package tsm1_test import ( "bytes" "fmt" "io/ioutil" "os" "path/filepath" "testing" "github.com/influxdata/influxdb/tsdb/engine/tsm1" ) func TestFileStore_Read(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 2.0)}}, keyValues{"mem", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) // Search for an entry that exists in the second file values, err := fs.Read("cpu", 1) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := data[1] if got, exp := len(values), len(exp.values); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp.values { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %d", i, got, exp) } } } func TestFileStore_SeekToAsc_FromStart(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 2.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 3.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 0, true) // Search for an entry that exists in the second file values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := data[0] if got, exp := len(values), len(exp.values); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp.values { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %d", i, got, exp) } } } func TestFileStore_SeekToAsc_Duplicate(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 2.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 3.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 4.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 0, true) // Search for an entry that exists in the second file values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := []tsm1.Value{ data[1].values[0], data[3].values[0], } if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } // Check that calling Next will dedupe points c.Next() values, err = c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp = nil if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } } func TestFileStore_SeekToAsc_BeforeStart(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 2.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, 3.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) // Search for an entry that exists in the second file buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 0, true) values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := data[0] if got, exp := len(values), len(exp.values); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp.values { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } // Tests that seeking and reading all blocks that contain overlapping points does // not skip any blocks. func TestFileStore_SeekToAsc_BeforeStart_OverlapFloat(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 0.0), tsm1.NewValue(1, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 2.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, 3.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 4.0), tsm1.NewValue(7, 7.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) // Search for an entry that exists in the second file buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 0, true) values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := []tsm1.Value{ data[3].values[0], data[0].values[1], data[1].values[0], data[2].values[0], data[3].values[1], } if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } // Tests that seeking and reading all blocks that contain overlapping points does // not skip any blocks. func TestFileStore_SeekToAsc_BeforeStart_OverlapInteger(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, int64(0)), tsm1.NewValue(1, int64(1))}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, int64(2))}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, int64(3))}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, int64(4)), tsm1.NewValue(7, int64(7))}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) // Search for an entry that exists in the second file buf := make(tsm1.IntegerValues, 1000) c := fs.KeyCursor("cpu", 0, true) values, err := c.ReadIntegerBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := []tsm1.Value{ data[3].values[0], data[0].values[1], data[1].values[0], data[2].values[0], data[3].values[1], } if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } // Tests that seeking and reading all blocks that contain overlapping points does // not skip any blocks. func TestFileStore_SeekToAsc_BeforeStart_OverlapBoolean(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, true), tsm1.NewValue(1, false)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, true)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, true)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, false), tsm1.NewValue(7, true)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) // Search for an entry that exists in the second file buf := make(tsm1.BooleanValues, 1000) c := fs.KeyCursor("cpu", 0, true) values, err := c.ReadBooleanBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := []tsm1.Value{ data[3].values[0], data[0].values[1], data[1].values[0], data[2].values[0], data[3].values[1], } if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } // Tests that seeking and reading all blocks that contain overlapping points does // not skip any blocks. func TestFileStore_SeekToAsc_BeforeStart_OverlapString(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, "zero"), tsm1.NewValue(1, "one")}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, "two")}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, "three")}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, "four"), tsm1.NewValue(7, "seven")}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) // Search for an entry that exists in the second file buf := make(tsm1.StringValues, 1000) c := fs.KeyCursor("cpu", 0, true) values, err := c.ReadStringBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := []tsm1.Value{ data[3].values[0], data[0].values[1], data[1].values[0], data[2].values[0], data[3].values[1], } if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } func TestFileStore_SeekToAsc_Middle(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 1.0), tsm1.NewValue(2, 2.0), tsm1.NewValue(3, 3.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(4, 4.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) // Search for an entry that exists in the second file buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 3, true) values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := data[0] if got, exp := len(values), len(exp.values); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp.values { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %d", i, got, exp) } } } func TestFileStore_SeekToAsc_End(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 2.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 3.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 2, true) values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := data[2] if got, exp := len(values), len(exp.values); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp.values { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %d", i, got, exp) } } } func TestFileStore_SeekToDesc_FromStart(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 2.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 3.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) // Search for an entry that exists in the second file buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 0, false) values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := data[0] if got, exp := len(values), len(exp.values); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp.values { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %d", i, got, exp) } } } func TestFileStore_SeekToDesc_Duplicate(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 4.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 2.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 3.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) // Search for an entry that exists in the second file buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 2, false) values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := []tsm1.Value{ data[1].values[0], data[3].values[0], } if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } func TestFileStore_SeekToDesc_AfterEnd(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 2.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, 3.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 4, false) values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := data[2] if got, exp := len(values), len(exp.values); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp.values { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } func TestFileStore_SeekToDesc_AfterEnd_OverlapFloat(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(8, 0.0), tsm1.NewValue(9, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 2.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, 3.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, 4.0), tsm1.NewValue(7, 7.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 8, false) values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := []tsm1.Value{ data[1].values[0], data[3].values[0], data[3].values[1], data[0].values[0], data[0].values[1], } if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } func TestFileStore_SeekToDesc_AfterEnd_OverlapInteger(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(8, int64(0)), tsm1.NewValue(9, int64(1))}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, int64(2))}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, int64(3))}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, int64(4)), tsm1.NewValue(7, int64(7))}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) buf := make(tsm1.IntegerValues, 1000) c := fs.KeyCursor("cpu", 8, false) values, err := c.ReadIntegerBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := []tsm1.Value{ data[1].values[0], data[3].values[0], data[3].values[1], data[0].values[0], data[0].values[1], } if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } func TestFileStore_SeekToDesc_AfterEnd_OverlapBoolean(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(8, true), tsm1.NewValue(9, true)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, true)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, false)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, true), tsm1.NewValue(7, false)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) buf := make(tsm1.BooleanValues, 1000) c := fs.KeyCursor("cpu", 8, false) values, err := c.ReadBooleanBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := []tsm1.Value{ data[1].values[0], data[3].values[0], data[3].values[1], data[0].values[0], data[0].values[1], } if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } func TestFileStore_SeekToDesc_AfterEnd_OverlapString(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(8, "eight"), tsm1.NewValue(9, "nine")}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, "two")}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, "three")}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(3, "four"), tsm1.NewValue(7, "seven")}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) buf := make(tsm1.StringValues, 1000) c := fs.KeyCursor("cpu", 8, false) values, err := c.ReadStringBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := []tsm1.Value{ data[1].values[0], data[3].values[0], data[3].values[1], data[0].values[0], data[0].values[1], } if got, exp := len(values), len(exp); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %v", i, got, exp) } } } func TestFileStore_SeekToDesc_Middle(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 1.0)}}, keyValues{"cpu", []tsm1.Value{ tsm1.NewValue(2, 2.0), tsm1.NewValue(3, 3.0), tsm1.NewValue(4, 4.0)}, }, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) // Search for an entry that exists in the second file buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 3, false) values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := data[1] if got, exp := len(values), len(exp.values); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp.values { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %d", i, got, exp) } } } func TestFileStore_SeekToDesc_End(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 2.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(2, 3.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) buf := make(tsm1.FloatValues, 1000) c := fs.KeyCursor("cpu", 2, false) values, err := c.ReadFloatBlock(buf) if err != nil { t.Fatalf("unexpected error reading values: %v", err) } exp := data[2] if got, exp := len(values), len(exp.values); got != exp { t.Fatalf("value length mismatch: got %v, exp %v", got, exp) } for i, v := range exp.values { if got, exp := values[i].Value(), v.Value(); got != exp { t.Fatalf("read value mismatch(%d): got %v, exp %d", i, got, exp) } } } func TestFileStore_Open(t *testing.T) { dir := MustTempDir() defer os.RemoveAll(dir) // Create 3 TSM files... data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 2.0)}}, keyValues{"mem", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, } _, err := newFileDir(dir, data...) if err != nil { fatal(t, "creating test files", err) } fs := tsm1.NewFileStore(dir) if err := fs.Open(); err != nil { fatal(t, "opening file store", err) } defer fs.Close() if got, exp := fs.Count(), 3; got != exp { t.Fatalf("file count mismatch: got %v, exp %v", got, exp) } if got, exp := fs.CurrentGeneration(), 4; got != exp { t.Fatalf("current ID mismatch: got %v, exp %v", got, exp) } } func TestFileStore_Remove(t *testing.T) { dir := MustTempDir() defer os.RemoveAll(dir) // Create 3 TSM files... data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 2.0)}}, keyValues{"mem", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, } files, err := newFileDir(dir, data...) if err != nil { fatal(t, "creating test files", err) } fs := tsm1.NewFileStore(dir) if err := fs.Open(); err != nil { fatal(t, "opening file store", err) } defer fs.Close() if got, exp := fs.Count(), 3; got != exp { t.Fatalf("file count mismatch: got %v, exp %v", got, exp) } if got, exp := fs.CurrentGeneration(), 4; got != exp { t.Fatalf("current ID mismatch: got %v, exp %v", got, exp) } fs.Remove(files[2]) if got, exp := fs.Count(), 2; got != exp { t.Fatalf("file count mismatch: got %v, exp %v", got, exp) } if got, exp := fs.CurrentGeneration(), 4; got != exp { t.Fatalf("current ID mismatch: got %v, exp %v", got, exp) } } func TestFileStore_Open_Deleted(t *testing.T) { dir := MustTempDir() defer os.RemoveAll(dir) // Create 3 TSM files... data := []keyValues{ keyValues{"cpu,host=server2!~#!value", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu,host=server1!~#!value", []tsm1.Value{tsm1.NewValue(1, 2.0)}}, keyValues{"mem,host=server1!~#!value", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, } _, err := newFileDir(dir, data...) if err != nil { fatal(t, "creating test files", err) } fs := tsm1.NewFileStore(dir) if err := fs.Open(); err != nil { fatal(t, "opening file store", err) } defer fs.Close() if got, exp := len(fs.Keys()), 3; got != exp { t.Fatalf("file count mismatch: got %v, exp %v", got, exp) } if err := fs.Delete([]string{"cpu,host=server2!~#!value"}); err != nil { fatal(t, "deleting", err) } fs2 := tsm1.NewFileStore(dir) if err := fs2.Open(); err != nil { fatal(t, "opening file store", err) } defer fs2.Close() if got, exp := len(fs2.Keys()), 2; got != exp { t.Fatalf("file count mismatch: got %v, exp %v", got, exp) } } func TestFileStore_Delete(t *testing.T) { fs := tsm1.NewFileStore("") // Setup 3 files data := []keyValues{ keyValues{"cpu,host=server2!~#!value", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu,host=server1!~#!value", []tsm1.Value{tsm1.NewValue(1, 2.0)}}, keyValues{"mem,host=server1!~#!value", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, } files, err := newFiles(data...) if err != nil { t.Fatalf("unexpected error creating files: %v", err) } fs.Add(files...) keys := fs.Keys() if got, exp := len(keys), 3; got != exp { t.Fatalf("key length mismatch: got %v, exp %v", got, exp) } if err := fs.Delete([]string{"cpu,host=server2!~#!value"}); err != nil { fatal(t, "deleting", err) } keys = fs.Keys() if got, exp := len(keys), 2; got != exp { t.Fatalf("key length mismatch: got %v, exp %v", got, exp) } } func TestFileStore_Stats(t *testing.T) { dir := MustTempDir() defer os.RemoveAll(dir) // Create 3 TSM files... data := []keyValues{ keyValues{"cpu", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, keyValues{"cpu", []tsm1.Value{tsm1.NewValue(1, 2.0)}}, keyValues{"mem", []tsm1.Value{tsm1.NewValue(0, 1.0)}}, } _, err := newFileDir(dir, data...) if err != nil { fatal(t, "creating test files", err) } fs := tsm1.NewFileStore(dir) if err := fs.Open(); err != nil { fatal(t, "opening file store", err) } defer fs.Close() stats := fs.Stats() if got, exp := len(stats), 3; got != exp { t.Fatalf("file count mismatch: got %v, exp %v", got, exp) } } func newFileDir(dir string, values ...keyValues) ([]string, error) { var files []string id := 1 for _, v := range values { f := MustTempFile(dir) w, err := tsm1.NewTSMWriter(f) if err != nil { return nil, err } if err := w.Write(v.key, v.values); err != nil { return nil, err } if err := w.WriteIndex(); err != nil { return nil, err } if err := w.Close(); err != nil { return nil, err } newName := filepath.Join(filepath.Dir(f.Name()), tsmFileName(id)) if err := os.Rename(f.Name(), newName); err != nil { return nil, err } id++ files = append(files, newName) } return files, nil } func newFiles(values ...keyValues) ([]tsm1.TSMFile, error) { var files []tsm1.TSMFile for _, v := range values { var b bytes.Buffer w, err := tsm1.NewTSMWriter(&b) if err != nil { return nil, err } if err := w.Write(v.key, v.values); err != nil { return nil, err } if err := w.WriteIndex(); err != nil { return nil, err } if err := w.Close(); err != nil { return nil, err } r, err := tsm1.NewTSMReader(bytes.NewReader(b.Bytes())) if err != nil { return nil, err } files = append(files, r) } return files, nil } type keyValues struct { key string values []tsm1.Value } func MustTempDir() string { dir, err := ioutil.TempDir("", "tsm1-test") if err != nil { panic(fmt.Sprintf("failed to create temp dir: %v", err)) } return dir } func MustTempFile(dir string) *os.File { f, err := ioutil.TempFile(dir, "tsm1test") if err != nil { panic(fmt.Sprintf("failed to create temp file: %v", err)) } return f } func fatal(t *testing.T, msg string, err error) { t.Fatalf("unexpected error %v: %v", msg, err) } func tsmFileName(id int) string { return fmt.Sprintf("%09d-%09d.tsm", id, 1) }