Improved Streaming
Apache Cassandra 4.0 has made several improvements to streaming. Streaming is the process used by nodes of a cluster to exchange data in the form of SSTables. Streaming of SSTables is performed for several operations, such as:
-
SSTable Repair
-
Host Replacement
-
Range movements
-
Bootstrapping
-
Rebuild
-
Cluster expansion
Streaming based on Netty
Streaming in Cassandra 4.0 is based on Non-blocking Input/Output (NIO) with Netty (CASSANDRA-12229). It replaces the single-threaded (or sequential), synchronous, blocking model of streaming messages and transfer of files. Netty supports non-blocking, asynchronous, multi-threaded streaming with which multiple connections are opened simultaneously. Non-blocking implies that threads are not blocked as they don’t wait for a response for a sent request. A response could be returned in a different thread. With asynchronous, connections and threads are decoupled and do not have a 1:1 relation. Several more connections than threads may be opened.
Zero Copy Streaming
Pre-4.0, during streaming Cassandra reifies the SSTables into objects. This creates unnecessary garbage and slows down the whole streaming process as some SSTables can be transferred as a whole file rather than individual partitions. Cassandra 4.0 has added support for streaming entire SSTables when possible (CASSANDRA-14556) for faster Streaming using ZeroCopy APIs. If enabled, Cassandra will use ZeroCopy for eligible SSTables significantly speeding up transfers and increasing throughput. A zero-copy path avoids bringing data into user-space on both sending and receiving side. Any streaming related operations will notice corresponding improvement. Zero copy streaming is hardware bound; only limited by the hardware limitations (Network and Disk IO ).
High Availability
In benchmark tests Zero Copy Streaming is 5x faster than partitions based streaming. Faster streaming provides the benefit of improved availability. A cluster’s recovery mainly depends on the streaming speed, Cassandra clusters with failed nodes will be able to recover much more quickly (5x faster). If a node fails, SSTables need to be streamed to a replacement node. During the replacement operation, the new Cassandra node streams SSTables from the neighboring nodes that hold copies of the data belonging to this new node’s token range. Depending on the amount of data stored, this process can require substantial network bandwidth, taking some time to complete. The longer these range movement operations take, the more the cluster availability is lost. Failure of multiple nodes would reduce high availability greatly. The faster the new node completes streaming its data, the faster it can serve traffic, increasing the availability of the cluster.
Enabling Zero Copy Streaming
Zero copy streaming is enabled by setting the following setting in
cassandra.yaml
.
stream_entire_sstables: true
By default zero copy streaming is enabled.
SSTables Eligible for Zero Copy Streaming
Zero copy streaming is used if all partitions within the SSTable need to
be transmitted. This is common when using LeveledCompactionStrategy
or
when partitioning SSTables by token range has been enabled. All
partition keys in the SSTables are iterated over to determine the
eligibility for Zero Copy streaming.
Benefits of Zero Copy Streaming
When enabled, it permits Cassandra to zero-copy stream entire eligible
SSTables between nodes, including every component. This speeds up the
network transfer significantly subject to throttling specified by
stream_throughput_outbound_megabits_per_sec
.
Enabling this will reduce the GC pressure on sending and receiving node. While this feature tries to keep the disks balanced, it cannot guarantee it. This feature will be automatically disabled if internode encryption is enabled. Currently this can be used with Leveled Compaction.
Configuring for Zero Copy Streaming
Throttling would reduce the streaming speed. The
stream_throughput_outbound_megabits_per_sec
throttles all outbound
streaming file transfers on a node to the given total throughput in
Mbps. When unset, the default is 200 Mbps or 25 MB/s.
stream_throughput_outbound_megabits_per_sec: 200
To run any Zero Copy streaming benchmark the
stream_throughput_outbound_megabits_per_sec
must be set to a really
high value otherwise, throttling will be significant and the benchmark
results will not be meaningful.
The inter_dc_stream_throughput_outbound_megabits_per_sec
throttles all
streaming file transfer between the datacenters, this setting allows
users to throttle inter dc stream throughput in addition to throttling
all network stream traffic as configured with
stream_throughput_outbound_megabits_per_sec
. When unset, the default
is 200 Mbps or 25 MB/s.
inter_dc_stream_throughput_outbound_megabits_per_sec: 200
SSTable Components Streamed with Zero Copy Streaming
Zero Copy Streaming streams entire SSTables. SSTables are made up of multiple components in separate files. SSTable components streamed are listed in Table 1.
Table 1. SSTable Components
SSTable Component | Description |
---|---|
Data.db |
The base data for an SSTable: the remaining components can be regenerated based on the data component. |
Index.db |
Index of the row keys with pointers to their positions in the data file. |
Filter.db |
Serialized bloom filter for the row keys in the SSTable. |
CompressionInfo.db |
File to hold information about uncompressed data length, chunk offsets etc. |
Statistics.db |
Statistical metadata about the content of the SSTable. |
Digest.crc32 |
Holds CRC32 checksum of the data file size_bytes. |
CRC.db |
Holds the CRC32 for chunks in an uncompressed file. |
Summary.db |
Holds SSTable Index Summary (sampling of Index component) |
TOC.txt |
Table of contents, stores the list of all components for the SSTable. |
Custom component, used by e.g. custom compaction strategy may also be included.
Repair Streaming Preview
Repair with nodetool repair
involves streaming of repaired SSTables
and a repair preview has been added to provide an estimate of the amount
of repair streaming that would need to be performed. Repair preview
(CASSANDRA-13257)
is invoke with nodetool repair --preview
using option:
-prv, --preview
It determines ranges and amount of data to be streamed, but doesn’t actually perform repair.
Parallelizing of Streaming of Keyspaces
The streaming of the different keyspaces for bootstrap and rebuild has been parallelized in Cassandra 4.0 (CASSANDRA-4663).
Unique nodes for Streaming in Multi-DC deployment
Range Streamer picks unique nodes to stream data from when number of replicas in each DC is three or more (CASSANDRA-4650). What the optimization does is to even out the streaming load across the cluster. Without the optimization, some node can be picked up to stream more data than others. This patch allows to select dedicated node to stream only one range.
This will increase the performance of bootstrapping a node and will also put less pressure on nodes serving the data. This does not affect if N < 3 in each DC as then it streams data from only 2 nodes.
Stream Operation Types ^^^^^
It is important to know the type or purpose of a certain stream. Version
4.0
(CASSANDRA-13064)
adds an enum
to distinguish between the different types of streams.
Stream types are available both in a stream request and a stream task.
The different stream types are:
-
Restore replica count
-
Unbootstrap
-
Relocation
-
Bootstrap
-
Rebuild
-
Bulk Load
-
Repair
Disallow Decommission when number of Replicas will drop below configured RF
CASSANDRA-12510
guards against decommission that will drop # of replicas below
configured replication factor (RF), and adds the --force
option that
allows decommission to continue if intentional; force decommission of
this node even when it reduces the number of replicas to below
configured RF.