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117 lines
5.3 KiB
ReStructuredText
117 lines
5.3 KiB
ReStructuredText
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==================
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D3N RGW Data Cache
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==================
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.. contents::
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Datacenter-Data-Delivery Network (D3N) uses high-speed storage such as NVMe flash or DRAM to cache
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datasets on the access side.
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Such caching allows big data jobs to use the compute and fast storage resources available on each
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Rados Gateway node at the edge.
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Many datacenters include low-cost, centralized storage repositories, called data lakes,
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to store and share terabyte and petabyte-scale datasets.
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By necessity most distributed big-data analytic clusters such as Hadoop and Spark must
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depend on accessing a centrally located data lake that is relatively far away.
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Even with a well-designed datacenter network, cluster-to-data lake bandwidth is typically much less
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than the bandwidth of a solid-state storage located at an edge node.
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| D3N improves the performance of big-data jobs running in analysis clusters by speeding up recurring reads from the data lake.
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| The Rados Gateways act as cache servers for the back-end object store (OSDs), storing data locally for reuse.
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Architecture
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============
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D3N improves the performance of big-data jobs by speeding up repeatedly accessed dataset reads from the data lake.
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Cache servers are located in the datacenter on the access side of potential network and storage bottlenecks.
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D3Ns two-layer logical cache forms a traditional caching hierarchy :sup:`*`
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where caches nearer the client have the lowest access latency and overhead,
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while caches in higher levels in the hierarchy are slower (requiring multiple hops to access),
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The layer 1 cache server nearest to the client handles object requests by breaking them into blocks,
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returning any blocks which are cached locally, and forwarding missed requests to the block home location
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(as determined by consistent hashing) in the next layer.
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Cache misses are forwarded to successive logical caching layers until a miss at the top layer is resolved
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by a request to the data lake (Rados)
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:sup:`*` currently only layer 1 cache has been upstreamed.
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See `MOC D3N (Datacenter-scale Data Delivery Network)`_ and `Red Hat Research D3N Cache for Data Centers`_.
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Implementation
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==============
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- The D3N cache supports both the `S3` and `Swift` object storage interfaces.
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- D3N currently caches only tail objects, because they are immutable (by default it is parts of objects that are larger than 4MB).
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(the NGINX `RGW Data cache and CDN`_ supports caching of all object sizes)
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Requirements
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------------
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- An SSD (/dev/nvme,/dev/pmem,/dev/shm) or similar block storage device, formatted
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(filesystems other than XFS were not tested) and mounted.
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It will be used as the cache backing store.
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(depending on device performance, multiple RGWs may share a single device but each requires
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a discrete directory on the device filesystem)
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Limitations
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-----------
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- D3N will not cache objects compressed by `Rados Gateway Compression`_ (OSD level compression is supported).
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- D3N will not cache objects encrypted by `Rados Gateway Encryption`_.
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- D3N will be disabled if the ``rgw_max_chunk_size`` config variable value differs from the ``rgw_obj_stripe_size`` config variable value.
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D3N Environment Setup
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=====================
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Running
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-------
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To enable D3N on an existing RGWs the following configuration entries are required
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in each Rados Gateways ceph.conf client section, for example for ``[client.rgw.8000]``::
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[client.rgw.8000]
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rgw_d3n_l1_local_datacache_enabled = true
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rgw_d3n_l1_datacache_persistent_path = "/mnt/nvme0/rgw_datacache/client.rgw.8000/"
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rgw_d3n_l1_datacache_size = 10737418240
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The above example assumes that the cache backing-store solid state device
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is mounted at `/mnt/nvme0` and has `10 GB` of free space available for the cache.
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The persistent path directory has to be created before starting the Gateway.
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(``mkdir -p /mnt/nvme0/rgw_datacache/client.rgw.8000/``)
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If another Gateway is co-located on the same machine, configure it's persistent path to a discrete directory,
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for example in the case of `[client.rgw.8001]` configure
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``rgw_d3n_l1_datacache_persistent_path = "/mnt/nvme0/rgw_datacache/client.rgw.8001/"``
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in the ``[client.rgw.8001]`` ceph.conf client section.
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In a multiple co-located Gateways configuration consider assigning clients with different workloads
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to each Gateway without a balancer in order to avoid cached data duplication.
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NOTE: each time the Rados Gateway is restarted the content of the cache directory is purged.
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Logs
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----
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- D3N related log lines in `radosgw.*.log` contain the string ``d3n`` (case insensitive).
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- low level D3N logs can be enabled by the ``debug_rgw_datacache`` subsystem (up to ``debug_rgw_datacache=30``)
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CONFIG REFERENCE
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================
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The following D3N related settings can be added to the Ceph configuration file
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(i.e., usually `ceph.conf`) under the ``[client.rgw.{instance-name}]`` section.
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.. confval:: rgw_d3n_l1_local_datacache_enabled
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.. confval:: rgw_d3n_l1_datacache_persistent_path
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.. confval:: rgw_d3n_l1_datacache_size
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.. confval:: rgw_d3n_l1_eviction_policy
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.. _MOC D3N (Datacenter-scale Data Delivery Network): https://massopen.cloud/research-and-development/cloud-research/d3n/
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.. _Red Hat Research D3N Cache for Data Centers: https://research.redhat.com/blog/research_project/d3n-multilayer-cache/
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.. _Rados Gateway Compression: ../compression/
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.. _Rados Gateway Encryption: ../encryption/
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.. _RGW Data cache and CDN: ../rgw-cache/
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