| .. Licensed to the Apache Software Foundation (ASF) under one |
| .. or more contributor license agreements. See the NOTICE file |
| .. distributed with this work for additional information |
| .. regarding copyright ownership. The ASF licenses this file |
| .. to you under the Apache License, Version 2.0 (the |
| .. "License"); you may not use this file except in compliance |
| .. with the License. You may obtain a copy of the License at |
| .. |
| .. http://www.apache.org/licenses/LICENSE-2.0 |
| .. |
| .. Unless required by applicable law or agreed to in writing, software |
| .. distributed under the License is distributed on an "AS IS" BASIS, |
| .. WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| .. See the License for the specific language governing permissions and |
| .. limitations under the License. |
| |
| Transient Replication |
| --------------------- |
| |
| **Note**: |
| |
| Transient Replication (`CASSANDRA-14404 |
| <https://issues.apache.org/jira/browse/CASSANDRA-14404>`_) is an experimental feature designed for expert Apache Cassandra users who are able to validate every aspect of the database for their application and deployment. |
| That means being able to check that operations like reads, writes, decommission, remove, rebuild, repair, and replace all work with your queries, data, configuration, operational practices, and availability requirements. |
| Apache Cassandra 4.0 has the initial implementation of transient replication. Future releases of Cassandra will make this feature suitable for a wider audience. |
| It is anticipated that a future version will support monotonic reads with transient replication as well as LWT, logged batches, and counters. Being experimental, Transient replication is **not** recommended for production use. |
| |
| Objective |
| ^^^^^^^^^ |
| |
| The objective of transient replication is to decouple storage requirements from data redundancy (or consensus group size) using incremental repair, in order to reduce storage overhead. |
| Certain nodes act as full replicas (storing all the data for a given token range), and some nodes act as transient replicas, storing only unrepaired data for the same token ranges. |
| |
| The optimization that is made possible with transient replication is called "Cheap quorums", which implies that data redundancy is increased without corresponding increase in storage usage. |
| |
| Transient replication is useful when sufficient full replicas are available to receive and store all the data. |
| Transient replication allows you to configure a subset of replicas to only replicate data that hasn't been incrementally repaired. |
| As an optimization, we can avoid writing data to a transient replica if we have successfully written data to the full replicas. |
| |
| After incremental repair, transient data stored on transient replicas can be discarded. |
| |
| Enabling Transient Replication |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Transient replication is not enabled by default. Transient replication must be enabled on each node in a cluster separately by setting the following configuration property in ``cassandra.yaml``. |
| |
| :: |
| |
| enable_transient_replication: true |
| |
| Transient replication may be configured with both ``SimpleStrategy`` and ``NetworkTopologyStrategy``. Transient replication is configured by setting replication factor as ``<total_replicas>/<transient_replicas>``. |
| |
| As an example, create a keyspace with replication factor (RF) 3. |
| |
| :: |
| |
| CREATE KEYSPACE CassandraKeyspaceSimple WITH replication = {'class': 'SimpleStrategy', |
| 'replication_factor' : 3/1}; |
| |
| |
| As another example, ``some_keysopace keyspace`` will have 3 replicas in DC1, 1 of which is transient, and 5 replicas in DC2, 2 of which are transient: |
| |
| :: |
| |
| CREATE KEYSPACE some_keysopace WITH replication = {'class': 'NetworkTopologyStrategy', |
| 'DC1' : '3/1'', 'DC2' : '5/2'}; |
| |
| Transiently replicated keyspaces only support tables with ``read_repair`` set to ``NONE``. |
| |
| Important Restrictions: |
| |
| - RF cannot be altered while some endpoints are not in a normal state (no range movements). |
| - You can't add full replicas if there are any transient replicas. You must first remove all transient replicas, then change the # of full replicas, then add back the transient replicas. |
| - You can only safely increase number of transients one at a time with incremental repair run in between each time. |
| |
| |
| Additionally, transient replication cannot be used for: |
| |
| - Monotonic Reads |
| - Lightweight Transactions (LWTs) |
| - Logged Batches |
| - Counters |
| - Keyspaces using materialized views |
| - Secondary indexes (2i) |
| |
| Cheap Quorums |
| ^^^^^^^^^^^^^ |
| |
| Cheap quorums are a set of optimizations on the write path to avoid writing to transient replicas unless sufficient full replicas are not available to satisfy the requested consistency level. |
| Hints are never written for transient replicas. Optimizations on the read path prefer reading from transient replicas. |
| When writing at quorum to a table configured to use transient replication the quorum will always prefer available full |
| replicas over transient replicas so that transient replicas don't have to process writes. Tail latency is reduced by |
| rapid write protection (similar to rapid read protection) when full replicas are slow or unavailable by sending writes |
| to transient replicas. Transient replicas can serve reads faster as they don't have to do anything beyond bloom filter |
| checks if they have no data. With vnodes and large cluster sizes they will not have a large quantity of data |
| even for failure of one or more full replicas where transient replicas start to serve a steady amount of write traffic |
| for some of their transiently replicated ranges. |
| |
| Speculative Write Option |
| ^^^^^^^^^^^^^^^^^^^^^^^^ |
| The ``CREATE TABLE`` adds an option ``speculative_write_threshold`` for use with transient replicas. The option is of type ``simple`` with default value as ``99PERCENTILE``. When replicas are slow or unresponsive ``speculative_write_threshold`` specifies the threshold at which a cheap quorum write will be upgraded to include transient replicas. |
| |
| |
| Pending Ranges and Transient Replicas |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Pending ranges refers to the movement of token ranges between transient replicas. When a transient range is moved, there |
| will be a period of time where both transient replicas would need to receive any write intended for the logical |
| transient replica so that after the movement takes effect a read quorum is able to return a response. Nodes are *not* |
| temporarily transient replicas during expansion. They stream data like a full replica for the transient range before they |
| can serve reads. A pending state is incurred similar to how there is a pending state for full replicas. Transient replicas |
| also always receive writes when they are pending. Pending transient ranges are sent a bit more data and reading from |
| them is avoided. |
| |
| |
| Read Repair and Transient Replicas |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Read repair never attempts to repair a transient replica. Reads will always include at least one full replica. |
| They should also prefer transient replicas where possible. Range scans ensure the entire scanned range performs |
| replica selection that satisfies the requirement that every range scanned includes one full replica. During incremental |
| & validation repair handling, at transient replicas anti-compaction does not output any data for transient ranges as the |
| data will be dropped after repair, and transient replicas never have data streamed to them. |
| |
| |
| Transitioning between Full Replicas and Transient Replicas |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| The additional state transitions that transient replication introduces requires streaming and ``nodetool cleanup`` to |
| behave differently. When data is streamed it is ensured that it is streamed from a full replica and not a transient replica. |
| |
| Transitioning from not replicated to transiently replicated means that a node must stay pending until the next incremental |
| repair completes at which point the data for that range is known to be available at full replicas. |
| |
| Transitioning from transiently replicated to fully replicated requires streaming from a full replica and is identical |
| to how data is streamed when transitioning from not replicated to replicated. The transition is managed so the transient |
| replica is not read from as a full replica until streaming completes. It can be used immediately for a write quorum. |
| |
| Transitioning from fully replicated to transiently replicated requires cleanup to remove repaired data from the transiently |
| replicated range to reclaim space. It can be used immediately for a write quorum. |
| |
| Transitioning from transiently replicated to not replicated requires cleanup to be run to remove the formerly transiently replicated data. |
| |
| When transient replication is in use ring changes are supported including add/remove node, change RF, add/remove DC. |
| |
| |
| Transient Replication supports EACH_QUORUM |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| (`CASSANDRA-14727 |
| <https://issues.apache.org/jira/browse/CASSANDRA-14727>`_) adds support for Transient Replication support for ``EACH_QUORUM``. Per (`CASSANDRA-14768 |
| <https://issues.apache.org/jira/browse/CASSANDRA-14768>`_), we ensure we write to at least a ``QUORUM`` of nodes in every DC, |
| regardless of how many responses we need to wait for and our requested consistency level. This is to minimally surprise |
| users with transient replication; with normal writes, we soft-ensure that we reach ``QUORUM`` in all DCs we are able to, |
| by writing to every node; even if we don't wait for ACK, we have in both cases sent sufficient messages. |
