2018-10-11 03:38:27 +08:00
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OSD Scenario
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============
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2017-07-20 03:15:44 +08:00
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2018-10-11 03:38:27 +08:00
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As of stable-3.2, the following scenarios are not supported anymore since they are associated to ``ceph-disk``:
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2018-09-21 21:28:33 +08:00
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2018-10-11 03:38:27 +08:00
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* `collocated`
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* `non-collocated`
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``ceph-disk`` was deprecated during the ceph-ansible 3.2 cycle and has been removed entirely from Ceph itself in the Nautilus version.
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2018-09-21 21:28:33 +08:00
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Supported values for the required ``osd_scenario`` variable are:
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2018-10-11 03:38:27 +08:00
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At present (starting from stable-3.2), there is only one scenario, which defaults to ``lvm``, see:
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2018-09-21 21:28:33 +08:00
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* :ref:`lvm <osd_scenario_lvm>`
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2018-10-11 03:38:27 +08:00
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So there is no need to configure ``osd_scenario`` anymore, it defaults to ``lvm``.
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Since the Ceph luminous release, it is preferred to use the :ref:`lvm scenario
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2018-09-21 21:28:33 +08:00
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<osd_scenario_lvm>` that uses the ``ceph-volume`` provisioning tool. Any other
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scenario will cause deprecation warnings.
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2018-10-11 03:38:27 +08:00
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The ``lvm`` scenario mentionned above support both containerized and non-containerized cluster.
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2018-10-03 22:52:14 +08:00
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As a reminder, deploying a containerized cluster can be done by setting ``containerized_deployment``
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to ``True``.
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2018-09-21 21:28:33 +08:00
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.. _osd_scenario_lvm:
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lvm
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---
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This OSD scenario uses ``ceph-volume`` to create OSDs, primarily using LVM, and
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is only available when the Ceph release is luminous or newer.
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**It is the preferred method of provisioning OSDs.**
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It is enabled with the following setting::
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osd_scenario: lvm
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Other (optional) supported settings:
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- ``osd_objectstore``: Set the Ceph *objectstore* for the OSD. Available options
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are ``filestore`` or ``bluestore``. You can only select ``bluestore`` with
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2018-10-16 05:54:47 +08:00
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the Ceph release is luminous or greater. Defaults to ``bluestore`` if unset.
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2018-09-21 21:28:33 +08:00
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- ``dmcrypt``: Enable Ceph's encryption on OSDs using ``dmcrypt``.
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Defaults to ``false`` if unset.
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- ``osds_per_device``: Provision more than 1 OSD (the default if unset) per device.
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Simple configuration
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^^^^^^^^^^^^^^^^^^^^
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With this approach, most of the decisions on how devices are configured to
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provision an OSD are made by the Ceph tooling (``ceph-volume lvm batch`` in
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this case). There is almost no room to modify how the OSD is composed given an
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input of devices.
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To use this configuration, the ``devices`` option must be populated with the
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raw device paths that will be used to provision the OSDs.
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.. note:: Raw devices must be "clean", without a gpt partition table, or
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logical volumes present.
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For example, for a node that has ``/dev/sda`` and ``/dev/sdb`` intended for
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Ceph usage, the configuration would be:
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.. code-block:: yaml
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osd_scenario: lvm
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devices:
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- /dev/sda
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- /dev/sdb
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In the above case, if both devices are spinning drives, 2 OSDs would be
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created, each with its own collocated journal.
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Other provisioning strategies are possible, by mixing spinning and solid state
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devices, for example:
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.. code-block:: yaml
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osd_scenario: lvm
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devices:
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- /dev/sda
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- /dev/sdb
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- /dev/nvme0n1
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Similar to the initial example, this would end up producing 2 OSDs, but data
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would be placed on the slower spinning drives (``/dev/sda``, and ``/dev/sdb``)
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and journals would be placed on the faster solid state device ``/dev/nvme0n1``.
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The ``ceph-volume`` tool describes this in detail in
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`the "batch" subcommand section <http://docs.ceph.com/docs/master/ceph-volume/lvm/batch/>`_
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2019-01-11 03:25:03 +08:00
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This option can also be used with ``osd_auto_discovery``, meaning that you do not need to populate
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``devices`` directly and any appropriate devices found by ansible will be used instead.
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.. code-block:: yaml
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osd_scenario: lvm
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osd_auto_discovery: true
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2018-09-21 21:28:33 +08:00
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Other (optional) supported settings:
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- ``crush_device_class``: Sets the CRUSH device class for all OSDs created with this
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method (it is not possible to have a per-OSD CRUSH device class using the *simple*
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configuration approach). Values *must be* a string, like
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``crush_device_class: "ssd"``
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Advanced configuration
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^^^^^^^^^^^^^^^^^^^^^^
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This configuration is useful when more granular control is wanted when setting
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up devices and how they should be arranged to provision an OSD. It requires an
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existing setup of volume groups and logical volumes (``ceph-volume`` will **not**
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create these).
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To use this configuration, the ``lvm_volumes`` option must be populated with
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logical volumes and volume groups. Additionally, absolute paths to partitions
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*can* be used for ``journal``, ``block.db``, and ``block.wal``.
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.. note:: This configuration uses ``ceph-volume lvm create`` to provision OSDs
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Supported ``lvm_volumes`` configuration settings:
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- ``data``: The logical volume name or full path to a raw device (an LV will be
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created using 100% of the raw device)
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- ``data_vg``: The volume group name, **required** if ``data`` is a logical volume.
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- ``crush_device_class``: CRUSH device class name for the resulting OSD, allows
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setting set the device class for each OSD, unlike the global ``crush_device_class``
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that sets them for all OSDs.
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.. note:: If you wish to set the ``crush_device_class`` for the OSDs
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when using ``devices`` you must set it using the global ``crush_device_class``
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option as shown above. There is no way to define a specific CRUSH device class
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per OSD when using ``devices`` like there is for ``lvm_volumes``.
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``filestore`` objectstore variables:
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- ``journal``: The logical volume name or full path to a partition.
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- ``journal_vg``: The volume group name, **required** if ``journal`` is a logical volume.
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.. warning:: Each entry must be unique, duplicate values are not allowed
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``bluestore`` objectstore variables:
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- ``db``: The logical volume name or full path to a partition.
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- ``db_vg``: The volume group name, **required** if ``db`` is a logical volume.
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- ``wal``: The logical volume name or full path to a partition.
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- ``wal_vg``: The volume group name, **required** if ``wal`` is a logical volume.
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.. note:: These ``bluestore`` variables are optional optimizations. Bluestore's
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``db`` and ``wal`` will only benefit from faster devices. It is possible to
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create a bluestore OSD with a single raw device.
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.. warning:: Each entry must be unique, duplicate values are not allowed
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``bluestore`` example using raw devices:
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.. code-block:: yaml
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osd_objectstore: bluestore
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osd_scenario: lvm
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lvm_volumes:
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- data: /dev/sda
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- data: /dev/sdb
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.. note:: Volume groups and logical volumes will be created in this case,
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utilizing 100% of the devices.
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``bluestore`` example with logical volumes:
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.. code-block:: yaml
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osd_objectstore: bluestore
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osd_scenario: lvm
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lvm_volumes:
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- data: data-lv1
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data_vg: data-vg1
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- data: data-lv2
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data_vg: data-vg2
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.. note:: Volume groups and logical volumes must exist.
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``bluestore`` example defining ``wal`` and ``db`` logical volumes:
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.. code-block:: yaml
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osd_objectstore: bluestore
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osd_scenario: lvm
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lvm_volumes:
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- data: data-lv1
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data_vg: data-vg1
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db: db-lv1
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db_vg: db-vg1
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wal: wal-lv1
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wal_vg: wal-vg1
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- data: data-lv2
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data_vg: data-vg2
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db: db-lv2
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db_vg: db-vg2
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wal: wal-lv2
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wal_vg: wal-vg2
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.. note:: Volume groups and logical volumes must exist.
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``filestore`` example with logical volumes:
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.. code-block:: yaml
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osd_objectstore: filestore
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osd_scenario: lvm
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lvm_volumes:
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- data: data-lv1
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data_vg: data-vg1
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journal: journal-lv1
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journal_vg: journal-vg1
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- data: data-lv2
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data_vg: data-vg2
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journal: journal-lv2
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journal_vg: journal-vg2
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2018-10-11 03:38:27 +08:00
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.. note:: Volume groups and logical volumes must exist.
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