// Copyright 2014 Google Inc. All Rights Reserved. // // 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 profile import ( "bytes" "fmt" "io/ioutil" "path/filepath" "reflect" "regexp" "strings" "sync" "testing" "github.com/google/pprof/internal/proftest" ) func TestParse(t *testing.T) { const path = "testdata/" for _, source := range []string{ "go.crc32.cpu", "go.godoc.thread", "gobench.cpu", "gobench.heap", "cppbench.cpu", "cppbench.heap", "cppbench.contention", "cppbench.growth", "cppbench.thread", "cppbench.thread.all", "cppbench.thread.none", "java.cpu", "java.heap", "java.contention", } { inbytes, err := ioutil.ReadFile(filepath.Join(path, source)) if err != nil { t.Fatal(err) } p, err := Parse(bytes.NewBuffer(inbytes)) if err != nil { t.Fatalf("%s: %s", source, err) } js := p.String() goldFilename := path + source + ".string" gold, err := ioutil.ReadFile(goldFilename) if err != nil { t.Fatalf("%s: %v", source, err) } if js != string(gold) { t.Errorf("diff %s %s", source, goldFilename) d, err := proftest.Diff(gold, []byte(js)) if err != nil { t.Fatalf("%s: %v", source, err) } t.Error(source + "\n" + string(d) + "\n" + "new profile at:\n" + leaveTempfile([]byte(js))) } // Reencode and decode. bw := bytes.NewBuffer(nil) if err := p.Write(bw); err != nil { t.Fatalf("%s: %v", source, err) } if p, err = Parse(bw); err != nil { t.Fatalf("%s: %v", source, err) } js2 := p.String() if js2 != string(gold) { d, err := proftest.Diff(gold, []byte(js2)) if err != nil { t.Fatalf("%s: %v", source, err) } t.Error(source + "\n" + string(d) + "\n" + "gold:\n" + goldFilename + "\nnew profile at:\n" + leaveTempfile([]byte(js))) } } } func TestParseError(t *testing.T) { testcases := []string{ "", "garbage text", "\x1f\x8b", // truncated gzip header "\x1f\x8b\x08\x08\xbe\xe9\x20\x58\x00\x03\x65\x6d\x70\x74\x79\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00", // empty gzipped file } for i, input := range testcases { _, err := Parse(strings.NewReader(input)) if err == nil { t.Errorf("got nil, want error for input #%d", i) } } } func TestCheckValid(t *testing.T) { const path = "testdata/java.cpu" inbytes, err := ioutil.ReadFile(path) if err != nil { t.Fatalf("failed to read profile file %q: %v", path, err) } p, err := Parse(bytes.NewBuffer(inbytes)) if err != nil { t.Fatalf("failed to parse profile %q: %s", path, err) } for _, tc := range []struct { mutateFn func(*Profile) wantErr string }{ { mutateFn: func(p *Profile) { p.SampleType = nil }, wantErr: "missing sample type information", }, { mutateFn: func(p *Profile) { p.Sample[0] = nil }, wantErr: "profile has nil sample", }, { mutateFn: func(p *Profile) { p.Sample[0].Value = append(p.Sample[0].Value, 0) }, wantErr: "sample has 3 values vs. 2 types", }, { mutateFn: func(p *Profile) { p.Sample[0].Location[0] = nil }, wantErr: "sample has nil location", }, { mutateFn: func(p *Profile) { p.Location[0] = nil }, wantErr: "profile has nil location", }, { mutateFn: func(p *Profile) { p.Mapping = append(p.Mapping, nil) }, wantErr: "profile has nil mapping", }, { mutateFn: func(p *Profile) { p.Function[0] = nil }, wantErr: "profile has nil function", }, } { t.Run(tc.wantErr, func(t *testing.T) { p := p.Copy() tc.mutateFn(p) if err := p.CheckValid(); err == nil { t.Errorf("CheckValid(): got no error, want error %q", tc.wantErr) } else if !strings.Contains(err.Error(), tc.wantErr) { t.Errorf("CheckValid(): got error %v, want error %q", err, tc.wantErr) } }) } } // leaveTempfile leaves |b| in a temporary file on disk and returns the // temp filename. This is useful to recover a profile when the test // fails. func leaveTempfile(b []byte) string { f1, err := ioutil.TempFile("", "profile_test") if err != nil { panic(err) } if _, err := f1.Write(b); err != nil { panic(err) } return f1.Name() } const mainBinary = "/bin/main" var cpuM = []*Mapping{ { ID: 1, Start: 0x10000, Limit: 0x40000, File: mainBinary, HasFunctions: true, HasFilenames: true, HasLineNumbers: true, HasInlineFrames: true, }, { ID: 2, Start: 0x1000, Limit: 0x4000, File: "/lib/lib.so", HasFunctions: true, HasFilenames: true, HasLineNumbers: true, HasInlineFrames: true, }, { ID: 3, Start: 0x4000, Limit: 0x5000, File: "/lib/lib2_c.so.6", HasFunctions: true, HasFilenames: true, HasLineNumbers: true, HasInlineFrames: true, }, { ID: 4, Start: 0x5000, Limit: 0x9000, File: "/lib/lib.so_6 (deleted)", HasFunctions: true, HasFilenames: true, HasLineNumbers: true, HasInlineFrames: true, }, } var cpuF = []*Function{ {ID: 1, Name: "main", SystemName: "main", Filename: "main.c"}, {ID: 2, Name: "foo", SystemName: "foo", Filename: "foo.c"}, {ID: 3, Name: "foo_caller", SystemName: "foo_caller", Filename: "foo.c"}, } var cpuL = []*Location{ { ID: 1000, Mapping: cpuM[1], Address: 0x1000, Line: []Line{ {Function: cpuF[0], Line: 1}, }, }, { ID: 2000, Mapping: cpuM[0], Address: 0x2000, Line: []Line{ {Function: cpuF[1], Line: 2}, {Function: cpuF[2], Line: 1}, }, }, { ID: 3000, Mapping: cpuM[0], Address: 0x3000, Line: []Line{ {Function: cpuF[1], Line: 2}, {Function: cpuF[2], Line: 1}, }, }, { ID: 3001, Mapping: cpuM[0], Address: 0x3001, Line: []Line{ {Function: cpuF[2], Line: 2}, }, }, { ID: 3002, Mapping: cpuM[0], Address: 0x3002, Line: []Line{ {Function: cpuF[2], Line: 3}, }, }, } var testProfile1 = &Profile{ PeriodType: &ValueType{Type: "cpu", Unit: "milliseconds"}, Period: 1, DurationNanos: 10e9, SampleType: []*ValueType{ {Type: "samples", Unit: "count"}, {Type: "cpu", Unit: "milliseconds"}, }, Sample: []*Sample{ { Location: []*Location{cpuL[0]}, Value: []int64{1000, 1000}, Label: map[string][]string{ "key1": {"tag1"}, "key2": {"tag1"}, }, }, { Location: []*Location{cpuL[1], cpuL[0]}, Value: []int64{100, 100}, Label: map[string][]string{ "key1": {"tag2"}, "key3": {"tag2"}, }, }, { Location: []*Location{cpuL[2], cpuL[0]}, Value: []int64{10, 10}, Label: map[string][]string{ "key1": {"tag3"}, "key2": {"tag2"}, }, }, { Location: []*Location{cpuL[3], cpuL[0]}, Value: []int64{10000, 10000}, Label: map[string][]string{ "key1": {"tag4"}, "key2": {"tag1"}, }, }, { Location: []*Location{cpuL[4], cpuL[0]}, Value: []int64{1, 1}, Label: map[string][]string{ "key1": {"tag4"}, "key2": {"tag1"}, }, }, }, Location: cpuL, Function: cpuF, Mapping: cpuM, } var testProfile2 = &Profile{ PeriodType: &ValueType{Type: "cpu", Unit: "milliseconds"}, Period: 1, DurationNanos: 10e9, SampleType: []*ValueType{ {Type: "samples", Unit: "count"}, {Type: "cpu", Unit: "milliseconds"}, }, Sample: []*Sample{ { Location: []*Location{cpuL[0]}, Value: []int64{70, 1000}, Label: map[string][]string{ "key1": {"tag1"}, "key2": {"tag1"}, }, }, { Location: []*Location{cpuL[1], cpuL[0]}, Value: []int64{60, 100}, Label: map[string][]string{ "key1": {"tag2"}, "key3": {"tag2"}, }, }, { Location: []*Location{cpuL[2], cpuL[0]}, Value: []int64{50, 10}, Label: map[string][]string{ "key1": {"tag3"}, "key2": {"tag2"}, }, }, { Location: []*Location{cpuL[3], cpuL[0]}, Value: []int64{40, 10000}, Label: map[string][]string{ "key1": {"tag4"}, "key2": {"tag1"}, }, }, { Location: []*Location{cpuL[4], cpuL[0]}, Value: []int64{1, 1}, Label: map[string][]string{ "key1": {"tag4"}, "key2": {"tag1"}, }, }, }, Location: cpuL, Function: cpuF, Mapping: cpuM, } var testProfile3 = &Profile{ PeriodType: &ValueType{Type: "cpu", Unit: "milliseconds"}, Period: 1, DurationNanos: 10e9, SampleType: []*ValueType{ {Type: "samples", Unit: "count"}, }, Sample: []*Sample{ { Location: []*Location{cpuL[0]}, Value: []int64{1000}, Label: map[string][]string{ "key1": {"tag1"}, "key2": {"tag1"}, }, }, }, Location: cpuL, Function: cpuF, Mapping: cpuM, } var testProfile4 = &Profile{ PeriodType: &ValueType{Type: "cpu", Unit: "milliseconds"}, Period: 1, DurationNanos: 10e9, SampleType: []*ValueType{ {Type: "samples", Unit: "count"}, }, Sample: []*Sample{ { Location: []*Location{cpuL[0]}, Value: []int64{1000}, NumLabel: map[string][]int64{ "key1": {10}, "key2": {30}, }, NumUnit: map[string][]string{ "key1": {"bytes"}, "key2": {"bytes"}, }, }, }, Location: cpuL, Function: cpuF, Mapping: cpuM, } var testProfile5 = &Profile{ PeriodType: &ValueType{Type: "cpu", Unit: "milliseconds"}, Period: 1, DurationNanos: 10e9, SampleType: []*ValueType{ {Type: "samples", Unit: "count"}, }, Sample: []*Sample{ { Location: []*Location{cpuL[0]}, Value: []int64{1000}, NumLabel: map[string][]int64{ "key1": {10}, "key2": {30}, }, NumUnit: map[string][]string{ "key1": {"bytes"}, "key2": {"bytes"}, }, }, { Location: []*Location{cpuL[0]}, Value: []int64{1000}, NumLabel: map[string][]int64{ "key1": {10}, "key2": {30}, }, NumUnit: map[string][]string{ "key1": {"kilobytes"}, "key2": {"kilobytes"}, }, }, }, Location: cpuL, Function: cpuF, Mapping: cpuM, } var aggTests = map[string]aggTest{ "precise": {true, true, true, true, 5}, "fileline": {false, true, true, true, 4}, "inline_function": {false, true, false, true, 3}, "function": {false, true, false, false, 2}, } type aggTest struct { precise, function, fileline, inlineFrame bool rows int } const totalSamples = int64(11111) func TestAggregation(t *testing.T) { prof := testProfile1.Copy() for _, resolution := range []string{"precise", "fileline", "inline_function", "function"} { a := aggTests[resolution] if !a.precise { if err := prof.Aggregate(a.inlineFrame, a.function, a.fileline, a.fileline, false); err != nil { t.Error("aggregating to " + resolution + ":" + err.Error()) } } if err := checkAggregation(prof, &a); err != nil { t.Error("failed aggregation to " + resolution + ": " + err.Error()) } } } // checkAggregation verifies that the profile remained consistent // with its aggregation. func checkAggregation(prof *Profile, a *aggTest) error { // Check that the total number of samples for the rows was preserved. total := int64(0) samples := make(map[string]bool) for _, sample := range prof.Sample { tb := locationHash(sample) samples[tb] = true total += sample.Value[0] } if total != totalSamples { return fmt.Errorf("sample total %d, want %d", total, totalSamples) } // Check the number of unique sample locations if a.rows != len(samples) { return fmt.Errorf("number of samples %d, want %d", len(samples), a.rows) } // Check that all mappings have the right detail flags. for _, m := range prof.Mapping { if m.HasFunctions != a.function { return fmt.Errorf("unexpected mapping.HasFunctions %v, want %v", m.HasFunctions, a.function) } if m.HasFilenames != a.fileline { return fmt.Errorf("unexpected mapping.HasFilenames %v, want %v", m.HasFilenames, a.fileline) } if m.HasLineNumbers != a.fileline { return fmt.Errorf("unexpected mapping.HasLineNumbers %v, want %v", m.HasLineNumbers, a.fileline) } if m.HasInlineFrames != a.inlineFrame { return fmt.Errorf("unexpected mapping.HasInlineFrames %v, want %v", m.HasInlineFrames, a.inlineFrame) } } // Check that aggregation has removed finer resolution data. for _, l := range prof.Location { if !a.inlineFrame && len(l.Line) > 1 { return fmt.Errorf("found %d lines on location %d, want 1", len(l.Line), l.ID) } for _, ln := range l.Line { if !a.fileline && (ln.Function.Filename != "" || ln.Line != 0) { return fmt.Errorf("found line %s:%d on location %d, want :0", ln.Function.Filename, ln.Line, l.ID) } if !a.function && (ln.Function.Name != "") { return fmt.Errorf(`found file %s location %d, want ""`, ln.Function.Name, l.ID) } } } return nil } // Test merge leaves the main binary in place. func TestMergeMain(t *testing.T) { prof := testProfile1.Copy() p1, err := Merge([]*Profile{prof}) if err != nil { t.Fatalf("merge error: %v", err) } if cpuM[0].File != p1.Mapping[0].File { t.Errorf("want Mapping[0]=%s got %s", cpuM[0].File, p1.Mapping[0].File) } } func TestMerge(t *testing.T) { // Aggregate a profile with itself and once again with a factor of // -2. Should end up with an empty profile (all samples for a // location should add up to 0). prof := testProfile1.Copy() p1, err := Merge([]*Profile{prof, prof}) if err != nil { t.Errorf("merge error: %v", err) } prof.Scale(-2) prof, err = Merge([]*Profile{p1, prof}) if err != nil { t.Errorf("merge error: %v", err) } // Use aggregation to merge locations at function granularity. if err := prof.Aggregate(false, true, false, false, false); err != nil { t.Errorf("aggregating after merge: %v", err) } samples := make(map[string]int64) for _, s := range prof.Sample { tb := locationHash(s) samples[tb] = samples[tb] + s.Value[0] } for s, v := range samples { if v != 0 { t.Errorf("nonzero value for sample %s: %d", s, v) } } } func TestMergeAll(t *testing.T) { // Aggregate 10 copies of the profile. profs := make([]*Profile, 10) for i := 0; i < 10; i++ { profs[i] = testProfile1.Copy() } prof, err := Merge(profs) if err != nil { t.Errorf("merge error: %v", err) } samples := make(map[string]int64) for _, s := range prof.Sample { tb := locationHash(s) samples[tb] = samples[tb] + s.Value[0] } for _, s := range testProfile1.Sample { tb := locationHash(s) if samples[tb] != s.Value[0]*10 { t.Errorf("merge got wrong value at %s : %d instead of %d", tb, samples[tb], s.Value[0]*10) } } } func TestNumLabelMerge(t *testing.T) { for _, tc := range []struct { name string profs []*Profile wantNumLabels []map[string][]int64 wantNumUnits []map[string][]string }{ { name: "different tag units not merged", profs: []*Profile{testProfile4.Copy(), testProfile5.Copy()}, wantNumLabels: []map[string][]int64{ { "key1": {10}, "key2": {30}, }, { "key1": {10}, "key2": {30}, }, }, wantNumUnits: []map[string][]string{ { "key1": {"bytes"}, "key2": {"bytes"}, }, { "key1": {"kilobytes"}, "key2": {"kilobytes"}, }, }, }, } { t.Run(tc.name, func(t *testing.T) { prof, err := Merge(tc.profs) if err != nil { t.Errorf("merge error: %v", err) } if want, got := len(tc.wantNumLabels), len(prof.Sample); want != got { t.Fatalf("got %d samples, want %d samples", got, want) } for i, wantLabels := range tc.wantNumLabels { numLabels := prof.Sample[i].NumLabel if !reflect.DeepEqual(wantLabels, numLabels) { t.Errorf("got numeric labels %v, want %v", numLabels, wantLabels) } wantUnits := tc.wantNumUnits[i] numUnits := prof.Sample[i].NumUnit if !reflect.DeepEqual(wantUnits, numUnits) { t.Errorf("got numeric labels %v, want %v", numUnits, wantUnits) } } }) } } func TestNormalizeBySameProfile(t *testing.T) { pb := testProfile1.Copy() p := testProfile1.Copy() if err := p.Normalize(pb); err != nil { t.Fatal(err) } for i, s := range p.Sample { for j, v := range s.Value { expectedSampleValue := testProfile1.Sample[i].Value[j] if v != expectedSampleValue { t.Errorf("For sample %d, value %d want %d got %d", i, j, expectedSampleValue, v) } } } } func TestNormalizeByDifferentProfile(t *testing.T) { p := testProfile1.Copy() pb := testProfile2.Copy() if err := p.Normalize(pb); err != nil { t.Fatal(err) } expectedSampleValues := [][]int64{ {19, 1000}, {1, 100}, {0, 10}, {198, 10000}, {0, 1}, } for i, s := range p.Sample { for j, v := range s.Value { if v != expectedSampleValues[i][j] { t.Errorf("For sample %d, value %d want %d got %d", i, j, expectedSampleValues[i][j], v) } } } } func TestNormalizeByMultipleOfSameProfile(t *testing.T) { pb := testProfile1.Copy() for i, s := range pb.Sample { for j, v := range s.Value { pb.Sample[i].Value[j] = 10 * v } } p := testProfile1.Copy() err := p.Normalize(pb) if err != nil { t.Fatal(err) } for i, s := range p.Sample { for j, v := range s.Value { expectedSampleValue := 10 * testProfile1.Sample[i].Value[j] if v != expectedSampleValue { t.Errorf("For sample %d, value %d, want %d got %d", i, j, expectedSampleValue, v) } } } } func TestNormalizeIncompatibleProfiles(t *testing.T) { p := testProfile1.Copy() pb := testProfile3.Copy() if err := p.Normalize(pb); err == nil { t.Errorf("Expected an error") } } func TestFilter(t *testing.T) { // Perform several forms of filtering on the test profile. type filterTestcase struct { focus, ignore, hide, show *regexp.Regexp fm, im, hm, hnm bool } for tx, tc := range []filterTestcase{ { fm: true, // nil focus matches every sample }, { focus: regexp.MustCompile("notfound"), }, { ignore: regexp.MustCompile("foo.c"), fm: true, im: true, }, { hide: regexp.MustCompile("lib.so"), fm: true, hm: true, }, { show: regexp.MustCompile("foo.c"), fm: true, hnm: true, }, { show: regexp.MustCompile("notfound"), fm: true, }, } { prof := *testProfile1.Copy() gf, gi, gh, gnh := prof.FilterSamplesByName(tc.focus, tc.ignore, tc.hide, tc.show) if gf != tc.fm { t.Errorf("Filter #%d, got fm=%v, want %v", tx, gf, tc.fm) } if gi != tc.im { t.Errorf("Filter #%d, got im=%v, want %v", tx, gi, tc.im) } if gh != tc.hm { t.Errorf("Filter #%d, got hm=%v, want %v", tx, gh, tc.hm) } if gnh != tc.hnm { t.Errorf("Filter #%d, got hnm=%v, want %v", tx, gnh, tc.hnm) } } } func TestTagFilter(t *testing.T) { // Perform several forms of tag filtering on the test profile. type filterTestcase struct { include, exclude *regexp.Regexp im, em bool count int } countTags := func(p *Profile) map[string]bool { tags := make(map[string]bool) for _, s := range p.Sample { for l := range s.Label { tags[l] = true } for l := range s.NumLabel { tags[l] = true } } return tags } for tx, tc := range []filterTestcase{ {nil, nil, true, false, 3}, {regexp.MustCompile("notfound"), nil, false, false, 0}, {regexp.MustCompile("key1"), nil, true, false, 1}, {nil, regexp.MustCompile("key[12]"), true, true, 1}, } { prof := testProfile1.Copy() gim, gem := prof.FilterTagsByName(tc.include, tc.exclude) if gim != tc.im { t.Errorf("Filter #%d, got include match=%v, want %v", tx, gim, tc.im) } if gem != tc.em { t.Errorf("Filter #%d, got exclude match=%v, want %v", tx, gem, tc.em) } if tags := countTags(prof); len(tags) != tc.count { t.Errorf("Filter #%d, got %d tags[%v], want %d", tx, len(tags), tags, tc.count) } } } // locationHash constructs a string to use as a hashkey for a sample, based on its locations func locationHash(s *Sample) string { var tb string for _, l := range s.Location { for _, ln := range l.Line { tb = tb + fmt.Sprintf("%s:%d@%d ", ln.Function.Name, ln.Line, l.Address) } } return tb } func TestNumLabelUnits(t *testing.T) { var tagFilterTests = []struct { desc string tagVals []map[string][]int64 tagUnits []map[string][]string wantUnits map[string]string wantIgnoredUnits map[string][]string }{ { "One sample, multiple keys, different specified units", []map[string][]int64{{"key1": {131072}, "key2": {128}}}, []map[string][]string{{"key1": {"bytes"}, "key2": {"kilobytes"}}}, map[string]string{"key1": "bytes", "key2": "kilobytes"}, map[string][]string{}, }, { "One sample, one key with one value, unit specified", []map[string][]int64{{"key1": {8}}}, []map[string][]string{{"key1": {"bytes"}}}, map[string]string{"key1": "bytes"}, map[string][]string{}, }, { "One sample, one key with one value, empty unit specified", []map[string][]int64{{"key1": {8}}}, []map[string][]string{{"key1": {""}}}, map[string]string{"key1": "key1"}, map[string][]string{}, }, { "Key bytes, unit not specified", []map[string][]int64{{"bytes": {8}}}, []map[string][]string{nil}, map[string]string{"bytes": "bytes"}, map[string][]string{}, }, { "One sample, one key with one value, unit not specified", []map[string][]int64{{"kilobytes": {8}}}, []map[string][]string{nil}, map[string]string{"kilobytes": "kilobytes"}, map[string][]string{}, }, { "Key request, unit not specified", []map[string][]int64{{"request": {8}}}, []map[string][]string{nil}, map[string]string{"request": "bytes"}, map[string][]string{}, }, { "Key alignment, unit not specified", []map[string][]int64{{"alignment": {8}}}, []map[string][]string{nil}, map[string]string{"alignment": "bytes"}, map[string][]string{}, }, { "One sample, one key with multiple values and two different units", []map[string][]int64{{"key1": {8, 8}}}, []map[string][]string{{"key1": {"bytes", "kilobytes"}}}, map[string]string{"key1": "bytes"}, map[string][]string{"key1": {"kilobytes"}}, }, { "One sample, one key with multiple values and three different units", []map[string][]int64{{"key1": {8, 8}}}, []map[string][]string{{"key1": {"bytes", "megabytes", "kilobytes"}}}, map[string]string{"key1": "bytes"}, map[string][]string{"key1": {"kilobytes", "megabytes"}}, }, { "Two samples, one key, different units specified", []map[string][]int64{{"key1": {8}}, {"key1": {8}}}, []map[string][]string{{"key1": {"bytes"}}, {"key1": {"kilobytes"}}}, map[string]string{"key1": "bytes"}, map[string][]string{"key1": {"kilobytes"}}, }, { "Keys alignment, request, and bytes have units specified", []map[string][]int64{{ "alignment": {8}, "request": {8}, "bytes": {8}, }}, []map[string][]string{{ "alignment": {"seconds"}, "request": {"minutes"}, "bytes": {"hours"}, }}, map[string]string{ "alignment": "seconds", "request": "minutes", "bytes": "hours", }, map[string][]string{}, }, } for _, test := range tagFilterTests { p := &Profile{Sample: make([]*Sample, len(test.tagVals))} for i, numLabel := range test.tagVals { s := Sample{ NumLabel: numLabel, NumUnit: test.tagUnits[i], } p.Sample[i] = &s } units, ignoredUnits := p.NumLabelUnits() if !reflect.DeepEqual(test.wantUnits, units) { t.Errorf("%s: got %v units, want %v", test.desc, units, test.wantUnits) } if !reflect.DeepEqual(test.wantIgnoredUnits, ignoredUnits) { t.Errorf("%s: got %v ignored units, want %v", test.desc, ignoredUnits, test.wantIgnoredUnits) } } } func TestSetMain(t *testing.T) { testProfile1.massageMappings() if testProfile1.Mapping[0].File != mainBinary { t.Errorf("got %s for main", testProfile1.Mapping[0].File) } } // parallel runs n copies of fn in parallel. func parallel(n int, fn func()) { var wg sync.WaitGroup wg.Add(n) for i := 0; i < n; i++ { go func() { fn() wg.Done() }() } wg.Wait() } func TestThreadSafety(t *testing.T) { src := testProfile1.Copy() parallel(4, func() { src.Copy() }) parallel(4, func() { var b bytes.Buffer src.WriteUncompressed(&b) }) parallel(4, func() { var b bytes.Buffer src.Write(&b) }) }