// Copyright 2021 The Prometheus Authors // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package remote import ( "bytes" "context" "errors" "fmt" "io" "math" "net/http" "net/http/httptest" "strconv" "strings" "testing" "time" "github.com/gogo/protobuf/proto" "github.com/google/go-cmp/cmp" "github.com/stretchr/testify/require" "github.com/prometheus/common/promslog" "github.com/prometheus/prometheus/config" "github.com/prometheus/prometheus/model/exemplar" "github.com/prometheus/prometheus/model/histogram" "github.com/prometheus/prometheus/model/labels" "github.com/prometheus/prometheus/model/metadata" "github.com/prometheus/prometheus/prompb" writev2 "github.com/prometheus/prometheus/prompb/io/prometheus/write/v2" "github.com/prometheus/prometheus/storage" "github.com/prometheus/prometheus/tsdb" "github.com/prometheus/prometheus/util/testutil" ) func TestRemoteWriteHandlerHeadersHandling_V1Message(t *testing.T) { payload, _, _, err := buildWriteRequest(nil, writeRequestFixture.Timeseries, nil, nil, nil, nil, "snappy") require.NoError(t, err) for _, tc := range []struct { name string reqHeaders map[string]string expectedCode int }{ // Generally Prometheus 1.0 Receiver never checked for existence of the headers, so // we keep things permissive. { name: "correct PRW 1.0 headers", reqHeaders: map[string]string{ "Content-Type": remoteWriteContentTypeHeaders[config.RemoteWriteProtoMsgV1], "Content-Encoding": string(SnappyBlockCompression), RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusNoContent, }, { name: "missing remote write version", reqHeaders: map[string]string{ "Content-Type": remoteWriteContentTypeHeaders[config.RemoteWriteProtoMsgV1], "Content-Encoding": string(SnappyBlockCompression), }, expectedCode: http.StatusNoContent, }, { name: "no headers", reqHeaders: map[string]string{}, expectedCode: http.StatusNoContent, }, { name: "missing content-type", reqHeaders: map[string]string{ "Content-Encoding": string(SnappyBlockCompression), RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusNoContent, }, { name: "missing content-encoding", reqHeaders: map[string]string{ "Content-Type": remoteWriteContentTypeHeaders[config.RemoteWriteProtoMsgV1], RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusNoContent, }, { name: "wrong content-type", reqHeaders: map[string]string{ "Content-Type": "yolo", "Content-Encoding": string(SnappyBlockCompression), RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusUnsupportedMediaType, }, { name: "wrong content-type2", reqHeaders: map[string]string{ "Content-Type": appProtoContentType + ";proto=yolo", "Content-Encoding": string(SnappyBlockCompression), RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusUnsupportedMediaType, }, { name: "not supported content-encoding", reqHeaders: map[string]string{ "Content-Type": remoteWriteContentTypeHeaders[config.RemoteWriteProtoMsgV1], "Content-Encoding": "zstd", RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusUnsupportedMediaType, }, } { t.Run(tc.name, func(t *testing.T) { req, err := http.NewRequest("", "", bytes.NewReader(payload)) require.NoError(t, err) for k, v := range tc.reqHeaders { req.Header.Set(k, v) } appendable := &mockAppendable{} handler := NewWriteHandler(promslog.NewNopLogger(), nil, appendable, []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV1}) recorder := httptest.NewRecorder() handler.ServeHTTP(recorder, req) resp := recorder.Result() out, err := io.ReadAll(resp.Body) require.NoError(t, err) _ = resp.Body.Close() require.Equal(t, tc.expectedCode, resp.StatusCode, string(out)) }) } } func TestRemoteWriteHandlerHeadersHandling_V2Message(t *testing.T) { payload, _, _, err := buildV2WriteRequest(promslog.NewNopLogger(), writeV2RequestFixture.Timeseries, writeV2RequestFixture.Symbols, nil, nil, nil, "snappy") require.NoError(t, err) for _, tc := range []struct { name string reqHeaders map[string]string expectedCode int }{ { name: "correct PRW 2.0 headers", reqHeaders: map[string]string{ "Content-Type": remoteWriteContentTypeHeaders[config.RemoteWriteProtoMsgV2], "Content-Encoding": string(SnappyBlockCompression), RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusNoContent, }, { name: "missing remote write version", reqHeaders: map[string]string{ "Content-Type": remoteWriteContentTypeHeaders[config.RemoteWriteProtoMsgV2], "Content-Encoding": string(SnappyBlockCompression), }, expectedCode: http.StatusNoContent, // We don't check for now. }, { name: "no headers", reqHeaders: map[string]string{}, expectedCode: http.StatusUnsupportedMediaType, }, { name: "missing content-type", reqHeaders: map[string]string{ "Content-Encoding": string(SnappyBlockCompression), RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, // This only gives 415, because we explicitly only support 2.0. If we supported both // (default) it would be empty message parsed and ok response. // This is perhaps better, than 415 for previously working 1.0 flow with // no content-type. expectedCode: http.StatusUnsupportedMediaType, }, { name: "missing content-encoding", reqHeaders: map[string]string{ "Content-Type": remoteWriteContentTypeHeaders[config.RemoteWriteProtoMsgV2], RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusNoContent, // Similar to 1.0 impl, we default to Snappy, so it works. }, { name: "wrong content-type", reqHeaders: map[string]string{ "Content-Type": "yolo", "Content-Encoding": string(SnappyBlockCompression), RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusUnsupportedMediaType, }, { name: "wrong content-type2", reqHeaders: map[string]string{ "Content-Type": appProtoContentType + ";proto=yolo", "Content-Encoding": string(SnappyBlockCompression), RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusUnsupportedMediaType, }, { name: "not supported content-encoding", reqHeaders: map[string]string{ "Content-Type": remoteWriteContentTypeHeaders[config.RemoteWriteProtoMsgV2], "Content-Encoding": "zstd", RemoteWriteVersionHeader: RemoteWriteVersion20HeaderValue, }, expectedCode: http.StatusUnsupportedMediaType, }, } { t.Run(tc.name, func(t *testing.T) { req, err := http.NewRequest("", "", bytes.NewReader(payload)) require.NoError(t, err) for k, v := range tc.reqHeaders { req.Header.Set(k, v) } appendable := &mockAppendable{} handler := NewWriteHandler(promslog.NewNopLogger(), nil, appendable, []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV2}) recorder := httptest.NewRecorder() handler.ServeHTTP(recorder, req) resp := recorder.Result() out, err := io.ReadAll(resp.Body) require.NoError(t, err) _ = resp.Body.Close() require.Equal(t, tc.expectedCode, resp.StatusCode, string(out)) }) } } func TestRemoteWriteHandler_V1Message(t *testing.T) { payload, _, _, err := buildWriteRequest(nil, writeRequestFixture.Timeseries, nil, nil, nil, nil, "snappy") require.NoError(t, err) req, err := http.NewRequest("", "", bytes.NewReader(payload)) require.NoError(t, err) // NOTE: Strictly speaking, even for 1.0 we require headers, but we never verified those // in Prometheus, so keeping like this to not break existing 1.0 clients. appendable := &mockAppendable{} handler := NewWriteHandler(promslog.NewNopLogger(), nil, appendable, []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV1}) recorder := httptest.NewRecorder() handler.ServeHTTP(recorder, req) resp := recorder.Result() require.Equal(t, http.StatusNoContent, resp.StatusCode) b := labels.NewScratchBuilder(0) i := 0 j := 0 k := 0 for _, ts := range writeRequestFixture.Timeseries { labels := ts.ToLabels(&b, nil) for _, s := range ts.Samples { requireEqual(t, mockSample{labels, s.Timestamp, s.Value}, appendable.samples[i]) i++ } for _, e := range ts.Exemplars { exemplarLabels := e.ToExemplar(&b, nil).Labels requireEqual(t, mockExemplar{labels, exemplarLabels, e.Timestamp, e.Value}, appendable.exemplars[j]) j++ } for _, hp := range ts.Histograms { if hp.IsFloatHistogram() { fh := hp.ToFloatHistogram() requireEqual(t, mockHistogram{labels, hp.Timestamp, nil, fh}, appendable.histograms[k]) } else { h := hp.ToIntHistogram() requireEqual(t, mockHistogram{labels, hp.Timestamp, h, nil}, appendable.histograms[k]) } k++ } } } func expectHeaderValue(t testing.TB, expected int, got string) { t.Helper() require.NotEmpty(t, got) i, err := strconv.Atoi(got) require.NoError(t, err) require.Equal(t, expected, i) } func TestRemoteWriteHandler_V2Message(t *testing.T) { // V2 supports partial writes for non-retriable errors, so test them. for _, tc := range []struct { desc string input []writev2.TimeSeries expectedCode int expectedRespBody string commitErr error appendSampleErr error appendHistogramErr error appendExemplarErr error updateMetadataErr error }{ { desc: "All timeseries accepted", input: writeV2RequestFixture.Timeseries, expectedCode: http.StatusNoContent, }, { desc: "Partial write; first series with invalid labels (no metric name)", input: append( // Series with test_metric1="test_metric1" labels. []writev2.TimeSeries{{LabelsRefs: []uint32{2, 2}, Samples: []writev2.Sample{{Value: 1, Timestamp: 1}}}}, writeV2RequestFixture.Timeseries...), expectedCode: http.StatusBadRequest, expectedRespBody: "invalid metric name or labels, got {test_metric1=\"test_metric1\"}\n", }, { desc: "Partial write; first series with invalid labels (empty metric name)", input: append( // Series with __name__="" labels. []writev2.TimeSeries{{LabelsRefs: []uint32{1, 0}, Samples: []writev2.Sample{{Value: 1, Timestamp: 1}}}}, writeV2RequestFixture.Timeseries...), expectedCode: http.StatusBadRequest, expectedRespBody: "invalid metric name or labels, got {__name__=\"\"}\n", }, { desc: "Partial write; first series with duplicate labels", input: append( // Series with __name__="test_metric1",test_metric1="test_metric1",test_metric1="test_metric1" labels. []writev2.TimeSeries{{LabelsRefs: []uint32{1, 2, 2, 2, 2, 2}, Samples: []writev2.Sample{{Value: 1, Timestamp: 1}}}}, writeV2RequestFixture.Timeseries...), expectedCode: http.StatusBadRequest, expectedRespBody: "invalid labels for series, labels {__name__=\"test_metric1\", test_metric1=\"test_metric1\", test_metric1=\"test_metric1\"}, duplicated label test_metric1\n", }, { desc: "Partial write; first series with one OOO sample", input: func() []writev2.TimeSeries { f := proto.Clone(writeV2RequestFixture).(*writev2.Request) f.Timeseries[0].Samples = append(f.Timeseries[0].Samples, writev2.Sample{Value: 2, Timestamp: 0}) return f.Timeseries }(), expectedCode: http.StatusBadRequest, expectedRespBody: "out of order sample for series {__name__=\"test_metric1\", b=\"c\", baz=\"qux\", d=\"e\", foo=\"bar\"}\n", }, { desc: "Partial write; first series with one dup sample", input: func() []writev2.TimeSeries { f := proto.Clone(writeV2RequestFixture).(*writev2.Request) f.Timeseries[0].Samples = append(f.Timeseries[0].Samples, f.Timeseries[0].Samples[0]) return f.Timeseries }(), expectedCode: http.StatusBadRequest, expectedRespBody: "duplicate sample for timestamp for series {__name__=\"test_metric1\", b=\"c\", baz=\"qux\", d=\"e\", foo=\"bar\"}\n", }, { desc: "Partial write; first series with one OOO histogram sample", input: func() []writev2.TimeSeries { f := proto.Clone(writeV2RequestFixture).(*writev2.Request) f.Timeseries[0].Histograms = append(f.Timeseries[0].Histograms, writev2.FromFloatHistogram(1, testHistogram.ToFloat(nil))) return f.Timeseries }(), expectedCode: http.StatusBadRequest, expectedRespBody: "out of order sample for series {__name__=\"test_metric1\", b=\"c\", baz=\"qux\", d=\"e\", foo=\"bar\"}\n", }, { desc: "Partial write; first series with one dup histogram sample", input: func() []writev2.TimeSeries { f := proto.Clone(writeV2RequestFixture).(*writev2.Request) f.Timeseries[0].Histograms = append(f.Timeseries[0].Histograms, f.Timeseries[0].Histograms[1]) return f.Timeseries }(), expectedCode: http.StatusBadRequest, expectedRespBody: "duplicate sample for timestamp for series {__name__=\"test_metric1\", b=\"c\", baz=\"qux\", d=\"e\", foo=\"bar\"}\n", }, // Non retriable errors from various parts. { desc: "Internal sample append error; rollback triggered", input: writeV2RequestFixture.Timeseries, appendSampleErr: errors.New("some sample internal append error"), expectedCode: http.StatusInternalServerError, expectedRespBody: "some sample internal append error\n", }, { desc: "Internal histogram sample append error; rollback triggered", input: writeV2RequestFixture.Timeseries, appendHistogramErr: errors.New("some histogram sample internal append error"), expectedCode: http.StatusInternalServerError, expectedRespBody: "some histogram sample internal append error\n", }, { desc: "Partial write; skipped exemplar; exemplar storage errs are noop", input: writeV2RequestFixture.Timeseries, appendExemplarErr: errors.New("some exemplar internal append error"), expectedCode: http.StatusNoContent, }, { desc: "Partial write; skipped metadata; metadata storage errs are noop", input: writeV2RequestFixture.Timeseries, updateMetadataErr: errors.New("some metadata update error"), expectedCode: http.StatusNoContent, }, { desc: "Internal commit error; rollback triggered", input: writeV2RequestFixture.Timeseries, commitErr: errors.New("storage error"), expectedCode: http.StatusInternalServerError, expectedRespBody: "storage error\n", }, } { t.Run(tc.desc, func(t *testing.T) { payload, _, _, err := buildV2WriteRequest(promslog.NewNopLogger(), tc.input, writeV2RequestFixture.Symbols, nil, nil, nil, "snappy") require.NoError(t, err) req, err := http.NewRequest("", "", bytes.NewReader(payload)) require.NoError(t, err) req.Header.Set("Content-Type", remoteWriteContentTypeHeaders[config.RemoteWriteProtoMsgV2]) req.Header.Set("Content-Encoding", string(SnappyBlockCompression)) req.Header.Set(RemoteWriteVersionHeader, RemoteWriteVersion20HeaderValue) appendable := &mockAppendable{ commitErr: tc.commitErr, appendSampleErr: tc.appendSampleErr, appendHistogramErr: tc.appendHistogramErr, appendExemplarErr: tc.appendExemplarErr, updateMetadataErr: tc.updateMetadataErr, } handler := NewWriteHandler(promslog.NewNopLogger(), nil, appendable, []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV2}) recorder := httptest.NewRecorder() handler.ServeHTTP(recorder, req) resp := recorder.Result() require.Equal(t, tc.expectedCode, resp.StatusCode) respBody, err := io.ReadAll(resp.Body) require.NoError(t, err) require.Equal(t, tc.expectedRespBody, string(respBody)) if tc.expectedCode == http.StatusInternalServerError { // We don't expect writes for partial writes with retry-able code. expectHeaderValue(t, 0, resp.Header.Get(rw20WrittenSamplesHeader)) expectHeaderValue(t, 0, resp.Header.Get(rw20WrittenHistogramsHeader)) expectHeaderValue(t, 0, resp.Header.Get(rw20WrittenExemplarsHeader)) require.Empty(t, appendable.samples) require.Empty(t, appendable.histograms) require.Empty(t, appendable.exemplars) require.Empty(t, appendable.metadata) return } // Double check mandatory 2.0 stats. // writeV2RequestFixture has 2 series with 1 sample, 2 histograms, 1 exemplar each. expectHeaderValue(t, 2, resp.Header.Get(rw20WrittenSamplesHeader)) expectHeaderValue(t, 4, resp.Header.Get(rw20WrittenHistogramsHeader)) if tc.appendExemplarErr != nil { expectHeaderValue(t, 0, resp.Header.Get(rw20WrittenExemplarsHeader)) } else { expectHeaderValue(t, 2, resp.Header.Get(rw20WrittenExemplarsHeader)) } // Double check what was actually appended. var ( b = labels.NewScratchBuilder(0) i, j, k, m int ) for _, ts := range writeV2RequestFixture.Timeseries { ls := ts.ToLabels(&b, writeV2RequestFixture.Symbols) for _, s := range ts.Samples { requireEqual(t, mockSample{ls, s.Timestamp, s.Value}, appendable.samples[i]) i++ } for _, hp := range ts.Histograms { if hp.IsFloatHistogram() { fh := hp.ToFloatHistogram() requireEqual(t, mockHistogram{ls, hp.Timestamp, nil, fh}, appendable.histograms[k]) } else { h := hp.ToIntHistogram() requireEqual(t, mockHistogram{ls, hp.Timestamp, h, nil}, appendable.histograms[k]) } k++ } if tc.appendExemplarErr == nil { for _, e := range ts.Exemplars { exemplarLabels := e.ToExemplar(&b, writeV2RequestFixture.Symbols).Labels requireEqual(t, mockExemplar{ls, exemplarLabels, e.Timestamp, e.Value}, appendable.exemplars[j]) j++ } } if tc.updateMetadataErr == nil { expectedMeta := ts.ToMetadata(writeV2RequestFixture.Symbols) requireEqual(t, mockMetadata{ls, expectedMeta}, appendable.metadata[m]) m++ } } }) } } // NOTE: V2 Message is tested in TestRemoteWriteHandler_V2Message. func TestOutOfOrderSample_V1Message(t *testing.T) { for _, tc := range []struct { Name string Timestamp int64 }{ { Name: "historic", Timestamp: 0, }, { Name: "future", Timestamp: math.MaxInt64, }, } { t.Run(tc.Name, func(t *testing.T) { payload, _, _, err := buildWriteRequest(nil, []prompb.TimeSeries{{ Labels: []prompb.Label{{Name: "__name__", Value: "test_metric"}}, Samples: []prompb.Sample{{Value: 1, Timestamp: tc.Timestamp}}, }}, nil, nil, nil, nil, "snappy") require.NoError(t, err) req, err := http.NewRequest("", "", bytes.NewReader(payload)) require.NoError(t, err) appendable := &mockAppendable{latestSample: map[uint64]int64{labels.FromStrings("__name__", "test_metric").Hash(): 100}} handler := NewWriteHandler(promslog.NewNopLogger(), nil, appendable, []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV1}) recorder := httptest.NewRecorder() handler.ServeHTTP(recorder, req) resp := recorder.Result() require.Equal(t, http.StatusBadRequest, resp.StatusCode) }) } } // This test case currently aims to verify that the WriteHandler endpoint // don't fail on exemplar ingestion errors since the exemplar storage is // still experimental. // NOTE: V2 Message is tested in TestRemoteWriteHandler_V2Message. func TestOutOfOrderExemplar_V1Message(t *testing.T) { tests := []struct { Name string Timestamp int64 }{ { Name: "historic", Timestamp: 0, }, { Name: "future", Timestamp: math.MaxInt64, }, } for _, tc := range tests { t.Run(tc.Name, func(t *testing.T) { payload, _, _, err := buildWriteRequest(nil, []prompb.TimeSeries{{ Labels: []prompb.Label{{Name: "__name__", Value: "test_metric"}}, Exemplars: []prompb.Exemplar{{Labels: []prompb.Label{{Name: "foo", Value: "bar"}}, Value: 1, Timestamp: tc.Timestamp}}, }}, nil, nil, nil, nil, "snappy") require.NoError(t, err) req, err := http.NewRequest("", "", bytes.NewReader(payload)) require.NoError(t, err) appendable := &mockAppendable{latestSample: map[uint64]int64{labels.FromStrings("__name__", "test_metric").Hash(): 100}} handler := NewWriteHandler(promslog.NewNopLogger(), nil, appendable, []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV1}) recorder := httptest.NewRecorder() handler.ServeHTTP(recorder, req) resp := recorder.Result() // TODO: update to require.Equal(t, http.StatusConflict, resp.StatusCode) once exemplar storage is not experimental. require.Equal(t, http.StatusNoContent, resp.StatusCode) }) } } // NOTE: V2 Message is tested in TestRemoteWriteHandler_V2Message. func TestOutOfOrderHistogram_V1Message(t *testing.T) { for _, tc := range []struct { Name string Timestamp int64 }{ { Name: "historic", Timestamp: 0, }, { Name: "future", Timestamp: math.MaxInt64, }, } { t.Run(tc.Name, func(t *testing.T) { payload, _, _, err := buildWriteRequest(nil, []prompb.TimeSeries{{ Labels: []prompb.Label{{Name: "__name__", Value: "test_metric"}}, Histograms: []prompb.Histogram{prompb.FromIntHistogram(tc.Timestamp, &testHistogram), prompb.FromFloatHistogram(1, testHistogram.ToFloat(nil))}, }}, nil, nil, nil, nil, "snappy") require.NoError(t, err) req, err := http.NewRequest("", "", bytes.NewReader(payload)) require.NoError(t, err) appendable := &mockAppendable{latestSample: map[uint64]int64{labels.FromStrings("__name__", "test_metric").Hash(): 100}} handler := NewWriteHandler(promslog.NewNopLogger(), nil, appendable, []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV1}) recorder := httptest.NewRecorder() handler.ServeHTTP(recorder, req) resp := recorder.Result() require.Equal(t, http.StatusBadRequest, resp.StatusCode) }) } } func BenchmarkRemoteWriteHandler(b *testing.B) { const labelValue = "abcdefg'hijlmn234!@#$%^&*()_+~`\"{}[],./<>?hello0123hiOlá你好Dzieńdobry9Zd8ra765v4stvuyte" var reqs []*http.Request for i := 0; i < b.N; i++ { num := strings.Repeat(strconv.Itoa(i), 16) buf, _, _, err := buildWriteRequest(nil, []prompb.TimeSeries{{ Labels: []prompb.Label{ {Name: "__name__", Value: "test_metric"}, {Name: "test_label_name_" + num, Value: labelValue + num}, }, Histograms: []prompb.Histogram{prompb.FromIntHistogram(0, &testHistogram)}, }}, nil, nil, nil, nil, "snappy") require.NoError(b, err) req, err := http.NewRequest("", "", bytes.NewReader(buf)) require.NoError(b, err) reqs = append(reqs, req) } appendable := &mockAppendable{} // TODO: test with other proto format(s) handler := NewWriteHandler(promslog.NewNopLogger(), nil, appendable, []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV1}) recorder := httptest.NewRecorder() b.ResetTimer() for _, req := range reqs { handler.ServeHTTP(recorder, req) } } func TestCommitErr_V1Message(t *testing.T) { payload, _, _, err := buildWriteRequest(nil, writeRequestFixture.Timeseries, nil, nil, nil, nil, "snappy") require.NoError(t, err) req, err := http.NewRequest("", "", bytes.NewReader(payload)) require.NoError(t, err) appendable := &mockAppendable{commitErr: fmt.Errorf("commit error")} handler := NewWriteHandler(promslog.NewNopLogger(), nil, appendable, []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV1}) recorder := httptest.NewRecorder() handler.ServeHTTP(recorder, req) resp := recorder.Result() body, err := io.ReadAll(resp.Body) require.NoError(t, err) require.Equal(t, http.StatusInternalServerError, resp.StatusCode) require.Equal(t, "commit error\n", string(body)) } func TestCommitErr_V2Message(t *testing.T) { payload, _, _, err := buildV2WriteRequest(promslog.NewNopLogger(), writeV2RequestFixture.Timeseries, writeV2RequestFixture.Symbols, nil, nil, nil, "snappy") require.NoError(t, err) req, err := http.NewRequest("", "", bytes.NewReader(payload)) require.NoError(t, err) req.Header.Set("Content-Type", remoteWriteContentTypeHeaders[config.RemoteWriteProtoMsgV2]) req.Header.Set("Content-Encoding", string(SnappyBlockCompression)) req.Header.Set(RemoteWriteVersionHeader, RemoteWriteVersion20HeaderValue) appendable := &mockAppendable{commitErr: fmt.Errorf("commit error")} handler := NewWriteHandler(promslog.NewNopLogger(), nil, appendable, []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV2}) recorder := httptest.NewRecorder() handler.ServeHTTP(recorder, req) resp := recorder.Result() body, err := io.ReadAll(resp.Body) require.NoError(t, err) require.Equal(t, http.StatusInternalServerError, resp.StatusCode) require.Equal(t, "commit error\n", string(body)) } func BenchmarkRemoteWriteOOOSamples(b *testing.B) { b.Skip("Not a valid benchmark (does not count to b.N)") dir := b.TempDir() opts := tsdb.DefaultOptions() opts.OutOfOrderCapMax = 30 opts.OutOfOrderTimeWindow = 120 * time.Minute.Milliseconds() db, err := tsdb.Open(dir, nil, nil, opts, nil) require.NoError(b, err) b.Cleanup(func() { require.NoError(b, db.Close()) }) // TODO: test with other proto format(s) handler := NewWriteHandler(promslog.NewNopLogger(), nil, db.Head(), []config.RemoteWriteProtoMsg{config.RemoteWriteProtoMsgV1}) buf, _, _, err := buildWriteRequest(nil, genSeriesWithSample(1000, 200*time.Minute.Milliseconds()), nil, nil, nil, nil, "snappy") require.NoError(b, err) req, err := http.NewRequest("", "", bytes.NewReader(buf)) require.NoError(b, err) recorder := httptest.NewRecorder() handler.ServeHTTP(recorder, req) require.Equal(b, http.StatusNoContent, recorder.Code) require.Equal(b, uint64(1000), db.Head().NumSeries()) var bufRequests [][]byte for i := 0; i < 100; i++ { buf, _, _, err = buildWriteRequest(nil, genSeriesWithSample(1000, int64(80+i)*time.Minute.Milliseconds()), nil, nil, nil, nil, "snappy") require.NoError(b, err) bufRequests = append(bufRequests, buf) } b.ResetTimer() for i := 0; i < 100; i++ { req, err = http.NewRequest("", "", bytes.NewReader(bufRequests[i])) require.NoError(b, err) recorder = httptest.NewRecorder() handler.ServeHTTP(recorder, req) require.Equal(b, http.StatusNoContent, recorder.Code) require.Equal(b, uint64(1000), db.Head().NumSeries()) } } func genSeriesWithSample(numSeries int, ts int64) []prompb.TimeSeries { var series []prompb.TimeSeries for i := 0; i < numSeries; i++ { s := prompb.TimeSeries{ Labels: []prompb.Label{{Name: "__name__", Value: fmt.Sprintf("test_metric_%d", i)}}, Samples: []prompb.Sample{{Value: float64(i), Timestamp: ts}}, } series = append(series, s) } return series } type mockAppendable struct { latestSample map[uint64]int64 samples []mockSample latestExemplar map[uint64]int64 exemplars []mockExemplar latestHistogram map[uint64]int64 histograms []mockHistogram metadata []mockMetadata // optional errors to inject. commitErr error appendSampleErr error appendHistogramErr error appendExemplarErr error updateMetadataErr error } type mockSample struct { l labels.Labels t int64 v float64 } type mockExemplar struct { l labels.Labels el labels.Labels t int64 v float64 } type mockHistogram struct { l labels.Labels t int64 h *histogram.Histogram fh *histogram.FloatHistogram } type mockMetadata struct { l labels.Labels m metadata.Metadata } // Wrapper to instruct go-cmp package to compare a list of structs with unexported fields. func requireEqual(t *testing.T, expected, actual interface{}, msgAndArgs ...interface{}) { t.Helper() testutil.RequireEqualWithOptions(t, expected, actual, []cmp.Option{cmp.AllowUnexported(mockSample{}), cmp.AllowUnexported(mockExemplar{}), cmp.AllowUnexported(mockHistogram{}), cmp.AllowUnexported(mockMetadata{})}, msgAndArgs...) } func (m *mockAppendable) Appender(_ context.Context) storage.Appender { if m.latestSample == nil { m.latestSample = map[uint64]int64{} } if m.latestHistogram == nil { m.latestHistogram = map[uint64]int64{} } if m.latestExemplar == nil { m.latestExemplar = map[uint64]int64{} } return m } func (m *mockAppendable) SetOptions(opts *storage.AppendOptions) { panic("unimplemented") } func (m *mockAppendable) Append(_ storage.SeriesRef, l labels.Labels, t int64, v float64) (storage.SeriesRef, error) { if m.appendSampleErr != nil { return 0, m.appendSampleErr } latestTs := m.latestSample[l.Hash()] if t < latestTs { return 0, storage.ErrOutOfOrderSample } if t == latestTs { return 0, storage.ErrDuplicateSampleForTimestamp } if l.IsEmpty() { return 0, tsdb.ErrInvalidSample } if _, hasDuplicates := l.HasDuplicateLabelNames(); hasDuplicates { return 0, tsdb.ErrInvalidSample } m.latestSample[l.Hash()] = t m.samples = append(m.samples, mockSample{l, t, v}) return 0, nil } func (m *mockAppendable) Commit() error { if m.commitErr != nil { _ = m.Rollback() // As per Commit method contract. } return m.commitErr } func (m *mockAppendable) Rollback() error { m.samples = m.samples[:0] m.exemplars = m.exemplars[:0] m.histograms = m.histograms[:0] m.metadata = m.metadata[:0] return nil } func (m *mockAppendable) AppendExemplar(_ storage.SeriesRef, l labels.Labels, e exemplar.Exemplar) (storage.SeriesRef, error) { if m.appendExemplarErr != nil { return 0, m.appendExemplarErr } latestTs := m.latestExemplar[l.Hash()] if e.Ts < latestTs { return 0, storage.ErrOutOfOrderExemplar } if e.Ts == latestTs { return 0, storage.ErrDuplicateExemplar } m.latestExemplar[l.Hash()] = e.Ts m.exemplars = append(m.exemplars, mockExemplar{l, e.Labels, e.Ts, e.Value}) return 0, nil } func (m *mockAppendable) AppendHistogram(_ storage.SeriesRef, l labels.Labels, t int64, h *histogram.Histogram, fh *histogram.FloatHistogram) (storage.SeriesRef, error) { if m.appendHistogramErr != nil { return 0, m.appendHistogramErr } latestTs := m.latestHistogram[l.Hash()] if t < latestTs { return 0, storage.ErrOutOfOrderSample } if t == latestTs { return 0, storage.ErrDuplicateSampleForTimestamp } if l.IsEmpty() { return 0, tsdb.ErrInvalidSample } if _, hasDuplicates := l.HasDuplicateLabelNames(); hasDuplicates { return 0, tsdb.ErrInvalidSample } m.latestHistogram[l.Hash()] = t m.histograms = append(m.histograms, mockHistogram{l, t, h, fh}) return 0, nil } func (m *mockAppendable) AppendHistogramCTZeroSample(ref storage.SeriesRef, l labels.Labels, t, ct int64, h *histogram.Histogram, fh *histogram.FloatHistogram) (storage.SeriesRef, error) { // AppendCTZeroSample is no-op for remote-write for now. // TODO(bwplotka/arthursens): Add support for PRW 2.0 for CT zero feature (but also we might // replace this with in-metadata CT storage, see https://github.com/prometheus/prometheus/issues/14218). return 0, nil } func (m *mockAppendable) UpdateMetadata(_ storage.SeriesRef, l labels.Labels, mp metadata.Metadata) (storage.SeriesRef, error) { if m.updateMetadataErr != nil { return 0, m.updateMetadataErr } m.metadata = append(m.metadata, mockMetadata{l: l, m: mp}) return 0, nil } func (m *mockAppendable) AppendCTZeroSample(_ storage.SeriesRef, _ labels.Labels, _, _ int64) (storage.SeriesRef, error) { // AppendCTZeroSample is no-op for remote-write for now. // TODO(bwplotka): Add support for PRW 2.0 for CT zero feature (but also we might // replace this with in-metadata CT storage, see https://github.com/prometheus/prometheus/issues/14218). return 0, nil }