Esempio n. 1
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// Test of the ETM monitor.
func TestEtmMonitor(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	// Generate measurings.
	for i := 0; i < 500; i++ {
		n := rand.Intn(10)
		id := fmt.Sprintf("mp:task:%d", n)
		m := monitoring.BeginMeasuring(id)
		work(n * 5000)
		m.EndMeasuring()
	}
	// Need some time to let that backend catch up queued mesurings.
	time.Sleep(time.Millisecond)
	// Asserts.
	mp, err := monitoring.ReadMeasuringPoint("foo")
	assert.ErrorMatch(err, `\[E.*\] measuring point "foo" does not exist`, "reading non-existent measuring point")
	mp, err = monitoring.ReadMeasuringPoint("mp:task:5")
	assert.Nil(err, "No error expected.")
	assert.Equal(mp.Id, "mp:task:5", "should get the right one")
	assert.True(mp.Count > 0, "should be measured several times")
	assert.Match(mp.String(), `Measuring Point "mp:task:5" \(.*\)`, "string representation should look fine")
	monitoring.MeasuringPointsDo(func(mp *monitoring.MeasuringPoint) {
		assert.Match(mp.Id, "mp:task:[0-9]", "id has to match the pattern")
		assert.True(mp.MinDuration <= mp.AvgDuration && mp.AvgDuration <= mp.MaxDuration,
			"avg should be somewhere between min and max")
	})
}
Esempio n. 2
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// Test log level.
func TestLevel(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)

	logger.SetLevel(logger.LevelDebug)
	assert.Equal(logger.Level(), logger.LevelDebug, "Level debug.")
	logger.SetLevel(logger.LevelCritical)
	assert.Equal(logger.Level(), logger.LevelCritical, "Level critical.")
	logger.SetLevel(logger.LevelDebug)
	assert.Equal(logger.Level(), logger.LevelDebug, "Level debug.")
}
Esempio n. 3
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// Test the behavior after an internal panic.
func TestInternalPanic(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	// Register monitoring func with panic.
	monitoring.Register("panic", func() (string, error) { panic("ouch"); return "panic", nil })
	// Need some time to let that backend catch up queued registering.
	time.Sleep(time.Millisecond)
	// Asserts.
	dsv, err := monitoring.ReadStatus("panic")
	assert.Empty(dsv, "no dynamic status value")
	assert.ErrorMatch(err, `\[E.*\] monitor backend panicked`, "monitor restarted due to panic")
}
Esempio n. 4
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// Test the simple backend returning nil after stop.
func TestSimpleStop(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	done := false
	l := loop.Go(generateSimpleBackend(&done))

	assert.Nil(l.Stop(), "no error after simple stop")
	assert.True(done, "backend has done")

	status, _ := l.Error()

	assert.Equal(loop.Stopped, status, "loop is stopped")
}
Esempio n. 5
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// Test the validation.
func TestValidation(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)

	ec := 1
	messages := errors.Messages{ec: "valid"}
	err := errors.New(ec, messages)
	fileName, line, lerr := errors.Location(err)

	assert.True(errors.Valid(err))
	assert.Nil(lerr)
	assert.Equal(fileName, "errors_test.go")
	assert.Equal(line, 31)
}
Esempio n. 6
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// Test the annotation of errors.
func TestAnnotation(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)

	ec := 123
	messages := errors.Messages{ec: "annotated"}
	aerr := testError("wrapped")
	err := errors.Annotate(aerr, ec, messages)

	assert.ErrorMatch(err, `\[ERRORS_TEST:123\] annotated: wrapped`)
	assert.Equal(errors.Annotated(err), aerr)
	assert.True(errors.IsInvalidTypeError(errors.Annotated(aerr)))
	assert.Length(errors.Stack(err), 2)
}
Esempio n. 7
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// Test an internal error.
func TestError(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	done := false
	l := loop.Go(generateErrorBackend(&done))

	time.Sleep(longDelay)

	assert.ErrorMatch(l.Stop(), "timed out", "error has to be 'time out'")
	assert.True(done, "backend has done")

	status, _ := l.Error()

	assert.Equal(loop.Stopped, status, "loop is stopped")
}
Esempio n. 8
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// Test the validation.
func TestValidation(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)

	ec := 1
	messages := errors.Messages{ec: "valid"}
	err := errors.New(ec, messages)
	packageName, fileName, line, lerr := errors.Location(err)

	assert.True(errors.Valid(err))
	assert.Nil(lerr)
	assert.Equal(packageName, "github.com/tideland/goas/v3/errors_test")
	assert.Equal(fileName, "errors_test.go")
	assert.Equal(line, 31)
}
Esempio n. 9
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// Test the simple backend returning an error after kill.
func TestSimpleKill(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	done := false
	l := loop.Go(generateSimpleBackend(&done))

	l.Kill(errors.New("ouch"))

	assert.ErrorMatch(l.Stop(), "ouch", "error has to be 'ouch'")
	assert.True(done, "backend has done")

	status, _ := l.Error()

	assert.Equal(loop.Stopped, status, "loop is stopped")
}
Esempio n. 10
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// Test logging with an own logger.
func TestOwnLogger(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	ownLogger := &testLogger{[]string{}}

	logger.SetLevel(logger.LevelDebug)
	logger.SetLogger(ownLogger)

	logger.Debugf("Debug.")
	logger.Infof("Info.")
	logger.Warningf("Warning.")
	logger.Errorf("Error.")
	logger.Criticalf("Critical.")

	assert.Length(ownLogger.logs, 5, "Everything logged.")
}
Esempio n. 11
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// Test logging with the syslogger.
func TestSysLogger(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)

	logger.SetLevel(logger.LevelDebug)

	sl, err := logger.NewSysLogger("GOAS")
	assert.Nil(err)
	logger.SetLogger(sl)

	logger.Debugf("Debug.")
	logger.Infof("Info.")
	logger.Warningf("Warning.")
	logger.Errorf("Error.")
	logger.Criticalf("Critical.")
}
Esempio n. 12
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// Test regular stop of a recovered loop.
func TestStopRecoverings(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	done := false
	count := 0
	l := loop.GoRecoverable(generateSimplePanicBackend(&done, &count), ignorePanics)

	time.Sleep(longDelay)

	assert.Nil(l.Stop(), "no error after simple stop")
	assert.True(done, "backend has done")

	status, _ := l.Error()

	assert.Equal(loop.Stopped, status, "loop is stopped")
}
Esempio n. 13
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// Test error inside a recovered loop.
func TestRecoveringsError(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	done := false
	count := 0
	l := loop.GoRecoverable(generateErrorPanicBackend(&done, &count), catchTimeout)

	time.Sleep(longDelay)

	assert.ErrorMatch(l.Stop(), "timed out", "error has to be 'timed out'")
	assert.True(done, "backend has done")

	status, _ := l.Error()

	assert.Equal(loop.Stopped, status, "loop is stopped")
}
Esempio n. 14
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// Test recoverings after panics.
func TestRecoverings(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	done := false
	count := 0
	l := loop.GoRecoverable(generateSimplePanicBackend(&done, &count), checkRecovering)

	time.Sleep(veryLongDelay)

	assert.ErrorMatch(l.Stop(), "too many panics", "error has to be 'too many panics'")
	assert.True(done, "backend has done")
	assert.Equal(count, 5, "loop has to be restarted 5 times")

	status, _ := l.Error()

	assert.Equal(loop.Stopped, status, "loop is stopped")
}
Esempio n. 15
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// Test creation and checking.
func TestIsError(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)

	ec := 42
	messages := errors.Messages{ec: "test error %d"}
	err := errors.New(ec, messages, 1)

	assert.ErrorMatch(err, `\[ERRORS_TEST:042\] test error 1`)
	assert.True(errors.IsError(err, ec))
	assert.False(errors.IsError(err, 0))

	err = testError("test error 2")

	assert.ErrorMatch(err, "test error 2")
	assert.False(errors.IsError(err, ec))
	assert.False(errors.IsError(err, 0))
}
Esempio n. 16
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// Test of the DSR monitor.
func TestDsrMonitor(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	// Register monitoring funcs.
	monitoring.Register("dsr:a", func() (string, error) { return "A", nil })
	monitoring.Register("dsr:b", func() (string, error) { return "4711", nil })
	monitoring.Register("dsr:c", func() (string, error) { return "2012-02-15", nil })
	monitoring.Register("dsr:d", func() (string, error) { a := 1; a = a / (a - a); return fmt.Sprintf("%d", a), nil })
	// Need some time to let that backend catch up queued registerings.
	time.Sleep(time.Millisecond)
	// Asserts.
	dsv, err := monitoring.ReadStatus("foo")
	assert.ErrorMatch(err, `\[E.*\] dynamic status "foo" does not exist`, "reading non-existent status")
	dsv, err = monitoring.ReadStatus("dsr:b")
	assert.Nil(err, "no error expected")
	assert.Equal(dsv, "4711", "status value should be correct")
	dsv, err = monitoring.ReadStatus("dsr:d")
	assert.NotNil(err, "error should be returned")
	assert.ErrorMatch(err, `\[E.*\] monitor backend panicked`, "error inside retrieval has to be catched")
}
Esempio n. 17
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// Test of the SSI monitor.
func TestSsiMonitor(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	// Generate values.
	for i := 0; i < 500; i++ {
		n := rand.Intn(10)
		id := fmt.Sprintf("ssv:value:%d", n)
		monitoring.SetVariable(id, rand.Int63n(2001)-1000)
	}
	// Need some time to let that backend catch up queued mesurings.
	time.Sleep(time.Millisecond)
	// Asserts.
	ssv, err := monitoring.ReadVariable("foo")
	assert.ErrorMatch(err, `\[E.*\] stay-set variable "foo" does not exist`, "reading non-existent variable")
	ssv, err = monitoring.ReadVariable("ssv:value:5")
	assert.Nil(err, "no error expected")
	assert.Equal(ssv.Id, "ssv:value:5", "should get the right one")
	assert.True(ssv.Count > 0, "should be set several times")
	assert.Match(ssv.String(), `Stay-Set Variable "ssv:value:5" (.*)`, "string representation should look fine")
	monitoring.StaySetVariablesDo(func(ssv *monitoring.StaySetVariable) {
		assert.Match(ssv.Id, "ssv:value:[0-9]", "id has to match the pattern")
		assert.True(ssv.MinValue <= ssv.AvgValue && ssv.AvgValue <= ssv.MaxValue,
			"avg should be somewhere between min and max")
	})
}
Esempio n. 18
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// TestLess tests the comparing of two versions.
func TestLess(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	tests := []struct {
		vsnA version.Version
		vsnB version.Version
		less bool
	}{
		{
			vsnA: version.New(1, 2, 3),
			vsnB: version.New(1, 2, 3),
			less: false,
		}, {
			vsnA: version.New(1, 2, 3),
			vsnB: version.New(1, 2, 4),
			less: true,
		}, {
			vsnA: version.New(1, 2, 3),
			vsnB: version.New(1, 3, 3),
			less: true,
		}, {
			vsnA: version.New(1, 2, 3),
			vsnB: version.New(2, 2, 3),
			less: true,
		}, {
			vsnA: version.New(3, 2, 1),
			vsnB: version.New(1, 2, 3),
			less: false,
		}, {
			vsnA: version.New(1, 2, 3, "alpha"),
			vsnB: version.New(1, 2, 3),
			less: true,
		}, {
			vsnA: version.New(1, 2, 3, "alpha", "1"),
			vsnB: version.New(1, 2, 3, "alpha"),
			less: true,
		}, {
			vsnA: version.New(1, 2, 3, "alpha", "1"),
			vsnB: version.New(1, 2, 3, "alpha", "2"),
			less: true,
		}, {
			vsnA: version.New(1, 2, 3, "alpha", "4711"),
			vsnB: version.New(1, 2, 3, "alpha", "471"),
			less: false,
		}, {
			vsnA: version.New(1, 2, 3, "alpha", "48"),
			vsnB: version.New(1, 2, 3, "alpha", "4711"),
			less: true,
		}, {
			vsnA: version.New(1, 2, 3, version.Metadata, "alpha", "1"),
			vsnB: version.New(1, 2, 3, version.Metadata, "alpha", "2"),
			less: false,
		}, {
			vsnA: version.New(1, 2, 3, version.Metadata, "alpha", "2"),
			vsnB: version.New(1, 2, 3, version.Metadata, "alpha", "1"),
			less: false,
		}, {
			vsnA: version.New(1, 2, 3, "alpha", version.Metadata, "alpha", "2"),
			vsnB: version.New(1, 2, 3, "alpha", version.Metadata, "alpha", "1"),
			less: false,
		}, {
			vsnA: version.New(1, 2, 3, "alpha", "48", version.Metadata, "alpha", "2"),
			vsnB: version.New(1, 2, 3, "alpha", "4711", version.Metadata, "alpha", "1"),
			less: true,
		}, {
			vsnA: version.New(1, 2, 3, "alpha", "2"),
			vsnB: version.New(1, 2, 3, "alpha", "1b"),
			less: false,
		},
	}

	for i, test := range tests {
		assert.Logf("test #%d: %q < %q", i, test.vsnA, test.vsnB)
		assert.Equal(test.vsnA.Less(test.vsnB), test.less)
	}
}
Esempio n. 19
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// TestVersion tests the creation of a new versions and their
// accessor ethods.
func TestVersion(t *testing.T) {
	assert := asserts.NewTestingAssertion(t, true)
	tests := []struct {
		id         string
		vsn        version.Version
		major      int
		minor      int
		patch      int
		preRelease string
		metadata   string
	}{
		{
			id:         "v1.2.3",
			vsn:        version.New(1, 2, 3),
			major:      1,
			minor:      2,
			patch:      3,
			preRelease: "",
			metadata:   "",
		}, {
			id:         "v1.0.3",
			vsn:        version.New(1, -2, 3),
			major:      1,
			minor:      0,
			patch:      3,
			preRelease: "",
			metadata:   "",
		}, {
			id:         "v1.2.3-alpha.2014-08-03",
			vsn:        version.New(1, 2, 3, "alpha", "2014-08-03"),
			major:      1,
			minor:      2,
			patch:      3,
			preRelease: "alpha.2014-08-03",
			metadata:   "",
		}, {
			id:         "v1.2.3-alphabeta.7.11",
			vsn:        version.New(1, 2, 3, "alpha beta", "007", "1+1"),
			major:      1,
			minor:      2,
			patch:      3,
			preRelease: "alphabeta.7.11",
			metadata:   "",
		}, {
			id:         "v1.2.3+007.a",
			vsn:        version.New(1, 2, 3, version.Metadata, "007", "a"),
			major:      1,
			minor:      2,
			patch:      3,
			preRelease: "",
			metadata:   "007.a",
		}, {
			id:         "v1.2.3-alpha+007.a",
			vsn:        version.New(1, 2, 3, "alpha", version.Metadata, "007", "a"),
			major:      1,
			minor:      2,
			patch:      3,
			preRelease: "alpha",
			metadata:   "007.a",
		}, {
			id:         "v1.2.3-ALPHA+007.a",
			vsn:        version.New(1, 2, 3, "ALPHA", version.Metadata, "007", "a"),
			major:      1,
			minor:      2,
			patch:      3,
			preRelease: "ALPHA",
			metadata:   "007.a",
		},
	}

	for i, test := range tests {
		assert.Logf("test #%d: %q", i, test.id)
		assert.Equal(test.vsn.Major(), test.major)
		assert.Equal(test.vsn.Minor(), test.minor)
		assert.Equal(test.vsn.Patch(), test.patch)
		assert.Equal(test.vsn.PreRelease(), test.preRelease)
		assert.Equal(test.vsn.Metadata(), test.metadata)
		assert.Equal(test.vsn.String(), test.id)
	}
}