Exemplo n.º 1
0
// MakeNameMetadataKey returns the key for the name. Pass name == "" in order
// to generate the prefix key to use to scan over all of the names for the
// specified parentID.
func MakeNameMetadataKey(parentID ID, name string) roachpb.Key {
	normName := parser.ReNormalizeName(name)
	k := keys.MakeTablePrefix(uint32(NamespaceTable.ID))
	k = encoding.EncodeUvarintAscending(k, uint64(NamespaceTable.PrimaryIndex.ID))
	k = encoding.EncodeUvarintAscending(k, uint64(parentID))
	if name != "" {
		k = encoding.EncodeBytesAscending(k, []byte(normName))
		k = keys.MakeFamilyKey(k, uint32(NamespaceTable.Columns[2].ID))
	}
	return k
}
Exemplo n.º 2
0
// MakeRangeKeyPrefix creates a key prefix under which all range-local keys
// can be found.
func MakeRangeKeyPrefix(key roachpb.RKey) roachpb.Key {
	buf := make(roachpb.Key, 0, len(LocalRangePrefix)+len(key)+1)
	buf = append(buf, LocalRangePrefix...)
	buf = encoding.EncodeBytesAscending(buf, key)
	return buf
}
Exemplo n.º 3
0
// AbortCacheKey returns a range-local key by Range ID for an
// abort cache entry, with detail specified by encoding the
// supplied transaction ID.
func AbortCacheKey(rangeID roachpb.RangeID, txnID *uuid.UUID) roachpb.Key {
	key := MakeRangeIDReplicatedKey(rangeID, LocalAbortCacheSuffix, nil)
	key = encoding.EncodeBytesAscending(key, txnID.GetBytes())
	return key
}
Exemplo n.º 4
0
func BenchmarkSstRekey(b *testing.B) {
	// TODO(dan): DRY this with BenchmarkRocksDBSstFileReader.

	dir, cleanupFn := testutils.TempDir(b, 1)
	defer cleanupFn()

	sstPath := filepath.Join(dir, "sst")
	{
		const maxEntries = 100000
		const keyLen = 10
		const valLen = 100
		b.SetBytes(keyLen + valLen)

		ts := hlc.Timestamp{WallTime: timeutil.Now().UnixNano()}
		kv := engine.MVCCKeyValue{
			Key:   engine.MVCCKey{Key: roachpb.Key(make([]byte, keyLen)), Timestamp: ts},
			Value: make([]byte, valLen),
		}

		sst := engine.MakeRocksDBSstFileWriter()
		if err := sst.Open(sstPath); err != nil {
			b.Fatal(sst)
		}
		var entries = b.N
		if entries > maxEntries {
			entries = maxEntries
		}
		for i := 0; i < entries; i++ {
			payload := []byte(fmt.Sprintf("%09d", i))
			kv.Key.Key = kv.Key.Key[:0]
			kv.Key.Key = encoding.EncodeUvarintAscending(kv.Key.Key, uint64(i)) // tableID
			kv.Key.Key = encoding.EncodeUvarintAscending(kv.Key.Key, 0)         // indexID
			kv.Key.Key = encoding.EncodeBytesAscending(kv.Key.Key, payload)
			kv.Key.Key = keys.MakeRowSentinelKey(kv.Key.Key)
			copy(kv.Value, payload)
			if err := sst.Add(kv); err != nil {
				b.Fatal(err)
			}
		}
		if err := sst.Close(); err != nil {
			b.Fatal(err)
		}
	}

	const newTableID = 100

	b.ResetTimer()
	sst, err := engine.MakeRocksDBSstFileReader()
	if err != nil {
		b.Fatal(err)
	}
	if err := sst.AddFile(sstPath); err != nil {
		b.Fatal(err)
	}
	defer sst.Close()
	count := 0
	iterateFn := sql.MakeRekeyMVCCKeyValFunc(newTableID, func(kv engine.MVCCKeyValue) (bool, error) {
		count++
		if count >= b.N {
			return true, nil
		}
		return false, nil
	})
	for {
		if err := sst.Iterate(engine.MVCCKey{Key: keys.MinKey}, engine.MVCCKey{Key: keys.MaxKey}, iterateFn); err != nil {
			b.Fatal(err)
		}
		if count >= b.N {
			break
		}
	}
}
Exemplo n.º 5
0
func TestPrettyPrint(t *testing.T) {

	tm, _ := time.Parse(time.RFC3339Nano, "2016-03-30T13:40:35.053725008Z")
	duration := duration.Duration{Months: 1, Days: 1, Nanos: 1 * time.Second.Nanoseconds()}
	durationAsc, _ := encoding.EncodeDurationAscending(nil, duration)
	durationDesc, _ := encoding.EncodeDurationDescending(nil, duration)
	txnID := uuid.MakeV4()

	// The following test cases encode keys with a mixture of ascending and descending direction,
	// but always decode keys in the ascending direction. This is why some of the decoded values
	// seem bizarre.
	testCases := []struct {
		key roachpb.Key
		exp string
	}{
		// local
		{StoreIdentKey(), "/Local/Store/storeIdent"},
		{StoreGossipKey(), "/Local/Store/gossipBootstrap"},

		{AbortCacheKey(roachpb.RangeID(1000001), txnID), fmt.Sprintf(`/Local/RangeID/1000001/r/AbortCache/%q`, txnID)},
		{RaftTombstoneKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/r/RaftTombstone"},
		{RaftAppliedIndexKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/r/RaftAppliedIndex"},
		{LeaseAppliedIndexKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/r/LeaseAppliedIndex"},
		{RaftTruncatedStateKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/r/RaftTruncatedState"},
		{RangeLeaseKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/r/RangeLease"},
		{RangeStatsKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/r/RangeStats"},
		{RangeTxnSpanGCThresholdKey(roachpb.RangeID(1000001)), `/Local/RangeID/1000001/r/RangeTxnSpanGCThreshold`},
		{RangeFrozenStatusKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/r/RangeFrozenStatus"},
		{RangeLastGCKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/r/RangeLastGC"},

		{RaftHardStateKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/u/RaftHardState"},
		{RaftLastIndexKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/u/RaftLastIndex"},
		{RaftLogKey(roachpb.RangeID(1000001), uint64(200001)), "/Local/RangeID/1000001/u/RaftLog/logIndex:200001"},
		{RangeLastReplicaGCTimestampKey(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/u/RangeLastReplicaGCTimestamp"},
		{RangeLastVerificationTimestampKeyDeprecated(roachpb.RangeID(1000001)), "/Local/RangeID/1000001/u/RangeLastVerificationTimestamp"},

		{MakeRangeKeyPrefix(roachpb.RKey("ok")), `/Local/Range/"ok"`},
		{RangeDescriptorKey(roachpb.RKey("111")), `/Local/Range/"111"/RangeDescriptor`},
		{TransactionKey(roachpb.Key("111"), txnID), fmt.Sprintf(`/Local/Range/"111"/Transaction/addrKey:/id:%q`, txnID)},

		{LocalMax, `/Meta1/""`}, // LocalMax == Meta1Prefix

		// system
		{makeKey(Meta2Prefix, roachpb.Key("foo")), `/Meta2/"foo"`},
		{makeKey(Meta1Prefix, roachpb.Key("foo")), `/Meta1/"foo"`},
		{RangeMetaKey(roachpb.RKey("f")), `/Meta2/"f"`},

		{NodeLivenessKey(10033), "/System/NodeLiveness/10033"},
		{NodeStatusKey(1111), "/System/StatusNode/1111"},

		{SystemMax, "/System/Max"},

		// key of key
		{RangeMetaKey(roachpb.RKey(MakeRangeKeyPrefix(roachpb.RKey("ok")))), `/Meta2/Local/Range/"ok"`},
		{RangeMetaKey(roachpb.RKey(makeKey(MakeTablePrefix(42), roachpb.RKey("foo")))), `/Meta2/Table/42/"foo"`},
		{RangeMetaKey(roachpb.RKey(makeKey(Meta2Prefix, roachpb.Key("foo")))), `/Meta1/"foo"`},

		// table
		{UserTableDataMin, "/Table/50"},
		{MakeTablePrefix(111), "/Table/111"},
		{makeKey(MakeTablePrefix(42), roachpb.RKey("foo")), `/Table/42/"foo"`},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeFloatAscending(nil, float64(233.221112)))),
			"/Table/42/233.221112"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeFloatDescending(nil, float64(-233.221112)))),
			"/Table/42/233.221112"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeFloatAscending(nil, math.Inf(1)))),
			"/Table/42/+Inf"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeFloatAscending(nil, math.NaN()))),
			"/Table/42/NaN"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeVarintAscending(nil, 1222)),
			roachpb.RKey(encoding.EncodeStringAscending(nil, "handsome man"))),
			`/Table/42/1222/"handsome man"`},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeVarintAscending(nil, 1222))),
			`/Table/42/1222`},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeVarintDescending(nil, 1222))),
			`/Table/42/-1223`},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeBytesAscending(nil, []byte{1, 2, 8, 255}))),
			`/Table/42/"\x01\x02\b\xff"`},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeBytesAscending(nil, []byte{1, 2, 8, 255})),
			roachpb.RKey("bar")), `/Table/42/"\x01\x02\b\xff"/"bar"`},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeBytesDescending(nil, []byte{1, 2, 8, 255})),
			roachpb.RKey("bar")), `/Table/42/"\x01\x02\b\xff"/"bar"`},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeNullAscending(nil))), "/Table/42/NULL"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeNotNullAscending(nil))), "/Table/42/#"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeTimeAscending(nil, tm))),
			"/Table/42/2016-03-30T13:40:35.053725008Z"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeTimeDescending(nil, tm))),
			"/Table/42/1923-10-04T10:19:23.946274991Z"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeDecimalAscending(nil, inf.NewDec(1234, 2)))),
			"/Table/42/12.34"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(encoding.EncodeDecimalDescending(nil, inf.NewDec(1234, 2)))),
			"/Table/42/-12.34"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(durationAsc)),
			"/Table/42/1m1d1s"},
		{makeKey(MakeTablePrefix(42),
			roachpb.RKey(durationDesc)),
			"/Table/42/-2m-2d743h59m58.999999999s"},

		// others
		{makeKey([]byte("")), "/Min"},
		{Meta1KeyMax, "/Meta1/Max"},
		{Meta2KeyMax, "/Meta2/Max"},
		{makeKey(MakeTablePrefix(42), roachpb.RKey([]byte{0x12, 'a', 0x00, 0x02})), "/Table/42/<unknown escape sequence: 0x0 0x2>"},
	}
	for i, test := range testCases {
		keyInfo := MassagePrettyPrintedSpanForTest(PrettyPrint(test.key), nil)
		exp := MassagePrettyPrintedSpanForTest(test.exp, nil)
		if exp != keyInfo {
			t.Errorf("%d: expected %s, got %s", i, exp, keyInfo)
		}

		if exp != MassagePrettyPrintedSpanForTest(test.key.String(), nil) {
			t.Errorf("%d: expected %s, got %s", i, exp, test.key.String())
		}

		parsed, err := UglyPrint(keyInfo)
		if err != nil {
			if _, ok := err.(*errUglifyUnsupported); !ok {
				t.Errorf("%d: %s: %s", i, keyInfo, err)
			} else {
				t.Logf("%d: skipping parsing of %s; key is unsupported: %v", i, keyInfo, err)
			}
		} else if exp, act := test.key, parsed; !bytes.Equal(exp, act) {
			t.Errorf("%d: expected %q, got %q", i, exp, act)
		}
		if t.Failed() {
			return
		}
	}
}
Exemplo n.º 6
0
// makeDataKeySeriesPrefix creates a key prefix for a time series at a specific
// resolution.
func makeDataKeySeriesPrefix(name string, r Resolution) roachpb.Key {
	k := append(roachpb.Key(nil), keys.TimeseriesPrefix...)
	k = encoding.EncodeBytesAscending(k, []byte(name))
	k = encoding.EncodeVarintAscending(k, int64(r))
	return k
}