Esempio n. 1
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class FakeVolume(object):

    def __init__(self, parent, owner, id, size, display_name,
                 display_description):
        self.parent = parent
        self.owner = owner  # This is a context.
        self.id = id
        self.size = size
        self.display_name = display_name
        self.display_description = display_description
        self.events = EventSimulator()
        self.schedule_status("BUILD", 0.0)

    def __repr__(self):
        return ("FakeVolume(id=%s, size=%s, "
               "display_name=%s, display_description=%s)") % (self.id,
               self.size, self.display_name, self.display_description)

    def schedule_status(self, new_status, time_from_now):
        """Makes a new status take effect at the given time."""
        def set_status():
            self._current_status = new_status
        self.events.add_event(time_from_now, set_status)

    @property
    def status(self):
        return self._current_status
Esempio n. 2
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    def start_mysql_with_conf_changes(self, updated_memory_size):
        from reddwarf.instance.models import InstanceServiceStatus
        from reddwarf.instance.models import ServiceStatuses

        def update_db():
            status = InstanceServiceStatus.find_by(instance_id=self.id)
            status.status = ServiceStatuses.RUNNING
            status.save()
        EventSimulator.add_event(0.5, update_db)
Esempio n. 3
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    def stop_mysql(self):
        from reddwarf.instance.models import InstanceServiceStatus
        from reddwarf.instance.models import ServiceStatuses

        def update_db():
            status = InstanceServiceStatus.find_by(instance_id=self.id)
            status.status = ServiceStatuses.SHUTDOWN
            status.save()
        EventSimulator.add_event(0.5, update_db)
Esempio n. 4
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    def prepare(self, databases, memory_mb, users, device_path=None,
                mount_point=None):
        from reddwarf.instance.models import InstanceServiceStatus
        from reddwarf.instance.models import ServiceStatuses

        def update_db():
            status = InstanceServiceStatus.find_by(instance_id=self.id)
            status.status = ServiceStatuses.RUNNING
            status.save()
        EventSimulator.add_event(2.0, update_db)
Esempio n. 5
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class FakeVolume(object):
    def __init__(self, parent, owner, id, size, display_name,
                 display_description):
        self.attachments = []
        self.parent = parent
        self.owner = owner  # This is a context.
        self.id = id
        self.size = size
        self.display_name = display_name
        self.display_description = display_description
        self.events = EventSimulator()
        self._current_status = "BUILD"
        # For some reason we grab this thing from device then call it mount
        # point.
        self.device = "/var/lib/mysql"

    def __repr__(self):
        msg = ("FakeVolume(id=%s, size=%s, display_name=%s, "
               "display_description=%s, _current_status=%s)")
        params = (self.id, self.size, self.display_name,
                  self.display_description, self._current_status)
        return (msg % params)

    @property
    def availability_zone(self):
        return "fake-availability-zone"

    @property
    def created_at(self):
        return "2001-01-01-12:30:30"

    def get(self, key):
        return getattr(self, key)

    def schedule_status(self, new_status, time_from_now):
        """Makes a new status take effect at the given time."""
        def set_status():
            self._current_status = new_status

        self.events.add_event(time_from_now, set_status)

    def set_attachment(self, server_id):
        """Fake method we've added to set attachments. Idempotent."""
        for attachment in self.attachments:
            if attachment['server_id'] == server_id:
                return  # Do nothing
        self.attachments.append({
            'server_id': server_id,
            'device': self.device
        })

    @property
    def status(self):
        return self._current_status
Esempio n. 6
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class FakeServer(object):

    def __init__(self, parent, owner, id, name, image_id, flavor_ref,
                 block_device_mapping):
        self.owner = owner  # This is a context.
        self.id = id
        self.parent = parent
        self.name = name
        self.image_id = image_id
        self.flavor_ref = flavor_ref
        self.events = EventSimulator()
        self.schedule_status("BUILD", 0.0)
        LOG.debug("block_device_mapping = %s" % block_device_mapping)
        self.block_device_mapping = block_device_mapping

    @property
    def addresses(self):
        return {"private": [{"addr":"123.123.123.123"}]}

    def delete(self):
        self.schedule_status = []
        self._current_status = "SHUTDOWN"
        self.parent.schedule_delete(self.id, 1.5)

    @property
    def flavor(self):
        return FLAVORS.get_by_href(self.flavor_ref).to_dict()

    @property
    def links(self):
        return [{
            "href": "https://localhost:9999/v1.0/1234/instances/%s" % self.id,
            "rel": link_type
            } for link_type in ['self', 'bookmark']]

    def schedule_status(self, new_status, time_from_now):
        """Makes a new status take effect at the given time."""
        def set_status():
            self._current_status = new_status
        self.events.add_event(time_from_now, set_status)

    @property
    def status(self):
        return self._current_status

    @property
    def created(self):
        return "2012-01-25T21:55:51Z"

    @property
    def updated(self):
        return "2012-01-25T21:55:51Z"
Esempio n. 7
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class FakeVolume(object):

    def __init__(self, parent, owner, id, size, display_name,
                 display_description):
        self.attachments = []
        self.parent = parent
        self.owner = owner  # This is a context.
        self.id = id
        self.size = size
        self.display_name = display_name
        self.display_description = display_description
        self.events = EventSimulator()
        self._current_status = "BUILD"
        # For some reason we grab this thing from device then call it mount
        # point.
        self.device = "/var/lib/mysql"

    def __repr__(self):
        msg = ("FakeVolume(id=%s, size=%s, display_name=%s, "
               "display_description=%s, _current_status=%s)")
        params = (self.id, self.size, self.display_name,
                  self.display_description, self._current_status)
        return (msg % params)

    @property
    def availability_zone(self):
        return "fake-availability-zone"

    @property
    def created_at(self):
        return "2001-01-01-12:30:30"

    def get(self, key):
        return getattr(self, key)

    def schedule_status(self, new_status, time_from_now):
        """Makes a new status take effect at the given time."""
        def set_status():
            self._current_status = new_status
        self.events.add_event(time_from_now, set_status)

    def set_attachment(self, server_id):
        """Fake method we've added to set attachments. Idempotent."""
        for attachment in self.attachments:
            if attachment['server_id'] == server_id:
                return  # Do nothing
        self.attachments.append({'server_id': server_id,
                                 'device': self.device})

    @property
    def status(self):
        return self._current_status
Esempio n. 8
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 def __init__(self, parent, owner, id, size, display_name,
              display_description):
     self.attachments = []
     self.parent = parent
     self.owner = owner  # This is a context.
     self.id = id
     self.size = size
     self.display_name = display_name
     self.display_description = display_description
     self.events = EventSimulator()
     self._current_status = "BUILD"
     # For some reason we grab this thing from device then call it mount
     # point.
     self.device = "/var/lib/mysql"
Esempio n. 9
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    def prepare(self, memory_mb, databases, users, device_path=None,
                mount_point=None):
        from reddwarf.instance.models import InstanceServiceStatus
        from reddwarf.instance.models import ServiceStatuses
        from reddwarf.guestagent.models import AgentHeartBeat
        LOG.debug("users... %s" % users)
        LOG.debug("databases... %s" % databases)
        self.create_user(users)
        self.create_database(databases)

        def update_db():
            status = InstanceServiceStatus.find_by(instance_id=self.id)
            status.status = ServiceStatuses.RUNNING
            status.save()
            AgentHeartBeat.create(instance_id=self.id)
        EventSimulator.add_event(2.0, update_db)
Esempio n. 10
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class FakeVolumes(object):

    def __init__(self, context):
        self.context = context
        self.db = FAKE_VOLUMES_DB
        self.events = EventSimulator()

    def can_see(self, id):
        """Can this FakeVolumes, with its context, see some resource?"""
        server = self.db[id]
        return (self.context.is_admin or
                server.owner.tenant == self.context.tenant)

    def get(self, id):
        if id not in self.db:
            LOG.error("Couldn't find volume id %s, collection=%s" % (id,
                                                                     self.db))
            raise nova_exceptions.NotFound(404, "Not found")
        else:
            if self.can_see(id):
                return self.db[id]
            else:
                raise nova_exceptions.NotFound(404, "Bad permissions")

    def create(self, size, display_name=None, display_description=None):
        id = "FAKE_VOL_%s" % uuid.uuid4()
        volume = FakeVolume(self, self.context, id, size, display_name,
                            display_description)
        self.db[id] = volume
        if size == 9:
            volume.schedule_status("error", 2)
        else:
            volume.schedule_status("available", 2)
        LOG.info("FAKE_VOLUMES_DB : %s" % FAKE_VOLUMES_DB)
        return volume

    def list(self, detailed=True):
        return [self.db[key] for key in self.db]

    def resize(self, volume_id, new_size):
        LOG.debug("Resize volume id (%s) to size (%s)" % (volume_id, new_size))
        volume = self.get(volume_id)

        def finish_resize():
            volume._current_status = "in-use"
            volume.size = new_size
        self.events.add_event(1.0, finish_resize)
Esempio n. 11
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class FakeVolumes(object):
    def __init__(self, context):
        self.context = context
        self.db = FAKE_VOLUMES_DB
        self.events = EventSimulator()

    def can_see(self, id):
        """Can this FakeVolumes, with its context, see some resource?"""
        server = self.db[id]
        return (self.context.is_admin
                or server.owner.tenant == self.context.tenant)

    def get(self, id):
        if id not in self.db:
            LOG.error("Couldn't find volume id %s, collection=%s" %
                      (id, self.db))
            raise nova_exceptions.NotFound(404, "Not found")
        else:
            if self.can_see(id):
                return self.db[id]
            else:
                raise nova_exceptions.NotFound(404, "Bad permissions")

    def create(self, size, display_name=None, display_description=None):
        id = "FAKE_VOL_%s" % uuid.uuid4()
        volume = FakeVolume(self, self.context, id, size, display_name,
                            display_description)
        self.db[id] = volume
        if size == 9:
            volume.schedule_status("error", 2)
        else:
            volume.schedule_status("available", 2)
        LOG.info("FAKE_VOLUMES_DB : %s" % FAKE_VOLUMES_DB)
        return volume

    def list(self, detailed=True):
        return [self.db[key] for key in self.db]

    def resize(self, volume_id, new_size):
        LOG.debug("Resize volume id (%s) to size (%s)" % (volume_id, new_size))
        volume = self.get(volume_id)

        def finish_resize():
            volume._current_status = "in-use"
            volume.size = new_size

        self.events.add_event(1.0, finish_resize)
Esempio n. 12
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class FakeServers(object):

    def __init__(self, context, flavors):
        self.context = context
        self.db = FAKE_SERVERS_DB
        self.flavors = flavors
        self.next_id = 10
        self.events = EventSimulator()

    def can_see(self, id):
        """Can this FakeServers, with its context, see some resource?"""
        server = self.db[id]
        return self.context.is_admin or \
               server.owner.tenant == self.context.tenant

    def create(self, name, image_id, flavor_ref, files, block_device_mapping):
        id = "FAKE_%d" % self.next_id
        self.next_id += 1
        server = FakeServer(self, self.context, id, name, image_id, flavor_ref,
                            block_device_mapping)
        self.db[id] = server
        server.schedule_status("ACTIVE", 1)
        LOG.info("FAKE_SERVERS_DB : %s" % str(FAKE_SERVERS_DB))
        return server

    def get(self, id):
        if id not in self.db:
            LOG.error("Couldn't find server id %s, collection=%s" % (id,
                                                                     self.db))
            raise nova_exceptions.NotFound(404, "Not found")
        else:
            if self.can_see(id):
                return self.db[id]
            else:
                raise nova_exceptions.NotFound(404, "Bad permissions")

    def list(self):
        return [v for (k, v) in self.db.items() if self.can_see(v.id)]

    def schedule_delete(self, id, time_from_now):
        def delete_server():
            LOG.info("Simulated event ended, deleting server %s." % id)
            del self.db[id]
        self.events.add_event(time_from_now, delete_server)
Esempio n. 13
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 def __init__(self, parent, owner, id, size, display_name,
              display_description):
     self.parent = parent
     self.owner = owner  # This is a context.
     self.id = id
     self.size = size
     self.display_name = display_name
     self.display_description = display_description
     self.events = EventSimulator()
     self.schedule_status("BUILD", 0.0)
Esempio n. 14
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 def __init__(self, parent, owner, id, name, image_id, flavor_ref,
              block_device_mapping):
     self.owner = owner  # This is a context.
     self.id = id
     self.parent = parent
     self.name = name
     self.image_id = image_id
     self.flavor_ref = flavor_ref
     self.events = EventSimulator()
     self.schedule_status("BUILD", 0.0)
     LOG.debug("block_device_mapping = %s" % block_device_mapping)
     self.block_device_mapping = block_device_mapping
Esempio n. 15
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    def prepare(self,
                memory_mb,
                databases,
                users,
                device_path=None,
                mount_point=None):
        from reddwarf.instance.models import InstanceServiceStatus
        from reddwarf.instance.models import ServiceStatuses
        from reddwarf.guestagent.models import AgentHeartBeat
        LOG.debug("users... %s" % users)
        LOG.debug("databases... %s" % databases)
        self.create_user(users)
        self.create_database(databases)

        def update_db():
            status = InstanceServiceStatus.find_by(instance_id=self.id)
            status.status = ServiceStatuses.RUNNING
            status.save()
            AgentHeartBeat.create(instance_id=self.id)

        EventSimulator.add_event(1.0, update_db)
Esempio n. 16
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 def __init__(self, parent, owner, id, name, image_id, flavor_ref,
              block_device_mapping, volumes):
     self.owner = owner  # This is a context.
     self.id = id
     self.parent = parent
     self.name = name
     self.image_id = image_id
     self.flavor_ref = flavor_ref
     self.events = EventSimulator()
     self.schedule_status("BUILD", 0.0)
     self.volumes = volumes
     for volume in self.volumes:
         volume.set_attachment(id)
Esempio n. 17
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    def __init__(self, parent, owner, id, name, image_id, flavor_ref,
                 block_device_mapping, volumes):
        self.owner = owner  # This is a context.
        self.id = id
        self.parent = parent
        self.name = name
        self.image_id = image_id
        self.flavor_ref = flavor_ref
        self.events = EventSimulator()
        self.schedule_status("BUILD", 0.0)
        self.volumes = volumes
        # This is used by "RdServers". Its easier to compute the
        # fake value in this class's initializer.
        self._local_id = self.next_local_id
        self.next_local_id += 1
        info_vols = []
        for volume in self.volumes:
            info_vols.append({'id': volume.id})
            volume.set_attachment(id)
        self.host = "fake_host"

        self._info = {'os:volumes': info_vols}
Esempio n. 18
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class FakeVolume(object):

    def __init__(self, parent, owner, id, size, display_name,
                 display_description):
        self.attachments = []
        self.parent = parent
        self.owner = owner  # This is a context.
        self.id = id
        self.size = size
        self.display_name = display_name
        self.display_description = display_description
        self.events = EventSimulator()
        self.schedule_status("BUILD", 0.0)

    def __repr__(self):
        return ("FakeVolume(id=%s, size=%s, "
               "display_name=%s, display_description=%s)") % (self.id,
               self.size, self.display_name, self.display_description)

    def get(self, key):
        return getattr(self, key)

    def schedule_status(self, new_status, time_from_now):
        """Makes a new status take effect at the given time."""
        def set_status():
            self._current_status = new_status
        self.events.add_event(time_from_now, set_status)

    def set_attachment(self, server_id):
        """Fake method we've added to set attachments. Idempotent."""
        for attachment in self.attachments:
            if attachment['server_id'] == server_id:
                return  # Do nothing
        self.attachments.append({'server_id':server_id})

    @property
    def status(self):
        return self._current_status
Esempio n. 19
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 def __init__(self, parent, owner, id, size, display_name,
              display_description):
     self.attachments = []
     self.parent = parent
     self.owner = owner  # This is a context.
     self.id = id
     self.size = size
     self.display_name = display_name
     self.display_description = display_description
     self.events = EventSimulator()
     self._current_status = "BUILD"
     # For some reason we grab this thing from device then call it mount
     # point.
     self.device = "/var/lib/mysql"
Esempio n. 20
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    def __init__(self, parent, owner, id, name, image_id, flavor_ref,
                 block_device_mapping, volumes):
        self.owner = owner  # This is a context.
        self.id = id
        self.parent = parent
        self.name = name
        self.image_id = image_id
        self.flavor_ref = flavor_ref
        self.events = EventSimulator()
        self.schedule_status("BUILD", 0.0)
        self.volumes = volumes
        # This is used by "RdServers". Its easier to compute the
        # fake value in this class's initializer.
        self._local_id = self.next_local_id
        self.next_local_id += 1
        info_vols = []
        for volume in self.volumes:
            info_vols.append({'id': volume.id})
            volume.set_attachment(id)
        self.host = "fake_host"

        self._info = {'os:volumes': info_vols}
Esempio n. 21
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class FakeServer(object):

    next_local_id = 0

    def __init__(self, parent, owner, id, name, image_id, flavor_ref,
                 block_device_mapping, volumes):
        self.owner = owner  # This is a context.
        self.id = id
        self.parent = parent
        self.name = name
        self.image_id = image_id
        self.flavor_ref = flavor_ref
        self.events = EventSimulator()
        self.schedule_status("BUILD", 0.0)
        self.volumes = volumes
        # This is used by "RdServers". Its easier to compute the
        # fake value in this class's initializer.
        self._local_id = self.next_local_id
        self.next_local_id += 1
        info_vols = []
        for volume in self.volumes:
            info_vols.append({'id': volume.id})
            volume.set_attachment(id)
        self.host = "fake_host"

        self._info = {'os:volumes': info_vols}

    @property
    def addresses(self):
        return {"private": [{"addr": "123.123.123.123"}]}

    def confirm_resize(self):
        if self.status != "VERIFY_RESIZE":
            raise RuntimeError("Not in resize confirm mode.")
        self._current_status = "ACTIVE"

    def reboot(self):
        LOG.debug("Rebooting server %s" % (self.id))
        self._current_status = "REBOOT"
        eventlet.sleep(1)
        self._current_status = "ACTIVE"
        self.parent.schedule_simulate_running_server(self.id, 1.5)

    def delete(self):
        self.schedule_status = []
        # TODO(pdmars): This is less than ideal, but a quick way to force it
        # into the error state before scheduling the delete.
        if (self.name.endswith("_DELETE_ERROR")
                and self._current_status != "SHUTDOWN"):
            # Fail to delete properly the first time, just set the status
            # to SHUTDOWN and break. It's important that we only fail to delete
            # once in fake mode.
            self._current_status = "SHUTDOWN"
            return
        self._current_status = "SHUTDOWN"
        self.parent.schedule_delete(self.id, 1.5)

    @property
    def flavor(self):
        return FLAVORS.get_by_href(self.flavor_ref).to_dict()

    @property
    def links(self):
        url = "https://localhost:9999/v1.0/1234/instances/%s" % self.id
        return [{
            "href": url,
            "rel": link_type
        } for link_type in ['self', 'bookmark']]

    def resize(self, new_flavor_id):
        self._current_status = "RESIZE"

        def set_to_confirm_mode():
            self._current_status = "VERIFY_RESIZE"

        def set_flavor():
            flavor = self.parent.flavors.get(new_flavor_id)
            self.flavor_ref = flavor.links[0]['href']
            self.events.add_event(1, set_to_confirm_mode)

        self.events.add_event(1, set_flavor)

    def schedule_status(self, new_status, time_from_now):
        """Makes a new status take effect at the given time."""
        def set_status():
            self._current_status = new_status

        self.events.add_event(time_from_now, set_status)

    @property
    def status(self):
        return self._current_status

    @property
    def created(self):
        return "2012-01-25T21:55:51Z"

    @property
    def updated(self):
        return "2012-01-25T21:55:51Z"

    @property
    def tenant(self):  # This is on the RdServer extension type.
        return self.owner.tenant

    @property
    def tenant_id(self):
        return self.owner.tenant
Esempio n. 22
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    def __init__(self, context, servers):

        self.context = context
        self.db = FAKE_SERVERS_DB
        self.servers = servers
        self.events = EventSimulator()
Esempio n. 23
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 def __init__(self, context):
     self.context = context
     self.db = FAKE_VOLUMES_DB
     self.events = EventSimulator()
Esempio n. 24
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class FakeServer(object):

    def __init__(self, parent, owner, id, name, image_id, flavor_ref,
                 block_device_mapping, volumes):
        self.owner = owner  # This is a context.
        self.id = id
        self.parent = parent
        self.name = name
        self.image_id = image_id
        self.flavor_ref = flavor_ref
        self.events = EventSimulator()
        self.schedule_status("BUILD", 0.0)
        self.volumes = volumes
        for volume in self.volumes:
            volume.set_attachment(id)

    @property
    def addresses(self):
        return {"private": [{"addr":"123.123.123.123"}]}

    def confirm_resize(self):
        if self.status != "VERIFY_RESIZE":
            raise RuntimeError("Not in resize confirm mode.")
        self._current_status = "ACTIVE"

    def delete(self):
        self.schedule_status = []
        self._current_status = "SHUTDOWN"
        self.parent.schedule_delete(self.id, 1.5)

    @property
    def flavor(self):
        return FLAVORS.get_by_href(self.flavor_ref).to_dict()

    @property
    def links(self):
        return [{
            "href": "https://localhost:9999/v1.0/1234/instances/%s" % self.id,
            "rel": link_type
            } for link_type in ['self', 'bookmark']]

    def resize(self, new_flavor_id):
        self._current_status = "RESIZE"

        def set_to_confirm_mode():
            self._current_status = "VERIFY_RESIZE"

        def set_flavor():
            flavor = self.parent.flavors.get(new_flavor_id)
            self.flavor_ref = flavor.links[0]['href']
            self.events.add_event(1, set_to_confirm_mode)

        self.events.add_event(1, set_flavor)

    def schedule_status(self, new_status, time_from_now):
        """Makes a new status take effect at the given time."""
        def set_status():
            self._current_status = new_status
        self.events.add_event(time_from_now, set_status)

    @property
    def status(self):
        return self._current_status

    @property
    def created(self):
        return "2012-01-25T21:55:51Z"

    @property
    def updated(self):
        return "2012-01-25T21:55:51Z"
Esempio n. 25
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 def __init__(self, context, flavors):
     self.context = context
     self.db = FAKE_SERVERS_DB
     self.flavors = flavors
     self.events = EventSimulator()
Esempio n. 26
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class FakeServers(object):
    def __init__(self, context, flavors):
        self.context = context
        self.db = FAKE_SERVERS_DB
        self.flavors = flavors
        self.events = EventSimulator()

    def can_see(self, id):
        """Can this FakeServers, with its context, see some resource?"""
        server = self.db[id]
        return (self.context.is_admin
                or server.owner.tenant == self.context.tenant)

    def create(self,
               name,
               image_id,
               flavor_ref,
               files=None,
               block_device_mapping=None,
               volume=None):
        id = "FAKE_%s" % uuid.uuid4()
        if volume:
            volume = self.volumes.create(volume['size'], volume['name'],
                                         volume['description'])
            while volume.status == "BUILD":
                eventlet.sleep(0.1)
            if volume.status != "available":
                LOG.info("volume status = %s" % volume.status)
                raise nova_exceptions.ClientException("Volume was bad!")
            mapping = "%s::%s:%s" % (volume.id, volume.size, 1)
            block_device_mapping = {'vdb': mapping}
            volumes = [volume]
        else:
            volumes = self._get_volumes_from_bdm(block_device_mapping)
        server = FakeServer(self, self.context, id, name, image_id, flavor_ref,
                            block_device_mapping, volumes)
        self.db[id] = server
        if name.endswith('SERVER_ERROR'):
            raise nova_exceptions.ClientException("Fake server create error.")
        server.schedule_status("ACTIVE", 1)
        LOG.info("FAKE_SERVERS_DB : %s" % str(FAKE_SERVERS_DB))
        return server

    def _get_volumes_from_bdm(self, block_device_mapping):
        volumes = []
        if block_device_mapping is not None:
            # block_device_mapping is a dictionary, where the key is the
            # device name on the compute instance and the mapping info is a
            # set of fields in a string, seperated by colons.
            # For each device, find the volume, and record the mapping info
            # to another fake object and attach it to the volume
            # so that the fake API can later retrieve this.
            for device in block_device_mapping:
                mapping = block_device_mapping[device]
                (id, _type, size, delete_on_terminate) = mapping.split(":")
                volume = self.volumes.get(id)
                volume.mapping = FakeBlockDeviceMappingInfo(
                    id, device, _type, size, delete_on_terminate)
                volumes.append(volume)
        return volumes

    def get(self, id):
        if id not in self.db:
            LOG.error("Couldn't find server id %s, collection=%s" %
                      (id, self.db))
            raise nova_exceptions.NotFound(404, "Not found")
        else:
            if self.can_see(id):
                return self.db[id]
            else:
                raise nova_exceptions.NotFound(404, "Bad permissions")

    def get_server_volumes(self, server_id):
        """Fake method we've added to grab servers from the volume."""
        return [
            volume.mapping for volume in self.get(server_id).volumes
            if volume.mapping is not None
        ]

    def list(self):
        return [v for (k, v) in self.db.items() if self.can_see(v.id)]

    def schedule_delete(self, id, time_from_now):
        def delete_server():
            LOG.info("Simulated event ended, deleting server %s." % id)
            del self.db[id]

        self.events.add_event(time_from_now, delete_server)

    def schedule_simulate_running_server(self, id, time_from_now):
        def set_server_running():
            from reddwarf.instance.models import DBInstance
            from reddwarf.instance.models import InstanceServiceStatus
            from reddwarf.instance.models import ServiceStatuses
            instance = DBInstance.find_by(compute_instance_id=id)
            LOG.debug("Setting server %s to running" % instance.id)
            status = InstanceServiceStatus.find_by(instance_id=instance.id)
            status.status = ServiceStatuses.RUNNING
            status.save()

        self.events.add_event(time_from_now, set_server_running)
Esempio n. 27
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class FakeServers(object):

    def __init__(self, context, flavors):
        self.context = context
        self.db = FAKE_SERVERS_DB
        self.flavors = flavors
        self.events = EventSimulator()

    def can_see(self, id):
        """Can this FakeServers, with its context, see some resource?"""
        server = self.db[id]
        return (self.context.is_admin or
                server.owner.tenant == self.context.tenant)

    def create(self, name, image_id, flavor_ref, files=None,
               block_device_mapping=None, volume=None):
        id = "FAKE_%s" % uuid.uuid4()
        if volume:
            volume = self.volumes.create(volume['size'], volume['name'],
                                         volume['description'])
            while volume.status == "BUILD":
                eventlet.sleep(0.1)
            if volume.status != "available":
                LOG.info("volume status = %s" % volume.status)
                raise nova_exceptions.ClientException("Volume was bad!")
            mapping = "%s::%s:%s" % (volume.id, volume.size, 1)
            block_device_mapping = {'vdb': mapping}
            volumes = [volume]
        else:
            volumes = self._get_volumes_from_bdm(block_device_mapping)
        server = FakeServer(self, self.context, id, name, image_id, flavor_ref,
                            block_device_mapping, volumes)
        self.db[id] = server
        if name.endswith('SERVER_ERROR'):
            raise nova_exceptions.ClientException("Fake server create error.")
        server.schedule_status("ACTIVE", 1)
        LOG.info("FAKE_SERVERS_DB : %s" % str(FAKE_SERVERS_DB))
        return server

    def _get_volumes_from_bdm(self, block_device_mapping):
        volumes = []
        if block_device_mapping is not None:
            # block_device_mapping is a dictionary, where the key is the
            # device name on the compute instance and the mapping info is a
            # set of fields in a string, seperated by colons.
            # For each device, find the volume, and record the mapping info
            # to another fake object and attach it to the volume
            # so that the fake API can later retrieve this.
            for device in block_device_mapping:
                mapping = block_device_mapping[device]
                (id, _type, size, delete_on_terminate) = mapping.split(":")
                volume = self.volumes.get(id)
                volume.mapping = FakeBlockDeviceMappingInfo(
                    id, device, _type, size, delete_on_terminate)
                volumes.append(volume)
        return volumes

    def get(self, id):
        if id not in self.db:
            LOG.error("Couldn't find server id %s, collection=%s" % (id,
                                                                     self.db))
            raise nova_exceptions.NotFound(404, "Not found")
        else:
            if self.can_see(id):
                return self.db[id]
            else:
                raise nova_exceptions.NotFound(404, "Bad permissions")

    def get_server_volumes(self, server_id):
        """Fake method we've added to grab servers from the volume."""
        return [volume.mapping
                for volume in self.get(server_id).volumes
                if volume.mapping is not None]

    def list(self):
        return [v for (k, v) in self.db.items() if self.can_see(v.id)]

    def schedule_delete(self, id, time_from_now):
        def delete_server():
            LOG.info("Simulated event ended, deleting server %s." % id)
            del self.db[id]
        self.events.add_event(time_from_now, delete_server)

    def schedule_simulate_running_server(self, id, time_from_now):
        def set_server_running():
            from reddwarf.instance.models import DBInstance
            from reddwarf.instance.models import InstanceServiceStatus
            from reddwarf.instance.models import ServiceStatuses
            instance = DBInstance.find_by(compute_instance_id=id)
            LOG.debug("Setting server %s to running" % instance.id)
            status = InstanceServiceStatus.find_by(instance_id=instance.id)
            status.status = ServiceStatuses.RUNNING
            status.save()
        self.events.add_event(time_from_now, set_server_running)
Esempio n. 28
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class FakeServer(object):

    next_local_id = 0

    def __init__(self, parent, owner, id, name, image_id, flavor_ref,
                 block_device_mapping, volumes):
        self.owner = owner  # This is a context.
        self.id = id
        self.parent = parent
        self.name = name
        self.image_id = image_id
        self.flavor_ref = flavor_ref
        self.events = EventSimulator()
        self.schedule_status("BUILD", 0.0)
        self.volumes = volumes
        # This is used by "RdServers". Its easier to compute the
        # fake value in this class's initializer.
        self._local_id = self.next_local_id
        self.next_local_id += 1
        info_vols = []
        for volume in self.volumes:
            info_vols.append({'id': volume.id})
            volume.set_attachment(id)
        self.host = "fake_host"

        self._info = {'os:volumes': info_vols}

    @property
    def addresses(self):
        return {"private": [{"addr":"123.123.123.123"}]}

    def confirm_resize(self):
        if self.status != "VERIFY_RESIZE":
            raise RuntimeError("Not in resize confirm mode.")
        self._current_status = "ACTIVE"

    def reboot(self):
        LOG.debug("Rebooting server %s" % (self.id))
        self._current_status = "REBOOT"
        eventlet.sleep(1)
        self._current_status = "ACTIVE"
        self.parent.schedule_simulate_running_server(self.id, 1.5)

    def delete(self):
        self.schedule_status = []
        # TODO(pdmars): This is less than ideal, but a quick way to force it
        # into the error state before scheduling the delete.
        if (self.name.endswith("_DELETE_ERROR") and
                self._current_status != "SHUTDOWN"):
            # Fail to delete properly the first time, just set the status
            # to SHUTDOWN and break. It's important that we only fail to delete
            # once in fake mode.
            self._current_status = "SHUTDOWN"
            return
        self._current_status = "SHUTDOWN"
        self.parent.schedule_delete(self.id, 1.5)

    @property
    def flavor(self):
        return FLAVORS.get_by_href(self.flavor_ref).to_dict()

    @property
    def links(self):
        url = "https://localhost:9999/v1.0/1234/instances/%s" % self.id
        return [{"href": url, "rel": link_type}
                for link_type in ['self', 'bookmark']]

    def resize(self, new_flavor_id):
        self._current_status = "RESIZE"

        def set_to_confirm_mode():
            self._current_status = "VERIFY_RESIZE"

        def set_flavor():
            flavor = self.parent.flavors.get(new_flavor_id)
            self.flavor_ref = flavor.links[0]['href']
            self.events.add_event(1, set_to_confirm_mode)

        self.events.add_event(1, set_flavor)

    def schedule_status(self, new_status, time_from_now):
        """Makes a new status take effect at the given time."""
        def set_status():
            self._current_status = new_status
        self.events.add_event(time_from_now, set_status)

    @property
    def status(self):
        return self._current_status

    @property
    def created(self):
        return "2012-01-25T21:55:51Z"

    @property
    def updated(self):
        return "2012-01-25T21:55:51Z"

    @property
    def tenant(self):   # This is on the RdServer extension type.
        return self.owner.tenant

    @property
    def tenant_id(self):
        return self.owner.tenant
Esempio n. 29
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 def __init__(self, context):
     self.context = context
     self.db = FAKE_VOLUMES_DB
     self.events = EventSimulator()
Esempio n. 30
0
 def __init__(self, context, flavors):
     self.context = context
     self.db = FAKE_SERVERS_DB
     self.flavors = flavors
     self.events = EventSimulator()
Esempio n. 31
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class FakeServers(object):

    def __init__(self, context, flavors):
        self.context = context
        self.db = FAKE_SERVERS_DB
        self.flavors = flavors
        self.next_id = 10
        self.events = EventSimulator()

    def can_see(self, id):
        """Can this FakeServers, with its context, see some resource?"""
        server = self.db[id]
        return self.context.is_admin or \
               server.owner.tenant == self.context.tenant

    def create(self, name, image_id, flavor_ref, files, block_device_mapping):
        id = "FAKE_%d" % self.next_id
        self.next_id += 1
        volumes = self._get_volumes_from_bdm(block_device_mapping)
        server = FakeServer(self, self.context, id, name, image_id, flavor_ref,
                            block_device_mapping, volumes)
        self.db[id] = server
        server.schedule_status("ACTIVE", 1)
        LOG.info("FAKE_SERVERS_DB : %s" % str(FAKE_SERVERS_DB))
        return server

    def _get_volumes_from_bdm(self, block_device_mapping):
        volumes = []
        if block_device_mapping is not None:
            # block_device_mapping is a dictionary, where the key is the
            # device name on the compute instance and the mapping info is a
            # set of fields in a string, seperated by colons.
            # For each device, find the volume, and record the mapping info
            # to another fake object and attach it to the volume
            # so that the fake API can later retrieve this.
            for device in block_device_mapping:
                mapping = block_device_mapping[device]
                (id, _type, size, delete_on_terminate) = mapping.split(":")
                volume = self.volumes.get(id)
                volume.mapping = FakeBlockDeviceMappingInfo(id, device,
                    _type, size, delete_on_terminate)
                volumes.append(volume)
        return volumes

    def get(self, id):
        if id not in self.db:
            LOG.error("Couldn't find server id %s, collection=%s" % (id,
                                                                     self.db))
            raise nova_exceptions.NotFound(404, "Not found")
        else:
            if self.can_see(id):
                return self.db[id]
            else:
                raise nova_exceptions.NotFound(404, "Bad permissions")

    def get_server_volumes(self, server_id):
        """Fake method we've added to grab servers from the volume."""
        return [volume.mapping
                for volume in self.get(server_id).volumes
                if volume.mapping is not None]

    def list(self):
        return [v for (k, v) in self.db.items() if self.can_see(v.id)]

    def schedule_delete(self, id, time_from_now):
        def delete_server():
            LOG.info("Simulated event ended, deleting server %s." % id)
            del self.db[id]
        self.events.add_event(time_from_now, delete_server)