========================== Driver BDM Data Structures ========================== In addition to the :doc:`API BDM data format ` there are also several internal data structures within Nova that map out how block devices are attached to instances. This document aims to outline the two general data structures and two additional specific data structures used by the libvirt virt driver. .. note:: This document is based on an email to the openstack-dev mailing list by Matthew Booth below provided as a primer for developers working on virt drivers and interacting with these data structures. http://lists.openstack.org/pipermail/openstack-dev/2016-June/097529.html .. note:: References to local disks in the following document refer to any disk directly managed by nova compute. If nova is configured to use RBD or NFS for instance disks then these disks won't actually be local, but they are still managed locally and referred to as local disks. As opposed to RBD volumes provided by Cinder that are not considered local. Generic BDM data structures =========================== ``BlockDeviceMapping`` ---------------------- The 'top level' data structure is the ``BlockDeviceMapping`` (BDM) object. It is a ``NovaObject``, persisted in the DB. Current code creates a BDM object for every disk associated with an instance, whether it is a volume or not. The BDM object describes properties of each disk as specified by the user. It is initially from a user request, for more details on the format of these requests please see the :doc:`Block Device Mapping in Nova <../user/block-device-mapping>` document. The Compute API transforms and consolidates all BDMs to ensure that all disks, explicit or implicit, have a BDM, and then persists them. Look in ``nova.objects.block_device`` for all BDM fields, but in essence they contain information like (source_type='image', destination_type='local', image_id='), or equivalents describing ephemeral disks, swap disks or volumes, and some associated data. .. note:: BDM objects are typically stored in variables called ``bdm`` with lists in ``bdms``, although this is obviously not guaranteed (and unfortunately not always true: ``bdm`` in ``libvirt.block_device`` is usually a ``DriverBlockDevice`` object). This is a useful reading aid (except when it's proactively confounding), as there is also something else typically called ``block_device_mapping`` which is not a ``BlockDeviceMapping`` object. ``block_device_info`` --------------------- .. versionchanged:: 24.0.0 (Xena) The legacy block_device_info format is no longer supported. Drivers do not directly use BDM objects. Instead, they are transformed into a different driver-specific representation. This representation is normally called ``block_device_info``, and is generated by ``virt.driver.get_block_device_info()``. Its output is based on data in BDMs. ``block_device_info`` is a dict containing: ``root_device_name`` Hypervisor's notion of the root device's name ``image`` An image backed disk if used ``ephemerals`` A list of all ephemeral disks ``block_device_mapping`` A list of all cinder volumes ``swap`` A swap disk, or None if there is no swap disk .. note:: The disks were previously represented in one of two ways, depending on the specific driver in use. A legacy plain dict format or the currently used DriverBlockDevice format discussed below. Support for the legacy format was removed in Xena. Disks are represented by subclasses of ``nova.block_device.DriverBlockDevice``. These subclasses retain a reference to the underlying BDM object. This means that by manipulating the ``DriverBlockDevice`` object, the driver is able to persist data to the BDM object in the DB. .. note:: Common usage is to pull ``block_device_mapping`` out of this dict into a variable called ``block_device_mapping``. This is not a ``BlockDeviceMapping`` object, or a list of them. .. note:: If ``block_device_info`` was passed to the driver by compute manager, it was probably generated by ``_get_instance_block_device_info()``. By default, this function filters out all cinder volumes from ``block_device_mapping`` which don't currently have ``connection_info``. In other contexts this filtering will not have happened, and ``block_device_mapping`` will contain all volumes. libvirt driver specific BDM data structures =========================================== ``instance_disk_info`` ---------------------- The virt driver API defines a method ``get_instance_disk_info``, which returns a JSON blob. The compute manager calls this and passes the data over RPC between calls without ever looking at it. This is driver-specific opaque data. It is also only used by the libvirt driver, despite being part of the API for all drivers. Other drivers do not return any data. The most interesting aspect of ``instance_disk_info`` is that it is generated from the libvirt XML, not from nova's state. .. note:: ``instance_disk_info`` is often named ``disk_info`` in code, which is unfortunate as this clashes with the normal naming of the next structure. Occasionally the two are used in the same block of code. .. note:: RBD disks (including non-volume disks) and cinder volumes are not included in ``instance_disk_info``. ``instance_disk_info`` is a list of dicts for some of an instance's disks. Each dict contains the following: ``type`` libvirt's notion of the disk's type ``path`` libvirt's notion of the disk's path ``virt_disk_size`` The disk's virtual size in bytes (the size the guest OS sees) ``backing_file`` libvirt's notion of the backing file path ``disk_size`` The file size of path, in bytes. ``over_committed_disk_size`` As-yet-unallocated disk size, in bytes. ``disk_info`` ------------- .. note:: As opposed to ``instance_disk_info``, which is frequently called ``disk_info``. This data structure is actually described pretty well in the comment block at the top of ``nova.virt.libvirt.blockinfo``. It is internal to the libvirt driver. It contains: ``disk_bus`` The default bus used by disks ``cdrom_bus`` The default bus used by cdrom drives ``mapping`` Defined below ``mapping`` is a dict which maps disk names to a dict describing how that disk should be passed to libvirt. This mapping contains every disk connected to the instance, both local and volumes. First, a note on disk naming. Local disk names used by the libvirt driver are well defined. They are: ``disk`` The root disk ``disk.local`` The flavor-defined ephemeral disk ``disk.ephX`` Where X is a zero-based index for BDM defined ephemeral disks ``disk.swap`` The swap disk ``disk.config`` The config disk These names are hardcoded, reliable, and used in lots of places. In ``disk_info``, volumes are keyed by device name, eg 'vda', 'vdb'. Different buses will be named differently, approximately according to legacy Linux device naming. Additionally, ``disk_info`` will contain a mapping for 'root', which is the root disk. This will duplicate one of the other entries, either 'disk' or a volume mapping. Each dict within the ``mapping`` dict contains the following 3 required fields of bus, dev and type with two optional fields of format and ``boot_index``: ``bus``: The guest bus type ('ide', 'virtio', 'scsi', etc) ``dev``: The device name 'vda', 'hdc', 'sdf', 'xvde' etc ``type``: Type of device eg 'disk', 'cdrom', 'floppy' ``format`` Which format to apply to the device if applicable ``boot_index`` Number designating the boot order of the device .. note:: ``BlockDeviceMapping`` and ``DriverBlockDevice`` store boot index zero-based. However, libvirt's boot index is 1-based, so the value stored here is 1-based. .. todo:: Add a section for the per disk ``disk.info`` file within instance directory when using the libvirt driver.