libvirt

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Published: Aug 21, 2023 License: MIT Imports: 12 Imported by: 0

README

Libvirt Input Plugin

The libvirt plugin collects statistics about virtualized guests on a system by using virtualization libvirt API, created by RedHat's Emerging Technology group. Metrics are gathered directly from the hypervisor on a host system, which means that Telegraf doesn't have to be installed and configured on a guest system.

Prerequisites

For proper operation of the libvirt plugin, it is required that the host system has:

  • enabled virtualization options for host CPU
  • libvirtd and its dependencies installed and running
  • qemu hypervisor installed and running
  • at least one virtual machine for statistics monitoring

Useful links:

Global configuration options

In addition to the plugin-specific configuration settings, plugins support additional global and plugin configuration settings. These settings are used to modify metrics, tags, and field or create aliases and configure ordering, etc. See the CONFIGURATION.md for more details.

Configuration

# The libvirt plugin collects statistics from virtualized guests using virtualization libvirt API.
[[inputs.libvirt]]
     ## Domain names from which libvirt gather statistics.
     ## By default (empty or missing array) the plugin gather statistics from each domain registered in the host system.
     # domains = []

     ## Libvirt connection URI with hypervisor.
     ## The plugin supports multiple transport protocols and approaches which are configurable via the URI.
     ## The general URI form: driver[+transport]://[username@][hostname][:port]/[path][?extraparameters]
     ## Supported transport protocols: ssh, tcp, tls, unix
     ## URI examples for each type of transport protocol:
     ## 1. SSH:  qemu+ssh://<USER@IP_OR_HOSTNAME>/system?keyfile=/<PATH_TO_PRIVATE_KEY>&known_hosts=/<PATH_TO_known_hosts>
     ## 2. TCP:  qemu+tcp://<IP_OR_HOSTNAME>/system
     ## 3. TLS:  qemu+tls://<HOSTNAME>/system?pkipath=/certs_dir/<COMMON_LOCATION_OF_CACERT_AND_SERVER_CLIENT_CERTS>
     ## 4. UNIX: qemu+unix:///system?socket=/<PATH_TO_libvirt-sock>
     ## Default URI is qemu:///system
     # libvirt_uri = "qemu:///system"

     ## Statistics groups for which libvirt plugin will gather statistics.
     ## Supported statistics groups: state, cpu_total, balloon, vcpu, interface, block, perf, iothread, memory, dirtyrate
     ## Empty array means no metrics for statistics groups will be exposed by the plugin.
     ## By default the plugin will gather all available statistics.
     # statistics_groups = ["state", "cpu_total", "balloon", "vcpu", "interface", "block", "perf", "iothread", "memory", "dirtyrate"]

     ## A list containing additional statistics to be exposed by libvirt plugin.
     ## Supported additional statistics: vcpu_mapping
     ## By default (empty or missing array) the plugin will not collect additional statistics.
     # additional_statistics = []

Useful links:

In cases when one or more of the following occur:

  • the global Telegraf variable interval is set to a low value (e.g. 1s),
  • a significant number of VMs are monitored,
  • the medium connecting the plugin to the hypervisor is inefficient,

It is possible that following warning in the logs appears: Collection took longer than expected.

For that case, interval should be set inside plugin configuration. Its value should be adjusted to plugin's runtime environment.

Example:

[[inputs.libvirt]]
  interval = "30s"
Example configuration
[[inputs.libvirt]]
  domain_names = ["ubuntu_20"]
  libvirt_uri = "qemu:///system"
  libvirt_metrics = ["state", "interface"]
  additional_statistics = ["vcpu_mapping"]

Metrics

See the table below for a list of metrics produced by the plugin.

The exact metric format depends on the statistics libvirt reports, which may vary depending on the version of libvirt on your system.

The metrics are divided into the following groups of statistics:

  • state
  • cpu_total
  • balloon
  • vcpu
  • net
  • perf
  • block
  • iothread
  • memory
  • dirtyrate
  • vcpu_mapping - additional statistics

Statistics groups from the plugin corresponds to the grouping of metrics directly read from libvirtd using the virsh domstats command. More details about metrics can be found at the links below:

Statistics group Metric name Exposed Telegraf field Description
state state.state state state of the VM, returned as number from virDomainState enum
state.reason reason reason for entering given state, returned as int from virDomain*Reason enum corresponding to given state
cpu_total cpu.time time total cpu time spent for this domain in nanoseconds
cpu.user user user cpu time spent in nanoseconds
cpu.system system system cpu time spent in nanoseconds
cpu.haltpoll.success.time haltpoll_success_time cpu halt polling success time spent in nanoseconds
cpu.haltpoll.fail.time haltpoll_fail_time cpu halt polling fail time spent in nanoseconds
cpu.cache.monitor.count count the number of cache monitors for this domain
cpu.cache.monitor.<num>.name name the name of cache monitor <num>, not available for kernels from 4.14 upwards
cpu.cache.monitor.<num>.vcpus vcpus vcpu list of cache monitor <num>, not available for kernels from 4.14 upwards
cpu.cache.monitor.<num>.bank.count bank_count the number of cache banks in cache monitor <num>, not available for kernels from 4.14 upwards
cpu.cache.monitor.<num>.bank.<index>.id id host allocated cache id for bank <index> in cache monitor <num>, not available for kernels from 4.14 upwards
cpu.cache.monitor.<num>.bank.<index>.bytes bytes the number of bytes of last level cache that the domain is using on cache bank <index>, not available for kernels from 4.14 upwards
balloon balloon.current current the memory in KiB currently used
balloon.maximum maximum the maximum memory in KiB allowed
balloon.swap_in swap_in the amount of data read from swap space (in KiB)
balloon.swap_out swap_out the amount of memory written out to swap space (in KiB)
balloon.major_fault major_fault the number of page faults when disk IO was required
balloon.minor_fault minor_fault the number of other page faults
balloon.unused unused the amount of memory left unused by the system (in KiB)
balloon.available available the amount of usable memory as seen by the domain (in KiB)
balloon.rss rss Resident Set Size of running domain's process (in KiB)
balloon.usable usable the amount of memory which can be reclaimed by balloon without causing host swapping (in KiB)
balloon.last-update last_update timestamp of the last update of statistics (in seconds)
balloon.disk_caches disk_caches the amount of memory that can be reclaimed without additional I/O, typically disk (in KiB)
balloon.hugetlb_pgalloc hugetlb_pgalloc the number of successful huge page allocations from inside the domain via virtio balloon
balloon.hugetlb_pgfail hugetlb_pgfail the number of failed huge page allocations from inside the domain via virtio balloon
vcpu vcpu.current current yes current number of online virtual CPUs
vcpu.maximum maximum maximum number of online virtual CPUs
vcpu.<num>.state state state of the virtual CPU <num>, as number from virVcpuState enum
vcpu.<num>.time time virtual cpu time spent by virtual CPU <num> (in microseconds)
vcpu.<num>.wait wait virtual cpu time spent by virtual CPU <num> waiting on I/O (in microseconds)
vcpu.<num>.halted halted virtual CPU <num> is halted: yes or no (may indicate the processor is idle or even disabled, depending on the architecture)
vcpu.<num>.halted halted_i virtual CPU <num> is halted: 1 (for "yes") or 0 (for other values) (may indicate the processor is idle or even disabled, depending on the architecture)
vcpu.<num>.delay delay time the vCPU <num> thread was enqueued by the host scheduler, but was waiting in the queue instead of running. Exposed to the VM as a steal time.
--- cpu_id Information about mapping vcpu_id to cpu_id (id of physical cpu). Should only be exposed when statistics_group contains vcpu and additional_statistics contains vcpu_mapping (in config)
interface net.count count number of network interfaces on this domain
net.<num>.name name name of the interface <num>
net.<num>.rx.bytes rx_bytes number of bytes received
net.<num>.rx.pkts rx_pkts number of packets received
net.<num>.rx.errs rx_errs number of receive errors
net.<num>.rx.drop rx_drop number of receive packets dropped
net.<num>.tx.bytes tx_bytes number of bytes transmitted
net.<num>.tx.pkts tx_pkts number of packets transmitted
net.<num>.tx.errs tx_errs number of transmission errors
net.<num>.tx.drop tx_drop number of transmit packets dropped
perf perf.cmt cmt the cache usage in Byte currently used, not available for kernels from 4.14 upwards
perf.mbmt mbmt total system bandwidth from one level of cache, not available for kernels from 4.14 upwards
perf.mbml mbml bandwidth of memory traffic for a memory controller, not available for kernels from 4.14 upwards
perf.cpu_cycles cpu_cycles the count of cpu cycles (total/elapsed)
perf.instructions instructions the count of instructions
perf.cache_references cache_references the count of cache hits
perf.cache_misses cache_misses the count of caches misses
perf.branch_instructions branch_instructions the count of branch instructions
perf.branch_misses branch_misses the count of branch misses
perf.bus_cycles bus_cycles the count of bus cycles
perf.stalled_cycles_frontend stalled_cycles_frontend the count of stalled frontend cpu cycles
perf.stalled_cycles_backend stalled_cycles_backend the count of stalled backend cpu cycles
perf.ref_cpu_cycles ref_cpu_cycles the count of ref cpu cycles
perf.cpu_clock cpu_clock the count of cpu clock time
perf.task_clock task_clock the count of task clock time
perf.page_faults page_faults the count of page faults
perf.context_switches context_switches the count of context switches
perf.cpu_migrations cpu_migrations the count of cpu migrations
perf.page_faults_min page_faults_min the count of minor page faults
perf.page_faults_maj page_faults_maj the count of major page faults
perf.alignment_faults alignment_faults the count of alignment faults
perf.emulation_faults emulation_faults the count of emulation faults
block block.count count number of block devices being listed
block.<num>.name name name of the target of the block device <num> (the same name for multiple entries if --backing is present)
block.<num>.backingIndex backingIndex when --backing is present, matches up with the <backingStore> index listed in domain XML for backing files
block.<num>.path path file source of block device <num>, if it is a local file or block device
block.<num>.rd.reqs rd_reqs number of read requests
block.<num>.rd.bytes rd_bytes number of read bytes
block.<num>.rd.times rd_times total time (ns) spent on reads
block.<num>.wr.reqs wr_reqs number of write requests
block.<num>.wr.bytes wr_bytes number of written bytes
block.<num>.wr.times wr_times total time (ns) spent on writes
block.<num>.fl.reqs fl_reqs total flush requests
block.<num>.fl.times fl_times total time (ns) spent on cache flushing
block.<num>.errors errors Xen only: the 'oo_req' value
block.<num>.allocation allocation offset of highest written sector in bytes
block.<num>.capacity capacity logical size of source file in bytes
block.<num>.physical physical physical size of source file in bytes
block.<num>.threshold threshold threshold (in bytes) for delivering the VIR_DOMAIN_EVENT_ID_BLOCK_THRESHOLD event. See domblkthreshold
iothread iothread.count count maximum number of IOThreads in the subsequent list as unsigned int. Each IOThread in the list will will use it's iothread_id value as the <id>. There may be fewer <id> entries than the iothread.count value if the polling values are not supported
iothread.<id>.poll-max-ns poll_max_ns maximum polling time in nanoseconds used by the <id> IOThread. A value of 0 (zero) indicates polling is disabled
iothread.<id>.poll-grow poll_grow polling time grow value. A value of 0 (zero) growth is managed by the hypervisor
iothread.<id>.poll-shrink poll_shrink polling time shrink value. A value of (zero) indicates shrink is managed by hypervisor
memory memory.bandwidth.monitor.count count the number of memory bandwidth monitors for this domain, not available for kernels from 4.14 upwards
memory.bandwidth.monitor.<num>.name name the name of monitor <num>, not available for kernels from 4.14 upwards
memory.bandwidth.monitor.<num>.vcpus vcpus the vcpu list of monitor <num>, not available for kernels from 4.14 upwards
memory.bandwidth.monitor.<num>.node.count node_count the number of memory controller in monitor <num>, not available for kernels from 4.14 upwards
memory.bandwidth.monitor.<num>.node.<index>.id id host allocated memory controller id for controller <index> of monitor <num>, not available for kernels from 4.14 upwards
memory.bandwidth.monitor.<num>.node.<index>.bytes.local bytes_local the accumulative bytes consumed by @vcpus that passing through the memory controller in the same processor that the scheduled host CPU belongs to, not available for kernels from 4.14 upwards
memory.bandwidth.monitor.<num>.node.<index>.bytes.total bytes_total the total bytes consumed by @vcpus that passing through all memory controllers, either local or remote controller, not available for kernels from 4.14 upwards
dirtyrate dirtyrate.calc_status calc_status the status of last memory dirty rate calculation, returned as number from virDomainDirtyRateStatus enum
dirtyrate.calc_start_time calc_start_time the start time of last memory dirty rate calculation
dirtyrate.calc_period calc_period the period of last memory dirty rate calculation
dirtyrate.megabytes_per_second megabytes_per_second the calculated memory dirty rate in MiB/s
dirtyrate.calc_mode calc_mode the calculation mode used last measurement (page-sampling/dirty-bitmap/dirty-ring)
dirtyrate.vcpu.<num>.megabytes_per_second megabytes_per_second the calculated memory dirty rate for a virtual cpu in MiB/s
Additional statistics
Statistics group Exposed Telegraf tag Exposed Telegraf field Description
vcpu_mapping vcpu_id --- ID of Virtual CPU
--- cpu_id Comma separated list (exposed as a string) of Physical CPU IDs

Example Output

libvirt_cpu_affinity,domain_name=U22,host=localhost,vcpu_id=0 cpu_id="1,2,3" 1662383707000000000
libvirt_cpu_affinity,domain_name=U22,host=localhost,vcpu_id=1 cpu_id="1,2,3,4,5,6,7,8,9,10" 1662383707000000000
libvirt_balloon,domain_name=U22,host=localhost current=4194304i,maximum=4194304i,swap_in=0i,swap_out=0i,major_fault=0i,minor_fault=0i,unused=3928628i,available=4018480i,rss=1036012i,usable=3808724i,last_update=1654611373i,disk_caches=68820i,hugetlb_pgalloc=0i,hugetlb_pgfail=0i 1662383709000000000
libvirt_vcpu_total,domain_name=U22,host=localhost maximum=2i,current=2i 1662383709000000000
libvirt_vcpu,domain_name=U22,host=localhost,vcpu_id=0 state=1i,time=17943740000000i,wait=0i,halted="no",halted_i=0i,delay=14246609424i,cpu_id=1i 1662383709000000000
libvirt_vcpu,domain_name=U22,host=localhost,vcpu_id=1 state=1i,time=18288400000000i,wait=0i,halted="yes",halted_i=1i,delay=12902231142i,cpu_id=3i 1662383709000000000
libvirt_net_total,domain_name=U22,host=localhost count=1i 1662383709000000000
libvirt_net,domain_name=U22,host=localhost,interface_id=0 name="vnet0",rx_bytes=110i,rx_pkts=1i,rx_errs=0i,rx_drop=31007i,tx_bytes=0i,tx_pkts=0i,tx_errs=0i,tx_drop=0i 1662383709000000000
libvirt_block_total,domain_name=U22,host=localhost count=1i 1662383709000000000
libvirt_block,domain_name=U22,host=localhost,block_id=0 rd=17337818234i,path=name="vda",backingIndex=1i,path="/tmp/ubuntu_image.img",rd_reqs=11354i,rd_bytes=330314752i,rd_times=6240559566i,wr_reqs=52440i,wr_bytes=1183828480i,wr_times=21887150375i,fl_reqs=32250i,fl_times=23158998353i,errors=0i,allocation=770048000i,capacity=2361393152i,physical=770052096i,threshold=2147483648i
libvirt_perf,domain_name=U22,host=localhost cmt=19087360i,mbmt=77168640i,mbml=67788800i,cpu_cycles=29858995122i,instructions=0i,cache_references=3053301695i,cache_misses=609441024i,branch_instructions=2623890194i,branch_misses=103707961i,bus_cycles=188105628i,stalled_cycles_frontend=0i,stalled_cycles_backend=0i,ref_cpu_cycles=30766094039i,cpu_clock=25166642695i,task_clock=25263578917i,page_faults=2670i,context_switches=294284i,cpu_migrations=17949i,page_faults_min=2670i,page_faults_maj=0i,alignment_faults=0i,emulation_faults=0i 1662383709000000000
libvirt_dirtyrate,domain_name=U22,host=localhost calc_status=2i,calc_start_time=348414i,calc_period=1i,dirtyrate.megabytes_per_second=4i,calc_mode="dirty-ring" 1662383709000000000
libvirt_dirtyrate_vcpu,domain_name=U22,host=localhost,vcpu_id=0 megabytes_per_second=2i 1662383709000000000
libvirt_dirtyrate_vcpu,domain_name=U22,host=localhost,vcpu_id=1 megabytes_per_second=2i 1662383709000000000
libvirt_state,domain_name=U22,host=localhost state=1i,reason=5i 1662383709000000000
libvirt_cpu,domain_name=U22,host=localhost time=67419144867000i,user=63886161852000i,system=3532983015000i,haltpoll_success_time=516907915i,haltpoll_fail_time=2727253643i 1662383709000000000
libvirt_cpu_cache_monitor_total,domain_name=U22,host=localhost count=1i 1662383709000000000
libvirt_cpu_cache_monitor,domain_name=U22,host=localhost,cache_monitor_id=0 name="any_name_vcpus_0-3",vcpus="0-3",bank_count=1i 1662383709000000000
libvirt_cpu_cache_monitor_bank,domain_name=U22,host=localhost,cache_monitor_id=0,bank_index=0 id=0i,bytes=5406720i 1662383709000000000
libvirt_iothread_total,domain_name=U22,host=localhost count=1i 1662383709000000000
libvirt_iothread,domain_name=U22,host=localhost,iothread_id=0 poll_max_ns=32768i,poll_grow=0i,poll_shrink=0i 1662383709000000000
libvirt_memory_bandwidth_monitor_total,domain_name=U22,host=localhost count=2i 1662383709000000000
libvirt_memory_bandwidth_monitor,domain_name=U22,host=localhost,memory_bandwidth_monitor_id=0 name="any_name_vcpus_0-4",vcpus="0-4",node_count=2i 1662383709000000000
libvirt_memory_bandwidth_monitor,domain_name=U22,host=localhost,memory_bandwidth_monitor_id=1 name="vcpus_7",vcpus="7",node_count=2i 1662383709000000000
libvirt_memory_bandwidth_monitor_node,domain_name=U22,host=localhost,memory_bandwidth_monitor_id=0,controller_index=0 id=0i,bytes_total=10208067584i,bytes_local=4807114752i 1662383709000000000
libvirt_memory_bandwidth_monitor_node,domain_name=U22,host=localhost,memory_bandwidth_monitor_id=0,controller_index=1 id=1i,bytes_total=8693735424i,bytes_local=5850161152i 1662383709000000000
libvirt_memory_bandwidth_monitor_node,domain_name=U22,host=localhost,memory_bandwidth_monitor_id=1,controller_index=0 id=0i,bytes_total=853811200i,bytes_local=290701312i 1662383709000000000
libvirt_memory_bandwidth_monitor_node,domain_name=U22,host=localhost,memory_bandwidth_monitor_id=1,controller_index=1 id=1i,bytes_total=406044672i,bytes_local=229425152i 1662383709000000000

Documentation

Index

Constants

This section is empty.

Variables

This section is empty.

Functions

This section is empty.

Types

type Libvirt

type Libvirt struct {
	LibvirtURI           string          `toml:"libvirt_uri"`
	Domains              []string        `toml:"domains"`
	StatisticsGroups     []string        `toml:"statistics_groups"`
	AdditionalStatistics []string        `toml:"additional_statistics"`
	Log                  telegraf.Logger `toml:"-"`
	// contains filtered or unexported fields
}

func (*Libvirt) Gather

func (l *Libvirt) Gather(acc telegraf.Accumulator) error

func (*Libvirt) Init

func (l *Libvirt) Init() error

func (*Libvirt) SampleConfig

func (l *Libvirt) SampleConfig() string

type MockLibvirtUtils

type MockLibvirtUtils struct {
	mock.Mock
}

MockLibvirtUtils is an autogenerated mock type for the utils type

func NewMockLibvirtUtils

func NewMockLibvirtUtils(t mockConstructorTestingTNewMockLibvirtUtils) *MockLibvirtUtils

NewMockLibvirtUtils creates a new instance of MockLibvirtUtils. It also registers a testing interface on the mock and a cleanup function to assert the mocks expectations.

func (*MockLibvirtUtils) Disconnect

func (_m *MockLibvirtUtils) Disconnect() error

Disconnect provides a mock function with given fields:

func (*MockLibvirtUtils) EnsureConnected

func (_m *MockLibvirtUtils) EnsureConnected(libvirtURI string) error

EnsureConnected provides a mock function with given fields: libvirtURI

func (*MockLibvirtUtils) GatherAllDomains

func (_m *MockLibvirtUtils) GatherAllDomains() ([]go_libvirt.Domain, error)

GatherAllDomains provides a mock function with given fields:

func (*MockLibvirtUtils) GatherNumberOfPCPUs

func (_m *MockLibvirtUtils) GatherNumberOfPCPUs() (int, error)

GatherNumberOfPCPUs provides a mock function with given fields:

func (*MockLibvirtUtils) GatherStatsForDomains

func (_m *MockLibvirtUtils) GatherStatsForDomains(domains []go_libvirt.Domain, metricNumber uint32) ([]go_libvirt.DomainStatsRecord, error)

GatherStatsForDomains provides a mock function with given fields: domains, metricNumber

func (*MockLibvirtUtils) GatherVcpuMapping

func (_m *MockLibvirtUtils) GatherVcpuMapping(domain go_libvirt.Domain, pCPUs int, shouldGetCurrentPCPU bool) ([]vcpuAffinity, error)

GatherVcpuMapping provides a mock function with given fields: domain, pCPUs, shouldGetCurrentPCPU

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