collectors

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Published: Dec 12, 2017 License: Apache-2.0 Imports: 8 Imported by: 0

Documentation

Overview

Copyright 2016 The Rook Authors. All rights reserved.

Licensed 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.

Index

Constants

This section is empty.

Variables

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Functions

This section is empty.

Types

type ClusterHealthCollector

type ClusterHealthCollector struct {

	// HealthStatus shows the overall health status of a given cluster.
	HealthStatus prometheus.Gauge

	// TotalPGs shows the total no. of PGs the cluster constitutes of.
	TotalPGs prometheus.Gauge

	// DegradedPGs shows the no. of PGs that have some of the replicas
	// missing.
	DegradedPGs prometheus.Gauge

	// StuckDegradedPGs shows the no. of PGs that have some of the replicas
	// missing, and are stuck in that state.
	StuckDegradedPGs prometheus.Gauge

	// UncleanPGs shows the no. of PGs that do not have all objects in the PG
	// that are supposed to be in it.
	UncleanPGs prometheus.Gauge

	// StuckUncleanPGs shows the no. of PGs that do not have all objects in the PG
	// that are supposed to be in it, and are stuck in that state.
	StuckUncleanPGs prometheus.Gauge

	// UndersizedPGs depicts the no. of PGs that have fewer copies than configured
	// replication level.
	UndersizedPGs prometheus.Gauge

	// StuckUndersizedPGs depicts the no. of PGs that have fewer copies than configured
	// replication level, and are stuck in that state.
	StuckUndersizedPGs prometheus.Gauge

	// StalePGs depicts no. of PGs that are in an unknown state i.e. monitors do not know
	// anything about their latest state since their pg mapping was modified.
	StalePGs prometheus.Gauge

	// StuckStalePGs depicts no. of PGs that are in an unknown state i.e. monitors do not know
	// anything about their latest state since their pg mapping was modified, and are stuck
	// in that state.
	StuckStalePGs prometheus.Gauge

	// SlowRequests depicts no. of total slow requests in the cluster
	SlowRequests prometheus.Gauge

	// DegradedObjectsCount gives the no. of RADOS objects are constitute the degraded PGs.
	// This includes object replicas in its count.
	DegradedObjectsCount prometheus.Gauge

	// MisplacedObjectsCount gives the no. of RADOS objects that constitute the misplaced PGs.
	// Misplaced PGs usually represent the PGs that are not in the storage locations that
	// they should be in. This is different than degraded PGs which means a PG has fewer copies
	// that it should.
	// This includes object replicas in its count.
	MisplacedObjectsCount prometheus.Gauge

	// OSDsDown show the no. of OSDs that are in the DOWN state.
	OSDsDown prometheus.Gauge

	// OSDsUp show the no. of OSDs that are in the UP state and are able to serve requests.
	OSDsUp prometheus.Gauge

	// OSDsIn shows the no. of OSDs that are marked as IN in the cluster.
	OSDsIn prometheus.Gauge

	// OSDsNum shows the no. of total OSDs the cluster has.
	OSDsNum prometheus.Gauge

	// RemappedPGs show the no. of PGs that are currently remapped and needs to be moved
	// to newer OSDs.
	RemappedPGs prometheus.Gauge

	// RecoveryIORate shows the i/o rate at which the cluster is performing its ongoing
	// recovery at.
	RecoveryIORate prometheus.Gauge

	// RecoveryIOKeys shows the rate of rados keys recovery.
	RecoveryIOKeys prometheus.Gauge

	// RecoveryIOObjects shows the rate of rados objects being recovered.
	RecoveryIOObjects prometheus.Gauge

	// ClientIORead shows the total client read i/o on the cluster.
	ClientIORead prometheus.Gauge

	// ClientIOWrite shows the total client write i/o on the cluster.
	ClientIOWrite prometheus.Gauge

	// ClientIOOps shows the rate of total operations conducted by all clients on the cluster.
	ClientIOOps prometheus.Gauge

	// ClientIOReadOps shows the rate of total read operations conducted by all clients on the cluster.
	ClientIOReadOps prometheus.Gauge

	// ClientIOWriteOps shows the rate of total write operations conducted by all clients on the cluster.
	ClientIOWriteOps prometheus.Gauge

	// CacheFlushIORate shows the i/o rate at which data is being flushed from the cache pool.
	CacheFlushIORate prometheus.Gauge

	// CacheEvictIORate shows the i/o rate at which data is being flushed from the cache pool.
	CacheEvictIORate prometheus.Gauge

	// CachePromoteIOOps shows the rate of operations promoting objects to the cache pool.
	CachePromoteIOOps prometheus.Gauge
	// contains filtered or unexported fields
}

ClusterHealthCollector collects information about the health of an overall cluster. It surfaces changes in the ceph parameters unlike data usage that ClusterUsageCollector does.

func NewClusterHealthCollector

func NewClusterHealthCollector(context *clusterd.Context, clusterName string) *ClusterHealthCollector

NewClusterHealthCollector creates a new instance of ClusterHealthCollector to collect health metrics on.

func (*ClusterHealthCollector) Collect

func (c *ClusterHealthCollector) Collect(ch chan<- prometheus.Metric)

Collect sends all the collected metrics to the provided prometheus channel. It requires the caller to handle synchronization.

func (*ClusterHealthCollector) Describe

func (c *ClusterHealthCollector) Describe(ch chan<- *prometheus.Desc)

Describe sends all the descriptions of individual metrics of ClusterHealthCollector to the provided prometheus channel.

type ClusterUsageCollector

type ClusterUsageCollector struct {

	// GlobalCapacity displays the total storage capacity of the cluster. This
	// information is based on the actual no. of objects that are allocated. It
	// does not take overcommitment into consideration.
	GlobalCapacity prometheus.Gauge

	// UsedCapacity shows the storage under use.
	UsedCapacity prometheus.Gauge

	// AvailableCapacity shows the remaining capacity of the cluster that is left unallocated.
	AvailableCapacity prometheus.Gauge

	// Objects show the total no. of RADOS objects that are currently allocated.
	Objects prometheus.Gauge
	// contains filtered or unexported fields
}

A ClusterUsageCollector is used to gather all the global stats about a given ceph cluster. It is sometimes essential to know how fast the cluster is growing or shrinking as a whole in order to zero in on the cause. The pool specific stats are provided separately.

func NewClusterUsageCollector

func NewClusterUsageCollector(context *clusterd.Context, clusterName string) *ClusterUsageCollector

NewClusterUsageCollector creates and returns the reference to ClusterUsageCollector and internally defines each metric that display cluster stats.

func (*ClusterUsageCollector) Collect

func (c *ClusterUsageCollector) Collect(ch chan<- prometheus.Metric)

Collect sends the metric values for each metric pertaining to the global cluster usage over to the provided prometheus Metric channel.

func (*ClusterUsageCollector) Describe

func (c *ClusterUsageCollector) Describe(ch chan<- *prometheus.Desc)

Describe sends the descriptors of each metric over to the provided channel. The corresponding metric values are sent separately.

type MonitorCollector

type MonitorCollector struct {

	// ClockSkew shows how far the monitor clocks have skewed from each other. This
	// is an important metric because the functioning of Ceph's paxos depends on
	// the clocks being aligned as close to each other as possible.
	ClockSkew *prometheus.GaugeVec

	// Latency displays the time the monitors take to communicate between themselves.
	Latency *prometheus.GaugeVec

	// NodesinQuorum show the size of the working monitor quorum. Any change in this
	// metric can imply a significant issue in the cluster if it is not manually changed.
	NodesinQuorum prometheus.Gauge
	// contains filtered or unexported fields
}

MonitorCollector is used to extract stats related to monitors running within Ceph cluster. As we extract information pertaining to each monitor instance, there are various vector metrics we need to use.

func NewMonitorCollector

func NewMonitorCollector(context *clusterd.Context, clusterName string) *MonitorCollector

NewMonitorCollector creates an instance of the MonitorCollector and instantiates the individual metrics that show information about the monitor processes.

func (*MonitorCollector) Collect

func (m *MonitorCollector) Collect(ch chan<- prometheus.Metric)

Collect extracts the given metrics from the Monitors and sends it to the prometheus channel.

func (*MonitorCollector) Describe

func (m *MonitorCollector) Describe(ch chan<- *prometheus.Desc)

Describe sends the descriptors of each Monitor related metric we have defined to the channel provided.

type OSDCollector

type OSDCollector struct {

	// CrushWeight is a persistent setting, and it affects how CRUSH assigns data to OSDs.
	// It displays the CRUSH weight for the OSD
	CrushWeight *prometheus.GaugeVec

	// Depth displays the OSD's level of hierarchy in the CRUSH map
	Depth *prometheus.GaugeVec

	// Reweight sets an override weight on the OSD.
	// It displays value within 0 to 1.
	Reweight *prometheus.GaugeVec

	// Bytes displays the total bytes available in the OSD
	Bytes *prometheus.GaugeVec

	// UsedBytes displays the total used bytes in the OSD
	UsedBytes *prometheus.GaugeVec

	// AvailBytes displays the total available bytes in the OSD
	AvailBytes *prometheus.GaugeVec

	// Utilization displays current utilization of the OSD
	Utilization *prometheus.GaugeVec

	// Variance displays current variance of the OSD from the standard utilization
	Variance *prometheus.GaugeVec

	// Pgs displays total no. of placement groups in the OSD.
	// Available in Ceph Jewel version.
	Pgs *prometheus.GaugeVec

	// CommitLatency displays in seconds how long it takes for an operation to be applied to disk
	CommitLatency *prometheus.GaugeVec

	// ApplyLatency displays in seconds how long it takes to get applied to the backing filesystem
	ApplyLatency *prometheus.GaugeVec

	// OSDIn displays the In state of the OSD
	OSDIn *prometheus.GaugeVec

	// OSDUp displays the Up state of the OSD
	OSDUp *prometheus.GaugeVec

	// TotalBytes displays total bytes in all OSDs
	TotalBytes prometheus.Gauge

	// TotalUsedBytes displays total used bytes in all OSDs
	TotalUsedBytes prometheus.Gauge

	// TotalAvailBytes displays total available bytes in all OSDs
	TotalAvailBytes prometheus.Gauge

	// AverageUtil displays average utilization in all OSDs
	AverageUtil prometheus.Gauge
	// contains filtered or unexported fields
}

OSDCollector displays statistics about OSD in the ceph cluster. An important aspect of monitoring OSDs is to ensure that when the cluster is up and running that all OSDs that are in the cluster are up and running, too

func NewOSDCollector

func NewOSDCollector(context *clusterd.Context, clusterName string) *OSDCollector

NewOSDCollector creates an instance of the OSDCollector and instantiates the individual metrics that show information about the OSD.

func (*OSDCollector) Collect

func (o *OSDCollector) Collect(ch chan<- prometheus.Metric)

Collect sends all the collected metrics to the provided prometheus channel. It requires the caller to handle synchronization.

func (*OSDCollector) Describe

func (o *OSDCollector) Describe(ch chan<- *prometheus.Desc)

Describe sends the descriptors of each OSDCollector related metrics we have defined to the provided prometheus channel.

type PoolUsageCollector

type PoolUsageCollector struct {

	// UsedBytes tracks the amount of bytes currently allocated for the pool. This
	// does not factor in the overcommitment made for individual images.
	UsedBytes *prometheus.GaugeVec

	// RawUsedBytes tracks the amount of raw bytes currently used for the pool. This
	// factors in the replication factor (size) of the pool.
	RawUsedBytes *prometheus.GaugeVec

	// MaxAvail tracks the amount of bytes currently free for the pool,
	// which depends on the replication settings for the pool in question.
	MaxAvail *prometheus.GaugeVec

	// Objects shows the no. of RADOS objects created within the pool.
	Objects *prometheus.GaugeVec

	// DirtyObjects shows the no. of RADOS dirty objects in a cache-tier pool,
	// this doesn't make sense in a regular pool, see:
	// http://lists.ceph.com/pipermail/ceph-users-ceph.com/2015-April/000557.html
	DirtyObjects *prometheus.GaugeVec

	// ReadIO tracks the read IO calls made for the images within each pool.
	ReadIO *prometheus.GaugeVec

	// Readbytes tracks the read throughput made for the images within each pool.
	ReadBytes *prometheus.GaugeVec

	// WriteIO tracks the write IO calls made for the images within each pool.
	WriteIO *prometheus.GaugeVec

	// WriteBytes tracks the write throughput made for the images within each pool.
	WriteBytes *prometheus.GaugeVec
	// contains filtered or unexported fields
}

PoolUsageCollector displays statistics about each pool we have created in the ceph cluster.

func NewPoolUsageCollector

func NewPoolUsageCollector(context *clusterd.Context, clusterName string) *PoolUsageCollector

NewPoolUsageCollector creates a new instance of PoolUsageCollector and returns its reference.

func (*PoolUsageCollector) Collect

func (p *PoolUsageCollector) Collect(ch chan<- prometheus.Metric)

Collect extracts the current values of all the metrics and sends them to the prometheus channel.

func (*PoolUsageCollector) Describe

func (p *PoolUsageCollector) Describe(ch chan<- *prometheus.Desc)

Describe fulfills the prometheus.Collector's interface and sends the descriptors of pool's metrics to the given channel.

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