docker-compose/compose/project.py

from __future__ import absolute_import
from __future__ import unicode_literals

import datetime
import logging
import operator
from functools import reduce

import enum
from docker.errors import APIError

from . import parallel
from .config import ConfigurationError
from .config.config import V1
from .config.sort_services import get_container_name_from_network_mode
from .config.sort_services import get_service_name_from_network_mode
from .const import DEFAULT_TIMEOUT
from .const import IMAGE_EVENTS
from .const import LABEL_ONE_OFF
from .const import LABEL_PROJECT
from .const import LABEL_SERVICE
from .container import Container
from .network import build_networks
from .network import get_networks
from .network import ProjectNetworks
from .service import BuildAction
from .service import ContainerNetworkMode
from .service import ConvergenceStrategy
from .service import NetworkMode
from .service import Service
from .service import ServiceNetworkMode
from .utils import microseconds_from_time_nano
from .volume import ProjectVolumes


log = logging.getLogger(__name__)


@enum.unique
class OneOffFilter(enum.Enum):
    include = 0
    exclude = 1
    only = 2

    @classmethod
    def update_labels(cls, value, labels):
        if value == cls.only:
            labels.append('{0}={1}'.format(LABEL_ONE_OFF, "True"))
        elif value == cls.exclude:
            labels.append('{0}={1}'.format(LABEL_ONE_OFF, "False"))
        elif value == cls.include:
            pass
        else:
            raise ValueError("Invalid value for one_off: {}".format(repr(value)))


class Project(object):
    """
    A collection of services.
    """
    def __init__(self, name, services, client, networks=None, volumes=None):
        self.name = name
        self.services = services
        self.client = client
        self.volumes = volumes or ProjectVolumes({})
        self.networks = networks or ProjectNetworks({}, False)

    def labels(self, one_off=OneOffFilter.exclude):
        labels = ['{0}={1}'.format(LABEL_PROJECT, self.name)]

        OneOffFilter.update_labels(one_off, labels)
        return labels

    @classmethod
    def from_config(cls, name, config_data, client):
        """
        Construct a Project from a config.Config object.
        """
        use_networking = (config_data.version and config_data.version != V1)
        networks = build_networks(name, config_data, client)
        project_networks = ProjectNetworks.from_services(
            config_data.services,
            networks,
            use_networking)
        volumes = ProjectVolumes.from_config(name, config_data, client)
        project = cls(name, [], client, project_networks, volumes)

        for service_dict in config_data.services:
            service_dict = dict(service_dict)
            if use_networking:
                service_networks = get_networks(service_dict, networks)
            else:
                service_networks = {}

            service_dict.pop('networks', None)
            links = project.get_links(service_dict)
            network_mode = project.get_network_mode(
                service_dict, list(service_networks.keys())
            )
            volumes_from = get_volumes_from(project, service_dict)

            if config_data.version != V1:
                service_dict['volumes'] = [
                    volumes.namespace_spec(volume_spec)
                    for volume_spec in service_dict.get('volumes', [])
                ]

            project.services.append(
                Service(
                    service_dict.pop('name'),
                    client=client,
                    project=name,
                    use_networking=use_networking,
                    networks=service_networks,
                    links=links,
                    network_mode=network_mode,
                    volumes_from=volumes_from,
                    **service_dict)
            )

        return project

    @property
    def service_names(self):
        return [service.name for service in self.services]

    def get_service(self, name):
        """
        Retrieve a service by name. Raises NoSuchService
        if the named service does not exist.
        """
        for service in self.services:
            if service.name == name:
                return service

        raise NoSuchService(name)

    def validate_service_names(self, service_names):
        """
        Validate that the given list of service names only contains valid
        services. Raises NoSuchService if one of the names is invalid.
        """
        valid_names = self.service_names
        for name in service_names:
            if name not in valid_names:
                raise NoSuchService(name)

    def get_services(self, service_names=None, include_deps=False):
        """
        Returns a list of this project's services filtered
        by the provided list of names, or all services if service_names is None
        or [].

        If include_deps is specified, returns a list including the dependencies for
        service_names, in order of dependency.

        Preserves the original order of self.services where possible,
        reordering as needed to resolve dependencies.

        Raises NoSuchService if any of the named services do not exist.
        """
        if service_names is None or len(service_names) == 0:
            service_names = self.service_names

        unsorted = [self.get_service(name) for name in service_names]
        services = [s for s in self.services if s in unsorted]

        if include_deps:
            services = reduce(self._inject_deps, services, [])

        uniques = []
        [uniques.append(s) for s in services if s not in uniques]

        return uniques

    def get_services_without_duplicate(self, service_names=None, include_deps=False):
        services = self.get_services(service_names, include_deps)
        for service in services:
            service.remove_duplicate_containers()
        return services

    def get_links(self, service_dict):
        links = []
        if 'links' in service_dict:
            for link in service_dict.get('links', []):
                if ':' in link:
                    service_name, link_name = link.split(':', 1)
                else:
                    service_name, link_name = link, None
                try:
                    links.append((self.get_service(service_name), link_name))
                except NoSuchService:
                    raise ConfigurationError(
                        'Service "%s" has a link to service "%s" which does not '
                        'exist.' % (service_dict['name'], service_name))
            del service_dict['links']
        return links

    def get_network_mode(self, service_dict, networks):
        network_mode = service_dict.pop('network_mode', None)
        if not network_mode:
            if self.networks.use_networking:
                return NetworkMode(networks[0]) if networks else NetworkMode('none')
            return NetworkMode(None)

        service_name = get_service_name_from_network_mode(network_mode)
        if service_name:
            return ServiceNetworkMode(self.get_service(service_name))

        container_name = get_container_name_from_network_mode(network_mode)
        if container_name:
            try:
                return ContainerNetworkMode(Container.from_id(self.client, container_name))
            except APIError:
                raise ConfigurationError(
                    "Service '{name}' uses the network stack of container '{dep}' which "
                    "does not exist.".format(name=service_dict['name'], dep=container_name))

        return NetworkMode(network_mode)

    def start(self, service_names=None, **options):
        containers = []

        def start_service(service):
            service_containers = service.start(quiet=True, **options)
            containers.extend(service_containers)

        services = self.get_services(service_names)

        def get_deps(service):
            return {self.get_service(dep) for dep in service.get_dependency_names()}

        parallel.parallel_execute(
            services,
            start_service,
            operator.attrgetter('name'),
            'Starting',
            get_deps)

        return containers

    def stop(self, service_names=None, one_off=OneOffFilter.exclude, **options):
        containers = self.containers(service_names, one_off=one_off)

        def get_deps(container):
            # actually returning inversed dependencies
            return {other for other in containers
                    if container.service in
                    self.get_service(other.service).get_dependency_names()}

        parallel.parallel_execute(
            containers,
            operator.methodcaller('stop', **options),
            operator.attrgetter('name'),
            'Stopping',
            get_deps)

    def pause(self, service_names=None, **options):
        containers = self.containers(service_names)
        parallel.parallel_pause(reversed(containers), options)
        return containers

    def unpause(self, service_names=None, **options):
        containers = self.containers(service_names)
        parallel.parallel_unpause(containers, options)
        return containers

    def kill(self, service_names=None, **options):
        parallel.parallel_kill(self.containers(service_names), options)

    def remove_stopped(self, service_names=None, one_off=OneOffFilter.exclude, **options):
        parallel.parallel_remove(self.containers(
            service_names, stopped=True, one_off=one_off
        ), options)

    def down(self, remove_image_type, include_volumes, remove_orphans=False):
        self.stop(one_off=OneOffFilter.include)
        self.find_orphan_containers(remove_orphans)
        self.remove_stopped(v=include_volumes, one_off=OneOffFilter.include)

        self.networks.remove()

        if include_volumes:
            self.volumes.remove()

        self.remove_images(remove_image_type)

    def remove_images(self, remove_image_type):
        for service in self.get_services():
            service.remove_image(remove_image_type)

    def restart(self, service_names=None, **options):
        containers = self.containers(service_names, stopped=True)
        parallel.parallel_restart(containers, options)
        return containers

    def build(self, service_names=None, no_cache=False, pull=False, force_rm=False):
        for service in self.get_services(service_names):
            if service.can_be_built():
                service.build(no_cache, pull, force_rm)
            else:
                log.info('%s uses an image, skipping' % service.name)

    def create(
        self,
        service_names=None,
        strategy=ConvergenceStrategy.changed,
        do_build=BuildAction.none,
    ):
        services = self.get_services_without_duplicate(service_names, include_deps=True)

        for svc in services:
            svc.ensure_image_exists(do_build=do_build)
        plans = self._get_convergence_plans(services, strategy)

        for service in services:
            service.execute_convergence_plan(
                plans[service.name],
                detached=True,
                start=False)

    def events(self, service_names=None):
        def build_container_event(event, container):
            time = datetime.datetime.fromtimestamp(event['time'])
            time = time.replace(
                microsecond=microseconds_from_time_nano(event['timeNano']))
            return {
                'time': time,
                'type': 'container',
                'action': event['status'],
                'id': container.id,
                'service': container.service,
                'attributes': {
                    'name': container.name,
                    'image': event['from'],
                },
                'container': container,
            }

        service_names = set(service_names or self.service_names)
        for event in self.client.events(
            filters={'label': self.labels()},
            decode=True
        ):
            # The first part of this condition is a guard against some events
            # broadcasted by swarm that don't have a status field.
            # See https://github.com/docker/compose/issues/3316
            if 'status' not in event or event['status'] in IMAGE_EVENTS:
                # We don't receive any image events because labels aren't applied
                # to images
                continue

            # TODO: get labels from the API v1.22 , see github issue 2618
            try:
                # this can fail if the conatiner has been removed
                container = Container.from_id(self.client, event['id'])
            except APIError:
                continue
            if container.service not in service_names:
                continue
            yield build_container_event(event, container)

    def up(self,
           service_names=None,
           start_deps=True,
           strategy=ConvergenceStrategy.changed,
           do_build=BuildAction.none,
           timeout=DEFAULT_TIMEOUT,
           detached=False,
           remove_orphans=False):

        warn_for_swarm_mode(self.client)

        self.initialize()
        self.find_orphan_containers(remove_orphans)

        services = self.get_services_without_duplicate(
            service_names,
            include_deps=start_deps)

        for svc in services:
            svc.ensure_image_exists(do_build=do_build)
        plans = self._get_convergence_plans(services, strategy)

        def do(service):
            return service.execute_convergence_plan(
                plans[service.name],
                timeout=timeout,
                detached=detached
            )

        def get_deps(service):
            return {self.get_service(dep) for dep in service.get_dependency_names()}

        results, errors = parallel.parallel_execute(
            services,
            do,
            operator.attrgetter('name'),
            None,
            get_deps
        )
        if errors:
            raise ProjectError(
                'Encountered errors while bringing up the project.'
            )

        return [
            container
            for svc_containers in results
            if svc_containers is not None
            for container in svc_containers
        ]

    def initialize(self):
        self.networks.initialize()
        self.volumes.initialize()

    def _get_convergence_plans(self, services, strategy):
        plans = {}

        for service in services:
            updated_dependencies = [
                name
                for name in service.get_dependency_names()
                if name in plans and
                plans[name].action in ('recreate', 'create')
            ]

            if updated_dependencies and strategy.allows_recreate:
                log.debug('%s has upstream changes (%s)',
                          service.name,
                          ", ".join(updated_dependencies))
                plan = service.convergence_plan(ConvergenceStrategy.always)
            else:
                plan = service.convergence_plan(strategy)

            plans[service.name] = plan

        return plans

    def pull(self, service_names=None, ignore_pull_failures=False):
        for service in self.get_services(service_names, include_deps=False):
            service.pull(ignore_pull_failures)

    def push(self, service_names=None, ignore_push_failures=False):
        for service in self.get_services(service_names, include_deps=False):
            service.push(ignore_push_failures)

    def _labeled_containers(self, stopped=False, one_off=OneOffFilter.exclude):
        return list(filter(None, [
            Container.from_ps(self.client, container)
            for container in self.client.containers(
                all=stopped,
                filters={'label': self.labels(one_off=one_off)})])
        )

    def containers(self, service_names=None, stopped=False, one_off=OneOffFilter.exclude):
        if service_names:
            self.validate_service_names(service_names)
        else:
            service_names = self.service_names

        containers = self._labeled_containers(stopped, one_off)

        def matches_service_names(container):
            return container.labels.get(LABEL_SERVICE) in service_names

        return [c for c in containers if matches_service_names(c)]

    def find_orphan_containers(self, remove_orphans):
        def _find():
            containers = self._labeled_containers()
            for ctnr in containers:
                service_name = ctnr.labels.get(LABEL_SERVICE)
                if service_name not in self.service_names:
                    yield ctnr
        orphans = list(_find())
        if not orphans:
            return
        if remove_orphans:
            for ctnr in orphans:
                log.info('Removing orphan container "{0}"'.format(ctnr.name))
                ctnr.kill()
                ctnr.remove(force=True)
        else:
            log.warning(
                'Found orphan containers ({0}) for this project. If '
                'you removed or renamed this service in your compose '
                'file, you can run this command with the '
                '--remove-orphans flag to clean it up.'.format(
                    ', '.join(["{}".format(ctnr.name) for ctnr in orphans])
                )
            )

    def _inject_deps(self, acc, service):
        dep_names = service.get_dependency_names()

        if len(dep_names) > 0:
            dep_services = self.get_services(
                service_names=list(set(dep_names)),
                include_deps=True
            )
        else:
            dep_services = []

        dep_services.append(service)
        return acc + dep_services


def get_volumes_from(project, service_dict):
    volumes_from = service_dict.pop('volumes_from', None)
    if not volumes_from:
        return []

    def build_volume_from(spec):
        if spec.type == 'service':
            try:
                return spec._replace(source=project.get_service(spec.source))
            except NoSuchService:
                pass

        if spec.type == 'container':
            try:
                container = Container.from_id(project.client, spec.source)
                return spec._replace(source=container)
            except APIError:
                pass

        raise ConfigurationError(
            "Service \"{}\" mounts volumes from \"{}\", which is not the name "
            "of a service or container.".format(
                service_dict['name'],
                spec.source))

    return [build_volume_from(vf) for vf in volumes_from]


def warn_for_swarm_mode(client):
    info = client.info()
    if info.get('Swarm', {}).get('LocalNodeState') == 'active':
        if info.get('ServerVersion', '').startswith('ucp'):
            # UCP does multi-node scheduling with traditional Compose files.
            return

        log.warn(
            "The Docker Engine you're using is running in swarm mode.\n\n"
            "Compose does not use swarm mode to deploy services to multiple nodes in a swarm. "
            "All containers will be scheduled on the current node.\n\n"
            "To deploy your application across the swarm, "
            "use the bundle feature of the Docker experimental build.\n\n"
            "More info:\n"
            "https://docs.docker.com/compose/bundles\n"
        )


class NoSuchService(Exception):
    def __init__(self, name):
        self.name = name
        self.msg = "No such service: %s" % self.name

    def __str__(self):
        return self.msg


class ProjectError(Exception):
    def __init__(self, msg):
        self.msg = msg