You are viewing a plain text version of this content. The canonical link for it is here.
Posted to commits@cassandra.apache.org by "Nikolai Grigoriev (JIRA)" <ji...@apache.org> on 2014/09/17 02:06:33 UTC
[jira] [Commented] (CASSANDRA-7949) LCS compaction low performance,
many pending compactions, nodes are almost idle
[ https://issues.apache.org/jira/browse/CASSANDRA-7949?page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel&focusedCommentId=14136549#comment-14136549 ]
Nikolai Grigoriev commented on CASSANDRA-7949:
----------------------------------------------
system log already includes the logs from log4j.logger.org.apache.cassandra.db.compaction (except log4j.logger.org.apache.cassandra.db.compaction.ParallelCompactionIterable)
> LCS compaction low performance, many pending compactions, nodes are almost idle
> -------------------------------------------------------------------------------
>
> Key: CASSANDRA-7949
> URL: https://issues.apache.org/jira/browse/CASSANDRA-7949
> Project: Cassandra
> Issue Type: Bug
> Components: Core
> Environment: DSE 4.5.1-1, Cassandra 2.0.8
> Reporter: Nikolai Grigoriev
> Attachments: iostats.txt, nodetool_compactionstats.txt, nodetool_tpstats.txt, system.log.gz, vmstat.txt
>
>
> I've been evaluating new cluster of 15 nodes (32 core, 6x800Gb SSD disks + 2x600Gb SAS, 128Gb RAM, OEL 6.5) and I've built a simulator that creates the load similar to the load in our future product. Before running the simulator I had to pre-generate enough data. This was done using Java code and DataStax Java driver. To avoid going deep into details, two tables have been generated. Each table currently has about 55M rows and between few dozens and few thousands of columns in each row.
> This data generation process was generating massive amount of non-overlapping data. Thus, the activity was write-only and highly parallel. This is not the type of the traffic that the system will have ultimately to deal with, it will be mix of reads and updates to the existing data in the future. This is just to explain the choice of LCS, not mentioning the expensive SSD disk space.
> At some point while generating the data I have noticed that the compactions started to pile up. I knew that I was overloading the cluster but I still wanted the genration test to complete. I was expecting to give the cluster enough time to finish the pending compactions and get ready for real traffic.
> However, after the storm of write requests have been stopped I have noticed that the number of pending compactions remained constant (and even climbed up a little bit) on all nodes. After trying to tune some parameters (like setting the compaction bandwidth cap to 0) I have noticed a strange pattern: the nodes were compacting one of the CFs in a single stream using virtually no CPU and no disk I/O. This process was taking hours. After that it would be followed by a short burst of few dozens of compactions running in parallel (CPU at 2000%, some disk I/O - up to 10-20%) and then getting stuck again for many hours doing one compaction at time. So it looks like this:
> # nodetool compactionstats
> pending tasks: 3351
> compaction type keyspace table completed total unit progress
> Compaction myks table_list1 66499295588 1910515889913 bytes 3.48%
> Active compaction remaining time : n/a
> # df -h
> ...
> /dev/sdb 1.5T 637G 854G 43% /cassandra-data/disk1
> /dev/sdc 1.5T 425G 1.1T 29% /cassandra-data/disk2
> /dev/sdd 1.5T 429G 1.1T 29% /cassandra-data/disk3
> # find . -name *wm_contacts*Data* | grep -v snapshot | wc -l
> 1310
> Among these files I see:
> 1043 files of 161Mb (my sstable size is 160Mb)
> 9 large files - 3 between 1 and 2Gb, 3 of 5-8Gb, 55Gb, 70Gb and 370Gb
> 263 files of various sized - between few dozens of Kb and 160Mb
> I've been running the heavy load for about 1,5days and it's been close to 3 days after that and the number of pending compactions does not go down.
> I have applied one of the not-so-obvious recommendations to disable multithreaded compactions and that seems to be helping a bit - I see some nodes started to have fewer pending compactions. About half of the cluster, in fact. But even there I see they are sitting idle most of the time lazily compacting in one stream with CPU at ~140% and occasionally doing the bursts of compaction work for few minutes.
> I am wondering if this is really a bug or something in the LCS logic that would manifest itself only in such an edge case scenario where I have loaded lots of unique data quickly.
> By the way, I see this pattern only for one of two tables - the one that has about 4 times more data than another (space-wise, number of rows is the same). Looks like all these pending compactions are really only for that larger table.
> I'll be attaching the relevant logs shortly.
--
This message was sent by Atlassian JIRA
(v6.3.4#6332)