cleanup, env, ) with support_containers_mutex: if name in support_containers: raise Exception(f'Container already defined: {name}') if not support_containers: ExitHandler.register(cleanup_containers, args) support_containers[name] = descriptor display.info(f'Adding "{name}" to container database.') if start: descriptor.register(args) return descriptor def run_container( args: EnvironmentConfig, image: str, name: str, options: t.Optional[list[str]], cmd: t.Optional[list[str]] = None, create_only: bool = False, ) -> str: """Run a container using the given docker image.""" options = list(options or []) cmd = list(cmd or []) options.extend(['--name', name]) network = get_docker_preferred_network_name(args) if is_docker_user_defined_network(network): # Only when the network is not the default bridge network. options.extend(['--network', network]) for _iteration in range(1, 3): try: if create_only: stdout = docker_create(args, image, options, cmd)[0] else: stdout = docker_run(args, image, options, cmd)[0] except SubprocessError as ex: display.error(ex.message) display.warning(f'Failed to run docker image "{image}". Waiting a few seconds before trying again.') docker_rm(args, name) # podman doesn't remove containers after create if run fails time.sleep(3) else: if args.explain: stdout = ''.join(random.choice('0123456789abcdef') for _iteration in range(64)) return stdout.strip() raise ApplicationError(f'Failed to run docker image "{image}".') def start_container(args: EnvironmentConfig, container_id: str) -> tuple[t.Optional[str], t.Optional[str]]: """Start a docker container by name or ID.""" options: list[str] = [] for _iteration in range(1, 3): try: return docker_start(args, container_id, options) except SubprocessError as ex: display.error(ex.message) display.warning(f'Failed to start docker container "{container_id}". Waiting a few seconds before trying again.') time.sleep(3) raise ApplicationError(f'Failed to start docker container "{container_id}".') def get_container_ip_address(args: EnvironmentConfig, container: DockerInspect) -> t.Optional[str]: """Return the IP address of the container for the preferred docker network.""" if container.networks: network_name = get_docker_preferred_network_name(args) if not network_name: # Sort networks and use the first available. # This assumes all containers will have access to the same networks. network_name = sorted(container.networks.keys()).pop(0) ipaddress = container.networks[network_name]['IPAddress'] else: ipaddress = container.network_settings['IPAddress'] if not ipaddress: return None return ipaddress @mutex def get_docker_preferred_network_name(args: EnvironmentConfig) -> t.Optional[str]: """ Return the preferred network name for use with Docker. The selection logic is: - the network selected by the user with `--docker-network` - the network of the currently running docker container (if any) - the default docker network (returns None) """ try: return get_docker_preferred_network_name.network # type: ignore[attr-defined] except AttributeError: pass network = None if args.docker_network: network = args.docker_network else: current_container_id = get_docker_container_id() if current_container_id: # Make sure any additional containers we launch use the same network as the current container we're running in. # This is needed when ansible-test is running in a container that is not connected to Docker's default network. container = docker_inspect(args, current_container_id, always=True) network = container.get_network_name() # The default docker behavior puts containers on the same network. # The default podman behavior puts containers on isolated networks which don't allow communication between containers or network disconnect. # Starting with podman version 2.1.0 rootless containers are able to join networks. # Starting with podman version 2.2.0 containers can be disconnected from networks. # To maintain feature parity with docker, detect and use the default "podman" network when running under podman. if network is None and require_docker().command == 'podman' and docker_network_inspect(args, 'podman', always=True): network = 'podman' get_docker_preferred_network_name.network = network # type: ignore[attr-defined] return network def is_docker_user_defined_network(network: str) -> bool: """Return True if the network being used is a user-defined network.""" return bool(network) and network != 'bridge' @mutex def get_container_database(args: EnvironmentConfig) -> ContainerDatabase: """Return the current container database, creating it as needed, or returning the one provided on the command line through delegation.""" try: return get_container_database.database # type: ignore[attr-defined] except AttributeError: pass if args.containers: display.info('Parsing container database.', verbosity=1) database = ContainerDatabase.from_dict(json.loads(args.containers)) else: display.info('Creating container database.', verbosity=1) database = create_container_database(args) display.info('>>> Container Database\n%s' % json.dumps(database.to_dict(), indent=4, sort_keys=True), verbosity=3) get_container_database.database = database # type: ignore[attr-defined] return database class ContainerAccess: """Information needed for one test host to access a single container supporting tests.""" def __init__(self, host_ip: str, names: list[str], ports: t.Optional[list[int]], forwards: t.Optional[dict[int, int]]) -> None: # if forwards is set # this is where forwards are sent (it is the host that provides an indirect connection to the containers on alternate ports) # /etc/hosts uses 127.0.0.1 (since port redirection will be used) # else # this is what goes into /etc/hosts (it is the container's direct IP) self.host_ip = host_ip # primary name + any aliases -- these go into the hosts file and reference the appropriate ip for the origin/control/managed host self.names = names # ports available (set if forwards is not set) self.ports = ports # port redirections to create through host_ip -- if not set, no port redirections will be used self.forwards = forwards def port_map(self) -> list[tuple[int, int]]: """Return a port map for accessing this container.""" if self.forwards: ports = list(self.forwards.items()) else: ports = [(port, port) for port in self.ports] return ports @staticmethod def from_dict(data: dict[str, t.Any]) -> ContainerAccess: """Return a ContainerAccess instance from the given dict.""" forwards = data.get('forwards') if forwards: forwards = dict((int(key), value) for key, value in forwards.items()) return ContainerAccess( host_ip=data['host_ip'], names=data['names'], ports=data.get('ports'), forwards=forwards, ) def to_dict(self) -> dict[str, t.Any]: """Return a dict of the current instance.""" value: dict[str, t.Any] = dict( host_ip=self.host_ip, names=self.names, ) if self.ports: value.update(ports=self.ports) if self.forwards: value.update(forwards=self.forwards) return value class ContainerDatabase: """Database of running containers used to support tests.""" def __init__(self, data: dict[str, dict[str, dict[str, ContainerAccess]]]) -> None: self.data = data @staticmethod def from_dict(data: dict[str, t.Any]) -> ContainerDatabase: """Return a ContainerDatabase instance from the given dict.""" return ContainerDatabase(dict((access_name, dict((context_name, dict((container_name, ContainerAccess.from_dict(container)) for container_name, container in containers.items())) for context_name, containers in contexts.items())) for access_name, contexts in data.items())) def to_dict(self) -> dict[str, t.Any]: """Return a dict of the current instance.""" return dict((access_name, dict((context_name, dict((container_name, container.to_dict()) for container_name, container in containers.items())) for context_name, containers in contexts.items())) for access_name, contexts in self.data.items()) def local_ssh(args: EnvironmentConfig, python: PythonConfig) -> SshConnectionDetail: """Return SSH connection details for localhost, connecting as root to the default SSH port.""" return SshConnectionDetail('localhost', 'localhost', None, 'root', SshKey(args).key, python.path) def root_ssh(ssh: SshConnection) -> SshConnectionDetail: """Return the SSH connection details from the given SSH connection. If become was specified, the user will be changed to `root`.""" settings = ssh.settings.__dict__.copy() if ssh.become: settings.update( user='root', ) return SshConnectionDetail(**settings) def create_container_database(args: EnvironmentConfig) -> ContainerDatabase: """Create and return a container database with information necessary for all test hosts to make use of relevant support containers.""" origin: dict[str, dict[str, ContainerAccess]] = {} control: dict[str, dict[str, ContainerAccess]] = {} managed: dict[str, dict[str, ContainerAccess]] = {} for name, container in support_containers.items(): if container.details.published_ports: if require_docker().command == 'podman': host_ip_func = get_podman_host_ip else: host_ip_func = get_docker_host_ip published_access = ContainerAccess( host_ip=host_ip_func(), names=container.aliases, ports=None, forwards=dict((port, published_port) for port, published_port in container.details.published_ports.items()), ) else: published_access = None # no published access without published ports (ports are only published if needed) if container.details.container_ip: # docker containers, and rootfull podman containers should have a container IP address container_access = ContainerAccess( host_ip=container.details.container_ip, names=container.aliases, ports=container.ports, forwards=None, ) elif require_docker().command == 'podman': # published ports for rootless podman containers should be accessible from the host's IP container_access = ContainerAccess( host_ip=get_podman_host_ip(), names=container.aliases, ports=None, forwards=dict((port, published_port) for port, published_port in container.details.published_ports.items()), ) else: container_access = None # no container access without an IP address if get_docker_container_id(): if not container_access: raise Exception('Missing IP address for container: %s' % name) origin_context = origin.setdefault(container.context, {}) origin_context[name] = container_access elif not published_access: pass # origin does not have network access to the containers else: origin_context = origin.setdefault(container.context, {}) origin_context[name] = published_access if isinstance(args.controller, RemoteConfig): pass # SSH forwarding required elif '-controller-' in name: pass # hack to avoid exposing the controller container to the controller elif isinstance(args.controller, DockerConfig) or (isinstance(args.controller, OriginConfig) and get_docker_container_id()): if container_access: control_context = control.setdefault(container.context, {}) control_context[name] = container_access else: raise Exception('Missing IP address for container: %s' % name) else: if not published_access: raise Exception('Missing published ports for container: %s' % name) control_context = control.setdefault(container.context, {}) control_context[name] = published_access if issubclass(args.target_type, (RemoteConfig, WindowsInventoryConfig, PosixSshConfig)): pass # SSH forwarding required elif '-controller-' in name or '-target-' in name: pass # hack to avoid exposing the controller and target containers to the target elif issubclass(args.target_type, DockerConfig) or (issubclass(args.target_type, OriginConfig) and get_docker_container_id()): if container_access: managed_context = managed.setdefault(container.context, {}) managed_context[name] = container_access else: raise Exception('Missing IP address for container: %s' % name) else: if not published_access: raise Exception('Missing published ports for container: %s' % name) managed_context = managed.setdefault(container.context, {}) managed_context[name] = published_access data = { HostType.origin: origin, HostType.control: control, HostType.managed: managed, } data = dict((key, value) for key, value in data.items() if value) return ContainerDatabase(data) class SupportContainerContext: """Context object for tracking information relating to access of support containers.""" def __init__(self, containers: ContainerDatabase, process: t.Optional[SshProcess]) -> None: self.containers = containers self.process = process def close(self) -> None: """Close the process maintaining the port forwards.""" if not self.process: return # forwarding not in use self.process.terminate() display.info('Waiting for the session SSH port forwarding process to terminate.', verbosity=1) self.process.wait() @contextlib.contextmanager def support_container_context( args: EnvironmentConfig, ssh: t.Optional[SshConnectionDetail], ) -> c.Iterator[t.Optional[ContainerDatabase]]: """Create a context manager for integration tests that use support containers.""" if not isinstance(args, (IntegrationConfig, UnitsConfig, SanityConfig, ShellConfig)): yield None # containers are only needed for commands that have targets (hosts or pythons) return containers = get_container_database(args) if not containers.data: yield ContainerDatabase({}) # no containers are being used, return an empty database return context = create_support_container_context(args, ssh, containers) try: yield context.containers finally: context.close() def create_support_container_context( args: EnvironmentConfig, ssh: t.Optional[SshConnectionDetail], containers: ContainerDatabase, ) -> SupportContainerContext: """Context manager that provides SSH port forwards. Returns updated container metadata.""" host_type = HostType.control revised = ContainerDatabase(containers.data.copy()) source = revised.data.pop(HostType.origin, None) container_map: dict[tuple[str, int], tuple[str, str, int]] = {} if host_type not in revised.data: if not source: raise Exception('Missing origin container details.') for context_name, context in source.items(): for container_name, container in context.items(): if '-controller-' in container_name: continue # hack to avoid exposing the controller container to the controller for port, access_port in container.port_map(): container_map[(container.host_ip, access_port)] = (context_name, container_name, port) if not container_map: return SupportContainerContext(revised, None) if not ssh: raise Exception('The %s host was not pre-configured for container access and SSH forwarding is not available.' % host_type) forwards = list(container_map.keys()) process = create_ssh_port_forwards(args, ssh, forwards) result = SupportContainerContext(revised, process) try: port_forwards = process.collect_port_forwards() contexts: dict[str, dict[str, ContainerAccess]] = {} for forward, forwarded_port in port_forwards.items(): access_host, access_port = forward context_name, container_name, container_port = container_map[(access_host, access_port)] container = source[context_name][container_name] context = contexts.setdefault(context_name, {}) forwarded_container = context.setdefault(container_name, ContainerAccess('127.0.0.1', container.names, None, {})) forwarded_container.forwards[container_port] = forwarded_port display.info('Container "%s" port %d available at %s:%d is forwarded over SSH as port %d.' % ( container_name, container_port, access_host, access_port, forwarded_port, ), verbosity=1) revised.data[host_type] = contexts return result except Exception: result.close() raise class ContainerDescriptor: """Information about a support container.""" def __init__( self, image: str, context: str, name: str, container_id: str, ports: list[int], aliases: list[str], publish_ports: bool, running: bool, existing: bool, cleanup: CleanupMode, env: t.Optional[dict[str, str]], ) -> None: self.image = image self.context = context self.name = name self.container_id = container_id self.ports = ports self.aliases = aliases self.publish_ports = publish_ports self.running = running self.existing = existing self.cleanup = cleanup self.env = env self.details: t.Optional[SupportContainer] = None def start(self, args: EnvironmentConfig) -> None: """Start the container. Used for containers which are created, but not started.""" start_container(args, self.name) self.register(args) def register(self, args: EnvironmentConfig) -> SupportContainer: """Record the container's runtime details. Must be used after the container has been started.""" if self.details: raise Exception('Container already registered: %s' % self.name) try: container = docker_inspect(args, self.name) except ContainerNotFoundError: if not args.explain: raise # provide enough mock data to keep --explain working container = DockerInspect(args, dict( Id=self.container_id, NetworkSettings=dict( IPAddress='127.0.0.1', Ports=dict(('%d/tcp' % port, [dict(HostPort=random.randint(30000, 40000) if self.publish_ports else port)]) for port in self.ports), ), Config=dict( Env=['%s=%s' % (key, value) for key, value in self.env.items()] if self.env else [], ), )) support_container_ip = get_container_ip_address(args, container) if self.publish_ports: # inspect the support container to locate the published ports tcp_ports = dict((port, container.get_tcp_port(port)) for port in self.ports) if any(not config or len(set(conf['HostPort'] for conf in config)) != 1 for config in tcp_ports.values()): raise ApplicationError('Unexpected `docker inspect` results for published TCP ports:\n%s' % json.dumps(tcp_ports, indent=4, sort_keys=True)) published_ports = dict((port, int(config[0]['HostPort'])) for port, config in tcp_ports.items()) else: published_ports = {} self.details = SupportContainer( container, support_container_ip, published_ports, ) return self.details class SupportContainer: """Information about a running support container available for use by tests.""" def __init__( self, container: DockerInspect, container_ip: str, published_ports: dict[int, int], ) -> None: self.container = container self.container_ip = container_ip self.published_ports = published_ports def wait_for_file( args: EnvironmentConfig, container_name: str, path: str, sleep: int, tries: int, check: t.Optional[c.Callable[[str], bool]] = None, ) -> str: """Wait for the specified file to become available in the requested container and return its contents.""" display.info('Waiting for container "%s" to provide file: %s' % (container_name, path)) for _iteration in range(1, tries): if _iteration > 1: time.sleep(sleep) try: stdout = docker_exec(args, container_name, ['dd', 'if=%s' % path], capture=True)[0] except SubprocessError: continue if not check or check(stdout): return stdout raise ApplicationError('Timeout waiting for container "%s" to provide file: %s' % (container_name, path)) def cleanup_containers(args: EnvironmentConfig) -> None: """Clean up containers.""" for container in support_containers.values(): if container.cleanup == CleanupMode.YES: docker_rm(args, container.container_id) elif container.cleanup == CleanupMode.INFO: display.notice(f'Remember to run `{require_docker().command} rm -f {container.name}` when finished testing.') def create_hosts_entries(context: dict[str, ContainerAccess]) -> list[str]: """Return hosts entries for the specified context.""" entries = [] unique_id = uuid.uuid4() for container in context.values(): # forwards require port redirection through localhost if container.forwards: host_ip = '127.0.0.1' else: host_ip = container.host_ip entries.append('%s %s # ansible-test %s' % (host_ip, ' '.join(container.names), unique_id)) return entries def create_container_hooks( args: IntegrationConfig, control_connections: list[SshConnectionDetail], managed_connections: t.Optional[list[SshConnectionDetail]], ) -> tuple[t.Optional[c.Callable[[IntegrationTarget], None]], t.Optional[c.Callable[[IntegrationTarget], None]]]: """Return pre and post target callbacks for enabling and disabling container access for each test target.""" containers = get_container_database(args) control_contexts = containers.data.get(HostType.control) if control_contexts: managed_contexts = containers.data.get(HostType.managed) if not managed_contexts: managed_contexts = create_managed_contexts(control_contexts) control_type = 'posix' if isinstance(args, WindowsIntegrationConfig): managed_type = 'windows' else: managed_type = 'posix' control_state: dict[str, tuple[list[str], list[SshProcess]]] = {} managed_state: dict[str, tuple[list[str], list[SshProcess]]] = {} def pre_target(target: IntegrationTarget) -> None: """Configure hosts for SSH port forwarding required by the specified target.""" forward_ssh_ports(args, control_connections, '%s_hosts_prepare.yml' % control_type, control_state, target, HostType.control, control_contexts) forward_ssh_ports(args, managed_connections, '%s_hosts_prepare.yml' % managed_type, managed_state, target, HostType.managed, managed_contexts) def post_target(target: IntegrationTarget) -> None: """Clean up previously configured SSH port forwarding which was required by the specified target.""" cleanup_ssh_ports(args, control_connections, '%s_hosts_restore.yml' % control_type, control_state, target, HostType.control) cleanup_ssh_ports(args, managed_connections, '%s_hosts_restore.yml' % managed_type, managed_state, target, HostType.managed) else: pre_target, post_target = None, None return pre_target, post_target def create_managed_contexts(control_contexts: dict[str, dict[str, ContainerAccess]]) -> dict[str, dict[str, ContainerAccess]]: """Create managed contexts from the given control contexts.""" managed_contexts: dict[str, dict[str, ContainerAccess]] = {} for context_name, control_context in control_contexts.items(): managed_context = managed_contexts[context_name] = {} for container_name, control_container in control_context.items(): managed_context[container_name] = ContainerAccess(control_container.host_ip, control_container.names, None, dict(control_container.port_map())) return managed_contexts def forward_ssh_ports( args: IntegrationConfig, ssh_connections: t.Optional[list[SshConnectionDetail]], playbook: str, target_state: dict[str, tuple[list[str], list[SshProcess]]], target: IntegrationTarget, host_type: str, contexts: dict[str, dict[str, ContainerAccess]], ) -> None: """Configure port forwarding using SSH and write hosts file entries.""" if ssh_connections is None: return test_context = None for context_name, context in contexts.items(): context_alias = 'cloud/%s/' % context_name if context_alias in target.aliases: test_context = context break if not test_context: return if not ssh_connections: if args.explain: return raise Exception('The %s host was not pre-configured for container access and SSH forwarding is not available.' % host_type) redirects: list[tuple[int, str, int]] = [] messages = [] for container_name, container in test_context.items(): explain = [] for container_port, access_port in container.port_map(): if container.forwards: redirects.append((container_port, container.host_ip, access_port)) explain.append('%d -> %s:%d' % (container_port, container.host_ip, access_port)) else: explain.append('%s:%d' % (container.host_ip, container_port)) if explain: if container.forwards: message = 'Port forwards for the "%s" container have been established on the %s host' % (container_name, host_type) else: message = 'Ports for the "%s" container are available on the %s host as' % (container_name, host_type) messages.append('%s:\n%s' % (message, '\n'.join(explain))) hosts_entries = create_hosts_entries(test_context) inventory = generate_ssh_inventory(ssh_connections) with named_temporary_file(args, 'ssh-inventory-', '.json', None, inventory) as inventory_path: # type: str run_playbook(args, inventory_path, playbook, capture=False, variables=dict(hosts_entries=hosts_entries)) ssh_processes: list[SshProcess] = [] if redirects: for ssh in ssh_connections: ssh_processes.append(create_ssh_port_redirects(args, ssh, redirects)) target_state[target.name] = (hosts_entries, ssh_processes) for message in messages: display.info(message, verbosity=1) def cleanup_ssh_ports( args: IntegrationConfig, ssh_connections: list[SshConnectionDetail], playbook: str, target_state: dict[str, tuple[list[str], list[SshProcess]]], target: IntegrationTarget, host_type: str, ) -> None: """Stop previously configured SSH port forwarding and remove previously written hosts file entries.""" state = target_state.pop(target.name, None) if not state: return (hosts_entries, ssh_processes) = state inventory = generate_ssh_inventory(ssh_connections) with named_temporary_file(args, 'ssh-inventory-', '.json', None, inventory) as inventory_path: # type: str run_playbook(args, inventory_path, playbook, capture=False, variables=dict(hosts_entries=hosts_entries)) if ssh_processes: for process in ssh_processes: process.terminate() display.info('Waiting for the %s host SSH port forwarding process(es) to terminate.' % host_type, verbosity=1) for process in ssh_processes: process.wait()