telegraf/plugins/inputs/vsphere/vsphere_test.go

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package vsphere
import (
"context"
"crypto/tls"
"fmt"
"regexp"
"sort"
"testing"
"time"
"github.com/influxdata/telegraf/internal"
itls "github.com/influxdata/telegraf/internal/tls"
"github.com/influxdata/telegraf/testutil"
"github.com/influxdata/toml"
"github.com/stretchr/testify/require"
"github.com/vmware/govmomi/simulator"
)
var configHeader = `
# Telegraf Configuration
#
# Telegraf is entirely plugin driven. All metrics are gathered from the
# declared inputs, and sent to the declared outputs.
#
# Plugins must be declared in here to be active.
# To deactivate a plugin, comment out the name and any variables.
#
# Use 'telegraf -config telegraf.conf -test' to see what metrics a config
# file would generate.
#
# Environment variables can be used anywhere in this config file, simply prepend
# them with $. For strings the variable must be within quotes (ie, "$STR_VAR"),
# for numbers and booleans they should be plain (ie, $INT_VAR, $BOOL_VAR)
# Global tags can be specified here in key="value" format.
[global_tags]
# dc = "us-east-1" # will tag all metrics with dc=us-east-1
# rack = "1a"
## Environment variables can be used as tags, and throughout the config file
# user = "$USER"
# Configuration for telegraf agent
[agent]
## Default data collection interval for all inputs
interval = "10s"
## Rounds collection interval to 'interval'
## ie, if interval="10s" then always collect on :00, :10, :20, etc.
round_interval = true
## Telegraf will send metrics to outputs in batches of at most
## metric_batch_size metrics.
## This controls the size of writes that Telegraf sends to output plugins.
metric_batch_size = 1000
## For failed writes, telegraf will cache metric_buffer_limit metrics for each
## output, and will flush this buffer on a successful write. Oldest metrics
## are dropped first when this buffer fills.
## This buffer only fills when writes fail to output plugin(s).
metric_buffer_limit = 10000
## Collection jitter is used to jitter the collection by a random amount.
## Each plugin will sleep for a random time within jitter before collecting.
## This can be used to avoid many plugins querying things like sysfs at the
## same time, which can have a measurable effect on the system.
collection_jitter = "0s"
## Default flushing interval for all outputs. You shouldn't set this below
## interval. Maximum flush_interval will be flush_interval + flush_jitter
flush_interval = "10s"
## Jitter the flush interval by a random amount. This is primarily to avoid
## large write spikes for users running a large number of telegraf instances.
## ie, a jitter of 5s and interval 10s means flushes will happen every 10-15s
flush_jitter = "0s"
## By default or when set to "0s", precision will be set to the same
## timestamp order as the collection interval, with the maximum being 1s.
## ie, when interval = "10s", precision will be "1s"
## when interval = "250ms", precision will be "1ms"
## Precision will NOT be used for service inputs. It is up to each individual
## service input to set the timestamp at the appropriate precision.
## Valid time units are "ns", "us" (or "µs"), "ms", "s".
precision = ""
## Logging configuration:
## Run telegraf with debug log messages.
debug = false
## Run telegraf in quiet mode (error log messages only).
quiet = false
## Specify the log file name. The empty string means to log to stderr.
logfile = ""
## Override default hostname, if empty use os.Hostname()
hostname = ""
## If set to true, do no set the "host" tag in the telegraf agent.
omit_hostname = false
`
func defaultVSphere() *VSphere {
return &VSphere{
ClusterMetricInclude: []string{
"cpu.usage.*",
"cpu.usagemhz.*",
"mem.usage.*",
"mem.active.*"},
ClusterMetricExclude: nil,
HostMetricInclude: []string{
"cpu.ready.summation.delta.millisecond",
"cpu.latency.average.rate.percent",
"cpu.coreUtilization.average.rate.percent",
"mem.usage.average.absolute.percent",
"mem.swapinRate.average.rate.kiloBytesPerSecond",
"mem.state.latest.absolute.number",
"mem.latency.average.absolute.percent",
"mem.vmmemctl.average.absolute.kiloBytes",
"disk.read.average.rate.kiloBytesPerSecond",
"disk.write.average.rate.kiloBytesPerSecond",
"disk.numberReadAveraged.average.rate.number",
"disk.numberWriteAveraged.average.rate.number",
"disk.deviceReadLatency.average.absolute.millisecond",
"disk.deviceWriteLatency.average.absolute.millisecond",
"disk.totalReadLatency.average.absolute.millisecond",
"disk.totalWriteLatency.average.absolute.millisecond",
"storageAdapter.read.average.rate.kiloBytesPerSecond",
"storageAdapter.write.average.rate.kiloBytesPerSecond",
"storageAdapter.numberReadAveraged.average.rate.number",
"storageAdapter.numberWriteAveraged.average.rate.number",
"net.errorsRx.summation.delta.number",
"net.errorsTx.summation.delta.number",
"net.bytesRx.average.rate.kiloBytesPerSecond",
"net.bytesTx.average.rate.kiloBytesPerSecond",
"cpu.used.summation.delta.millisecond",
"cpu.usage.average.rate.percent",
"cpu.utilization.average.rate.percent",
"cpu.wait.summation.delta.millisecond",
"cpu.idle.summation.delta.millisecond",
"cpu.readiness.average.rate.percent",
"cpu.costop.summation.delta.millisecond",
"cpu.swapwait.summation.delta.millisecond",
"mem.swapoutRate.average.rate.kiloBytesPerSecond",
"disk.kernelReadLatency.average.absolute.millisecond",
"disk.kernelWriteLatency.average.absolute.millisecond"},
HostMetricExclude: nil,
VMMetricInclude: []string{
"cpu.ready.summation.delta.millisecond",
"mem.swapinRate.average.rate.kiloBytesPerSecond",
"virtualDisk.numberReadAveraged.average.rate.number",
"virtualDisk.numberWriteAveraged.average.rate.number",
"virtualDisk.totalReadLatency.average.absolute.millisecond",
"virtualDisk.totalWriteLatency.average.absolute.millisecond",
"virtualDisk.readOIO.latest.absolute.number",
"virtualDisk.writeOIO.latest.absolute.number",
"net.bytesRx.average.rate.kiloBytesPerSecond",
"net.bytesTx.average.rate.kiloBytesPerSecond",
"net.droppedRx.summation.delta.number",
"net.droppedTx.summation.delta.number",
"cpu.run.summation.delta.millisecond",
"cpu.used.summation.delta.millisecond",
"mem.swapoutRate.average.rate.kiloBytesPerSecond",
"virtualDisk.read.average.rate.kiloBytesPerSecond",
"virtualDisk.write.average.rate.kiloBytesPerSecond"},
VMMetricExclude: nil,
DatastoreMetricInclude: []string{
"disk.used.*",
"disk.provsioned.*"},
DatastoreMetricExclude: nil,
ClientConfig: itls.ClientConfig{InsecureSkipVerify: true},
MaxQueryObjects: 256,
ObjectDiscoveryInterval: internal.Duration{Duration: time.Second * 300},
Timeout: internal.Duration{Duration: time.Second * 20},
ForceDiscoverOnInit: true,
}
}
func createSim() (*simulator.Model, *simulator.Server, error) {
model := simulator.VPX()
err := model.Create()
if err != nil {
return nil, nil, err
}
model.Service.TLS = new(tls.Config)
s := model.Service.NewServer()
//fmt.Printf("Server created at: %s\n", s.URL)
return model, s, nil
}
func TestParseConfig(t *testing.T) {
v := VSphere{}
c := v.SampleConfig()
p := regexp.MustCompile("\n#")
fmt.Printf("Source=%s", p.ReplaceAllLiteralString(c, "\n"))
c = configHeader + "\n[[inputs.vsphere]]\n" + p.ReplaceAllLiteralString(c, "\n")
fmt.Printf("Source=%s", c)
tab, err := toml.Parse([]byte(c))
require.NoError(t, err)
require.NotNil(t, tab)
}
func TestWorkerPool(t *testing.T) {
wp := NewWorkerPool(100)
ctx := context.Background()
wp.Run(ctx, func(ctx context.Context, p interface{}) interface{} {
return p.(int) * 2
}, 10)
n := 100000
wp.Fill(ctx, func(ctx context.Context, f PushFunc) {
for i := 0; i < n; i++ {
f(ctx, i)
}
})
results := make([]int, n)
i := 0
wp.Drain(ctx, func(ctx context.Context, p interface{}) bool {
results[i] = p.(int)
i++
return true
})
sort.Ints(results)
for i := 0; i < n; i++ {
require.Equal(t, results[i], i*2)
}
}
func TestAll(t *testing.T) {
m, s, err := createSim()
if err != nil {
t.Fatal(err)
}
defer m.Remove()
defer s.Close()
var acc testutil.Accumulator
v := defaultVSphere()
v.Vcenters = []string{s.URL.String()}
v.Start(nil) // We're not using the Accumulator, so it can be nil.
defer v.Stop()
require.NoError(t, v.Gather(&acc))
}