diff --git a/src/main/asciidoc/_chapters/ops_mgt.adoc b/src/main/asciidoc/_chapters/ops_mgt.adoc index 5e931ffc6db2..015230321076 100644 --- a/src/main/asciidoc/_chapters/ops_mgt.adoc +++ b/src/main/asciidoc/_chapters/ops_mgt.adoc @@ -1725,6 +1725,100 @@ hbase.regionserver.authenticationFailures:: hbase.regionserver.mutationsWithoutWALCount :: Count of writes submitted with a flag indicating they should bypass the write ahead log +[[rs_meta_metrics]] +=== Meta Table Load Metrics + +HBase meta table metrics collection feature is available in HBase 1.4+ but it is disabled by default, as it can +affect the performance of the cluster. When it is enabled, it helps to monitor client access patterns by collecting +the following statistics: + +* number of get, put and delete operations on the `hbase:meta` table +* number of get, put and delete operations made by the top-N clients +* number of operations related to each table +* number of operations related to the top-N regions + + +When to use the feature:: + This feature can help to identify hot spots in the meta table by showing the regions or tables where the meta info is + modified (e.g. by create, drop, split or move tables) or retrieved most frequently. It can also help to find misbehaving + client applications by showing which clients are using the meta table most heavily, which can for example suggest the + lack of meta table buffering or the lack of re-using open client connections in the client application. + +.Possible side-effects of enabling this feature +[WARNING] +==== +Having large number of clients and regions in the cluster can cause the registration and tracking of a large amount of +metrics, which can increase the memory and CPU footprint of the HBase region server handling the `hbase:meta` table. +It can also cause the significant increase of the JMX dump size, which can affect the monitoring or log aggregation +system you use beside HBase. It is recommended to turn on this feature only during debugging. +==== + +Where to find the metrics in JMX:: + Each metric attribute name will start with the ‘MetaTable_’ prefix. For all the metrics you will see five different + JMX attributes: count, mean rate, 1 minute rate, 5 minute rate and 15 minute rate. You will find these metrics in JMX + under the following MBean: + `Hadoop -> HBase -> RegionServer -> Coprocessor.Region.CP_org.apache.hadoop.hbase.coprocessor.MetaTableMetrics`. + +.Examples: some Meta Table metrics you can see in your JMX dump +[source,json] +---- +{ + "MetaTable_get_request_count": 77309, + "MetaTable_put_request_mean_rate": 0.06339092997186495, + "MetaTable_table_MyTestTable_request_15min_rate": 1.1020599841623246, + "MetaTable_client_/172.30.65.42_lossy_request_count": 1786 + "MetaTable_client_/172.30.65.45_put_request_5min_rate": 0.6189810954855728, + "MetaTable_region_1561131112259.c66e4308d492936179352c80432ccfe0._lossy_request_count": 38342, + "MetaTable_region_1561131043640.5bdffe4b9e7e334172065c853cf0caa6._lossy_request_1min_rate": 0.04925099917433935, +} +---- + +Configuration:: + To turn on this feature, you have to enable a custom coprocessor by adding the following section to hbase-site.xml. + This coprocessor will run on all the HBase RegionServers, but will be active (i.e. consume memory / CPU) only on + the server, where the `hbase:meta` table is located. It will produce JMX metrics which can be downloaded from the + web UI of the given RegionServer or by a simple REST call. These metrics will not be present in the JMX dump of the + other RegionServers. + +.Enabling the Meta Table Metrics feature +[source,xml] +---- + + hbase.coprocessor.region.classes + org.apache.hadoop.hbase.coprocessor.MetaTableMetrics + +---- + +.How the top-N metrics are calculated? +[NOTE] +==== +The 'top-N' type of metrics will be counted using the Lossy Counting Algorithm (as defined in +link:http://www.vldb.org/conf/2002/S10P03.pdf[Motwani, R; Manku, G.S (2002). "Approximate frequency counts over data streams"]), +which is designed to identify elements in a data stream whose frequency count exceed a user-given threshold. +The frequency computed by this algorithm is not always accurate but has an error threshold that can be specified by the +user as a configuration parameter. The run time space required by the algorithm is inversely proportional to the +specified error threshold, hence larger the error parameter, the smaller the footprint and the less accurate are the +metrics. + +You can specify the error rate of the algorithm as a floating-point value between 0 and 1 (exclusive), it's default +value is 0.02. Having the error rate set to `E` and having `N` as the total number of meta table operations, then +(assuming the uniform distribution of the activity of low frequency elements) at most `7 / E` meters will be kept and +each kept element will have a frequency higher than `E * N`. + +An example: Let’s assume we are interested in the HBase clients that are most active in accessing the meta table. +When there was 1,000,000 operations on the meta table so far and the error rate parameter is set to 0.02, then we can +assume that only at most 350 client IP address related counters will be present in JMX and each of these clients +accessed the meta table at least 20,000 times. + +[source,xml] +---- + + hbase.util.default.lossycounting.errorrate + 0.02 + +---- +==== + [[ops.monitoring]] == HBase Monitoring