telegraf/internal/models/running_output_test.go

package internal_models

import (
	"fmt"
	"sort"
	"sync"
	"testing"

	"github.com/influxdata/telegraf"
	"github.com/influxdata/telegraf/testutil"

	"github.com/stretchr/testify/assert"
	"github.com/stretchr/testify/require"
)

var first5 = []telegraf.Metric{
	testutil.TestMetric(101, "metric1"),
	testutil.TestMetric(101, "metric2"),
	testutil.TestMetric(101, "metric3"),
	testutil.TestMetric(101, "metric4"),
	testutil.TestMetric(101, "metric5"),
}

var next5 = []telegraf.Metric{
	testutil.TestMetric(101, "metric6"),
	testutil.TestMetric(101, "metric7"),
	testutil.TestMetric(101, "metric8"),
	testutil.TestMetric(101, "metric9"),
	testutil.TestMetric(101, "metric10"),
}

// Test that NameDrop filters ger properly applied.
func TestRunningOutput_DropFilter(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive: true,
			NameDrop: []string{"metric1", "metric2"},
		},
	}
	assert.NoError(t, conf.Filter.CompileFilter())

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)

	for _, metric := range first5 {
		ro.AddMetric(metric)
	}
	for _, metric := range next5 {
		ro.AddMetric(metric)
	}
	assert.Len(t, m.Metrics(), 0)

	err := ro.Write()
	assert.NoError(t, err)
	assert.Len(t, m.Metrics(), 8)
}

// Test that NameDrop filters without a match do nothing.
func TestRunningOutput_PassFilter(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive: true,
			NameDrop: []string{"metric1000", "foo*"},
		},
	}
	assert.NoError(t, conf.Filter.CompileFilter())

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)

	for _, metric := range first5 {
		ro.AddMetric(metric)
	}
	for _, metric := range next5 {
		ro.AddMetric(metric)
	}
	assert.Len(t, m.Metrics(), 0)

	err := ro.Write()
	assert.NoError(t, err)
	assert.Len(t, m.Metrics(), 10)
}

// Test that tags are properly included
func TestRunningOutput_TagIncludeNoMatch(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive:   true,
			TagInclude: []string{"nothing*"},
		},
	}
	assert.NoError(t, conf.Filter.CompileFilter())

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)

	ro.AddMetric(first5[0])
	assert.Len(t, m.Metrics(), 0)

	err := ro.Write()
	assert.NoError(t, err)
	assert.Len(t, m.Metrics(), 1)
	assert.Empty(t, m.Metrics()[0].Tags())
}

// Test that tags are properly excluded
func TestRunningOutput_TagExcludeMatch(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive:   true,
			TagExclude: []string{"tag*"},
		},
	}
	assert.NoError(t, conf.Filter.CompileFilter())

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)

	ro.AddMetric(first5[0])
	assert.Len(t, m.Metrics(), 0)

	err := ro.Write()
	assert.NoError(t, err)
	assert.Len(t, m.Metrics(), 1)
	assert.Len(t, m.Metrics()[0].Tags(), 0)
}

// Test that tags are properly Excluded
func TestRunningOutput_TagExcludeNoMatch(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive:   true,
			TagExclude: []string{"nothing*"},
		},
	}
	assert.NoError(t, conf.Filter.CompileFilter())

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)

	ro.AddMetric(first5[0])
	assert.Len(t, m.Metrics(), 0)

	err := ro.Write()
	assert.NoError(t, err)
	assert.Len(t, m.Metrics(), 1)
	assert.Len(t, m.Metrics()[0].Tags(), 1)
}

// Test that tags are properly included
func TestRunningOutput_TagIncludeMatch(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive:   true,
			TagInclude: []string{"tag*"},
		},
	}
	assert.NoError(t, conf.Filter.CompileFilter())

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)

	ro.AddMetric(first5[0])
	assert.Len(t, m.Metrics(), 0)

	err := ro.Write()
	assert.NoError(t, err)
	assert.Len(t, m.Metrics(), 1)
	assert.Len(t, m.Metrics()[0].Tags(), 1)
}

// Test that we can write metrics with simple default setup.
func TestRunningOutputDefault(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive: false,
		},
	}

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)

	for _, metric := range first5 {
		ro.AddMetric(metric)
	}
	for _, metric := range next5 {
		ro.AddMetric(metric)
	}
	assert.Len(t, m.Metrics(), 0)

	err := ro.Write()
	assert.NoError(t, err)
	assert.Len(t, m.Metrics(), 10)
}

// Test that the first metrics batch gets overwritten if there is a buffer overflow.
func TestRunningOutputOverwrite(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive: false,
		},
	}

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)
	ro.MetricBatchSize = 1
	ro.MetricBufferLimit = 4

	for _, metric := range first5 {
		ro.AddMetric(metric)
	}
	require.Len(t, m.Metrics(), 0)

	err := ro.Write()
	require.NoError(t, err)
	require.Len(t, m.Metrics(), 4)

	var expected, actual []string
	for i, exp := range first5[1:] {
		expected = append(expected, exp.String())
		actual = append(actual, m.Metrics()[i].String())
	}

	sort.Strings(expected)
	sort.Strings(actual)

	assert.Equal(t, expected, actual)
}

// Test that multiple buffer overflows are handled properly.
func TestRunningOutputMultiOverwrite(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive: false,
		},
	}

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)
	ro.MetricBatchSize = 1
	ro.MetricBufferLimit = 3

	for _, metric := range first5 {
		ro.AddMetric(metric)
	}
	for _, metric := range next5 {
		ro.AddMetric(metric)
	}
	require.Len(t, m.Metrics(), 0)

	err := ro.Write()
	require.NoError(t, err)
	require.Len(t, m.Metrics(), 3)

	var expected, actual []string
	for i, exp := range next5[2:] {
		expected = append(expected, exp.String())
		actual = append(actual, m.Metrics()[i].String())
	}

	sort.Strings(expected)
	sort.Strings(actual)

	assert.Equal(t, expected, actual)
}

// Test that running output doesn't flush until it's full when
// FlushBufferWhenFull is set.
func TestRunningOutputFlushWhenFull(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive: false,
		},
	}

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)
	ro.FlushBufferWhenFull = true
	ro.MetricBatchSize = 5
	ro.MetricBufferLimit = 10

	// Fill buffer to limit
	for _, metric := range first5 {
		ro.AddMetric(metric)
	}
	// no flush yet
	assert.Len(t, m.Metrics(), 0)

	// add one more metric
	ro.AddMetric(next5[0])
	// now it flushed
	assert.Len(t, m.Metrics(), 5)

	// add one more metric and write it manually
	ro.AddMetric(next5[1])
	err := ro.Write()
	assert.NoError(t, err)
	assert.Len(t, m.Metrics(), 7)
}

// Test that running output doesn't flush until it's full when
// FlushBufferWhenFull is set, twice.
func TestRunningOutputMultiFlushWhenFull(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive: false,
		},
	}

	m := &mockOutput{}
	ro := NewRunningOutput("test", m, conf)
	ro.FlushBufferWhenFull = true
	ro.MetricBatchSize = 4
	ro.MetricBufferLimit = 12

	// Fill buffer past limit twive
	for _, metric := range first5 {
		ro.AddMetric(metric)
	}
	for _, metric := range next5 {
		ro.AddMetric(metric)
	}
	// flushed twice
	assert.Len(t, m.Metrics(), 8)
}

func TestRunningOutputWriteFail(t *testing.T) {
	conf := &OutputConfig{
		Filter: Filter{
			IsActive: false,
		},
	}

	m := &mockOutput{}
	m.failWrite = true
	ro := NewRunningOutput("test", m, conf)
	ro.FlushBufferWhenFull = true
	ro.MetricBatchSize = 4
	ro.MetricBufferLimit = 12

	// Fill buffer past limit twice
	for _, metric := range first5 {
		ro.AddMetric(metric)
	}
	for _, metric := range next5 {
		ro.AddMetric(metric)
	}
	// no successful flush yet
	assert.Len(t, m.Metrics(), 0)

	// manual write fails
	err := ro.Write()
	require.Error(t, err)
	// no successful flush yet
	assert.Len(t, m.Metrics(), 0)

	m.failWrite = false
	err = ro.Write()
	require.NoError(t, err)

	assert.Len(t, m.Metrics(), 10)
}

type mockOutput struct {
	sync.Mutex

	metrics []telegraf.Metric

	// if true, mock a write failure
	failWrite bool
}

func (m *mockOutput) Connect() error {
	return nil
}

func (m *mockOutput) Close() error {
	return nil
}

func (m *mockOutput) Description() string {
	return ""
}

func (m *mockOutput) SampleConfig() string {
	return ""
}

func (m *mockOutput) Write(metrics []telegraf.Metric) error {
	m.Lock()
	defer m.Unlock()
	if m.failWrite {
		return fmt.Errorf("Failed Write!")
	}

	if m.metrics == nil {
		m.metrics = []telegraf.Metric{}
	}

	for _, metric := range metrics {
		m.metrics = append(m.metrics, metric)
	}
	return nil
}

func (m *mockOutput) Metrics() []telegraf.Metric {
	m.Lock()
	defer m.Unlock()
	return m.metrics
}
Write unit tests for RunningOutput 2016-02-17 23:46:53 +00:00			`package internal_models`

			`import (`
			`"fmt"`
			`"sort"`
			`"sync"`
			`"testing"`

			`"github.com/influxdata/telegraf"`
			`"github.com/influxdata/telegraf/testutil"`

			`"github.com/stretchr/testify/assert"`
			`"github.com/stretchr/testify/require"`
			`)`

			`var first5 = []telegraf.Metric{`
			`testutil.TestMetric(101, "metric1"),`
			`testutil.TestMetric(101, "metric2"),`
			`testutil.TestMetric(101, "metric3"),`
			`testutil.TestMetric(101, "metric4"),`
			`testutil.TestMetric(101, "metric5"),`
			`}`

			`var next5 = []telegraf.Metric{`
			`testutil.TestMetric(101, "metric6"),`
			`testutil.TestMetric(101, "metric7"),`
			`testutil.TestMetric(101, "metric8"),`
			`testutil.TestMetric(101, "metric9"),`
			`testutil.TestMetric(101, "metric10"),`
			`}`

Adds support for removing/keeping tags from metrics closes #706 2016-04-12 23:06:27 +00:00			`// Test that NameDrop filters ger properly applied.`
			`func TestRunningOutput_DropFilter(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: true,`
			`NameDrop: []string{"metric1", "metric2"},`
			`},`
			`}`
			`assert.NoError(t, conf.Filter.CompileFilter())`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`

			`for _, metric := range first5 {`
			`ro.AddMetric(metric)`
			`}`
			`for _, metric := range next5 {`
			`ro.AddMetric(metric)`
			`}`
			`assert.Len(t, m.Metrics(), 0)`

			`err := ro.Write()`
			`assert.NoError(t, err)`
			`assert.Len(t, m.Metrics(), 8)`
			`}`

			`// Test that NameDrop filters without a match do nothing.`
			`func TestRunningOutput_PassFilter(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: true,`
			`NameDrop: []string{"metric1000", "foo*"},`
			`},`
			`}`
			`assert.NoError(t, conf.Filter.CompileFilter())`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`

			`for _, metric := range first5 {`
			`ro.AddMetric(metric)`
			`}`
			`for _, metric := range next5 {`
			`ro.AddMetric(metric)`
			`}`
			`assert.Len(t, m.Metrics(), 0)`

			`err := ro.Write()`
			`assert.NoError(t, err)`
			`assert.Len(t, m.Metrics(), 10)`
			`}`

			`// Test that tags are properly included`
			`func TestRunningOutput_TagIncludeNoMatch(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: true,`
			`TagInclude: []string{"nothing*"},`
			`},`
			`}`
			`assert.NoError(t, conf.Filter.CompileFilter())`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`

			`ro.AddMetric(first5[0])`
			`assert.Len(t, m.Metrics(), 0)`

			`err := ro.Write()`
			`assert.NoError(t, err)`
			`assert.Len(t, m.Metrics(), 1)`
			`assert.Empty(t, m.Metrics()[0].Tags())`
			`}`

			`// Test that tags are properly excluded`
			`func TestRunningOutput_TagExcludeMatch(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: true,`
			`TagExclude: []string{"tag*"},`
			`},`
			`}`
			`assert.NoError(t, conf.Filter.CompileFilter())`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`

			`ro.AddMetric(first5[0])`
			`assert.Len(t, m.Metrics(), 0)`

			`err := ro.Write()`
			`assert.NoError(t, err)`
			`assert.Len(t, m.Metrics(), 1)`
			`assert.Len(t, m.Metrics()[0].Tags(), 0)`
			`}`

			`// Test that tags are properly Excluded`
			`func TestRunningOutput_TagExcludeNoMatch(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: true,`
			`TagExclude: []string{"nothing*"},`
			`},`
			`}`
			`assert.NoError(t, conf.Filter.CompileFilter())`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`

			`ro.AddMetric(first5[0])`
			`assert.Len(t, m.Metrics(), 0)`

			`err := ro.Write()`
			`assert.NoError(t, err)`
			`assert.Len(t, m.Metrics(), 1)`
			`assert.Len(t, m.Metrics()[0].Tags(), 1)`
			`}`

			`// Test that tags are properly included`
			`func TestRunningOutput_TagIncludeMatch(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: true,`
			`TagInclude: []string{"tag*"},`
			`},`
			`}`
			`assert.NoError(t, conf.Filter.CompileFilter())`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`

			`ro.AddMetric(first5[0])`
			`assert.Len(t, m.Metrics(), 0)`

			`err := ro.Write()`
			`assert.NoError(t, err)`
			`assert.Len(t, m.Metrics(), 1)`
			`assert.Len(t, m.Metrics()[0].Tags(), 1)`
			`}`

Write unit tests for RunningOutput 2016-02-17 23:46:53 +00:00			`// Test that we can write metrics with simple default setup.`
			`func TestRunningOutputDefault(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: false,`
			`},`
			`}`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`

			`for _, metric := range first5 {`
			`ro.AddMetric(metric)`
			`}`
			`for _, metric := range next5 {`
			`ro.AddMetric(metric)`
			`}`
			`assert.Len(t, m.Metrics(), 0)`

			`err := ro.Write()`
			`assert.NoError(t, err)`
			`assert.Len(t, m.Metrics(), 10)`
			`}`

Refactor running_output buffering closes #1087 2016-04-24 10:43:54 +00:00			`// Test that the first metrics batch gets overwritten if there is a buffer overflow.`
Write unit tests for RunningOutput 2016-02-17 23:46:53 +00:00			`func TestRunningOutputOverwrite(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: false,`
			`},`
			`}`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`
Refactor running_output buffering closes #1087 2016-04-24 10:43:54 +00:00			`ro.MetricBatchSize = 1`
Write unit tests for RunningOutput 2016-02-17 23:46:53 +00:00			`ro.MetricBufferLimit = 4`

			`for _, metric := range first5 {`
			`ro.AddMetric(metric)`
			`}`
			`require.Len(t, m.Metrics(), 0)`

			`err := ro.Write()`
			`require.NoError(t, err)`
			`require.Len(t, m.Metrics(), 4)`

			`var expected, actual []string`
			`for i, exp := range first5[1:] {`
			`expected = append(expected, exp.String())`
			`actual = append(actual, m.Metrics()[i].String())`
			`}`

			`sort.Strings(expected)`
			`sort.Strings(actual)`

			`assert.Equal(t, expected, actual)`
			`}`

			`// Test that multiple buffer overflows are handled properly.`
			`func TestRunningOutputMultiOverwrite(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: false,`
			`},`
			`}`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`
Refactor running_output buffering closes #1087 2016-04-24 10:43:54 +00:00			`ro.MetricBatchSize = 1`
Write unit tests for RunningOutput 2016-02-17 23:46:53 +00:00			`ro.MetricBufferLimit = 3`

			`for _, metric := range first5 {`
			`ro.AddMetric(metric)`
			`}`
			`for _, metric := range next5 {`
			`ro.AddMetric(metric)`
			`}`
			`require.Len(t, m.Metrics(), 0)`

			`err := ro.Write()`
			`require.NoError(t, err)`
			`require.Len(t, m.Metrics(), 3)`

			`var expected, actual []string`
			`for i, exp := range next5[2:] {`
			`expected = append(expected, exp.String())`
			`actual = append(actual, m.Metrics()[i].String())`
			`}`

			`sort.Strings(expected)`
			`sort.Strings(actual)`

			`assert.Equal(t, expected, actual)`
			`}`

			`// Test that running output doesn't flush until it's full when`
			`// FlushBufferWhenFull is set.`
			`func TestRunningOutputFlushWhenFull(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: false,`
			`},`
			`}`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`
			`ro.FlushBufferWhenFull = true`
Refactor running_output buffering closes #1087 2016-04-24 10:43:54 +00:00			`ro.MetricBatchSize = 5`
			`ro.MetricBufferLimit = 10`
Write unit tests for RunningOutput 2016-02-17 23:46:53 +00:00
			`// Fill buffer to limit`
			`for _, metric := range first5 {`
			`ro.AddMetric(metric)`
			`}`
			`// no flush yet`
			`assert.Len(t, m.Metrics(), 0)`

			`// add one more metric`
			`ro.AddMetric(next5[0])`
			`// now it flushed`
Refactor running_output buffering closes #1087 2016-04-24 10:43:54 +00:00			`assert.Len(t, m.Metrics(), 5)`
Write unit tests for RunningOutput 2016-02-17 23:46:53 +00:00
			`// add one more metric and write it manually`
			`ro.AddMetric(next5[1])`
			`err := ro.Write()`
			`assert.NoError(t, err)`
			`assert.Len(t, m.Metrics(), 7)`
			`}`

			`// Test that running output doesn't flush until it's full when`
			`// FlushBufferWhenFull is set, twice.`
			`func TestRunningOutputMultiFlushWhenFull(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: false,`
			`},`
			`}`

			`m := &mockOutput{}`
			`ro := NewRunningOutput("test", m, conf)`
			`ro.FlushBufferWhenFull = true`
Refactor running_output buffering closes #1087 2016-04-24 10:43:54 +00:00			`ro.MetricBatchSize = 4`
			`ro.MetricBufferLimit = 12`
Write unit tests for RunningOutput 2016-02-17 23:46:53 +00:00
			`// Fill buffer past limit twive`
			`for _, metric := range first5 {`
			`ro.AddMetric(metric)`
			`}`
			`for _, metric := range next5 {`
			`ro.AddMetric(metric)`
			`}`
			`// flushed twice`
Refactor running_output buffering closes #1087 2016-04-24 10:43:54 +00:00			`assert.Len(t, m.Metrics(), 8)`
Write unit tests for RunningOutput 2016-02-17 23:46:53 +00:00			`}`

			`func TestRunningOutputWriteFail(t *testing.T) {`
			`conf := &OutputConfig{`
			`Filter: Filter{`
			`IsActive: false,`
			`},`
			`}`

			`m := &mockOutput{}`
			`m.failWrite = true`
			`ro := NewRunningOutput("test", m, conf)`
			`ro.FlushBufferWhenFull = true`
Refactor running_output buffering closes #1087 2016-04-24 10:43:54 +00:00			`ro.MetricBatchSize = 4`
			`ro.MetricBufferLimit = 12`
Write unit tests for RunningOutput 2016-02-17 23:46:53 +00:00
			`// Fill buffer past limit twice`
			`for _, metric := range first5 {`
			`ro.AddMetric(metric)`
			`}`
			`for _, metric := range next5 {`
			`ro.AddMetric(metric)`
			`}`
			`// no successful flush yet`
			`assert.Len(t, m.Metrics(), 0)`

			`// manual write fails`
			`err := ro.Write()`
			`require.Error(t, err)`
			`// no successful flush yet`
			`assert.Len(t, m.Metrics(), 0)`

			`m.failWrite = false`
			`err = ro.Write()`
			`require.NoError(t, err)`

			`assert.Len(t, m.Metrics(), 10)`
			`}`

			`type mockOutput struct {`
			`sync.Mutex`

			`metrics []telegraf.Metric`

			`// if true, mock a write failure`
			`failWrite bool`
			`}`

			`func (m *mockOutput) Connect() error {`
			`return nil`
			`}`

			`func (m *mockOutput) Close() error {`
			`return nil`
			`}`

			`func (m *mockOutput) Description() string {`
			`return ""`
			`}`

			`func (m *mockOutput) SampleConfig() string {`
			`return ""`
			`}`

			`func (m *mockOutput) Write(metrics []telegraf.Metric) error {`
			`m.Lock()`
			`defer m.Unlock()`
			`if m.failWrite {`
			`return fmt.Errorf("Failed Write!")`
			`}`

			`if m.metrics == nil {`
			`m.metrics = []telegraf.Metric{}`
			`}`

			`for _, metric := range metrics {`
			`m.metrics = append(m.metrics, metric)`
			`}`
			`return nil`
			`}`

			`func (m *mockOutput) Metrics() []telegraf.Metric {`
			`m.Lock()`
			`defer m.Unlock()`
			`return m.metrics`
			`}`