I'm using cassandra 2.2.1 and noticed that after nodetool flush commitlog files are not deleted (actually, may be some are, I didn't see, but commitlog dir is not empty).
What is happening during nodetool flush or just regular flush? Are all commitlog files supposed to be deleted during this process?
Is data from commitlog used only during node repair or also during flush?
Commitlog files are pre-allocated and reused rather than deleted. This improves performance. See more information here.
The commitlog is used if a node goes down before a memtable has been flushed to an SSTable. This is done by replaying the commitlog to recreate the memtable. When you do a flush, then the space in the commitlog can be reclaimed and reused.
Related
I'm learning Cassandra's read path.
According to some sources:
"When Cassandra receives the read request, data will be searched first in the Memtable, then data will be searched in SSTables and if data exists it is returned"
Also, I know that Memtables are periodically flushed to SSTables on disk.
My questions:
are memtables fully deleted from RAM after flushing to SSTables?
Suppose, we have a read request on a node. Node contains both memtables and SSTables.
Is it possible for Cassandra to get required data only from Memtables without accessing SSTables? If yes, when it is possible and how can Cassandra determine that required data stored only in Memtables and there are no other related data stored on disk (SSTables)?
Short answer to 2nd question - No. Cassandra will always check SSTables even if the data is in the memtable. The reason for that is the data in the memtable could be older than data in the SSTable. For example, if you're explicitly set write timestamp for records, or data is replayed from the hints on other node. When memtable is flushed, data is removed from memory. But in some cases you can use row cache if you have data that is often accessed.
You can read more about read path in the DSE arch guide.
We get a burst of 'No segments I reserve; creating a new one'in log,as soon as we start our performance burst run on a single node cassandra Cluster.
Presumably, this means the commit log is expanding to grab more segments;which would impact the performance metrics.
Questions on the above:
1.Can this be avoided by pre-reserving segments for commit log and how.
2.How can we query the current limit of a commitlog for a cassandra instace.
3.We also notice memtable flush pointing to commitlog activity. Does commitlog sync duration trigger table flushes
We are using version 3.11.x
Does Memtables and commit logs have Tombstones for marking deleted data?
How does data deleted in Memtables are marked before flushing data?
Yes and yes.
The commit log contains mutations which may be tombstones. They are not read though unless the node goes down improperly, which is than used to rebuild memtable for durabilities sake.
Memtables have the tombstones just like the sstables do. When you do a read the data from the memtable and the sstables are merged and the highest timestamp wins. Keep in mind a delete doesn't actually "delete" data from the memtable or sstables. It writes a marker (the tombstone) which is treated like any other piece of data.
Please some one clarify for me to understand Commit Log and its use.
In Cassandra, while writing to Disk is the commit log the first entry point or MemTables.
If Memtables is what is getting flushed to disk, what is the use of Commit log, is the only purpose of commit log is to server sync issues if a data node is down?
You can think of the commit log as an optimization, but Cassandra would be unusably slow without it. When MemTables get written to disk we call them SSTables. SSTables are immutable, meaning once Cassandra writes them to disk it does not update them. So when a column changes Cassandra needs to write a new SSTable to disk. If Cassandra was writing these SSTables to disk on every update it would be completely IO bound and very slow.
So Cassandra uses a few tricks to get better performance. Instead of writing SSTables to disk on every column update, it keeps the updates in memory and flushes those changes to disk periodically to keep the IO to a reasonable level. But this leads to the obvious problem that if the machine goes down or Cassandra crashes you would lose data on that node. To avoid losing data, in addition to keeping recent changes in memory, Cassandra writes the changes to its CommitLog.
You may be asking why is writing to the CommitLog any better than just writing the SSTables. The CommitLog is optimized for writing. Unlike SSTables which store rows in sorted order, the CommitLog stores updates in the order which they were processed by Cassandra. The CommitLog also stores changes for all the column families in a single file so the disk doesn't need to do a bunch of seeks when it is receiving updates for multiple column families at the same time.
Basically writting the CommitLog to the disk is better because it has to write less data than writing SSTables does and it writes all that data to a single place on disk.
Cassandra keeps track of what data has been flushed to SSTables and is able to truncate the Commit log once all data older than a certain point has been written.
When Cassandra starts up it has to read the commit log back from that last known good point in time (the point at which we know all previous writes were written to an SSTable). It re-applies the changes in the commit log to its MemTables so it can get into the same state when it stopped. This process can be slow so if you are stopping a Cassandra node for maintenance it is a good idea to use nodetool drain before shutting it down which will flush everything in the MemTables to SSTables and make the amount of work on startup a lot smaller.
The write path in Cassandra works like this:
Cassandra Node ---->Commitlog-----------------> Memtable
| |
| |
|---> Periodically |---> Periodically
sync to disk flush to SSTable
Memtable and Commitlog are NOT written (kind of) in parallel. Write to Commitlog must be finished before starting to write to Memtable. Related source code stack is:
org.apache.cassandra.service.StorageProxy.mutateMV:mutation.apply->
org.apache.cassandra.db.Mutation.apply:Keyspace.open(keyspaceName).apply->
org.apache.cassandra.db.Keyspace.apply->
org.apache.cassandra.db.Keyspace.applyInternal{
Tracing.trace("Appending to commitlog");
commitLogPosition = CommitLog.instance.add(mutation)
...
Tracing.trace("Adding to {} memtable",...
...
upd.metadata().name(...);
...
cfs.apply(...);
...
}
The purpose of the Commitlog is to be able to recreate the Memtable after a node crashes or gets rebooted. This is important, since the Memtable only gets flushed to disk when it's 'full' - meaning the configured Memtable size is exceeded - or the flush is performed by nodetool or opscenter. So the data in Memtable is not persisted directly.
Having said that, a good thing before rebooting a node or container is to call nodetool flush to make sure your Memtables are fully persisted (flushed) to SSTables on disk. This also will reduce playback time of the Commitlog after the node or container comes up again.
Because I ran out of space when shuffling, I was forced to add multiple disks on my Cassandra nodes.
When I finish compacting, cleaning up, and repairing, I'd like to remove them and return to one disk per node.
What is the procedure to make the switch?
Can I just kill cassandra, move the data from one disk to the other, remove the configuration for the second disk, and re-start cassandra?
I assume files will not have the same name and thus not be overwritten, is this the case?
Run disablegossip and disablethrift from nodetool, such that this
node is seen as DOWN by other nodes.
flush/drain the memtables, run compaction to merge SSTables, if any
[optionally, take snapshot as a precaution]
This stops all the other nodes/clients from writing to this node and since memtables are flushed to disk
stop Cassandra (though this node is down, cluster is available for
write/read, so zero downtime)
move data/log contents from other disk to the disk you want
make changes in cassandra.yaml to change the below paths:
commitlog_directory
saved_caches_directory
data_file_directories
log_directory
restart cassandra
do this for all nodes.