// Copyright (c) 2013, Prometheus Team // All rights reserved. // // Use of this source code is governed by a BSD-style license that can be found // in the LICENSE file. package prometheus import ( "bytes" "fmt" "io" "net/http" "testing" ) func testRegister(t tester) { var oldState = struct { abortOnMisuse bool debugRegistration bool useAggressiveSanityChecks bool }{ abortOnMisuse: abortOnMisuse, debugRegistration: debugRegistration, useAggressiveSanityChecks: useAggressiveSanityChecks, } defer func() { abortOnMisuse = oldState.abortOnMisuse debugRegistration = oldState.debugRegistration useAggressiveSanityChecks = oldState.useAggressiveSanityChecks }() type input struct { name string baseLabels map[string]string } var scenarios = []struct { inputs []input outputs []bool }{ {}, { inputs: []input{ { name: "my_name_without_labels", }, }, outputs: []bool{ true, }, }, { inputs: []input{ { name: "my_name_without_labels", }, { name: "another_name_without_labels", }, }, outputs: []bool{ true, true, }, }, { inputs: []input{ { name: "", }, }, outputs: []bool{ false, }, }, { inputs: []input{ { name: "valid_name", baseLabels: map[string]string{"name": "illegal_duplicate_name"}, }, }, outputs: []bool{ false, }, }, { inputs: []input{ { name: "duplicate_names", }, { name: "duplicate_names", }, }, outputs: []bool{ true, false, }, }, { inputs: []input{ { name: "duplicate_names_with_identical_labels", baseLabels: map[string]string{"label": "value"}, }, { name: "duplicate_names_with_identical_labels", baseLabels: map[string]string{"label": "value"}, }, }, outputs: []bool{ true, false, }, }, { inputs: []input{ { name: "duplicate_names_with_dissimilar_labels", baseLabels: map[string]string{"label": "foo"}, }, { name: "duplicate_names_with_dissimilar_labels", baseLabels: map[string]string{"label": "bar"}, }, }, outputs: []bool{ true, false, }, }, } for i, scenario := range scenarios { if len(scenario.inputs) != len(scenario.outputs) { t.Fatalf("%d. expected scenario output length %d, got %d", i, len(scenario.inputs), len(scenario.outputs)) } abortOnMisuse = false debugRegistration = false useAggressiveSanityChecks = true registry := NewRegistry() for j, input := range scenario.inputs { actual := registry.Register(input.name, "", input.baseLabels, nil) if scenario.outputs[j] != (actual == nil) { t.Errorf("%d.%d. expected %s, got %s", i, j, scenario.outputs[j], actual) } } } } func TestRegister(t *testing.T) { testRegister(t) } func BenchmarkRegister(b *testing.B) { for i := 0; i < b.N; i++ { testRegister(b) } } type fakeResponseWriter struct { header http.Header body bytes.Buffer } func (r *fakeResponseWriter) Header() http.Header { return r.header } func (r *fakeResponseWriter) Write(d []byte) (l int, err error) { return r.body.Write(d) } func (r *fakeResponseWriter) WriteHeader(c int) { } func testDecorateWriter(t tester) { type input struct { headers map[string]string body []byte } type output struct { headers map[string]string body []byte } var scenarios = []struct { in input out output }{ {}, { in: input{ headers: map[string]string{ "Accept-Encoding": "gzip,deflate,sdch", }, body: []byte("Hi, mom!"), }, out: output{ headers: map[string]string{ "Content-Encoding": "gzip", }, body: []byte("\x1f\x8b\b\x00\x00\tn\x88\x00\xff\xf2\xc8\xd4Q\xc8\xcd\xcfU\x04\x04\x00\x00\xff\xff9C&&\b\x00\x00\x00"), }, }, { in: input{ headers: map[string]string{ "Accept-Encoding": "foo", }, body: []byte("Hi, mom!"), }, out: output{ headers: map[string]string{}, body: []byte("Hi, mom!"), }, }, } for i, scenario := range scenarios { request, _ := http.NewRequest("GET", "/", nil) for key, value := range scenario.in.headers { request.Header.Add(key, value) } baseWriter := &fakeResponseWriter{ header: make(http.Header), } writer := decorateWriter(request, baseWriter) for key, value := range scenario.out.headers { if baseWriter.Header().Get(key) != value { t.Errorf("%d. expected %s for header %s, got %s", i, value, key, baseWriter.Header().Get(key)) } } writer.Write(scenario.in.body) if closer, ok := writer.(io.Closer); ok { closer.Close() } if !bytes.Equal(scenario.out.body, baseWriter.body.Bytes()) { t.Errorf("%d. expected %s for body, got %s", i, scenario.out.body, baseWriter.body.Bytes()) } } } func TestDecorateWriter(t *testing.T) { testDecorateWriter(t) } func BenchmarkDecorateWriter(b *testing.B) { for i := 0; i < b.N; i++ { testDecorateWriter(b) } } func testDumpToWriter(t tester) { type input struct { metrics map[string]Metric } var scenarios = []struct { in input out []byte }{ { out: []byte("[]"), }, { in: input{ metrics: map[string]Metric{ "foo": NewCounter(), }, }, out: []byte(`[{"baseLabels":{"label_foo":"foo","name":"foo"},"docstring":"metric foo","metric":{"type":"counter","value":[]}}]`), }, { in: input{ metrics: map[string]Metric{ "foo": NewCounter(), "bar": NewCounter(), }, }, out: []byte(`[{"baseLabels":{"label_bar":"bar","name":"bar"},"docstring":"metric bar","metric":{"type":"counter","value":[]}},{"baseLabels":{"label_foo":"foo","name":"foo"},"docstring":"metric foo","metric":{"type":"counter","value":[]}}]`), }, } for i, scenario := range scenarios { registry := NewRegistry().(registry) for name, metric := range scenario.in.metrics { err := registry.Register(name, fmt.Sprintf("metric %s", name), map[string]string{fmt.Sprintf("label_%s", name): name}, metric) if err != nil { t.Errorf("%d. encountered error while registering metric %s", i, err) } } actual := &bytes.Buffer{} err := registry.dumpToWriter(actual) if err != nil { t.Errorf("%d. encountered error while dumping %s", i, err) } if !bytes.Equal(scenario.out, actual.Bytes()) { t.Errorf("%d. expected %q for dumping, got %q", i, scenario.out, actual.Bytes()) } } } func TestDumpToWriter(t *testing.T) { testDumpToWriter(t) } func BenchmarkDumpToWriter(b *testing.B) { for i := 0; i < b.N; i++ { testDumpToWriter(b) } }