Exemple #1
0
func main() {
	// Bind a new logger to a variable. You may create any number of loggers.
	ctx := kiwi.New()

	// For starting write ctx records to some writer output should be initialized.
	out := kiwi.SinkTo(os.Stdout, kiwi.UseLogfmt()).Start()

	// setup context of the logger
	ctx.With("userID", 1000, "host", "local", "startedAt", time.Now())

	// This record will be supplemented by startedAt value of time.Now().String()
	ctx.Add("sample", 1).Log()

	// This record also will be supplemented by the same value of the time.
	// Because context value evalueted when it was added by ctx.With().
	ctx.Add("sample", 2).Log()

	// You can provide deferred evaluation of context or ctx values if you add them wrapped
	// with func() interface{}, where interface should be one of scalar golang types.
	ctx.With("currentTime", func() string { return time.Now().String() })

	// Get previously saved context for use in the application.
	// They were keep as is without conversion to strings.
	currentContext := ctx.GetContext()
	fmt.Printf("some of the context values are: %d, %s\n", currentContext["userID"], currentContext["host"])

	// These records will be output each its own currentTime value because currentTime will
	// be evaluated on each Log() call.
	ctx.Add("sample", 3).Log()
	ctx.Add("sample", 4).Log()
	out.Flush()
}
func BenchmarkLevelsKiwiTypedHelpers_JSON(b *testing.B) {
	buf := &bytes.Buffer{}
	b.ResetTimer()
	l := kiwi.New()
	l.With("_n", "bench", "_p", pid)
	l.WithTimestamp(time.RFC3339)
	kiwi.LevelName = "l"
	out := kiwi.SinkTo(buf, kiwi.UseJSON()).Start()
	for i := 0; i < b.N; i++ {
		l.AddPairs(
			kiwi.AsInt("key", 1),
			kiwi.AsFloat64("key2", 3.141592),
			kiwi.AsString("key3", "string"),
			kiwi.AsBool("key4", false)).Debug()
		l.AddPairs(
			kiwi.AsInt("key", 1),
			kiwi.AsFloat64("key2", 3.141592),
			kiwi.AsString("key3", "string"),
			kiwi.AsBool("key4", false)).Info()
		l.AddPairs(
			kiwi.AsInt("key", 1),
			kiwi.AsFloat64("key2", 3.141592),
			kiwi.AsString("key3", "string"),
			kiwi.AsBool("key4", false)).Warn()
		l.AddPairs(
			kiwi.AsInt("key", 1),
			kiwi.AsFloat64("key2", 3.141592),
			kiwi.AsString("key3", "string"),
			kiwi.AsBool("key4", false)).Error()
	}
	b.StopTimer()
	out.Close()
}
Exemple #3
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func main() {
	// Bind a new logger to a variable. You may create any number of loggers.
	log := kiwi.New()

	tmpFile, _ := os.Create("/tmp/something-completely-different.log")

	// You can set arbitrary number of outputs.
	// But they will remain unused until you explicitly start them with Start().
	info := kiwi.SinkTo(os.Stdout, kiwi.UseLogfmt())
	errors := kiwi.SinkTo(os.Stderr, kiwi.UseLogfmt())
	something := kiwi.SinkTo(tmpFile, kiwi.UseLogfmt())

	// Each record by default will copied to all outputs.
	// But until you Start() any output the records will just dropped as the sample record below.
	log.Add("just something that will lost")

	// Each output allows filter out any records and write any other.
	// You specify filter for the keys (key filter).
	// Each of these keys should be presented in the record.
	errors.WithKey("error", "msg")
	// The filter may take into account key values. So only records with levels
	// ERROR and FATAL will be passed filter and written to stderr.
	errors.WithValue("level", "ERROR", "FATAL").Start()

	// Vice versa you can filter out some keys.
	info.WithoutKey("error")
	// And define another set of key-val pairs for distinguish outputs.
	info.WithValue("level", "INFO", "WARNING").Start()

	// It will output all records from outputs above if they have key "something".
	// So you can duplicate some records to several log files based on some criteria.
	something.WithKey("something").Start()

	// So if you not define any clauses (WithKey/WithoutKey/WithValue/WithoutValues)
	// then all records will copied to an output.

	// Let's go!
	log.Add("level", "INFO", "sample-record", 1, "key", "value")
	log.Add("level", "INFO", "sample-record", 2, "something").Log()
	log.Add("level", "ERROR", "msg", "Error description.").Log()
	log.Add("level", "FATAL").Log()

	// Until you call Log() records not copied to outputs.
	log.Log()
}
Exemple #4
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// Test logging of float value in default (scientific) format.
func TestGlobalLogger_LogFloatValue_Logfmt(t *testing.T) {
	output := bytes.NewBufferString("")
	out := kiwi.SinkTo(output, kiwi.UseLogfmt()).Start()

	kiwi.Log("k", 3.14159265359)

	out.Flush().Close()
	if strings.TrimSpace(output.String()) != "k=3.14159265359e+00" {
		println(output.String())
		t.Fail()
	}
}
Exemple #5
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// Test logging of negative integer value.
func TestGlobalLogger_LogNegativeIntValue_Logfmt(t *testing.T) {
	output := bytes.NewBufferString("")
	out := kiwi.SinkTo(output, kiwi.UseLogfmt()).Start()

	kiwi.Log("k", 123)

	out.Flush().Close()
	if strings.TrimSpace(output.String()) != "k=123" {
		println(output.String())
		t.Fail()
	}
}
Exemple #6
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// Test logging of byte array.
func TestGlobalLogger_LogBytesValue_Logfmt(t *testing.T) {
	output := bytes.NewBufferString("")
	out := kiwi.SinkTo(output, kiwi.UseLogfmt()).Start()

	kiwi.Log("k", []byte("The sample string with a lot of spaces."))

	out.Flush().Close()
	if strings.TrimSpace(output.String()) != "k=\"The sample string with a lot of spaces.\"" {
		println(output.String())
		t.Fail()
	}
}
Exemple #7
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// Test logging of the numeric key.
func TestGlobalLogger_LogNumericKey_Logfmt(t *testing.T) {
	output := bytes.NewBufferString("")
	out := kiwi.SinkTo(output, kiwi.UseLogfmt()).Start()

	kiwi.Log(123, "The sample value.")

	out.Flush().Close()
	if strings.TrimSpace(output.String()) != "123=\"The sample value.\"" {
		println(output.String())
		t.Fail()
	}
}
Exemple #8
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// Test logging of the key with spaces.
func TestGlobalLogger_LogKeyWithSpaces_Logfmt(t *testing.T) {
	output := bytes.NewBufferString("")
	out := kiwi.SinkTo(output, kiwi.UseLogfmt()).Start()

	kiwi.Log("key with spaces", "The sample value.")

	out.Flush().Close()
	if strings.TrimSpace(output.String()) != "\"key with spaces\"=\"The sample value.\"" {
		println(output.String())
		t.Fail()
	}
}
Exemple #9
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// Test logging of complex number.
func TestGlobalLogger_LogComplexValue_Logfmt(t *testing.T) {
	output := bytes.NewBufferString("")
	out := kiwi.SinkTo(output, kiwi.UseLogfmt()).Start()

	kiwi.Log("k", .12345E+5i, "k2", 1.e+0i)

	out.Flush().Close()
	if strings.TrimSpace(output.String()) != "k=(0.000000+12345.000000i) k2=(0.000000+1.000000i)" {
		println(output.String())
		t.Fail()
	}
}
Exemple #10
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// Test logging of boolean value.
func TestGlobalLogger_LogBoolValue_Logfmt(t *testing.T) {
	output := bytes.NewBufferString("")
	out := kiwi.SinkTo(output, kiwi.UseLogfmt()).Start()

	kiwi.Log("k", true, "k2", false)

	out.Flush().Close()
	if strings.TrimSpace(output.String()) != "k=true k2=false" {
		println(output.String())
		t.Fail()
	}
}
func BenchmarkLevelsKiwiGlobal_JSON(b *testing.B) {
	buf := &bytes.Buffer{}
	b.ResetTimer()
	out := kiwi.SinkTo(buf, kiwi.UseJSON()).Start()
	for i := 0; i < b.N; i++ {
		kiwi.Log("t", time.Now().Format(time.RFC3339), "l", "debug", "_n", "bench", "_p", pid, "key", 1, "key2", 3.141592, "key3", "string", "key4", false)
		kiwi.Log("t", time.Now().Format(time.RFC3339), "l", "info", "_n", "bench", "_p", pid, "key", 1, "key2", 3.141592, "key3", "string", "key4", false)
		kiwi.Log("t", time.Now().Format(time.RFC3339), "l", "warn", "_n", "bench", "_p", pid, "key", 1, "key2", 3.141592, "key3", "string", "key4", false)
		kiwi.Log("t", time.Now().Format(time.RFC3339), "l", "error", "_n", "bench", "_p", pid, "key", 1, "key2", 3.141592, "key3", "string", "key4", false)
	}
	b.StopTimer()
	out.Close()
}
Exemple #12
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// Test logging of time literal.
func TestGlobalLogger_LogTimeValue_Logfmt(t *testing.T) {
	output := bytes.NewBufferString("")
	out := kiwi.SinkTo(output, kiwi.UseLogfmt()).Start()
	value := time.Now()
	valueString := value.Format(kiwi.TimeLayout)

	kiwi.Log("k", value)

	out.Flush().Close()
	if strings.TrimSpace(output.String()) != fmt.Sprintf("k=%s", valueString) {
		println(output.String())
		t.Fail()
	}
}
Exemple #13
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// Test logging of float value in fixed format.
func TestGlobalLogger_LogFixedFloatValue_Logfmt(t *testing.T) {
	output := bytes.NewBufferString("")
	out := kiwi.SinkTo(output, kiwi.UseLogfmt()).Start()

	kiwi.FloatFormat = 'f'
	kiwi.Log("k", 3.14159265359)

	out.Flush().Close()
	if strings.TrimSpace(output.String()) != "k=3.14159265359" {
		println(output.String())
		t.Fail()
	}
	// Turn back to default format.
	kiwi.FloatFormat = 'e'
}
func BenchmarkLevelsKiwiTypedHelpersComplex_JSON(b *testing.B) {
	buf := &bytes.Buffer{}
	b.ResetTimer()
	l := kiwi.New()
	l.With("_n", "bench", "_p", pid)
	l.WithTimestamp(time.RFC3339)
	kiwi.LevelName = "l"
	out := kiwi.SinkTo(buf, kiwi.UseJSON()).Start()
	for i := 0; i < b.N; i++ {
		l.AddPairs(kiwi.AsInt("key", 1), kiwi.AsStringer("obj", testObject)).Debug()
		l.AddPairs(kiwi.AsInt("key", 1), kiwi.AsStringer("obj", testObject)).Info()
		l.AddPairs(kiwi.AsInt("key", 1), kiwi.AsStringer("obj", testObject)).Warn()
		l.AddPairs(kiwi.AsInt("key", 1), kiwi.AsStringer("obj", testObject)).Error()
	}
	b.StopTimer()
	out.Close()
}
func BenchmarkLevelsKiwi_JSON(b *testing.B) {
	buf := &bytes.Buffer{}
	b.ResetTimer()
	l := kiwi.New()
	l.With("_n", "bench", "_p", pid)
	l.WithTimestamp(time.RFC3339)
	kiwi.LevelName = "l"
	out := kiwi.SinkTo(buf, kiwi.UseJSON()).Start()
	for i := 0; i < b.N; i++ {
		l.Debug("key", 1, "key2", 3.141592, "key3", "string", "key4", false)
		l.Info("key", 1, "key2", 3.141592, "key3", "string", "key4", false)
		l.Warn("key", 1, "key2", 3.141592, "key3", "string", "key4", false)
		l.Error("key", 1, "key2", 3.141592, "key3", "string", "key4", false)
	}
	b.StopTimer()
	out.Close()
}
func BenchmarkLevelsKiwiComplex_JSON(b *testing.B) {
	buf := &bytes.Buffer{}
	b.ResetTimer()
	l := kiwi.New()
	l.With("_n", "bench", "_p", pid)
	l.WithTimestamp(time.RFC3339)
	kiwi.LevelName = "l"
	out := kiwi.SinkTo(buf, kiwi.UseJSON()).Start()
	for i := 0; i < b.N; i++ {
		l.Debug("key", 1, "obj", testObject)
		l.Info("key", 1, "obj", testObject)
		l.Warn("key", 1, "obj", testObject)
		l.Error("key", 1, "obj", testObject)
	}
	b.StopTimer()
	out.Close()
}
Exemple #17
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func main() {
	// Bind a new logger to a variable. You may create any number of loggers.
	log := kiwi.New()

	// For starting write log records to some writer output should be initialized.
	output := kiwi.SinkTo(os.Stdout, kiwi.UseLogfmt()).Start()

	log.Add("sample-record", 1, "key", "value")
	log.Log()

	// Most logger and output operations support chaining.
	log.Add("sample-record", 2, "key", "value", "key2", 123).Log()

	// On pause output will drop any incoming records.
	output.Stop()
	log.Add("this record will be dropped because single output we declared is on pause")
	output.Start()

	// You can explicitly remove output but it will automatically closed on application exit.
	output.Close()
}
Exemple #18
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func main() {
	kiwi.SinkTo(os.Stdout, kiwi.UseLogfmt()).Start()
	l := kiwi.New()
	l.Add("sample-record", 1).Log()
}